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I
27

Papers on Mammalogy

Published in honor of
WILFRED HUDSON OSGOOD

ZOOLOGICAL SERIES
FIELD MUSEUM OF NATURAL HISTORY

VOLUME 27
DECEMBER 8, 1941

PUBLICATION 511

' i

OF Tfi£

OF iui«ais

Field Museum of Natural History

Zoology, Vol. 27, Plate 1

WILFRED HUDSON OSGOOD

PAPERS ON MAMMALOGY

Published in honor of
WILFRED HUDSON OSGOOD

PRINTED IN THE UNITED STATES OF AMERICA
BY FIELD MUSEUM PRESS

Papers on Mammalogy

Published in honor of
WILFRED HUDSON OSGOOD

THE UbKAKY OF THE

DEC 30 1941
WERSITV OF JLL/NOJS

ZOOLOGICAL SERIES
FIELD MUSEUM OF NATURAL HISTORY

VOLUME 27
DECEMBER 8, 1941

PUBLICATION 611

*** *J. «'•*-.

CONTENTS

PAGE

LIST OP ILLUSTRATIONS 7

THE WORK OF WILFRED HUDSON OSGOOD. By Stanley Field 11

PERSONAL APPRECIATION. By Clifford C. Gregg 15

PYGMY SPERM WHALE IN THE ATLANTIC. By Glover M. Allen 17

MAMMALS COLLECTED BY THE VERNAY-CUTTING BURMA EXPEDITION. By
H. E. Anthony 37

CRANIAL AND DENTAL CHARACTERS OF SOME SOUTH AMERICAN CERVIDAE.
By Angel Cabrera 125

THE ARTERIES OF THE FOREARM IN CARNIVORES. By D. Dwight Davis. . 137

A PLEISTOCENE OTTER FROM IOWA. By Edward A. Goldman 229

REVISION OF THE RODENT GENUS MICRODIPODOPS. By E. Raymond Hall . . 233

THE FEMORAL TROCHANTERS. By A. Brazier Howell 279

ON THE IDENTITY OF THE PORPOISE SAGMATIAS AMBLODON. By Remington
Kellogg 293

INCISOR TIPS OF YOUNG RODENTS. By Barbara Lawrence 313

THE RACES OF THE OCELOT AND THE MARGAY. By R. I. Pocock 319

DESCRIPTIONS AND RECORDS OF NEOTROPICAL BATS. By Colin Campbell

Sanborn 371

INDEX . 389

LIST OF ILLUSTRATIONS

PLATES

1. Wilfred Hudson Osgood.

2. Gangfang, a trading post and the base camp of the expedition.
Ngawchang River with Gangfang in background.

3. Sal ween Divide viewed from ridge above Imaw Bum camp.
Near Chimeli Pass.

4. Imaw Bum from trail.

Looking west from trail, Gangfang to Hpawte.

5. Looking east from Hpimaw Fort toward Salween Divide.
Native deadfall set for large rat, near Gangfang.

6. Delphinus obscurus.
Lagenorhynchus fitzroyi.
Delphinus fitzroyi.

7. Delphinus breviceps.
Delphinus obscurus var.
Phocaena posidonia.
Delphinus super ciliosus.

8. Phocaena australis.
Lagenorhynchus australis.

9-12. Lagenorhynchus australis.

TEXT FIGURES

PAGE

1. Fetus of Kogia breviceps 27

2. Tracing of outline of dorsal fin of Kogia breviceps 28

3. Tracing of outline of pectoral limb of Kogia breviceps 29

4. Sternum of Kogia breviceps 30

5. Map showing principal collecting sites of Vernay-Cutting Burma

Expedition 41

6. Side view of anterior part of rostrum in Hippocamelus bisulcus, Odocoileus

gymnotis, Blastocerus dichotomus, and Ozotoceros bezoarticus 128

7. Orbital region in Hippocamelus bisulcus, Odocoileus gymnotis, Blastocerus

dichotomus, and Ozotoceros bezoarticus 130

8. Side view of occiput in Hippocamelus bisulcus, Odocoileus gymnotis, Blasto-

cerus dichotomus, and Ozotoceros bezoarticus 131

9. Bullar region in Hippocamelus bisulcus, Odocoileus gymnotis, Blastocerus

dichotomus, and Ozotoceros bezoarticus 132

10. Incisiform teeth in Hippocamelus bisulcus, Odocoileus gymnotis, Blasto-

cerus dichotomus, and Ozotoceros bezoarticus 133

11. Types of arches found in the Carnivora 150

12. Vessel pattern in Echinosorex albus; volar view 152

13. Vessel pattern in Echinosorex albus; dorsal view 153

7

8 LIST OF ILLUSTRATIONS

PAGE

14. Vessel pattern in Cants familiaris; volar view 156

15. Vessel pattern in Canis familiaris; dorsal view 157

16. Vessel pattern in Bassariscus astutus; volar view 162

17. Vessel pattern in Bassariscus astut us; dorsal view 163

18. Vessel pattern in Procyon lotor; volar view 166

19. Vessel pattern in Procyon lotor; dorsal view 167

20. Vessel pattern in Potos flavus; volar view 170

21. Vessel pattern in Potos flavus; dorsal view 171

22. Vessel pattern in Ailurus fulgens; volar view 172

23. Vessel pattern in Ailurus fulgens; dorsal view 173

24. Vessel pattern in Ailuropoda melanoleuca; volar view 176

25. Vessel pattern in Ailuropoda melanoleuca; dorsal view 177

26. Vessel pattern in Euarctos americanus; volar view 179

27. Vessel pattern in Euarctos americanus; dorsal view 180

28. Vessel pattern in Mustela putorius; volar view 184

29. Vessel pattern in Mustela putorius; dorsal view 185

30. Vessel pattern in Tayra barbara; volar view 190

31. Vessel pattern in Tayra barbara; dorsal view 191

32. Vessel pattern in Taxidea taxus; volar view 192

33. Vessel pattern in Taxidea taxus; dorsal view 193

34. Vessel pattern in Paradoxurus hermaphroditus; volar view 198

35. Vessel pattern in Paradoxurus hermaphroditus; dorsal view 199

36. Vessel pattern of Herpestes ichneumon; volar view 204

37. Vessel pattern of Herpestes ichneumon; dorsal view 205

38. Vessel pattern of Hyaena striata; volar view 208

39. Vessel pattern of Hyaena striata; dorsal view 209

40. Vessel pattern of Felis domestica; volar view 212

41. Vessel pattern of Felis domestica; dorsal view 213

42. Vessel pattern of Panthera leo; volar view 214

43. Vessel pattern of Panthera leo; dorsal view 215

44. Diagram of chief vessels of forearm in Carnivora 219

45. Lutra iowa sp. nov 230

46. Skulls of Microdipodops megacephalus megacephalus and M. pallidus

pallidus 243

47. Teeth, lower jaw, and left side of part of skull of Microdipodops mega-

cephalus megacephalus; plantar view of right hind foot of Perognathus
parvus columbianus and Microdipodops pallidus pallidus; left side of

cranium and lower jaw of M. pallidus pattidus 245

48. Map showing geographic range of subspecies of Microdipodops mega-

cephalus 247

49. Dorsal and ventral views of cranium of Microdipodops megacephalus

sabulonis and Mus musculus subsp.? 261

50. Skeleton of Microdipodops megacephalus sabulonis 262

51. Typical habitat of Microdipodops pallidus 267

LIST OF ILLUSTRATIONS 9

PAGE

52. Map showing geographic range of subspecies of Microdipodops pallidus . . 268

53. Live adult of Microdipodops pallidus pallidus 270

54. The proximal right femur of man, Iguana, and Gallus 283

55. The proximal right femur of man and Iguana 287

56. Incisors of Aethomys kaiseri hindei 314

57. Incisors of Neotoma fuscipes annectens 315

THE WORK OF WILFRED HUDSON OSGOOD

The Trustees and Scientific Staff of Field Museum of Natural
History have felt that a volume composed of papers on mammalogical
topics and dedicated to Wilfred Hudson Osgood would form a testi-
monial to him of their appreciation of his eminence as a museum
zoologist. Papers have accordingly been invited from some of his
colleagues, more particularly those of his own generation, and from
the Field Museum Staff. Such a testimonial volume is the more
appropriate in Field Museum's Zoological Series since this series for
twenty years has borne the stamp of his editorship and thereby of
his personality. This stamp, and the high level of editorial con-
scientiousness it denotes, is perhaps best known to the younger
members of Dr. Osgood's staff. Their papers have gone through his
hands, and the resulting improvements in the form of their scien-
tific contributions reflect fundamental improvements in their very
thinking.

It is not difficult to trace some of the environmental factors
which made Wilfred H. Osgood a great museum zoologist. He
grew up in a generation when private collections of birds and mam-
mals still provided a great stimulus to outdoor natural history, and
began his career with collecting and field observation. His connec-
tion with the "Biological Survey" began in the year 1897 while
he was still an undergraduate at Stanford University. The idea
of a true biological survey of the North American continent was
a grand one. Building on the necessarily more scattered results of
the early biological explorations of the west under the direction of
Spencer Fullerton Baird, it was proposed under C. Hart Merriam's
leadership to define the distributions of plants and animals in order
to relate them to the underlying climatic and physiographic condi-
tions. Thus there was current an understanding of some of the
broad biological implications of taxonomic work, and there could
scarcely have been a more satisfactory background for a career as
a systematic zoologist.

The development of the "closet naturalist" type is one of the
pitfalls of systematic zoology which has been largely avoided in
America. Dr. Osgood's career, with its constant alternation of field
observation and collecting on one hand and critical study of the
resulting collections on the other, exemplifies the almost ideal
correlation of studies in nature with studies in museum and labora-
tory toward which we strive. He began with collecting expeditions

11

12 OSGOOD TESTIMONIAL VOLUME

in the Pacific northwest — to Alaska in 1899, to the Queen Charlotte
Islands in 1900, to the base of the Alaska Peninsula again in 1902,
and again to the interior of Alaska in 1903 and 1904. Reports on
these several expeditions appeared in the "North American Fauna."
In the intervals between periods of field work he carried on studies
of various groups of North American rodents, of which the most
noteworthy were embodied in a comprehensive report on the white-
footed mice (Peromy SOILS), published in 1909. This group of small
rodents, ubiquitous in North America, required the study of an
extraordinary wealth of material; it is gratifying to the systematic
zoologist to find that it has supplied the basis for broadly ramifying
studies of ecology and genetics that are still in progress.

The early part of his career, with its emphasis on North America
and Alaska, came to an appropriate end with his studies and the
published report on the Alaska fur seal (with other members of the
Fur Seal Commission), in 1915.

Within his career in Field Museum, beginning in 1909, Dr.
Osgood made himself the acknowledged authority on South American
mammals, his authority being based on personal knowledge from
repeated expeditions to South America, supplemented by that
gained from collections from other Field Museum expeditions pro-
moted by him, and by exhaustive studies both in the Museum's
laboratories and at the British Museum. Other notable expeditions
for Field Museum took him to Abyssinia in 1926-27 and to Indo-
China in 1936. The results of these successive expeditions,
embodied in reports by Dr. Osgood on the collections made, have
appeared in the long series of publications of Field Museum. It
is gratifying to state that as Curator Emeritus he is enabled to
devote his attention to the completion of his important larger
work on the mammals of Chile and to the check list of South
American mammals which is much desired by his colleagues.

Thus the background of Dr. Osgood's career is a broad knowledge
of the geography of the world, and a special knowledge of the geog-
raphy of birds and mammals. This background has been invaluable
to Field Museum in planning and carrying out the Museum's
program of exhibition, notably in its habitat groups. His essay on
the modern trends of museum work in the Encyclopaedia Britannica
Yearbook (1938) exhibits his interest in the more subjective and
more specifically educational types of museum exhibition, toward
which museums must turn as the available space for elaborate habitat
groups is exhausted.

WORK OF WILFRED H. OSGOOD 13

In his administrative relations within the Department of Zoology
Dr. Osgood has been able to combine the respect and the friendship
of his subordinates, to direct them, sometimes without their knowl-
edge, and to give them a free hand in their respective divisions when
this would best develop their capacities.

The great growth of Field Museum has coincided with Dr.
Osgood's regime as Chief Curator of Zoology. This growth has
been two-fold: in the direction of exhibition on one hand and in
the development of the scientific collections and of the researches
based on them on the other. No one in Field Museum's organization
has played a more active or more effective part in this vital develop-
mental period of the Museum than has Wilfred Hudson Osgood.

STANLEY FIELD
President, Field Miiseum of Natural History

PERSONAL APPRECIATION

Most of the zoologists who will receive and study this volume
are personally acquainted with Dr. Wilfred H. Osgood, in whose
honor it is published. It is to be hoped that others, who may not
know him personally, will learn to know enough of him through
his own publications to appreciate his well-rounded and all-inclusive
interest in the field of zoology, which is so characteristic of him, and
which so much impresses his associates in Field Museum.

Dr. Osgood's history may be read from his successive environ-
ments. After a childhood in New England, he moved to Cali-
fornia at the age of twelve. Ten years were spent in California, the
next twelve in Washington (and in his long expeditions to Alaska),
and since 1909 he has been a member of our staff and thus a
Chicagoan. His first interest was in birds, beginning when, as a
child, he was a collector of birds' eggs. During a later short period
of his life, he became a country school teacher during the interrupted
course of his college years, and his principal recreation was the col-
lection of birds and the study of living birds in their native haunts.

At Stanford University he became saturated in the traditions of
the great Louis Agassiz by his association there with one of Agassiz'
most brilliant pupils, David Starr Jordan. During his years at
Stanford he was one of the organizers of the Cooper Ornithological
Club of California, and became its first president — an accomplish-
ment and honor the memory of which he still cherishes.

His professional career began with the United States Biological
Survey and continued with that organization until he began his
association with Field Museum. In the late nineties he made a
trip to Alaska over White Pass and down the Yukon to Bering Sea,
collecting and charting as he went. His ambition almost got the
better of him in this particular trip, as his boat was so overloaded
with specimens that it was swamped in the icy waters of the Yukon.
It is fortunate for zoology that Dr. Osgood had become an able
swimmer in his earlier years. This icy bath did not cool his
enthusiasm for successive expeditions to Alaska.

On this eventful trip Dr. Osgood expressed the wish that he
might traverse in a similar manner the other great rivers of the
world. As the years passed, his hopes were realized to a great degree,
for his research expeditions took him down the Amazon in 1912
and down the Nile in 1927. In the course of his twenty-two scien-

15

16 OSGOOD TESTIMONIAL VOLUME

tific expeditions he has visited the mountains of Abyssinia and the
jungles of Indo-China, although his principal interest has been in
his repeated expeditions to South America. He has sought out
birds and mammals in their native environment, has lived with
them, and has observed their habits. Thus he has been able to
bring back to the Museum specimens and information that contribute
largely to the world's knowledge of his chosen fields of specialization.

While Dr. Osgood has long been a specialist in the field of mam-
malogy, his attainments in this field have not limited his interests or
his breadth of view. Within Field Museum he is known especially
as an able administrator, carrying the burdens of an executive with-
out losing his ability to plan and finish research problems. His
personality is a well-rounded one, as attested by his interest in golf
and in hunting and fishing on one hand, and in amateur dramatics
on the other.

Dr. Osgood's research and publication exhibit the variety of his
interests. A glance at his bibliography of nearly two hundred titles
reveals not only many contributions to the taxonomy and nomencla-
ture of mammals and many faunistic reports, but outstanding works
of other kinds. In the field of conservation and economic zoology,
there is his notable report on the fur seals of the Pribilof Islands.
In mammalian anatomy his monograph on the marsupial Caenolestes
is a monumental contribution. The general reader who would have
an accurate story of what happens on an expedition is referred to
Dr. Osgood's "Artist and Naturalist in Ethiopia," in which his diary
and that of the late Louis Agassiz Fuertes are compared on a day
by day basis.

My own acquaintance with Dr. Osgood covers the past fifteen
years, during which time it has been my privilege to witness at first
hand and in his company the splendid development of the Depart-
ment of Zoology, of which he was Chief Curator. In that time I
have come to know him as a friend as well as a colleague, and have
been fascinated with the story of his career. My appreciation of
him prompts this brief sketch in the hope that others may learn
to know him not only as the eminent scientist that he is, but also
as a well-rounded and most likable personality, a warm friend, and
a genial and co-operative co-worker.

CLIFFORD C. GREGG
Director, Field Museum of Natural History

PYGMY SPERM WHALE IN THE ATLANTIC

GLOVER M. ALLEN

Curator of Mammals, Museum of Comparative Zoology

Until recent years, specimens of the pygmy sperm whale
(Kogia breviceps) have been so rarely obtained that Le Danois
(1911), in recording two individuals stranded on the French coast,
believed that they were respectively the eleventh and twelfth to be
reported. Even that number, however, should have been reduced
by one, for, in repeating the two records from Madras given by Owen
(1866), Le Danois failed to notice that, through a misunderstanding,
the two specimens originally reported were in fact one and the same.
A few years later, Schulte (1917), in describing a skull newly obtained,
listed a total of twenty-one specimens known up to that time, but
overlooked several that had been recorded. His listing includes
two jaws without locality, preserved in the Royal College of Surgeons
and the Hunterian Museum, respectively (the second, however,
from Australia, according to Van Beneden and Gervais). Still
other individuals have since been taken and sundry papers have
described details of the anatomy, so that at present the species is
fairly well known and in spite of some half dozen names applied in
the past to various individuals all are currently regarded as per-
taining to but a single species.

On April 21, 1939, Dr. Thomas Barbour secured for the Museum
of Comparative Zoology a specimen that had come ashore some
ten miles south of Cape Henry, Virginia. With the assistance of
Mr. and Mrs. William E. Schevill of the museum staff, the skeleton
was saved. The specimen proved to be an adult female, containing
a large fetus, which was preserved entire. Notes on these and some
other specimens supplement our still meager knowledge of this species.

OCCURRENCE IN THE INDIAN AND PACIFIC OCEANS

Since Blainville's description of the original skull from the
Cape of Good Hope, most of the specimens reported have come
from the Indian and Pacific oceans, especially from the seas about
Australia and New Zealand. Van Beneden and Gervais, in their
"Oste*ographie," describe and figure the type skull of Blainville's
Physeter breviceps as well as the type skeleton of Krefft's Euphysetes
macleayii, while on a later page of the same work they add a note

17

18 OSGOOD TESTIMONIAL VOLUME

on a skeleton from Japan of which a supplementary plate is given.
Another Japanese specimen, caught by fishermen off the east coast
of Ishigaki Jima (an island between Formosa and the main Japanese
group), was recently recorded by Hirasaka (1936), who in a later
and more detailed account (1937) refers to no less than five other
skulls obtained between 1913 and 1936 in the seas about Japan
and recorded by Ogawa. Serene (1934) records a specimen stranded
on the coast of Annam. Oliver (1922), reviewing the Cetacea of
New Zealand, states that "at least eleven specimens have been cast
ashore" on those coasts during the previous forty years. One of
these is the type of Euphysetes pottsii, described by Haast (1874);
one is from Napier (1892); four are from Wanganui Beach; four are
from Cook Strait (Port Underwood, Lyall Bay, Wellington Harbour) ;
and one is from Otago (Benham, 1901, 1902a). To these may be
added what seems to be an unrecorded skeleton, No. 6927 Museum
of Comparative Zoology, from Poverty Bay, North Island, New
Zealand, purchased of H. A. Ward of Rochester, New York, in
January, 1884, and now mounted and on exhibition. Its sex and
the date of capture are unknown. Two synonyms of Kogia breviceps
(Euphysetes grayii and E. madeayii} are based on Australian speci-
mens from New South Wales; it has been once recorded from South
Australia; and more recently Longman (1926) has reported it for
the first time from Queensland on the basis of a weathered skull
found on the beach near Corio Head.

In the Indian Ocean, Sir Walter Elliot secured a specimen
near Madras (at Waltair) on which Sir Richard Owen (1866) founded
his Physeter simus, a name now generally regarded as synonymous
with Kogia breviceps. Due to various misunderstandings, later
explained by Sir Walter (Owen, 1867), Owen supposed that the
notes sent him referred to two specimens, a male and a female,
instead of to the single female, an error which, in spite of its correc-
tion, persists in the literature. From Ceylon, the British Museum
received a specimen in 1891 taken at Trincomalee, and Pearson
(1920) has reported on a second specimen of unknown sex, stranded
at Moratuwa on November 30, 1915, of which he gives a brief
description, with figures of the exterior.

From Travancore, at the southwestern end of the Indian penin-
sula, Pillay mentions that in February, 1925, while he was at Tri-
vandrum, he had an opportunity to observe a gravid female about
ten feet long. It seems to have been associated with an immature
animal. Other records are known from the East Indies, as that of

1941 PYGMY SPERM WHALE— ALLEN 19

Weber (1923), based on a skull found by him at Lamar-arap on the
island of Lomblam; and a specimen has been reported from Timor.

For the eastern Pacific I know of but two records: (1) A specimen
of unknown sex, found by Grayson near Mazatlan, Mexico, in 1868,
of which the incomplete lower jaw and a sketch of the exterior were
sent by him to the United States National Museum and subsequently
formed the basis of the supposed new species, Kogia floweri of Gill
(1871); and (2) an imperfect cranium, No. 18489 Museum of
Comparative Zoology, picked up on the beach at Independencia
Bay, Peru, by Dr. Robert Cushman Murphy, in November, 1919.
The specimen was found in several parts and is evidently not fully
adult; however, it is interesting as occurring in the region of the
cool Humboldt Current, though it may, of course, have washed in
from a warmer area of the adjacent seas.

OCCURRENCE IN THE ATLANTIC OCEAN

In his summary list of twenty-one specimens of Kogia, Dr.
Schulte (1917) includes mention of five from the Atlantic Ocean
(Nos. 1, 15, 16, 18, 19) in addition to one in the collection of the
United States National Museum figured by Elliot (1904) without
number or locality, and two others previously unrecorded (Nos. 20,
21), making but eight in all. In 1923, Piers, in reporting on his
Nova Scotia Kogia, gave further particulars of specimens in the
United States National Museum overlooked by Schulte, as well as
of one or two others. Since then a few additional instances have
occurred so that it seems worth while to enumerate once more such
Atlantic occurrences as are available, omitting the jaw from an
unknown locality, in the Hunterian Museum, previously mentioned.

(1) The original specimen, a skull from the Cape of Good Hope,
described by Blainville in 1838 and presumably still in the Museum
d'Histoire Naturelle at Paris. Elliot (1904, p. 46) has published a
translation of Blainville's description, since the original is not to
be had in most libraries.

(2) A "young female stranded on the rocks at Green Point,
near Capetown," South Africa, in 1896, the skull of which is pre-
served in the South African Museum. W. L. Sclater (1901, p. 190),
who records the specimen, presents a few measurements.

(3) A "much larger" individual, "probably a male," stranded
at Knysna, South Africa, the skeleton of which is in the South
African Museum. This locality might perhaps better be regarded
as just within the bounds of the Indian Ocean.

20 OSGOOD TESTIMONIAL VOLUME

(4) The male stranded about six kilometers from Roscoff,
France, December 27, 1905, and reported by Delage (1906) as the
first record for European waters and the most northerly known
occurrence. Le Danois (1910, 1911) later published notes on the
skeleton and soft parts.

(5) A male taken September 3, 1910, on the coast of Domino,
He d'OleYon, in the Bay of Biscay, France, and recorded casually
by Le Danois (1911).

(6) An adult female that came ashore dead at Noordwijk aan
Zee, The Netherlands, on December 13, 1925, a still more northerly
European record than No. 4. It was secured for the Rijks Museum
at Leiden and was briefly reported upon by Van Oort (1926).

The remaining Atlantic records are all from the eastern coast of
North America:

(7) A female stranded at Spring Lake, Monmouth County, New
Jersey, and received in the flesh by the United States National
Museum on April 27, 1883. This specimen was figured by Goode
(1884, pi. 2) under the name Kogia goodei True, so that the
name has technical status, and the type is given as No. 13738
United States National Museum. True (1884), in his "Catalogue
of the Aquatic Mammals Exhibited by the United States National
Museum" at the International Fisheries Exhibition in London in
1883, again refers to the specimen by the new name and adds a
second record, No. 8. No further description was published, however.

(8) A lower jaw and a photograph, in the United States National
Museum, of an individual from Jupiter Inlet, Florida, credited to
M. E. Spencer.

(9) A male, seven feet ten inches long, secured at Kitty Hawk,
North Carolina, January 5, 1885, and listed as accession 15560
United States National Museum (Piers, 1923).

(10) A female from Barnegat City, Atlantic County, New Jersey,
taken October 24, 1885, and said by Rhoads (1903) to be No. 15222
United States National Museum.

(11) A male from Loveladies Island, Atlantic County, New
Jersey, secured on October 25, 1885, and listed by Rhoads (1903)
as No. 15223 United States National Museum. The occurrence of
these two specimens at about the same time and in the same locality,
suggests that they may have been associated, as a pair.

(12) A male, washed ashore during a storm, at Dam Neck Mills,
south of Virginia Beach, Virginia, in February, 1887, and secured

1941 PYGMY SPERM WHALE— ALLEN 21

by the United States National Museum (accession 22559), according
to Piers (1923, p. 97).

(13) A male from Atlantic City, New Jersey, secured in April,
1888, now No. 22893 United States National Museum (fide Rhoads,
1903).

(14) A male from Corson's Inlet, Cape May County, New Jersey,
taken February 18, 1894, and said to be preserved in the Wistar
Institute Museum, Philadelphia (Rhoads, 1903).

(15) A male from Ocean City, Cape May County, New Jersey,
secured November 2, 1899; it was driven into a small cove by
fishermen and killed. According to Rhoads (1903) it weighed about
700 pounds and is preserved in the Wistar Institute Museum,
No. 3700.

(16) An immature individual, sex unrecorded, obtained by Frank
Wood at New Bedford, Massachusetts, about 1910. It was about
eight feet long. Mr. Wood sent it to the American Museum of
Natural History, where its skeleton is No. 34867.

(17) A male, killed at Nahant, Massachusetts, October 30, 1910.
The skeleton and a cast of the exterior were secured by the Boston
Society of Natural History.

(18) A large female, stranded at Long Beach, Long Island, New
York, on February 28, 1914, and secured for the American Museum
of Natural History by Dr. Roy C. Andrews. An account of the
specimen (No. 36595 American Museum of Natural History), the
external characters, muscles, and peripheral nerves was published
by Schulte and Smith (1918), with a description of some of the
anatomical features of the new-born calf accompanying it, by
Kernan and Schulte (1918).

(19) A "nearly adult female," found dead under the ice in
Herring Cove, outer part of Halifax Harbor, Nova Scotia, on Janu-
ary 17, 1920, by men clearing ice floes from about the wharves.
An account of the specimen was published by Piers (1923), who
supposes that the whale, "on coming into the small inlet, had got
under the ice, and, not happening to retrace its way, had drowned
beneath the strong covering, as it was unable to reach the surface
to breathe." The skull is preserved at the Nova Scotian Institute
of Science at Halifax.

(20) A specimen from South Beach, Staten Island, New York,
secured March 1, 1920, by the American Museum of Natural
History, as reported by Piers (1923, p. 97).

22 OSGOOD TESTIMONIAL VOLUME

(21) A partially decomposed individual, about nine feet long,
washed ashore, November 1, 1929, on "the north side of the
Long Island Fill, near the mouth of the Savannah River, . . . only
a hundred yards across the line, in South Carolina." No injury
was apparent, nor was the sex determined. The skull was later
secured and sent to the Charleston Museum (Tomkins, 1934).

(22) A male, harpooned and killed on May 7, 1932, some
200 yards offshore, opposite the Oregon Inlet Life Saving Station,
North Carolina, by Dr. Cecil K. Drinker, Louis Agassiz Shaw, and
L. Freni. The skull and some parts of the skeleton were later
retrieved by Dr. Drinker and presented to the Museum of Com-
parative Zoology. The specimen (No. 32159 Museum of Compara-
tive Zoology) has not hitherto been recorded.

(23) In the issue of "Natural History" for January, 1940,
McBride (1940, p. 27) contributes an article including a photographic
figure of a live Kogia which had washed ashore in a storm near
Marineland, Florida. It was at once transferred bodily to the large
aquarium conveniently at hand, but soon after succumbed. Its
further disposition is unrecorded.

(24) The adult female containing a large fetus, earlier mentioned,
secured by Dr. Thomas Barbour and the Schevills some ten miles
south of Cape Henry, Virginia, on April 21, 1939. The skeleton
is preserved in the Museum of Comparative Zoology (No. 40838).
I am indebted to Mr. and Mrs. Schevill for generously permitting
me to make use of the notes and measurements they made at
the time.

(25) An immature male washed ashore at the same time with
the female (No. 24) but not collected. It was thought to have
been a yearling calf still following the mother, which at that time
was again pregnant. Both the specimens were more or less "cut
up" and Dr. Barbour surmises that they had gotten in among a
flotilla of torpedo boats that a few hours previously had passed
out of the Virginia Capes and had been damaged by the pro-
pellers of the boats.

(26) Dr. Barbour permits me to record that in April, 1940,
almost a year to a day following the above occurrence, and at the
same place, he found another dead one, killed in the same way,
doubtless through having become fouled with the propeller blades
of one of a flotilla of torpedo boats that had passed out from the
Capes a short time before.

1941 PYGMY SPERM WHALE— ALLEN 23

So far as this summary of records may signify, Kogia is relatively
rare in European waters with but three records from the French
and Dutch coasts, and none at all for British waters in spite of many
years of intensive effort to gather notes and specimens of cetaceans
(Harmer, 1927). This is in contrast to twenty or more instances
from eastern North America, from Florida to Nova Scotia. Similarly,
in the western Pacific Ocean there are many records from the seas
about New Zealand and eastern Australia to the East Indies, French
Indo-China, and Japan, as well as others for the northern Indian
Ocean, whereas for the eastern Pacific there are but two, one each
for Lower California and Peru. No doubt the lack of records for
.the South Atlantic, except for the Cape of Good Hope region, and
for the eastern Pacific, except as just noted, is in part due to the
lack of interested observers. Nevertheless the distribution of the
cases now reported probably indicates that the pygmy sperm
whale does favor certain areas of sea where conditions of food and
water temperature are optimum. These areas are perhaps those
of such major ocean currents as the Agulhas of the Cape region, the
Gulf Stream in the western North Atlantic and the Japanese Current
of the western North Pacific.

What significance may be attached to the fact that most of the
North Atlantic records are for the cooler months of the year is
uncertain. Possibly it may reflect the habits of the food species.
The dates for five of the twenty-six records are not known; of the
remaining cases, one occurred in September, three in October, two
in November, two in December (Europe), three in January, three
in February, one in March, five in April, and one in early May.

A factor in the stranding of this whale is perhaps also the nature
of the shore where the animal is passing. The gradually shelving,
sandy coast of New Jersey southward may be more favorable for
this than a coast where the inshore waters are deep or the shores
rocky. The definite American records arranged by states indicate
this, namely, from south to north: Florida, two; South Carolina,
one; North Carolina, two; Virginia, four; New Jersey, six; New
York, two; Massachusetts, two; Nova Scotia, one.

Apparently Kogia is a rather slow-moving, lethargic, non-social
species, as may be indicated by the few available notes. Dr. Cecil
K. Drinker, who took part in the capture of the male near Oregon
Inlet, May 7, 1932, writes that while going north in a motorboat
about 200 yards offshore, he and his companions saw what they
took to be a single porpoise, "going down the coast, moving very

24 OSGOOD TESTIMONIAL VOLUME

steadily in a straight line. A harpoon gun was gotten ready and
also a hand harpoon. It was unnecessary to use the gun since we
easily came directly alongside. When first struck by the harpoon,
the whale ran vigorDusly and directly away from the boat. This
placed so much strain on the line as to draw the swordfish dart
then in use. Almost immediately the whale headed south again
on its original route, and again the boat was easily brought alorg-
side. At the second trial the animal was securely fastened and after
fifteen or twenty minutes was brought in and killed with a dart
from the harpoon gun. The vigor of the whale was, in our opinion,
much less than that displayed by a porpoise of anything like the
same size. We estimated the weight as between four and five
hundred pounds." Of the October male, killed at Xahant, Massa-
chusetts, in 1910, I was told by its captor that when first seen it
was swimming at the surface about 200 yards offshore. When
pursued and shot at, it leaped partly out of the water. Another,
on the New Jersey coast, was driven by fishermen into a small cove
and killed. In at least two instances, individuals have been found
washed ashore and still living, as in the case of the one at Marineland,
Florida, and a second on the coast of Annam. Estimates of the
weight of dead individuals vary from 400 to 700 pounds.

SIZE

The male of the sperm whale is considerably larger than the
female; in Kogiu, however, no such contrast appears and it is usually
stated in the literature that the sexes are of equal size. Unfor-
tunately, for a large part of the reported specimens either the sex
or the total length or both are omitted. The tabulation en page

25 gives most of the instances in which these factors are recorded.
These averages show that males slightly exceed females in size
when full grown. The largest recorded male is 3,351 mm. (11 feet)
and the largest female 3,200 (10 feet 6 inches). Omitting this last from
the average as possibly unusual or erroneous, as well as the small
(immature) female from Capetown, gives a similar average of 2,451
mm. The Cape Henry specimen was fully adult, as indicated by the
well-ossified mesethmoid and complete union of all epiphyses. Taking
into account the females with fetuses, total lengths recorded are:

Total length
Locality mm. Date Reference

Waltair, near Madras 2,184 Feb. 28 Owen, 1866, 1867

Spring Lake, New Jersey 2,591 April 27 Rhoads, 1903

Cape Henry, Virginia 2,210 April 21 Present paper

Noordwijkaan Zee, The Netherlands. 2,950 Dec. 13 Van Oort, 1926

Travancore, India ?3,048 Feb. Pillay, 1926

1941 PYGMY SPERM WHALE— ALLEN 25

The largest of these five definitely breeding females is thus
about 3,048, the smallest 2,184, with an average of about 2,596 mm.,
which is only slightly larger than the average of eight in the following
table. It is quite likely that some of the published dimensions are
merely estimates.

MEASUREMENTS OF KOGIA
Males

Total length
Locality mm. Reference

New Zealand 2,667 Benham, 1902a, b

He d'Oleron, France 3,300 Le Danois, 1911

Corson's Inlet, New Jersey 3,048 Rhoads, 1903

Ocean City, New Jersey. 3,351 Rhoads, 1903

Nahant, Massachusetts 3,200 Unpublished

Oregon Inlet, North Carolina 2,743 Unpublished

Roscoff, France 2,250 Le Danois, 1911

Kitty Hawk, North Carolina 2,388 or 2,743 Piers, 1923

Average of 8 males 2,868 or 2,912 (the total length of the

last specimen is said by Piers to have been 7 feet 10 inches, but by the
"American Naturalist" [1885] in a contemporary record, 9 feet).

Females

Total length
Locality mm. Reference

Near Capetown, Africa 1,752 (imm.) Sclater, 1901

New Zealand 2,184 Haast, 1874

Madras, India 2,184 Owen, 1866, 1867

Halifax, Nova Scotia 2,591 Piers, 1923

Spring Lake, New Jersey 2,591 Rhoads, 1903

Barnegat City, New Jersey 3,200 Rhoads, 1903

Noordwijk aan Zee, The Netherlands 2,950 Van Oort, 1926

Cape Henry, Virginia 2,210 Unpublished

Average of 8 females 2,457

BREEDING AND YOUNG

From the data at hand very little may be deduced as to the
times of breeding or the length of the gestation period. Possibly
the two individuals stranded on the New Jersey coast in October,
1885, the male on the twenty-fifth at Loveladies Island, the female
on the twenty-fourth at Barnegat City, may have been a mated
pair. The five pregnant females listed above were taken between
December 13 (Holland) and the latter part of April. The female
taken at Long Beach, New York, on February 28, was accompanied
by a newly born young, only 1,097 mm. long; while the one taken
on April 21 at Cape Henry, Virginia, containing a large fetus,
was accompanied by a younger animal, some five feet long, probably
a yearling born in the previous season and still suckling, for the
adult was lactating abundantly. What seems to have been a pre-

26 OSGOOD TESTIMONIAL VOLUME

cisely similar case is that reported by Pillay (1926) from Travancore,
India, of a gravid female "about ten feet long" that he had an
opportunity to observe in February, 1925, at Trivandrum. He
adds, "There was another one of the same species which was imma-
ture," implying that it was a yearling accompanying the female
parent.

Possibly, then, mating may take place in late summer, and the
young are born in the following spring, after a gestation period of
some nine months, as in certain other whales. Evidently the single
calf stays with the mother during its first year.

EXTERIOR AND SKELETON

The Cape Henry specimen and its fetus offer a few points of
interest. The external form with obtusely pointed head, the small,
narrow mouth on the ventral side, the asymmetrical crescentic
blowhole, the low falcate dorsal fin, the slightly tapering pectoral
limb, and the tail with a median notch between the flukes, have
been often described.

In a ventral view of the head, the fore part of the snout is seen
to project considerably beyond the tip of the jaw, whence it slopes
upward and forward to a blunt point. Since in the skull the tip
of the lower jaw slightly exceeds the rostrum, it is clear that the
front of the snout forms with the spermaceti organ a pad, which
possibly acts as a bumper or shock absorber in head-on contacts,
for the eyes are placed so far at the sides of the head that they seem
hardly capable of forward vision and there are no vibrissae to give
notice of solid objects in the path. Without some such protection
the delicate bones of the rostrum and mandible might easily be
fractured. Indeed, it seems likely that the condition described by
Benham (1902a), in which there were two "premaxillary nodules"
or small separate bones at the tip of the snout, may have been a
result of some accidental breakage.

In naval architecture, it is said that a favorable angle for the
bow of a boat going through water is about 35° on each side
of the median axis, in connection no doubt with moderate speed.
It is at least interesting to find that this angle in the Cape Henry
specimen, as measured from a photograph taken by Mrs. Schevill,
was about 37°. This corresponds essentially with the measure-
ment of the inter-ramal angle of the jaw as measured from
the skeleton, namely, 70° (twice the angle formed with the median
line).

I \
if

I

-1-s

27

28

OSGOOD TESTIMONIAL VOLUME

Hair. — No trace of hair was noted in the adult or in other
recorded specimens. It is therefore interesting to find that the fetus
shows four short, tapering bristles placed in an oblique row in
front of each eye (fig. 1). Schulte and Smith (1918), in describing
the new-born young from Long Beach, Long Island, state that
although no hairs were discovered they nevertheless found the
bases of four hairs in a similarly oblique row in the specimen. Prob-
ably these remaining hairs are shed before or soon after birth.

Throat grooves. — In none of the accounts of this whale is there
any mention of throat grooves. In the Cape Henry fetus, however,

FIG. 2. Tracing of the outline of the dorsal fin of the Cape Henry female. X \i-

there are five well-marked grooves on the throat, beginning just
back of the angle of the mouth and extending a short distance
back on the inter-ramal region. Of these, the median one is the
longest, 35 mm., the next outer one about 5 mm. shorter, and the
external one on each side the shortest, about 23 mm. The two on
either side of the midline diverge slightly forward, while the two
outermost ones curve slightly outward. In the adult these shallow
grooves are probably not evident enough to attract attention and
are easily passed by; yet they are dimly visible in photographs I
have of the adults from Cape Henry and from Oregon Inlet. In
the sperm whale (Physeter) as well as in the beaked whales, two
are present, one on each side, while in a young Ziphius from New
Zealand, Scott and Parker have described three on each side. These
grooves may indicate a certain relationship with the beaked and
sperm whales.

External measurements.— Few series of measurements of Kogia
are published. It may therefore be worth while to add the principal
dimensions of the Cape Henry adult female and those of an adult

1941 PYGMY SPERM WHALE— ALLEN 29

male from Nahant, Massachusetts, hitherto unpublished. The
former were taken by the Schevills, the latter by myself.

Female Male

mm. mm.

Total length, snout to notch of flukes 2,210 3,200

Snout to anterior corner of eye 290 330

Snout to anterior point of blowhole 195 344

Snout to pectoral limb 650 680

Snout to anterior edge of dorsal fin 1,050 1,735

Anus to median caudal notch 700 1,030

Right fluke from tip to notch of tail 350 438

Height of dorsal fin at tip 145 76

Length of base of dorsal fin 260 140

Length of pectoral limb from insertion 350 495

Greatest width of pectoral limb 130 165

Apart from the generally greater dimensions of the adult male
as compared with the adult female, the only striking difference is
in the very much smaller dorsal fin, which in the male is low and
narrow, while in the female it is of nearly twice the size (fig. 2).
This also comes out in a comparison of photographs of the two

FIG. 3 . Tracing of the outline of the pectoral limb of the Cape Henry female. X ^.

animals. Again, in the case of the adult female secured by Sir
Walter Elliot on the coast of Madras, Owen (1866) states that the
height of the dorsal fin, "vertically at its back part, where the apex
curves back a little beyond the basal attachment," was 7 inches
(177 mm.), and the base some 10 inches (253 mm.) long, figures
that agree approximately with those for the Cape Henry female.
Whether or not this is a normal sexual difference or merely individual
variation, future observations may show.

Skull and teeth. — The extremely spongy texture of the bones of
the cranium and the almost paper-thinness of the mandibles are

30

OSGOOD TESTIMONIAL VOLUME

rather remarkable, perhaps degenerate characters. In contrast to
the Delphinidae, also, is the structure of the pterygoids, which
appear to be thick and solid, rather than thin and folded over exte-
riorly to unite with a wing-like process of the palatine bone. The

FIG. 4. Sternum of the Cape Henry female from above, to show the paired
origin of the sternebrae.

symphysis of the mandible in the Cape Henry female is imperfectly
ossified but would be about 40 mm. long.

In the upper jaw, a shallow and continuous alveolar groove
extends from the front of the maxillary back for some 60 mm. on
each side, but is not continued forward on to the premaxillary.
There are four very small spicular teeth present, two on each side
at the front of this groove. In the lower jaw the teeth are much
larger and set in separate sockets, ten on the right side, eleven on

1941 PYGMY SPERM WHALE— ALLEN 31

the left, giving the formula Ts~TT=26. The posterior teeth
especially are long and backwardly directed; their roots are slightly
roughened with minute ridges or points of dentine. In other
recorded specimens, the number of teeth has varied from none to one
or two on each side above, and from nine to fourteen on a side
below. Piers (1923) and Le Danois (1911) both report none above
and fourteen on each side below; for the Madras specimen Owen
(1866) gives one above and nine below on each side. Obviously,
however, the minute upper teeth are easily overlooked or lost.
Benham (1902a), who was able to macerate his (New Zealand)
specimen very carefully, found the number to be 3%- - -&= 30,
which is probably close to an average condition.

Vertebrae and ribs. — There is a slight individual variation in the
number of ribs, vertebrae of different groups, and chevron bones.
Moreover, unless great care is used in preparation, the small terminal
vertebrae are easily lost, so that the number of caudals recorded
for most of the specimens is liable to slight error.

The seven cervical vertebrae in Kogia are apparently always
fused into a single mass, and so thin are the middle bones that their
individuality is largely lost and their exit openings for the corre-
sponding spinal nerves merge together. The first and second verte-
brae, however, are indicated by their respective nerve passages, and
the seventh also seems distinct. Indeed, in the Poverty Bay (New
Zealand) skeleton in the Museum of Comparative Zoology, the low
neural arch of the last is distinct completely from that of the sixth.
It would be interesting to see if in the embryo the several bones
showed their individual boundaries, and which spinal nerves had
a common exit.

The number of rib-bearing vertebrae following varies from
twelve to fourteen. Twelve were present in the Roscoff specimen,
in Haast's type of "Euphysetes potlsii" from New Zealand, and
according to Oliver (1922) in two other New Zealand specimens,
as well as in the Poverty Bay (New Zealand) skeleton in the Museum
of Comparative Zoology. Thirteen ribs were found in the Cape Henry
female, in the specimen from The Netherlands, one from New Zealand
(Benham, 1902a), one from Ceylon (Pearson, 1920), and one from
Japan (Hirasaka, 1937). In only one case, that of the type of
"Euphysetes grayii" from New South Wales, have fourteen ribs
been reported. In the Cape Henry skeleton the first nine ribs have
a double articulation; the others articulate by the tuberculum alone.

32 OSGOOD TESTIMONIAL VOLUME

In this, too, there is some variation, for Haast reports that six of
twelve have a single articulation.

The lumbar vertebrae are nine in the Cape Henry skeleton and in
four others for which the number is recorded, while eleven are said to
be present in the type of "Euphysetes grayii" and in the specimen
from The Netherlands (Van Oort, 1926). Here again some uncer-
tainty may be caused in the determination of the first caudal,
which I have regarded as the one on the posterior ventral border
of which are the articular facets for the first chevron bones.

The caudals, counting from the first to have a chevron, are
twenty-seven in the Cape Henry specimen, making a total of fifty-
six vertebrae. This is two more than were found by Pearson (1920)
or Van Oort (1926). Benham (1902a) found only twenty- three.
Undoubtedly, in some of the other cases reported, the last few are
lost, since they are very small. The anterior zygapophyses disappear
after the thirty-fifth vertebra in the Cape Henry specimen; on the
forty-fifth the neural canal is open at the summit and disappears
with the forty-seventh.

Sternum. — As in Physeter the sternum consists of three sections,
the first of which is broadly expanded in front and tapers to a narrow
stem posteriorly. The two following pieces are long and narrow.
The bilateral origin of the sternebrae is evident, since the last
section in the Cape Henry specimen (fig. 4) consists of two narrow
pieces united at only one point, while the two sections anterior to
it have each a median gutter with a small slit-like opening in the
posterior part where ossification is incomplete. Benham (1902a)
was the first to figure and describe this structure adequately. It
was somewhat different in shape from that of our specimen, with
the broad anterior section less deeply emarginate in front, and
the last section definitely of two separate bony rods. Very likely,
as commonly in cetaceans, this wide variation in form of the sternum
is a mark of degeneration in the structure.

Pelvic bones. — Apparently pelvic bones are lacking or at least
unossified in Kogia. In roughing out the skeleton of the Cape
Henry specimen, the Schevills sought carefully for them and made
many sections through the region where they should have been but
failed to find any. Benham, likewise, in preparing his Otago speci-
men, looked very carefully for pelvic bones, even following out the
muscles of the penis to which they should give attachment, but
felt quite certain that none was present. Van Oort (1926) states
again that no pelvic bones were present in the adult female stranded

1941 PYGMY SPERM WHALE— ALLEN 33

at Noordwijk aan Zee, The Netherlands, the skeleton of which was
carefully prepared for the Leiden Museum. The testimony of these
investigators seems conclusive, that these bones are at least usually
absent, so that one may suppose their place is taken by cartilage or
a tendinous fascia. Evidently, as suggested by Benham (1902a),
the four small objects figured by Wall (1887) as the pelvic bones of
"Euphysetes grayii" pertained to some other animal, for they bear
not the remotest semblance to the usual rod-like pelvic vestiges of
Cetacea. They were sifted out of the sand in which the whale had
been buried for cleaning.

PARASITES

In the Cape Henry specimen the Schevills made no search for
parasites, but the calf accompanying the adult had a Penella about
five inches long attached in the skin and blubber near the base of
the caudal peduncle, and trailing behind. The only other records
of parasites in this species include nematode worms and two peculiar
cestodes in the intestine (Delage, 1906), in the case of the Roscoff
specimen, and quantities of nematodes in the stomach and cestodes
in the skin (muscles) of the back in the one from Kitty Hawk,
North Carolina.

FOOD

Very little is recorded of the stomach contents of specimens of
Kogia that have been collected. The curiously overshot jaw and
the nearly complete loss of teeth in the upper jaw imply a diet on
something other than fish, in fact, crabs and cephalopods. The
stomach of the specimen reported from Noordwijk aan Zee, The
Netherlands, by Van Oort, held a mass of carapaces and appendages
of the green crab, Carcinides maenas, as well as the beak of a cepha-
lopod, apparently Sepia officinalis; that of the Roscoff (France)
animal held a large number of squid beaks, in addition to many
nematodes and two curious cestodes as parasites in the intestine;
finally, the Kitty Hawk, North Carolina, whale is said to have
contained beaks and eyes of cuttlefish as well as a great quantity
of nematodes (Amer. Nat., 1877). The stomach of one examined
by Haast in New Zealand was empty.

REFERENCES

ANONYMOUS

1885. Zoological News. Mammals. Amer. Nat., 19, p. 1114.

BENHAM, W. B.

1901. On the Anatomy of Cogia breviceps. Proc. Zool. Soc. Lond., 2, pp. 107-

134, pis. 8-11.
1902a. Notes on the Osteology of the Short-nosed Sperm- Whale. Proc. .Zool.

Soc. Lond., 1, pp. 54-62, pis. 2-4.
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New Zealand Inst., 34, pp. 155-168.

DBLAGE, Y.

1906. Capture d'un cachalot du genre Kogia Gray sur les c6tes de la Manche
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ELLIOT, D. G.

1904. The Land and Sea Mammals of Middle America and the West Indies.
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figs, (see p. 46, pis. 15-17 of Kogia).

GILL, T. N.

1871. The Sperm Whales, Giant and Pygmy. Amer. Nat., 4, pp. 725-743,
figs. 165-176.

GOODE, G. B.

1884. Natural History of Useful Aquatic Animals. Part I. — Mammals.
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HAAST, J.

1874. On the Occurrence of a New Species of Euphysetes (E. pottsii), a Remark-
ably Small Catodont Whale, on the Coast of New Zealand. Trans, and Proc.
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HARMER, S. F.

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HASWELL, W. A.

1883. On the Brain of Gray's Whale (Kogia grayi). Proc. Linn. Soc. New
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HECTOR, J.

1877. Notes on the Whales of the New Zealand Seas. Trans, and Proc.
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HlRASAKA, K.

1936. A Pigmy Sperm-Whale. Zool. Mag. (Tokyo), 48, pp. 72-74, 1 fig.
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1937. On the Pigmy Sperm-Whale, Kogia breviceps (Blainville). Mem.
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KERNAN, J. D., JR., and SCHULTE, H. VON W.

1918. Memoranda upon the Anatomy of the Respiratory Tract, Foregut, and
Thoracic Viscera of a Foetal Kogia breviceps. Bull. Amer. Mus. Nat. Hist.,
38, pp. 231-267, 16 figs.

34

1941 PYGMY SPERM WHALE— ALLEN 35

KREFFT, G.

1865. Notice of a New Species of Sperm- Whale Belonging to the Genus Euphy-
setes of Macleay. Proc. Zool. Soc. Lond., pp. 708-713, 6 text figs.

LE DANOIS, E.

1910. Sur 1'organe a spermaceti du Kogia breviceps Blainv. Compt. Rend.
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LONGMAN, H.

1926. New Records of Cetacea, with a List of Queensland Specimens. Mem.
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McBRiDE, A. F.

1940. Meet Mr. Porpoise. Nat. Hist., 45, pp. 16-29 (see fig. on p. 27).

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OWEN, R.

1866. On Some Indian Cetacea Collected by Walter Elliot, Esq. Trans. Zool.
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PEARSON, J.

1920. A Note on Kogia breviceps. Spolia Zeylanica, Colombo, 11, pp. 303-305,
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PIERS, H.

1923. Accidental Occurrence of the Pygmy Sperm Whale (Kogia breviceps)
on the Coast of Nova Scotia: An Extension of Its Known Range; with Remarks
on the Probability of the Former Presence in These Waters of the True
Sperm Whale (Physeter macrocephalus). Proc. and Trans. Nova Scotian
Inst. Sci., Halifax, 15, pp. 95-114, figs.

PILLAY, R. S. N.

1926. List of Cetaceans Taken in Travancore from 1902 to 1925. Journ.
Bombay Nat. Hist. Soc., 31, pp. 815-817.

RHOADS, S. N.

1903. The Mammals of Pennsylvania and New Jersey, etc. 8vo, 266 pp.,
8 pis. Philadelphia (privately printed).

SCHULTE, H. VON W.

1917. The Skull of Kogia breviceps Blainv. Bull. Amer. Mus. Nat. Hist.,
37, pp. 361-404, pis. 35-43.

— and SMITH, M. DE F.

1918. The External Characters, Skeletal Muscles, and Peripheral Nerves of
Kogia breviceps (Blainville). Bull. Amer. Mus. Nat. Hist., 38, pp. 7-72,
21 text figs.

SCLATER, W. L.

1901. The Mammals of South Africa. 8vo, 2 vols., illus. London.

SERENE, R.

1934. Sur un echouage de Kogia breviceps Gray a proximit6 de 1'Institut
OcSanographique de Nhatrang (Annam). Bull. Mus. Nat. d'Hist. Nat.,
Paris, (2), 6, pp. 398-399.

36 OSGOOD TESTIMONIAL VOLUME

TOMKINS, I. R.

1934. A Pigmy Sperm Whale from the Savannah River Entrance. Journ.
Mamm., 15, pp. 250-251.

TRUE, F. W.

1884. Catalogue of the Aquatic Mammals Exhibited by the United States
National Museum. Great International Fisheries Exhibition. London,
1883. 8vo, 22 pp. Washington, D.C.

VAN BENEDEN, P. J., and GERVAIS, P.

1868-80. Ostebgraphie des cetaces vivants et fossiles, etc. Paris, 4to text,
viii+634 pp.; folio atlas (see pp. 346-354, 514-515; pi. 20, figs. 1-3; pi. 22bis,
fig. 8; and pi. 61).

VAN OORT, E. D.

1926. Over eenige aan de kust van Nederland waargenomen cetaceeensoorten.
Zool. Meded. Rijks Mus. Nat. Hist., Leiden, 9, pp. 211-214, pi. 2.

WALL, W. S.

1887. History and Description of the Skeleton of a New Sperm Whale, Lately
Set Up in the Australian Museum Together with Some Account of a New
Genus of Sperm Whales called Euphysetes. 8vo, (10)+64 pp., 4 pis. Sydney.
Reprint of 1851 edition.

WEBER, M.

1923. Die Cetaceen der Siboga-Expedition vorkommen und Fang der Cetaceen
in Indo-Australischen Archipel. Siboga-Expeditie, pt. 58, 38 pp., 3 pis.
4to. Leiden.

MAMMALS COLLECTED BY THE VERNAY-
CUTTING BURMA EXPEDITION

H. E. ANTHONY

Curator of Mammals, American Museum of Natural History

INTRODUCTION

The Vernay-Cutting Burma Expedition, 1938-39, worked in
northeastern Burma and had as major projects the collection of
representative series of mammals, birds, and plants. The expedition
was financed by Mr. Arthur S. Vernay and Mr. C. Suydam Cutting,
Trustees of the American Museum of Natural History, both of
whom accompanied the party into the field.

Mr. Frank Kingdon Ward, the well-known plant explorer and
collector, who has had a wide field experience in Burma, had charge
of the botanical activities of the expedition. Mr. J. K. Stanford,
formerly District Commissioner at Myitkyina, Burma, and a field
student of the birds of Burma, took over the ornithological work. The
collecting and study of the mammals were in charge of the author.

The staff of skinners and field assistants included Mr. J. Gabriel,
lent to the expedition by the Prince of Wales Museum of Bombay,
Mr. W. H. Stubbs, on leave from the Burma Excise Department,
and Maung E. Thaung, a Karen, from the office of the Forest
Botanist, Maymyo, Burma. These were the individuals most helpful
in the preparation of mammal specimens. Mr. Gabriel, as the one
with the most experience, was placed in charge of the skinning.

I received material assistance in collecting mammals from the
other members of the expedition. Messrs. Vernay and Ward set
out trap lines in some of the camps, and Mr. Stanford shot any
small mammals encountered while hunting birds. He also conducted
a successful hunt for a bear reported by the natives.

The members of the expedition arrived in Burma at different
times. Stanford and Ward left railhead at Myitkyina on November
15, 1938, and proceeded up country to organize base camps and
provide transport and other facilities for the party, which would
assemble in December. I arrived in Rangoon on November 29 and
was joined there by Vernay and Cutting on December 9. The
three of us met Stanford at Myitkyina on the twelfth, transported
our supplies and equipment across the Irrawaddy to Waingmaw,

37

38 OSGOOD TESTIMONIAL VOLUME

and were ready to begin field work on the morning of the thirteenth.
Ward was collecting at Laukhaung, where we joined forces on
December 20. At this place traps were set out for the first time
but only a short line could be placed, the region was unpromising,
and no specimens were caught.

The first part of the journey was primarily concerned with getting
to the base camp, and mammal collecting was desultory in conse-
quence. Birds could be collected while on the march, and such
mammals as squirrels and bats were shot whenever opportunity
offered. Adequate trap lines could not be established at one-night
stands. The skinners occupied most of their time in camp with
the birds shot during the day. The ecology of the foothills was of
a character very discouraging to a small-mammal collector; there
was very little ground cover, no signs of burrows or runways, ants
gathered on the baited traps, and not one trap in fifty was visited
by a mammal. As soon as higher elevations brought us into cooler
environments the results of short trap lines put out at the end of
a day's march began to be interesting.

At the Pyepat Ridge we stopped over a day in order to collect
in the first of the good mountain forest, about 6,500 feet elevation,
and short stops were also made at Htawgaw and at Hkamkawn,
but otherwise the time spent in reaching Gangfang on January 1,
1939, was engaged in a series of daily marches which were kept
short to save the pack mules. Mammal collecting did not begin
in earnest until then, when all of the equipment was unpacked, the
skinners were settled in quarters where they had some conveniences
for their work, and the locality could be given more than a casual
inspection in passing.

We had a large pack train of mules, over fifty, to move us and
our supplies from Myitkyina to Gangfang. Some supplies had
already been moved up to Gangfang before our arrival. A smaller
number of mules was used for later moves, such as the trip to
Hpimaw and to the Panwa Pass district, but for transport to Imaw
Bum, to the Chimeli region, and to inaccessible localities where
trails were steep and poor, the natives served as packers. We
formed a large party and fortunately for us the natives were eager to
work; we had no difficulty in securing the requisite number of
packers. All told, there were 110 individuals in camp on the trip
to Imaw Bum.

We were also fortunate in having good weather conditions for
most of the time we were in the field. This part of Burma has a

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 39

wet and a dry season and the work was planned to avoid that period
of the year when the monsoons bring on heavy precipitation and
make collecting difficult. Although this region has an annual rain-
fall of anything from 65 inches to over 100 and perhaps as high as
200 in some places, most of the precipitation is concentrated within the
period from May to November. Statistics have not been compiled
for most of the mountainous area of northeastern Burma but charts
for regions to the south show that there may be no rain whatso-
ever for several months at a time during the dry interval of the year.
In the hills brief showers are more apt to break up such a long
sequence of dry days. We had no rain of any consequence from the
start of the travel in Burma, December 10, until February 14, when
a cloudy, stormy period of four days gave us a hint of what we
might expect when the wet season set in. Snow, at elevations of
10,000 feet and over, may fall while the valleys are dry, and we
expected snow at our higher collecting stations.

Three days of bad weather, with rain falling much of the time,
drove us from a leaky camp on the Hpare-Saulang road, a collecting
site that was well worth a longer stay. But the total number of
days lost because of bad weather, for the period of December to
the middle of April, was relatively small. We escaped the plague
of leeches which appear with the advent of the seasonal rains and
make digression from the trails an ordeal.

Rest houses are mentioned frequently in this report and, lest
one should get the impression that northeastern Burma is much
better settled, or "civilized," than it is, a word of explanation is in
order. The character of the government rest houses in northeastern
Burma varies with the locality. On the roads most frequently used
and at the stopping places near Myitkyina, the "bungalows," as
they are often called, are well-built structures, with windows,
stoves, tight floors, bathing facilities, and shelters for the servants
and for the mules. A caretaker, in residence, looks after the station.
As one passes deeper into the back country many of these conven-
iences gradually drop out, and at such places as Hpawte or Chang-
yinku, seldom visited by outsiders, the government shelter is a
native-built, grass-thatched hut, with cane sides, a puncheon floor,
no windows, an open fire on a square of earth in the center of the
room with the smoke free to follow its fancy, and perhaps not a
nail used anywhere. Such rest houses proved to be dry, neverthe-
less, and we were always glad to use them, supplemented by tents
when the five of us were together. On trails which do not have

40 OSGOOD TESTIMONIAL VOLUME

travel of sufficient importance to justify them the government
maintains no shelters of any type.

The principal collecting sites in chronological sequence and the
itinerary in that connection are as follows:

At Gangfang the entire party worked together from January 1
to 6. On January 6, Vernay, Cutting, and Ward went on a side
trip for takin into the district near Sadulaw, returning January 10.
Stanford left Gangfang on January 6 to hunt bear near Hpawshi,
returning January 9. We remained as a party, then, until January 14,
when we all started for the camp built for us by natives on the
northern slopes of Imaw Bum.

We required three days on the trail to reach this camp, where
we collected from January 16 to 24. On that day we split forces,
Vernay, Cutting, and Ward to travel north, west, and south about
the foothill flanks of Imaw Bum, eventually coming back into the
main mule road at Htawgaw and thence to Gangfang once more.
They arrived at the base camp on February 10.

Stanford and I returned over the trail we had used coming in
and established a camp on the headwaters of the Nyetmaw River,
January 24. We collected here until the morning of January 31
and then made a short march to the camp above Tsonma. On
February 1 we were back in Gangfang.

After reorganizing for the next move, Stanford and I left Gang-
fang February 4 and on the afternoon of February 5 we were in the
camp on the Chimeli road. Collecting here occupied us until
February 12 and we returned to Gangfang to join the other members
of the expedition on February 13.

Several days of overcast skies and intermittent heavy rains kept
us from leaving Gangfang as promptly as we desired and we were
fearful lest the transportation of specimens would prove a difficult
problem if the rains should continue as daily occurrences. Vernay
undertook to move all specimens and non-essential equipment to
dry storage at Htawgaw, and left Gangfang during an all-day rain
on February 18. The rest of us left Gangfang for the last time on
February 19, with all of the baggage our transport could handle.
We proceeded to the Hpimaw site, arriving February 20 and working
there until the morning of February 27. Vernay joined us there on
February 24.

The entire party moved from Hpimaw, by the usual short daily
marches, to Hkamkawn and collected there from February 28 to
March 3, when they arrived in Htawgaw. This place was now the

-zi

FIG. 5. Map showing principal collecting sites of Vernay-Cutting Burma
Expedition.

41

42 OSGOOD TESTIMONIAL VOLUME

base of operations and the interval from March 3 to March 6 was
occupied in providing transport for such loads as were to go to the
railroad at Myitkyina, outfitting for another side trip, and doing
some collecting about Htawgaw.

On March 6 the expedition left Htawgaw for the Panwa District.
The night of March 6 was spent at Luksuk, of March 7 at Hpare,
and of March 8 at Saulang; at mid-day of March 9 we reached
Changyinku, a short distance from the Panwa Pass. Ward and
Stanford had remained at Htawgaw to attend to botanical and
ornithological matters for a day or two but by March 12 all of the
personnel were together once more. However, this condition was
of brief duration, for about noon of March 12 Vernay and Cutting
left the party to return to Rangoon and the United States. There-
after, Ward, Stanford, and I constituted the expedition.

The three of us remained at Changyinku until the morning of
March 16, when we started back for Htawgaw. On March 17 we
established the camp near the Hpare-Saulang Chet, or Pass, where
we found one of our best collecting sites. Stormy weather drove
us from our inadequate shelter and after two days of almost continu-
ous rain we left on March 20 for Hpare.

Collecting about Hpare was my program from March 20 to 28.
Ward and Stanford made a short trip, during this period, to a camp
near the Hpare Pass, March 23 to 27. On March 28 the three of
us returned to Htawgaw, making the usual two-day march in one.
This concluded our exploration of new collecting areas but we took
advantage of favorable localities, such as the Pyepat Ridge, to add
to our collections as we made the return to Myitkyina. We left
Htawgaw for the last time on March 31. I arrived in Myitkyina
on April 11, having left Ward and Stanford at Seniku that morning
and they reached Myitkyina on April 12.

On the return from the high country, mammal trapping ceased
after we left Laukhaung. At this place only one specimen was
trapped in three nights, and the hot lowlands were not a collecting
proposition that gave much return on a rapid transit basis. Any-
thing that might be trapped had to be skinned at once, but the party
had to be on the move early in the morning to avoid the heat of
the day.

An unusually high percentage of the time spent by the expedition
after leaving the railroad had to be devoted to travel, getting to
places and returning to a base. While some of this time might be
used to collect birds, many of these days were non-productive as

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 43

far as mammals were concerned. Carefully placed trap lines with
a reasonably large number of traps were out on such a small part
of the total time spent in the field that the size of the mammal
collection, 1,034 specimens, may be taken as a significant index to
the truly rich mammal fauna of these mountains.

The place names used in this paper for the origin of specimens and
localities that are mentioned in other connections are catalogued
below. In addition to our principal collecting stations, the list
includes localities such as the rest houses where the expedition made
only a one-night stay, and the small native communities or villages
from which specimens were brought to us.

The spelling of place names in northeastern Burma is very con-
fusing. The English spelling is based upon the phonetics of the
native name and several spellings may be encountered for the same
place. The "Kakhyen Hills" of Anderson, Yunnan Expeditions,
1878, I assume to be the "Kachin" or "Cachin" Hills of current
literature; all three are attempts to reproduce the same name as pro-
nounced by a Chinghpaw native. Our base camp was recorded as
"Gangfang" on the labels of the specimens, but on some maps it is
spelled "Kangfang"; "Hkamkawn" on our labels also appears vari-
ously as "Gamhkawn" and as "Kham Kham" (this latter on the sheet
of regulations hanging in the rest house). Names of rivers take
the ending "kha" on maps if the Burmese influence is predominant,
"kyaung" if Chinese. Thus the Hpawte River may be written
Hpawte Kha or Hpawte Kyaung.

The term "road" is used for the main highways in northeastern
Burma, at least where there are government rest houses at the
regular intervals. Except for a short distance out of Myitkyina,
where it is possible to drive an automobile, these highways are not
"roads" in the ordinary sense. They are mule trails, and usually
too narrow, in the mountains especially, to allow the passage of
an ordinary wheeled vehicle. Most of them are well laid out, follow
easy grades, and have a good surface. No labor has been spared to
make them very good highways for mules and pedestrians. The
highways which do not have rest houses may not be as well planned
or in such good order. Some of them, such as the one from Gangfang
across the Nyetmaw Pass around the flank of Imaw Bum, have
steep pitches and poor footing and are particularly troublesome
when snow and ice occur.

Black Rock. — A rest house on the road from Htawgaw to
Gangfang located a short distance west of the junction of the Moku

44 OSGOOD TESTIMONIAL VOLUME

River and the Ngawchang River, altitude about 4,600 feet. Black
Rock is in a narrow river valley which is cultivated at intervals.
Where cultivation has not removed the forest, it consists of uni-
formly open pine and alder association with deciduous oaks. In
some of the ravines there are thickets of subtropic jungle where
dense green foliage persists in winter. The prevailing type of forest
is characterized in winter by bare limbs (except for the pine) and
the ground littered with fallen leaves.

The only collecting at Black Rock was done in transit as it was
a one-night stop both going and returning.

Changyinku. — A small native village on a well-traveled mule
trail across the Panwa Pass into Yunnan. It is about three and a
half miles from the pass and the elevation is approximately 7,000
feet. The district is a wide, open valley drained by the headwaters
of the Chipwi River and has been rather extensively cleared for
cultivation and for grazing. Ecologically it is very distinct from all
other collecting stations visited by the expedition. There is a
small rest house on the trail and the expedition made this its
headquarters from March 9 to 16.

Forest occurs in pockets throughout the Changyinku district
but is nowhere very extensive. To the eastward rises the divide
which is the height of land between the Shweli drainage in Yunnan
and the N'mai River in Burma. Along the ridges working up to
the divide, forest is much more dense than in the open valley and
in some places appears to be of a pure climax type. A conspicuous
feature of the valley is a species of tree rhododendron, Rhododendron
delavayi, with large scarlet flowers in bloom at the time of our visit.
The region is well watered and some of the meadows are boggy.
Along these small watercourses dense thickets of shrubbery and
some large trees may be found. In such places the best trapping
was encountered, although, in general, the trapping at Changyinku
was rather disappointing. A species of deciduous oak grows in
groves here and there throughout the valley and the low hills,
but there is very little ground cover under the oaks and apparently
a very poor population of small mammals. The valley is rather
densely populated for this section of northeastern Burma. Where
the fields have not been plowed and put into crops there is an abun-
dance of open meadow and a tall bracken occurs plentifully. The
Panwa Pass itself is low, only 7,684 feet, and on the Yunnan side
of the divide there is a preponderance of pine forest.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 45

Changyinku experiences many earthquakes, for it is not far from
an epicenter and quakes may be experienced several times each day,
often accompanied by a rumble like distant thunder.

Chimeli. — A camp on the mule trail about two miles in a direct
line from Chimeli Pass, which crosses the divide at 12,664 feet.
Stanford and I collected from February 5 to 12 from a camp con-
structed by our natives at the side of the trail. This was one of
the best collecting stations for small mammals, but we were handi-
capped somewhat by snow and bad weather, which interfered with
our freedom of action. There is very little travel over this trail in
midwinter and the upper stretches are probably impassable for a
mule when there is a foot or two of snow over the rocky intervals.
Our camp was located at about 10,300 feet but the trail climbs
rapidly at this place and collecting covered an interval of perhaps
500 feet above and below this elevation.

There is no burning of the forest or other interference by the
natives with the ecology this near to the Chimeli Pass. The gorges
and ridges are heavily clothed with substantial forest and there
are few natural openings, aside from slopes too rocky to support
trees. Conifers are represented by fir, which is the most common
evergreen, and by hemlock. At the higher elevations, heading the
ravines, the coniferous forest is predominant. At the lower levels
there are oaks, both deciduous and evergreen, and rhododendrons.
Bamboo thickets are common and at 10,000 feet and lower the
canes are of substantial size. A smaller variety of bamboo goes
considerably higher in elevation. There are a number of different
shrubs and small trees making up the undergrowth, such as Rhodo-
dendron (several species), Buddleia, Berberis, Hydrangea, Gaultheria,
and various ericaceous species. The plant associations are definitely
palearctic in their relationships.

The minimum temperature recorded at this camp was 21° F.
During the day the temperature in the shade ran from 48° to 60° F.,
with sun temperatures as high as 90° F.

Chipwi. — A government "bungalow" or rest house on the
main road up the valley of the N'mai River; altitude 764 feet. The
only collecting done here was on the one-night stops going and
returning. The valley is rather open at this point and the vegetation
is characteristic of the hot lowlands. Heavy forest, which might
almost be described as tropical jungle, occurs in favored localities
along the road, but for the most part the vegetation is confined to
shrubbery and scattered forest not to be described as jungle.

46 OSGOOD TESTIMONIAL VOLUME

There are caves two or three miles from Chipwi to the east of
the mule road and these were visited by Stanford the day we left
Chipwi, April 7, on our return to Myitkyina.

Gangfang. — Spelled on some maps as "Kangfang." The govern-
ment bungalow at Gangfang is situated at the junction of the
Ngawchang and the Hpawte rivers. This was the principal base-camp
of the expedition and considerable collecting was done at this point.
The party operated out of here for Imaw Bum, the Nyetmaw River,
and the Chimeli camp. The name is applied, in a loose sense, to
an agricultural district along the river valley and some maps have
two villages of this name, the one on the east and the other on the
west bank. The one used by the expedition is the trading post and
located at the precise junction of the two rivers. The altitude on
the map is 5,403 feet.

The river valley at Gangfang is moderately open and most of
the primeval forest in the valley itself has been burned off by natives
in order to secure fields for cultivation. There are a few groves of
sizable trees here and there along the river and up some of the
tributary ravines, but undisturbed climax forest can not be reached
until one has climbed some distance out of the valley.

All of our mammal collecting was done within a radius of a mile
or two from the trading post and within the confines of the valleys
and ravines.

The region is quite well watered and nearly every ravine of any
size carries a small stream along which vegetation is usually fairly
heavy. The cultivated fields are terraced for rice paddies, but
where forest has been removed and the slopes are not used for
active cultivation there are thickets and low shrubbery and a dense
stand of bracken. Temperatures in January dropped as low as
26° F. at night and most nights it was cold enough to form thin ice.
The days averaged fairly clear and often a brisk wind came up about
noon and blew all afternoon.

A number of specimens were brought in to us at Gangfang by
natives who came from small villages or communities nearby. These
specimens were labeled "Gangfang" when nothing more definite could
be learned although often it was possible, upon inquiry, to assign
a locality more precise than Gangfang and yet discernible on a map.

Gangfang was the limit of our mule transport and our moves
north and east of this place utilized native packers. These people
dress rather lightly for the colder weather encountered at elevations
from 9,000 feet up and they were obviously uncomfortable, especially

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 47

at night, in our upper camps. Owing to the rapid ascent from the
river valley, it was possible to reach regions with snow and a real
winter in a single day's travel from Gangfang.

We occupied Gangfang from January 1 to 14, February 1 to 4,
and February 13 to 19.

Gawlam. — A native community between Tangtung and Gang-
fang, about a mile and a half from the former. The source of some
native-collected material. Altitude about 5,200 feet.

Hkamkawn. — Also spelled "Gamhkawn" and "Kham Kham."
Altitude on map 4,080 feet. A sizable agricultural village in the
valley of the Ngawchang River near the junction of the Munglang
River. This is on the main road from Htawgaw to Hpimaw, one
day's march northeast of Htawgaw. There is a government bun-
galow at Hkamkawn and the expedition collected there on the way
up to the base camp from December 27 to 30, and on the return
from February 28 to March 3.

The valley of the Ngawchang River in the vicinity of Hkamkawn
is moderately open in profile and a compromise between the narrow
mountain gorge and the broad valley of the lower foothills. Most
of the original forest has been burned off to clear land for agriculture
and many of the slopes are terraced for cultivation of rice. Pines
and alders occur where the natives have not destroyed the trees.

The fauna of this region has relationships both with the mammals
of the temperate mountain zone and with the hot, dry lowlands.
Plant life takes an early start and on the last day of February we
found new leaves on the trees and shrubs and peach trees in bloom.

Hpare. — Altitude on map 5,864 feet. A village in the valley of
the Hkaingshang River. This valley has, for the most part, been
denuded of the original vegetation and is occupied by a relatively
large population of natives. The village of Hpare is larger than
most of the mountain villages we encountered. It is situated on
one of the main mule-roads to the Chinese frontier which one may
cross at either Hpare Pass or Panwa Pass. There is a government
rest house at Hpare.

Collecting was done at Hpare from March 7 to 8 and from March
20 to 28.

The main valley at Hpare is fed by a number of tributary ravines
each of which carries water, and up these one may encounter forests
of good-sized trees. The climax forest begins on the upper flanks
of the ridges hemming the valley. Second growth in the deforested

48 OSGOOD TESTIMONIAL VOLUME

valley takes the form of low shrubbery, brambles, and dense stands
of bracken. Magnolias, rhododendrons, cherries, and alders are
common features along the valley.

Traps were scattered out in each of the several types of environ-
ment and the least number of specimens was secured in the nearest
undisturbed primeval forest, which appeared to have great possi-
bilities but proved to be surprisingly poor as a collecting site. This
forest was densely undergrown, dark and damp; it was the home
of Lady Amherst pheasant, one of which was seen while I was run-
ning traps.

Minimum temperature recorded, 40° F.; maximum sun tempera-
ture, 90° F.

Hpare-Saidang Road. — A camp on the mule road from Hpare to
Saulang a short distance south of the highest pass, which is about
8,400 feet in altitude. The camp was at an approximate elevation
of 8,200 feet, and traps were set out both up and down the trail.
This was a very interesting collecting site for the small mammals
but unfortunately we encountered so much rain that our tenting
facilities were inadequate, more especially for the numerous retinue
of natives who were trying to keep dry under leaf-thatched shelters,
and camp was moved on March 20, having been set up on March 17.

The trail from Hpare to Saulang crosses an elevated ridge, after
a long climb out of the valley of the Hkaingshang River, and then
starts an equally long descent toward the headwaters of the Chipwi
River. The camp was located to explore this ridge, which was
covered with splendid climax forest undisturbed by the hand of
man. A predominant feature of this forest is the magnificent tree
rhododendron, Rhododendron sino-grande. Hemlocks and oaks also
occur. The undergrowth in this forest is not very dense and one
can move about with more freedom than is usually the case in these
mountain forests. Heavy growths of ferns and mosses cover the
ground, fallen logs, and rocks, and, with such an abundance of
cover, conditions favor the presence of small mammals. As usual,
the smaller ravines all carry water.

Trapping the first night at this place, before the rain set in, yielded
a very heavy catch. I was hunting along the trail with a headlight
that evening; one trap had a specimen as I looked at it on the way
down the trail and another one when I returned. However, with
the advent of the rains the number of specimens caught fell off very
sharply and seemingly the inclement weather discouraged activities
of the small mammals.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 49

This region, in common with Saulang and Changyinku, experi-
ences many earthquakes, some of them with amplitude sufficient
to break dead limbs from the trees. We noted as many as fifteen
or more separate tremors on the most active days, and at least four
or five on quiet days.

Hpare Pass. — A camp occupied by Ward and Stanford from
March 23 to 27, at about 8,500 feet altitude, a short distance before
reaching the pass itself. The Hpare Pass is about four miles south
of the Lagwi Pass and about five miles southeast of Hpare; I believe
it is not used by travelers into Yunnan as often as the Lagwi and the
Panwa passes.

This camp was described to me as being in climax forest and a
desirable collecting site, although inferior, according to Ward, to the
Hpare-Saulang camp.

Hpawshi. — A native community about two miles, on the map,
southeast of Gangfang; altitude 6,297 feet, with high surrounding
ridges and considerable climax forest.

Hpawte. — Also "Pawahku" and "Bawahku" on maps; altitude
about 7,500 feet. Stanford and I stopped overnight at the rest
house in this village on February 4, en route to the Chimeli camp,
and on February 12, as we returned to Gangfang. I set out trap
lines on both occasions.

This is an agricultural community, with natives scattered along
the valley of the Hpawte River, and a fair-sized village. Forest
has been removed from most of the valley and up quite a distance
on many of the slopes which confine the valley. Tall bracken,
occasional shrubbery, and tangled brambles have come in as second
growth. At this place shrews seemed very abundant in the bracken
and tall grass.

Hpimaw. — A community, indicated on some maps as a large
village in the main river valley (headwaters of the Moku River),
an abandoned military post much higher in elevation than the
village, and two small outlying villages situated back in the hills.
There is a rest house on the site of the former Hpimaw Fort and
the expedition stayed there from February 20 to 27. The altitude
at the rest house is about 7,500 feet but the fort is located along
the narrow crest of a ridge and slopes are steep. Past the fort a
good mule trail follows the ridges back to the Hpimaw Pass where
it crosses the divide, at 10,388 feet, into Yunnan.

50 OSGOOD TESTIMONIAL VOLUME

Most of the open valley, from the main village of Hpimaw
downstream practically to the junction of the Moku River with
the Ngawchang River, has been stripped of forest and we saw
more intensive agriculture here than anywhere else in northeastern
Burma. The natives have burned off the primeval forest along most
of the ridges even higher than the site of the fort. Eventually,
as one follows the trail (almost southeast) toward the Salween Divide,
climbing steadily, splendid, undisturbed climax forest is entered.
Strips of this forest run down ridges and ravines like fingers, in
some instances, but the continuous stand of large trees begins at
about 9,000 feet and thereafter extends unbroken to the upper slopes
of the divide, many of which are rocky and bare. At this time of
year the peaks are well whitened with snow and deep drifts lie in
the dark woods. Clouds are seldom out of the sky, rain falls fre-
quently, and the forest has little in it that is dry.

Prominent plant species in this forest include hemlock, conspicu-
ous from 9,000 feet and up; oaks; many species of Rhododendron,
both tree and shrubby forms; Gaultheria; V actinium; and broad-
leaf evergreen trees unknown to me.

Hpinlawkha. — The Hpinlaw River, a small stream cutting the
main mule road from Hkamkawn to Black Rock, about midway
between these two rest houses. This is in the Ngawchang River
valley at an altitude of about 4,200 feet. Vernay, Cutting, and
Ward camped here on February 8. The region is in mixed pine,
alder, and oak forest.

Htawgaw. — An important locality for northeastern Burma
because it is a post of the military police, has a telegraph station,
a post office, native stores, a mission school, and serves as a clearing
house for all the activity in the back country. It is located along
the crest of a ridge lying between the Ngawchang and Hkaingshang
rivers and the altitude at the rest house is 6,025 feet. The native
village comprises a fair number of houses and in addition are the
more substantial structures put up by the Burma Government.
Most of the terrain is sloping and the community is perched wherever
there is enough level ground available.

The expedition was in Htawgaw from December 24 to 27, March
3 to 6, and March 28 to 31. Vernay, Cutting, and Ward also passed
through Htawgaw at other times.

Forest has been removed from most of the accessible slopes of
the Htawgaw Ridge, at least those with a western exposure. Pines

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 51

are a conspicuous part of such forest as remains on the ridge, but
down in the adjacent river valleys broad-leaf trees prevail. Second
growth about Htawgaw is characterized by heavy stands of tall
bracken, shrubbery such as Buddleia and Luculia, and brambles.
On the northern slopes, extending down into the fork where the
rivers meet, the clearing operations have not been so extensive and
forest is continuous enough to be used by bands of gibbons.

When we reached Htawgaw at the end of March we found the
sky darkened by the smoke of several large fires. This was near
the end of the dry season and the proper time to fire the dried-out
slashings. This practice of deliberately burning off square miles of
steep mountain sides for the sake of cultivating a small percentage
of the cleared areas is ruinous of the primeval ecology. The impress
of this exploitation exists as deep scars upon the terrain and each
year these grow broader as new fires are set and deepen as erosion
attacks the openings of the previous years.

Imaw Bum. — One of the highest mountain masses in the north-
eastern corner of Burma, the elevation for the peak being 13,369
feet. It lies within a deep loop of the Ngawchang River, at about
23° 10' N. Lat. and 98° 30' E. Long. It is about seven miles in a
straight line on the map from Gangfang to where we had our base
camp on this mountain, but it required three days of travel to get there.

Our camp consisted of a large, thatched shelter, put up for us
by natives who went up some days in advance, with several small
shelters, and our tents. The spot selected was below the Nyetmaw
Pass, on the bank of the Chaungmaw River which drains Imaw
Bum to the north, and at about 9,000 feet altitude. We worked
out of this camp from January 16 to 24. Snow was on the upper
ridges and we found it impractical to attempt a camp nearer the
summit of the mountain.

Even in this relatively remote region we discovered that fires
had swept away large patches of forest along the valley of the
Chaungmaw River. Thickets of bamboo have replaced the primeval
forest of fir, larch, hemlock, rhododendron, oaks and other broad-
leaf trees, and bamboo is now the dominant plant in many places.
During our stay fires were started, not a great distance down the
stream bed, and burned day and night, sections of bamboo exploding
like gun-fire. The smoke interfered with our work and the natives
attempted to put out the fire but with no lasting effect.

The river bed was heavily ice-bound; temperatures dropped as
low as 8° F. at night and did not exceed 69° F. when the sun was

52 OSGOOD TESTIMONIAL VOLUME

shining. Smaller tributaries of the main stream, coming out of the
steep lateral ravines, were flowing freely and proved to be the
best trapping sites. On some nights the traps did very poorly and
the activity of the small mammals seemed to have a rhythm, perhaps
associated with the weather.

Kumaw= Ku-maw. — On the Ngawchang River at an altitude of
2,000 feet. Visited February 2 by Vernay, Cutting, and Ward on
their circuit about Imaw Bum.

Langyang. — A rest house on the main road from Laukhaung
to Htawgaw, in a small agricultural community. It is one march
from Htawgaw, well above the Ngawchang River; altitude about
4,600 feet. The expedition had only two one-night stops at Lang-
yang. As is so often the case along the mule road, this region is
alternate clearings and patches of undisturbed forest, but most of
the climax ecology has been destroyed near Langyang itself.

Laukhaung. — Also spelled "Lauhkaung" and "Laukkaung." A
post of the military police, a center of activity for the foothill region,
and a fair-sized agricultural community with a native village, one
day's march from Chipwi on the N'mai River. Altitude 4,366 feet
for Fort Laukhaung on the map and about 4,000 feet for the rest
house at Rukchang, where we stopped.

This region has been burned off, the second growth is uninterest-
ing, and mammal collecting was poor. Traps were set out on
December 20 on our way up-country, and from April 4 to 6 on
our return.

Luksuk. — A rest house one day's march from Htawgaw, on
the road to Hpare. In the valley of the Hkaingshang River; altitude
about 5,200 feet. Traps set out the night of March 6, in region of
second growth and a few patches of original forest missed in burning.
More cleared areas than otherwise along the river in this general
region, but not a very large native population.

Ngawchang River. — Altitude 1,800 feet. A camp of Vernay,
Cutting, and Ward, January 30 and 31, on their trip about the
western foothills of Imaw Bum.

Nyetmaw River Camp. — A temporary camp — tents — on the upper
waters of the Nyetmaw River, on the east flank of Imaw Bum;
altitude about 8,500 feet. This was on the trail over the Nyetmaw
Pass, altitude 10,221 feet, about an hour's walk below the pass.
Stanford and I worked from this camp from January 24 to 31 and
found this region to be one of the best collecting sites visited. Tern-

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 53

peratures dropped as low as 27° F. at night and went as high as 91° F.
in the sun.

The Nyetmaw River at this point is a small mountain brook,
easily crossed without wetting one's feet, and the hills rise steeply
back from the river. Splendid climax forest extends in an unbroken
stand for here the natives have not yet brought fire. The common
trees include oaks (several species, deciduous and evergreen),
Rhododendron magnificum (a large tree reaching a height of fifty
feet and a diameter of a foot or more), a red-barked birch, a Hepta-
pleurum, and a number of broad-leaf evergreen trees. Up on the
ridges hemlock occurs and everywhere bamboo springs up where a
fallen tree provides an opening. The undergrowth is not especially
heavy but there is an abundance of ground cover. Shrubs include
a number of species of Rhododendron, a Berberis, Gaultheria, Vacci-
nium, and other plants with palearctic affinities. In occasional
openings where sunshine could strike through, a primrose, Primula
whitei, was in bloom. Ample evidence of spring was to be seen
although the calendar told us that it was midwinter.

Everywhere the ground was damp; moss and ferns grew along
the watercourses and about fallen logs and stones. In most places
the forest canopy kept the ground well shaded and only where the
bare limbs of deciduous trees predominated could one see much sky.

Pyepat. — A government bungalow or rest house on the principal
mule road one day's march northeast from the Laukhaung military
post. Altitude 6,300 feet.

The rest house is situated on the narrow top of a small ridge;
there is no native village in this locality and no structures other
than those erected for the convenience of travelers.

The Pyepat Ridge is a long divide rising from the confluence of
the N'mai and Ngawchang rivers, about twenty-five miles due
north of the rest house. It continues to the south and southeast
and finally reaches the height of land forming the boundary between
Burma and Yunnan. It is not clear from the map just how low the
crest of the ridge may drop before its eventual consolidation with the
main divide with its elevations of 10,000 feet and more, but in
general the Pyepat Ridge holds up to 7,000 to 8,000 feet. It seems
a fair assumption that the ecology of the ridge is closely associated
with the wet mountain environment which characterizes the main
mountain masses of northeastern Burma. Pyepat Ridge is interesting
as a long, narrow intrusion of temperate flora and fauna into the
tropical ecology found in the two river valleys.

54 OSGOOD TESTIMONIAL VOLUME

Coming up from Laukhaung in the morning of December 21,
we left an altitude of 4,000 feet, the open hillsides dry and hot,
the facies of the environment with a pronounced tropical character.
After a continuous climb of six or seven miles we reached the pass,
about 7,400 feet, and arrived on the eastern slopes of the ridge.
There was an abrupt change. In the shady portions of the trail,
crystals of frost were in the ground. Splendid climax forest of
temperate affinities stretched in an unbroken mass as far as we
could see. Under the trees the ground was damp, the banks along
the trail were covered with dense masses of ferns, mosses, and bego-
nias, with an occasional Primula, several species of orchids, seedling
rhododendrons, gentians, and a host of other plants. The forest
trees included many species but among the commonest were oaks,
laurels, and rhododendrons.

The slopes of the Pyepat Ridge fall away sharply both to the east
and the west and the only means of covering any distance is to
stay on the mule trail. Once off the trail it is necessary to cut
a way through vegetation, and footing is very precarious. Down
the slopes to the west the forest follows some of the ravines and
better-watered slopes, although the character of the species com-
posing it changes as one enters the warmer zone. On the eastern
slopes the forest spreads in a sheet to reach the valley of the Ngaw-
chang River, about three miles from the rest house and perhaps
2,000 to 2,500 feet lower, where the mule trail crosses it. Along the
valley of this small mountain stream the forest has assumed many
tropical features but here it is humid tropics and not the semi-
arid tropics of the west slope. Precipitation appears to be much
heavier on the east face of the Pyepat Ridge than on the west.

We collected from the Pyepat rest house from December 21
to 23 and from April 1 to 4.

Rawngaw=Rawng-aw. — Vernay, Cutting, and Ward stopped
from January 27 to 29 at this Maru village, 4,200 feet altitude, on
their trip around the northern and western periphery of Imaw Bum.
This village is located not far from the lower Ngawchang River,
between five and six miles from its juncture with the N'mai River.

Sadulaw. — A native community about a mile to the westward
of Vijawlaw; about four miles on the map, from Gangfang, in a
northeasterly direction. Altitude about 6,600 feet and with high
surrounding ridges carrying climax forest.

Saulang. — Also spelled "Sukiang." A rest house on the mule
road from Hpare, one day's march, to the Panwa Pass. Altitude

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 55

about 6,500 feet. Two nights, March 8 and 16, were spent at this
station. Very little native population near this spot, which is
primarily for the convenience of travelers.

The rest house is located in the valley of a small tributary of
the upper Chipwi River. Very little, if any, climax forest in this
general region. The bare slopes back toward the Hpare-Saulang
Pass were colorful with the purple blossoms of a primrose, Primula
denticulata, in great drifts. Undisturbed forest runs down some of
the ravines but much of the shrubbery along the river's course is
second growth. Rain at Saulang the night of March 8 was snow
on the slopes above at 8,500 to 9,000 feet. On March 16 I found
peaches and a wild cherry, Prunus puddum, in full bloom, and heard
frogs calling.

Trapping was poor about the rest house and not much better
in a damper, more promising environment along the river.

Seniku. — A regular stopping place, with a government bungalow,
on the mule road up the valley of the N'mai River. Altitude 1,150
feet. Only one-night stops made here, December 15 and April 10.
This region is in the hot lowland zone; stands of large forest trees
are intermittent. It is possible for an automobile to reach Seniku
and I returned from here to Waingmaw, across the Irrawaddy from
Myitkyina, in about two hours. It had required three days with
our mule train to reach Seniku in December.

Shingaw. — A rest house, one day's march northeast from
Seniku, and still in the open, hot valley of the N'mai River. Altitude
750 feet. Stopped here only for the night on December 16 and
April 9. Forest occurs in undisturbed areas and is definitely tropical
in character. Second growth is tangled and uninteresting.

Tamu. — A rest house in the N'mai River valley a day's march
from Shingaw to the south and from Tanga to the north, on the
well-traveled mule road to Laukhaung. Altitude 724 feet. Stopped
here the nights of December 18 and April 7. In the semi-arid tropic
zone with pretty fair jungle in some of the ravines, but with many
open, monotonous stretches of trail.

Tanga.— A rest house, at 900 feet altitude, in the valley of the
N'mai River, a day's march south of Chipwi. In the tropical zone
with fair jungle in some of the ravines. Stopped here December 17
and April 8, overnight.

Tangtung. — A rest house, a day's march south of Gangfang, in
the valley of the Ngawchang River. Altitude 5,077 feet. Stopped

56 OSGOOD TESTIMONIAL VOLUME

here overnight on December 31 and February 19. A small native
community is located here and much of the original forest has been
removed. Wet ravines and precipitous slopes still retain thickets
and groves of interesting ecology. The influence of the nearby
high mountains is shown in the amount of water in the ravines,
the temperate characteristics of most of the flora, and the lower
temperatures.

Tsonma. — A small native village at 6,046 feet elevation on the
ridge which rises from the junction of the Nyetmaw River with the
Ngawchang. On the map this distance from Gangfang west to
Tsonma is little more than a mile, but it is several times that by the
trail which climbs two ridges and descends into two ravines to get
there, requiring several hours of arduous travel. The expedition
camped near Tsonma on January 14, en route to Imaw Bum, and
Stanford and I camped on the ridge above Tsonma on January 31,
returning to Gangfang. On specimens this station is recorded as
"Above Tsonma." The altitude by barometer is about 8,300 feet.

This camp, of January 31, was just below the high point of the
trail, on the east slope of a long ridge which is a prominent feature
to the northwest. This is probably the same ridge later crossed
at the Nyetmaw Pass and one of the ribs of Imaw Bum itself. The
forest on the east side of this ridge is quite different from that on the
west side and the upper valley of the Nyetmaw River, where we
had just collected at approximately the same altitude. The Tsonma
slope is heavily forested, the trees large, close together, and with
very little undergrowth. The predominant species are oaks, one of
them Quercus imbricata, and on the lower fringes of the forest, before
we came on to the areas burned off by the natives, the leafless decidu-
ous oaks looked like a dead forest. Higher up the presence of broad-
leaf evergreen trees takes away from the lifeless appearance of
these woods. The mountain slopes are quite steep, the trail descends
abruptly, and one can not wander at random through the forest.

Vijawlaw. — A native community about five miles northeast of
Gangfang, up a tributary of the Hpawte River. Altitude about
6,600 feet and back country up to 11,300 feet, with undisturbed
climax forest.

The operations of our expedition were greatly facilitated by the
fullest co-operation of various officials in the Burma government
and grateful acknowledgment is hereby given. The admission of
much equipment and supplies into the country, the transportation
of this by rail and mules to Gangfang and thence by man power

Field Museum of Natural History

Zoology, Vol. 27, Plate 2

GANGFANG

A trading post, the base camp of the expedition and site of much collecting

NGAWCHANG RIVER WITH GANGFANG IN BACKGROUND

THE UBBMW
OF THE

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 57

required planning and assistance from a number of individuals in
Burma and everyone was most helpful. Especial thanks are due to
Mr. R. E. McGuire, I.C.S., the Deputy Commissioner of Myit-
kyina, and to Mr. J. W. McGuinness, Burma Frontier Service, the
Assistant Superintendent of Laukhaung, for their assistance in an
official capacity, and to the Rev. L. R. Dudrow, Baptist Kachin
Mission, for help with native personnel.

Professor F. J. Meggitt, of the University of Rangoon, met me
when my steamer docked, early in the morning, tendered me the
full hospitality of his quarters on the campus, and did everything
in his power to assist the plans of the expedition and to make my
sojourn in Rangoon a pleasant one. His help and his friendship
were an expedition asset. To recall by name the other residents of
Rangoon who gave freely of their time and advice would make a
list too long to include in this report, but their assistance is no
less appreciated because un-itemized.

I wish to express my appreciation of the co-operation I have
received, in studying this collection, from Field Museum of Natural
History. The loan of critical material for comparison and the com-
ments of Dr. Wilfred H. Osgood, in correspondence on moot points,
have been very helpful in guiding me to decisions.

Finally, I desire to acknowledge the extensive assistance given
me by Mr. T. D. Carter, Assistant Curator in the Department of
Mammalogy of the American Museum, who has studied this collec-
tion with me, made provisional identifications, laid out the literature,
and in many ways taken over the time-consuming details involved
in handling a collection of this size. His field experiences in western
Szechwan and in Indo-China and study of the mammals he collected
there have made his opinions on the Burma mammals very useful
to me.

Throughout the study of the mammals collected by the expedi-
tion, Dr. G. M. Allen's monumental monograph, "The Mammals of
China and Mongolia," has been of great assistance. The full descrip-
tions, the distributional maps and the listing of specimens examined
have all been very helpful. Many of the mammals in this part of
Burma are identical with or have their closest relationships with the
fauna of Yunnan, or of other parts of China covered by the report.
The Chinese mammals in the American Museum have been identified
by Allen and are available for comparison. Furthermore, Allen
inspected types and other specimens in the British Museum, so
that many elements of uncertainty with regard to our material

58 OSGOOD TESTIMONIAL VOLUME

have been removed. The American Museum collections have but
a very meager representation of the small mammals west of Burma.
No museum in America has an adequate collection of the mammals
of India and this material is greatly needed. There are many
questions of identification and distribution which can not be solved
until such a collection is available.

Under the discussions of the various species I have commented
somewhat upon the association factors observed, the nature of the
flora, the probable relationships to a palearctic or an oriental fauna,
and topics which should, perhaps, receive some attention, con-
sidering the collection as a whole.

Most of the specimens collected were taken at mountain eleva-
tions, from regions of temperate winter conditions, and from well-
watered localities. That part of our itinerary which lies within the
hot tropics, the dry or semi-arid tropics in this case, was traversed
as rapidly as possible and the collections received a very small
increment there; consequently the affinities of most of the mammals
collected are with the palearctic fauna, with the mammals of China,
Tibet, and mountainous India, with groups that have a distribution
in both the eastern and western hemispheres north of the tropics.
Many of the dominant plant species in the mountains where we
collected would look equally at home in North America, if one left
off the spectacles of specific focus, and the same remark holds true
for such mammals as the voles, the shrews, and the pikas.

One of the noteworthy features of this mountain collection is
the large representation of shrews of two distinct subfamilies and
of many genera. The shrews and the shrew moles would sometimes
make up half or more of the catch from a long trap line. One or
more varieties of shrews could be confidently expected whenever
one set traps in the type of environment they prefer. Shrews were
taken from the streams, from subterranean burrows, and running
at large over the ground. Apparently this region has a particularly
large representation of the Soricidae and I have never had experience
with so many varieties on a single expedition.

Neotetracus sinensis cutting! subsp. nov. CUTTING'S
INSECTIVORE.

Type from Hpimaw road, above Hpimaw fort, northeastern
Burma. Altitude 9,000 feet. No. 115,503 American Museum of
Natural History. Adult male. Collected February 23, 1939, by
H. E. Anthony. The type is a skin and skull in good condition,
with the trunk preserved in alcohol.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 59

General characters. — Closely resembling Neotetracus sinensis
sinensis in size and general appearance but noticeably darker along
the dorsal region and under parts more buffy.

Description. — Color above, mixed cream color and black, the
dark predominating; three types of hairs, black, cream color, and
cream tipped with black, combine to produce a brownish olive tone
with almost a greenish cast in some lights; bases of hairs blackish;
an ill-defined blackish dorsal band extends from crown to base of
tail; hands and feet light brown, the latter with a band or streak
of cream-colored hairs from ankle to tip of second and third toes;
ears dark brown, thinly haired; tail above, light brown, below, cream-
colored; under parts uniformly washed with cream color over black-
ish base.

Skull with slender nasals, premaxillae extending well up on
superior face of rostrum and with long, pointed posterior extension
between maxillae and nasals; braincase moderately rounded; zygo-
mata flaring; palate with some fenestration posteriorly, but openings
small; upper toothrow long, first incisor well developed, the highest
in the row, incisors three in number; canine small; premolars three,
the last molariform; first two molars large, subequal, last molar
about one- third as large; lower toothrow with same number of
teeth as above; first incisor elongate, subspatulate; last premolar
high and pointed; last molar about half as large as preceding molar.

Measurements. — Taken in the flesh: total length 175; length of
head and body 114; tail vertebrae 61; hind foot 25. Skull: greatest
length 32; basal length 29; length of nasals 10; palatal length 18;
zygomatic breadth 17.5; mastoid breadth 13; breadth across upper
molars 9.8; length of upper toothrow 16.4; length of lower tooth-
row 15.3.

Specimens collected. — 25: Changyinku, 4; Hpare Pass, 2; Hpimaw
road, 17 and 2 in alcohol.

The specimens in the series of twenty-three skins of this new
form are consistently darker above and more buffy below than in
the good series of N. s. sinensis available for comparison. These
latter were collected by Andrews and Heller (American Museum
Asiatic Expeditions) in Yunnan at no very great distance from
Hpimaw. The Burmese animals may be readily separated on the
basis of color alone.

The series of N. s. cuttingi has also been compared with three
specimens of N. s. fulvescens from Tonkin, lent by Field Museum.
The Tonkin skins, collected November 29 to December 29, are in

60 OSGOOD TESTIMONIAL VOLUME

the winter pelage as are those from Burma, February and March.
The former show no trace of a median dark stripe above and this
would seem to be the best character of separation. They also show
a tendency to be a warmer brown in general color of upper parts
and less warmly colored on under parts, but these characters are
more the impressions of the series than a skin to skin comparison;
they are average differences.

There appears to be considerable individual variation in the
length and topography of the rostrum as displayed by the specimens
of Neotetracus at hand. Some specimens have rather short nasals
and the premaxillae are pinched off between the nasals and maxillae
without any marked posterior prolongation; in such cases the
maxillae make contact with the nasals. Other skulls have longer
nasals and the premaxillae extend posteriorly as narrow, pointed
slips and make contact with the f rentals; the maxillae do not meet
the nasals. Examples selected to show the extremes of this variation
look to be different species but both the Chinese and the Burma
animals display this variation, and in several degrees, so that taxo-
nomic significance can not be given it. There seems to be no correla-
tion with sex or locality, and the variation can best be interpreted
as individual.

Neotetracus was collected by the Vernay-Cutting Burma Expedi-
tion only at stations close to the Burma- Yunnan frontier. It was
trapped in cool, damp forest at elevations of 7,000 to 9,000 feet
and more. It was first trapped along the upper stretches of the
Hpimaw road, about two miles above the old fort, where forest
becomes continuous and winter snows occur. Here it was fairly
common in runways and burrows along the moss- and fern-covered
banks edging the trail and under logs, rocks, or any other good
cover. Rodents, shrews, and shrew moles used these same runways,
and signs of the presence of pikas were noted; it is impossible to say
that Neotetracus made the runways, but it seems to be an actively
ranging mammal and goes everywhere over the ground. This
particular environment was damp and dark, with an abundance of
ground cover. At Changyinku there is very little primeval forest,
probably none, left standing in the floor of the valley but there are
a few pockets of vegetation, shrubbery, and small trees, in some of
the short ravines that carry water, which afford dark, damp cover.
Neotetracus was taken sparingly in such places. One specimen was
trapped in a much more open situation, among bracken and rank
grass fringing a small stream in the open valley.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 61

This insect! vore is named for Mr. C. Suydam Cutting, a co-leader
of the expedition, and a generous supporter of many expeditions.

Tupaia belangeri chinensis J. Anderson. CHINESE TREE SHREW.

Tupaia chinensis J. Anderson, Anat. and Zool. Researches Western Yunnan,
p. 129, 1879.

Specimens collected. — 12: Gangfang, 6; Hpimaw, 1; Htawgaw, 1;
Laukhaung-Pyepat, 1; Ngawchang River, 1; Tamu, 1; Tangtung, 1.

These specimens were collected from an area not far removed
from Ponsee, Kakhyen Hills (Kachin Hills of Burma), where
Anderson took his first specimen of chinensis. They agree in all
particulars with a series of chinensis from Yunnan collected by
Andrews and Heller.

We encountered this genus only in the foothills and the drier
environments which penetrate the higher altitudes by way of the river
valleys. As we were hunting along the trails on our way to and from
main mountain ranges, tree shrews were noted sparingly in the
open stretches where shrubbery and sparse forest afforded cover,
and in the occasional patches of heavier forest in ravines and areas
not cleared for cultivation. The highest elevation recorded is 7,600
feet at old Fort Hpimaw. At this place all the primeval forest had
been burned off some years ago and the open valley of the Ngawchang
River provides an excellent highway for the invasion of lowland
forms.

Our failure to collect a tree shrew in the damp, high-altitude
forests does not provide positive proof that it does not occur there.
This animal resembles a squirrel so closely that it is well to have
a specimen in hand to be certain of the identity. Our experience
with this insectivore below the temperate forest zone inclines me
to the belief, however, that its distribution to the northward termi-
nates with the closing-up of the main river valleys.

Tree shrews were seen in the trees and on the ground. When
alarmed they seemed to prefer leaving a tree and seeking escape
through the ground cover. At Htawgaw, altitude 6,000 feet, I shot
one in the lower branches of a pine tree. At Gangfang, two were
caught in traps set on the ground. One of these had been devoured
or carried away and only the fore part of the skull remained in the
trap. Another tree shrew was suspected as being responsible for
this but when the same trap caught a weasel the next day this animal
also had to be considered as a possibility.

62 OSGOOD TESTIMONIAL VOLUME

Rhynchonax andersoni andersoni Thomas. ANDERSON'S SHREW
MOLE.

Rhynchonax andersoni Thomas, Abstract No. 100, Proc. Zool. Soc. Lond.,
p. 49, 1911.

Specimens collected. — 46: Hpare-Saulang road, 11; Hpimaw
road, 4; Imaw Bum, 9; Nyetmaw River, 11 (including 1 alcoholic);
road to Chimeli Pass, 11.

There is available for comparison with these specimens a series of
over eighty a. andersoni collected in western Szechwan by the Sage
West China Expedition and nine a. atronates Allen, including the type,
collected in Yunnan by the Asiatic Zoological Expedition. The
large series from Szechwan was taken north of Omei Shan, the type
locality of andersoni, but near enough for geographic proximity to
be a significant factor. A wide range of coloration is shown by
these specimens from Szechwan, some of which are so dark as to
be practically melanistic. Darker color is given as one of the char-
acters of atronates Allen (1923, p. 2), but there are individuals in
this Szechwan series considerably darker than any in the much
smaller series of atronates. The size of the third upper premolar,
described as "less reduced" in atronates, appears to be a rather
intangible diagnostic character, for the differences in size of this
tooth in specimens from Szechwan, Yunnan, and Burma are too
slight to be measured. Incidentally, this third upper premolar,
which is referred to by several authors as a "minute upper premolar,"
is large enough to be readily noted by the unaided eye and, it seems
to me, scarcely qualifies as "minute," in a relative sense. The third
upper premolar is very much smaller than the fourth, considerably
smaller than the second but approximately equal to the first.

The Burma series shows quite a range of variation in color and
if one had only extremes to compare there would be ample justifica-
tion for considering them as separate subspecies. Selected specimens
from the dark, damp forest along the Nyetmaw River, 8,500 feet
altitude, are much darker in color, have glossier pelage, and more
naked tails than shrew moles taken in more open forest along the
road to Chimeli Pass, 10,000 feet altitude. In view of the variation
shown by the large series of andersoni from Szechwan and the
presence of some intermediates between the extremes of the Burma
series, I can find no satisfactory basis for proposing new names and
fall back upon the one name for the lot, andersoni andersoni. I
consider atronates to be a synonym of andersoni not only on the
basis of the characters shown but on geographical grounds, since

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 63

the range of atronates appears to be midway of the range of andersoni
(as I am now extending it) and not isolated from it by virtue of
special conditions such as altitude.

We found the shrew mole fairly common in the mountain forests.
It was not taken in forests below 7,500 feet altitude, although at
some of the lower collecting stations we found an abundance of
shrews. On Imaw Bum, where Rhynchonax was first encountered,
it was trapped under logs and rocks in the same traps that took
Eothenomys and Apodemus. There was no evidence that the animal's
activities were subterranean or mole-like. My only previous
experience with shrew moles was with Neurotrichus gibbsii of western
Oregon, which I never caught on the surface but in underground
workings and that but rarely. It was a surprise, therefore, to find
the Burma shrew mole apparently as free-ranging and as active
over most environments as shrews and small rodents.

Our upper camps were all near to dark, damp, mossy banks and
ravines where ferns and other low vegetation provided good cover
for small mammals. Such spots usually yielded a good sample of
the small fauna of the region, and shrew moles seemed to be more
abundant in such places. Often they were caught in surface runways,
presumably those of meadow mice; some at the margins of clear
mountain brooks, in traps set among rocks. Occasionally a specimen
was caught in a comparatively dry spot, a ridge-top, for example,
but generally the best places were such as most shrews prefer.

Shrew moles come readily to bait and they run across traps set
in runways. They are active in some degree during the day but
most active after sundown.

Scaptonyx fusicaudatus affinis Thomas. THOMAS'S LONG-
TAILED MOLE.

Scaptonyx fusicaudatus affinis Thomas, Ann. Mag. Nat. Hist., (8), 9, p. 514,
1912.

Specimens collected. — 1 : Nyetrnaw River.

The American Museum has for comparison with this specimen
one skin and skull of S. fusicaudatus fusicaudatus from Szechwan
and two skins and skulls of S. f. affinis from Yunnan. The Szechwan
mole is larger than the one from Burma and has noticeably shorter,
crisper pelage, but the Yunnan specimens show closer accord,
although there are some differences which might justify describing
the Burma mole as new if only there were more specimens to rule
out individual variation. These differences include smaller size and

64 OSGOOD TESTIMONIAL VOLUME

proportionally longer tail for the Burma skin, and the size and
relative proportions of the upper premolars are not identical with
the Yunnan skulls. These latter characters, however, are indicated
as having questionable diagnostic value because even our scanty
representation of the genus suggests variation in the pattern of
one jaw as compared with the other side in the same skull. This
variation is in the size and prominence of the second upper premolar,
as compared to the third. In the two specimens of affinis from
Yunnan wear or injury has reduced a second upper premolar in
each skull so that it is smaller than its mate on the other side. The
unaltered second upper premolars in these skulls are not so large
as this same tooth in the Burma specimen, but whether this might
be used as a basis for separation must wait, for decision, upon the
accumulation of more material.

The Nyetmaw River specimen was caught, during the day, in
a mouse trap set across an open burrow. My field notes give the
following:

"January 28. Mole taken in trap set on damp hillside just above
floor of the little river valley. Had been digging for mole runways
and scooped out a shallow depression, cutting rather a poor-looking
runway that might have been Eothenomys except that the digging
was not easy at this spot. Do not know whether mole tripped the
trap in passing or was interested in the bait. Something had cut a
gash in the side of the animal.

"Have not seen any fresh mole 'earths' or any evidence of the
presence of moles except the many small runways opening to the
surface on every hillside or mossy bank and which are used by
Eothenomys, Apodemus, and shrews. Probably many of these are
made originally by moles. Digging must be difficult because of
roots, rocks, and shallow soil. In some places soil is frozen and
moles may not be making fresh runways until the rains start."

Parascaptor leucurus Blyth. WHITE-TAILED SHREW.

Talpa leucura Blyth, Journ. Asiatic Soc. Bengal, 19, p. 215, 1850.

Specimens collected. — 3: Gangfang, 1, in alcohol; Hpare, 1;
Pyepat, 1.

So far as I am aware, these specimens are the only representatives
of this species in any American museum and hence there is no com-
parative material at hand.1 However, the characters, as given in

1 Field Museum has one specimen from Adung Valley, Kachin Province,
Burma. — ED.

Field Museum of Natural History

Zoology, Vol. 27, Plate 3

SALWEEN DIVIDE
Viewed from ridge above Imaw Bum camp

•

NEAR CHIMELI PASS

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 65

the literature, are so distinctive that there is little difficulty in
identifying our material. Furthermore, Gerrit S. Miller, Jr. (1940,
p. 442) in a very timely paper on moles from southeastern Asia,
gives an excellent synopsis and had these three specimens for
examination.

I saw evidence of the presence of moles in several of our collecting
localities and spent considerable time in attempting to catch them.
At Gangfang, for example, their workings were visible as ridges in
most of the cultivated areas, in terraced rice paddies, and in the sand
and loose earth along the river. These moles are small and none
of my traps were effective in the small burrows. Most of the time
the burrows where traps were set would not be visited by moles
and when an active runway was located the trap was invariably
sprung or plugged by earth pushed ahead of the animal. The only
specimen trapped was caught near the Pyepat rest house in a
trap set in a damp ravine, placed under a log, on the surface of
the ground, for shrews or small rodents.

The mole recorded from Gangfang was bought from the natives
who caught it somewhere in that general district, the exact locality
unknown because the specimens changed hands several times before
reaching me. It was on the verge of decomposition and was pre-
served entire in alcohol. The specimen labeled from Hpare was
also collected by a native and brought in from outside, probably
from a higher elevation.

At Hpare the natives had done so well collecting Nectogale for
the expedition that I had hopes they could bring in moles if particu-
larly urged to do so. I observed one man patiently tearing up a
mole labyrinth but it was a futile proceeding because some of the
burrows turned under large rocks and thick roots.

Sorex cylindricauda gomphus G. M. Allen. ALLEN'S STRIPED-
BACK SHREW.

Sorex bedfordiae gomphus Allen, Amer. Mus. Nov., 100, p. 3, 1923.

Specimens collected. — 37: Gangfang, 1, in alcohol; Hpare-Saulang
road, 5; Hpare Pass, 2; Hpimaw, 2, in alcohol; Hpimaw road, 2;
Imaw Bum, 10; Nyetmaw River, 7; road to Chimeli Pass, 7 and
1 in alcohol.

The shrews in this series are all quite dark and a fair match in
color for the type specimen of gomphus which was taken at Mucheng,
Sal ween drainage, western Yunnan, 7,000 feet altitude, about 170
miles almost due south of where we collected. Typical cylindricauda

66 OSGOOD TESTIMONIAL VOLUME

ranges throughout western Szechwan and has been recorded in north-
western Yunnan. The Burma animals, therefore, bridge over the gap
between the two races, which seem to be only slightly differentiated.

Sorex c. gomphus has been represented heretofore by the type
specimen alone. This skin has a very short tail, only 39 mm. in
length, and the Burma specimens average about 50 mm. in tail
length. The color of the latter animals is a rich dark brown
appreciably darker than the color of c. cylindricauda from western
Szechwan (49 specimens compared) and northwestern Yunnan
(7 specimens compared). The dark dorsal stripe is not as con-
spicuous on the Burma shrews, in some cases indistinguishable,
because the contrast with the color of the upper parts is not as
great. In some of the large series from Szechwan the stripe is wanting
and hence may not be considered as an invariably constant character.
To judge from the material available, S. c. gomphus is characterized
primarily by slightly darker color. Possibly more material from
near the type locality will show that it has a slightly shorter tail
than c. cylindricauda but this character needs more than one speci-
men to substantiate it.

Shrews are a predominant part of the small mammal fauna in
all of the cooler, damper spots from about 5,000 feet altitude up to
tree limit in northeastern Burma, to judge from our experience.
Because of the superficial resemblance of many different shrews and
the difficulty of examining dentition at the skinning table, it was
not easy in the field to tell just what one was trapping and to co-
ordinate field notes as readily as for easily distinguished specimens.
As many as three varieties of shrews might come in the bag from
one night's trapping, and in order to carry through data on habitat
preferences it would be necessary to keep individual specimens
segregated from the trap to the catalogue. As regards any marked
restriction to particular environmental associations, the only shrews
with obvious limiting requirements were the specialized water
shrews. All others seemed to be satisfied with a generalized ecological
pattern and the same trap might take several distinct groups of
shrews over a period of a few days.

Soriculus leucops Horsfield. INDIAN LONG-TAILED SHREW.

Sorex leucops "Hodgson" Horsfield, Ann. Mag. Nat. Hist., (2), 16, p. Ill, 1855.
Soriculus macrurus Blanford, Fauna Brit. Ind., Mamm., p. 231, 1888.

Specimens collected. — 49: Gangfang, 9; Hpare-Saulang road, 14;
Hpawte, 3 and 1 in alcohol; Hpimaw road, 4; Imaw Bum, 2; Nyet-
maw River, 8 and 2 in alcohol; road to Chimeli Pass, 3; Vijawlaw, 3.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 67

The skins of this large series do not vary much in coloration.
They are a dark gray, which does not, it seems to me, agree very
well with the "blackish-brown" used by Horsfield in describing
leucops and Blanford in describing macrurus. And yet, our animals
must represent the same long-tailed shrew which Thomas (1921,
p. 499) reports from Imaw Bum as macrurus Blanford. Thomas
(1912, p. 132) described a "slaty grey" shrew, Soriculus Irene,
which would be a good name for our animals were it not for the fact
that he later (1921, p. 500) doubts the value of his own name and
goes back to macrurus. Allen (1938, p. 99) makes irene a synonym
of macrurus and it is difficult to reconcile Allen's description of
macrurus as a "pale gray" shrew with the color given by Blanford.

Because Thomas had comparative material and could use speci-
mens instead of interpreting some one's description of a color, I
follow him in dropping irene from consideration and going back
to an older name. According to Osgood (1932, p. 250), leucops of
Horsfield should be used instead of macrurus of Blanford. Allen
(1938, p. 100) concurs in these words: "Osgood is probably correct
in using Soriculus leucops Horsfield (who credits the name to Hodgson)
in place of S. macrurus." I take leucops then, despite the implication
that this name was used for a darker animal, and pass by irene with
its apparent applicability because this seems the most conservative
course to follow.

This gray, long-tailed shrew was usually to be found in damp
situations, or near streams, where moss, rotting leaves, and plenty
of ground cover made good hunting territory for these insectivores.
Most of the specimens were trapped in forested localities although
those taken at Hpawte came from an agricultural district where
primeval forest had been burned off and the uncultivated areas
were overgrown with bracken, brambles, and low shrubbery.

Soriculus caudatus Horsfield. HODGSON'S BROWN-TOOTHED
SHREW.

Sorex caudatus Horsfield, Cat. Mamm., Mus. East India Co., p. 135, 1851.

Specimens collected. — 34: Black Rock, 1; Gangfang, 17; Hkam-
kawn, 1; Hpare, 2; Hpare Pass, 3; Hpimaw, 1; Hpinlawkha, 2;
Htawgaw, 3; Tangtung, 4.

I am provisionally identifying these thirty-four specimens as
caudatus, although I have a strong suspicion that they are at least
subspecifically distinct from the animal known to Horsfield. The
habitat of caudatus is given as "Sikim and Darjeling, Upper India,"

68 OSGOOD TESTIMONIAL VOLUME

and it is unlikely that a Soriculus can range from Nepal to north-
eastern Burma without showing at least subspecific differentiation.
I am handicapped by a lack of comparative material. Although
I have been fortunate enough to secure three specimens of caudatus,
taken in Sikkim, by loan from Field Museum, I have no speci-
mens of baileyi, described from the Mishmi Hills by Thomas (1914,
p. 683), a form which should be considered. Thomas mentions only
the type, which has an imperfect skull, and some of the characters
he mentions fit the Burma series very well, especially the color
pattern. However, the latter do not appear to be quite as large as
the type of baileyi (which may prove to be about maximum); the
tail length averages about 65 mm. against 76, and the skull measure-
ments fall a little short of those given in the description.

Thomas makes a special point of the size of the anterior unicuspid
of baileyi, larger than in any other member of the genus. This tooth
in the Burma series is so nearly the same size of that in the three
skulls of caudatus from Sikkim that one might consider them iden-
tical. The skins of the Sikkim caudatus are a fair match in color
although as a series the Burma specimens are a cooler tone, less
brown, but selected specimens seem indistinguishable. The dark
under parts, only slightly lighter in tone than the back, help
to separate caudatus from leucops, a somewhat grayer and longer-
tailed shrew.

Our specimens of caudatus were taken mostly at intermediate
elevations, 4,000 to 6,000 feet altitude, with one from as high as
9,500 feet. Thomas has recorded this species from Imaw Bum (1921,
p. 499) but we did not take any there, although the catch of other
shrews was large.

Soriculus sacratus umbrinus G. M. Allen. ALLEN'S UMBER
SHREW.

Soriculus caudatus umbrinus Allen, Amer. Mus. Nov., 100, p. 5, 1923.

Specimens collected. — 38: Changyinku, 5; Gangfang, 4; Hpare, 9;
Hpare-Saulang road, 1; Hpawte, 5; Hpimaw, 5; road to Chimeli
Pass, 1; Saulang, 2; Tangtung, 2; above Tsonma, 2; Vijawlaw, 2.

The shrews of the above-listed series are small, dark animals
with comparatively short tails, a short hind foot, and dentition of
the caudatus pattern. Selected individuals match very well with the
type and four topotypes of umbrinus, which was described as a sub-
species of caudatus, but the series as a whole exhibits considerable
variation in size of the hind foot and color of the under side of the

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 69

tail. The length of the hind foot varies from 10 to 13 mm., the
under side of the tail is dark in most instances but paler and approach-
ing, perhaps, the condition seen in sacratus, "glossy whitish"
(Thomas, 1911, p. 165), in a few cases. The term "glossy" implies
reflections from the fine hairs covering the tail, and if this is the
case less actual white need be present to give an impression of
whiteness. The point to be made in this connection is that these
specimens from Burma, except for the "glossy whitish" under side
to the tail, fit reasonably well into the description of sacratus.

The position of umbrinus is complicated by the fact that I have
a substantial overlap in range of what I am calling caudatus and
umbrinus. There do not appear to be specimens with characters
intermediate between the two groups although the relationship is
so close, in dental characters, that one's first inclination is to call
umbrinus a subspecies of caudatus, as Allen has done. The principal
difference is one of size; a slight color distinction exists but is of
minor significance. The two series can be separated on the basis
of size alone, and there is no specimen which causes much doubt
as to the group to which it belongs.

It may be violating implied relationship, and over-emphasizing
the tenet that two subspecies do not occur in the same locality, to
remove umbrinus from subspecific affinity with caudatus. I have
considered the possibility that these two shrews may have different
habitat preferences and thus remain separated in the same locality.
This is a point upon which I do not have very definite proof. We
trapped many shrews of many groups and often it was difficult, in
the field, to note the differences that become obvious when skulls
are cleaned and the material examined properly. Many sizes, shades
of color, and proportions of tail and hind foot might be taken in a
single night's catch. The outstanding differences could be correlated
with any significant ecological data but the more subtle distinctions
might be misjudged as individual variation. However, as I have
stated elsewhere, there did not seem to be any noticeable shrew
habitat differentiations in a given locality. Any damp, dark spot,
or any environment with good ground cover, seemed to yield a
representation of all of the terrestrial shrews of that locality. The
same trap might take several varieties of shrews over a short period
of time.

I am reluctant to list umbrinus as a full species, a course which
has this to commend it, that umbrinus is left alone until such time
as more material and further study of the shrews with caudatus
dentition give a better understanding of true relationships. I have

70 OSGOOD TESTIMONIAL VOLUME

linked umbrinus with sacratus because the affinity between these
two appears to be close; they do not, as far as is known at present,
occur in the same place, and the material available suggests inter-
mediates between the two.

The series of umbrinus was collected mostly at intermediate
elevations. The greatest number came from elevations of 5,000 to
8,000 feet, and from regions where most of the original forest had
been burned. Trapping was in overgrown localities in ravines, or
in patches of forest spared in the general clean-up for agriculture.

Soriculus radulus Thomas. LARGE-CLAWED SHREW.

Soriculus radulus Thomas, Journ. Bombay Nat. Hist. Soc., 28, p. 429, 1922.

Specimens collected. — 1: purchased from a native at Gangfang.

This shrew is noteworthy for its strong, elongated claws, especially
well developed on the forefeet. The feet themselves are broader and
more robust than the feet of S. caudatus and suggest that the animal
is actively fossorial in habit. The identity of this single specimen
has been a troublesome problem because the collections of the
American Museum have nothing like it for comparison. The cranial
characters place its relationships with the genus Soriculus, the dental
formula agreeing, but the stout feet, long claws, and short tail are
quite unlike S. caudaius or S. leucops, for example.

A specimen of S. nigrescens pahari from Sikkim, borrowed from
Field Museum, is like the Burma specimen in foot characters but
differs in the size of the second upper unicuspid and in the posterior
extension of the first lower incisor. The skull of the specimen of
nigrescens pahari is that of an old individual, the teeth greatly worn,
but it shows that this species has the second upper unicuspid larger
than the first, the reverse being true in the Burma skull, and the
first lower incisor extends under the first unicuspid and midway
of the second. The Burma skull has the first lower incisor terminating
approximately at the posterior plane of the first unicuspid.

In the original description Thomas points out the size differences
of the second and third upper incisors of nigrescens and radulus
and in this respect and in the characters of feet, tail, color, and
measurements the Burma specimen agrees well with radulus. The
dentition of our specimen shows only the faintest tip of pigment on
the first incisor; otherwise it is everywhere white.

The upper surfaces of the fore and hind feet are thinly haired
and scaled in a manner suggestive of Anourosorex squamipes.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 71

Unfortunately we did not trap this interesting species and I can
not contribute any field notes on habitat or behavior. At the time
it was brought in by the natives its peculiar characteristics escaped
attention, for on superficial examination it would pass for a bob-
tailed Soriculus caudatus, a rather common shrew. Although it
was delivered at Gangfang and labeled with that locality, it may
have been captured anywhere in that general vicinity.

The developed claws and large feet suggesting fossorial adapta-
tion may indicate that the animal spends most of its time in burrows,
and hence is difficult to trap, but against this argument is the large
series of shrew moles, with even more specialized fossorial adaptation,
taken where no burrows were in evidence.

Chodsigoa smithii parca G. M. Allen. ALLEN'S LONG-TAILED
SHREW.

Chodsigoa smithii parca Allen, Amer. Mus. Nov., 100, p. 6, 1923.

Specimens collected. — 7: Gangfang, 1; Laukhaung, 1; Pyepat, 1;
Rawngaw, 4.

These specimens agree reasonably well with the type series from
western Yunnan. The Burma skins have large hind feet, 18-20
mm. in length as against 17.5 for the type, but one of the type series
has a hind foot 19 mm. long.

The localities where this shrew was taken are at the lower limit
of our collecting range, 4,000 to 6,300 feet altitude, and we did not
encounter the animal in the dense forest of the main mountain ranges.
I should judge that it is more properly a denizen of the foothills
and that its place is taken by other species of Chodsigoa or Soriculus
once the more open river valleys are passed. It is worthy of comment
that it was trapped at Gangfang in the same small radius where
Soriculus leucops, almost identical in color and proportions but
noticeably smaller, was caught.

Ghodsigoa smithii furva subsp. nov. DUSKY LONG-TAILED
SHREW.

Type from Imaw Bum, northern Burma. Altitude 9,000 feet.
No. 114,620 American Museum of Natural History. Adult male.
Collected January 21, 1939, by H. E. Anthony. The type is a
skin and skull in good condition.

General characters. — Resembling Chodsigoa smithii smithii but
with blacker, longer pelage, darker ears, and darker tail; molariform
teeth of upper jaw less deeply emarginate posteriorly.

72 OSGOOD TESTIMONIAL VOLUME

Description. — Color above, between fuscous black and sooty
black, pelage plumbeous black at base, tips of hairs grayer and
glossy to give general effect not quite black; color below only slightly
lighter than above; ears blackish brown; tail chaetura drab above
and below; hands and feet pale, soiled whitish.

Skull like that of C. s. smilhii but first pair of incisors with
posterior portions more nearly parallel; viewed from below the
space between these teeth in furva is slightly lyriform, in smithii it
is almost circular because of inwardly curved posterior portions;
upper molariform teeth with posterior margins deeply indentate but
not to a degree equaling that condition in smithii; anterior teeth
faintly pigmented, molars lacking pigment.

Measurements. — Taken in the flesh: total length 158; tail verte-
brae 87; hind foot 18. Skull, greatest length 21; interorbital con-
striction 5.1; width of braincase 9.5; height of braincase 5.5; length
of palate 9.5; width across molars 5.8; length of upper toothrow
9.0; length of lower toothrow 8.2.

The type was the only specimen of furva taken and I have hesi-
tated to describe a new subspecies on the basis of a single example.
However, it differs so obviously in color from a specimen of C. s.
smithii, taken in Shensi, that it does not seem to belong with typical
smithii. It differs in much the same way from smithii parca, collected
at lower altitudes in northern Burma.

According to my field journal, this shrew was trapped "in a
damp, oozy spot under log and rocks next to small mountain stream."
Except for somewhat darker color and larger size, Chodsigoa s. furva
bears a close superficial resemblance to Soriculus leucops, a long-
tailed shrew, which was also taken at the Imaw Bum camp.

Blarinella quadraticauda wardi Thomas. WARD'S SHORT-
TAILED SHREW.

Blarinella wardi Thomas, Ann. Mag. Nat. Hist., (8), 15, p. 336, 1915.

Specimens collected. — 27: Changyinku, 2; Gangfang, 1; Hpare, 2;
Hpare-Saulang road, 5; Hpawte, 2; Hpimaw, 1; Hpimaw road, 3;
Imaw Bum, 3; Luksuk, 1; Nyetmaw River, 1; Pyepat, 1; road to
Chimeli Pass, 4; Tangtung, 1.

The type locality of wardi is Hpimaw, altitude 8,000 feet.
Hpimaw Fort, abandoned at the time of our visit, is located on a
ridge which climbs steadily back toward the Salween Divide and is
the map location to correspond with the type locality. On these
steep slopes a short distance may mean a decided change in elevation

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 73

and there is a considerable ecological difference between the open
river valley and the heavy forest running up onto the divide. Our
series includes a topotype of wardi from approximately the same
place as Ward collected in 1914, and two others from a thousand
feet higher on the road; the rest are from cool forest or temperate
foothills at 5,000 up to 10,000 feet altitude.

There is very little variation in external characters shown by
these twenty-seven skins and the only differences in the skulls may
be attributed to age and wear of dentition.

This shrew was trapped in the usual damp, cool, overgrown
localities one expects to find associated with these small creatures.

Crocidura dracula dracula Thomas. WHITE-TIPPED SHREW.

Crocidura dracula Thomas, Ann. Mag. Nat. Hist., (8), 9, p. 686, 1912.

Specimens collected. — 12: Htawgaw, 1; Hkamkawn, 7; Kumaw, 1;
Ngawchang River, altitude 1,800 feet, 3.

The skins of this series average somewhat darker in color and a
trifle smaller than those of a large series of d. dracula from Yunnan.
The differences do not appear to be of an order justifying description
of a new subspecies, but they do indicate that one may expect a
considerable degree of variation in these characters.

This shrew appears to be restricted to the river valleys and foot-
hills where hot, dry weather shows an obvious effect upon the
environment. It was not taken in the regions of cool, frosty nights,
although it is recorded from Yunnan at elevations up to 8,000 feet.
At elevations approaching 6,000 feet and above in northeastern
Burma, our traps took plenty of shrews but we found dracula was
replaced by other groups.

Crocidura indochinensis Robinson and Kloss. INDO-CHINESE
SHREW.

Crocidura indochinensis Robinson and Kloss, Ann. Mag. Nat. Hist., (9), 9,
p. 88, 1922.

Specimens collected. — 11: Changyinku, 1; Gangfang, 5; Hpare, 1;
Hpawte, 1; Rawngaw, 1; Pyepat, 1; Tangtung, 1.

These small dark shrews can not be identified with either vorax
or rapax, small species found in western Yunnan, for the latter are
much lighter in color, browner. The specimens available for com-
parison are in winter pelage; hence the difference can not be attrib-
uted to season. Being unable to match this series satisfactorily with
anything in the nearby west China fauna, and believing that

74 OSGOOD TESTIMONIAL VOLUME

indochinensis described from Annam, some 1,200 miles distant, could
be ruled out of consideration, I had written a tentative description
for a new form. As a double check against adding a new name to
an already overloaded list, I compared my description with that of
Robinson and Kloss. I find that the Burma shrews agree so closely
with the description of indochinensis that I am identifying them as
that species. The type of indochinensis came from the Langbian
Plateau, altitude 5,000 feet, and the matter of altitude accords well
with that of our specimens, which were collected at 4,000 to 7,000
feet. Because the more immediate relationships of the mammals
collected in the mountains of northeastern Burma are predominantly
with the Indian and west China faunas I had not expected this link
with the Annam fauna.

Robinson and Kloss compared their type of indochinensis with
that of fuliginosa Blyth, a larger, browner shrew. I have not seen
specimens of fuliginosa but the characters as given by Blanford
(1888, p. 242), except for color and slightly longer tail, are very
like those of the Burma series. Perhaps more material will prove
that indochinensis is the eastern representative of fuliginosa.

If I am correct in my identification, and if it is not premature
to base conclusions upon the rather inadequate representation of
Asiatic Crocidura at hand for examination, I shall support Allen's
suggestion (1938, p. 137) that vorax may eventually stand in a sub-
specific relationship to indochinensis as will rapax, if it does not prove
to be a synonym of vorax. Possibly all of these will prove to be races
of fuliginosa. Our specimen from Changyinku, on the very border
of Yunnan, is noticeably browner than the other specimens, although
somewhat darker than vorax. It may be an intermediate between
indochinensis and vorax. There are no differences in dental characters
between skulls of indochinensis from Burma and those of vorax from
Yunnan, which could not be included in a subspecific relationship.

Crocidura indochinensis was not trapped in the high mountains
but seemed to be a denizen of the intermediate altitudes. Its dark
color suggests that it will not be found in the dry, more open reaches
of the lower valleys, that it belongs in the well-watered regions where
cover is fairly heavy.

Anourosorex squamipes Milne-Edwards. CHINESE SHORT-
TAILED SHREW.

Anourosorex squamipes Milne-Edwards, Rech. Mamm., p. 264, 1868-74.

Specimens collected. — 7: Hpimaw, 1; Htawgaw, 1; Pyepat, 2;
Rawngaw, 2; Tangtung, 1.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 75

These specimens show no great differences when compared with
specimens from western China. According to Osgood (1932, p. 247),
this species ranges over an extensive area without differentiating
to a degree which can be consistently defined subspecifically.

This shrew did not appear to be common at any of the camps
where we collected. Those taken were trapped under rocks and
in dark, damp spots likely to be frequented by shrews. One or two
were trapped in runways along fern- and moss-covered banks.
This species was either local in its distribution or else spends most
of its time in subterranean passages or we should have secured a
greater number. Shrews of other genera were trapped in abundance
everywhere above the dry lowlands and special efforts were made
for more Anourosorex, once the first specimen was taken in a locality.
None were found at an elevation above 7,700 feet, although there
are records for western China up to 10,000 feet altitude. The lowest
altitude at which we trapped specimens is 4,200 feet.

Chimarrogale himalayica himalayica Gray. HIMALAYAN
WATER SHREW.

Crossopus himalayicus Gray, Ann. Mag. Nat. Hist., (1), 10, p. 26 1, 1842
Specimens collected. — 2: Pyepat.

These two specimens have brownish gray under parts which
merge gradually into the much darker color of the sides. There is
no distinct line of demarcation between the two areas.

Special efforts were made to secure water shrews, but these crea-
tures are either rare, perhaps local in distribution, or else not partic-
ularly attracted by any bait that is offered them. I suspect the latter
reason is the best explanation for their scarcity in museums. The
bait most often used in Burma was the combination of peanut butter,
bacon, rolled oats, and raisins. This proved to be very attractive
to shrews (other than the specialized water shrews) and shrew moles.

Influenced by experience with the fish-eating rats of South
America which do not come readily to bait, I set traps along the
Burmese brooks wherever I encountered waterfalls or obstacles which
might force the shrew to a detour along the bank. The first specimen
of himalayica stepped into a set of this character where a small
stream came down the steep hillside near the Pyepat rest house.
A waterfall made a deep pool in heavy woods, and traps were
placed in the most obvious paths likely to be followed by an animal
climbing up over the rocky ledge.

76 OSGOOD TESTIMONIAL VOLUME

This specimen was taken on December 23, on our way up country,
and a second specimen was caught at the same spot when we returned
through Pyepat on April 2. This species was not encountered else-
where and is probably replaced in the higher country to the north
by C. styani.

Chimarrogale styani De Winton and Styan. STYAN'S WATER
SHREW.

Chimarrogale styani De Winton and Styan, Proc. Zool. Soc. Lond., p. 574,
1899.

Specimens collected. — 4: Gangfang, 2; Imaw Bum, 1; road to
Chimeli Pass, 1.

These specimens have lighter-colored under parts than those of
C. h. himalayica and there is a well-defined line of demarcation
between under parts and sides. Otherwise there seems to be no
great difference between the two forms of water shrews.

The type specimen of styani came from northwestern Szechwan
and the second known specimen was reported by Thomas (1915,
p. 335) from the mountains in the north of Upper Burma. Mr.
F. Kingdon Ward, who collected the Burma specimen, reports
(1921, p. 757) that it was taken by hand, in the daytime, in a stream
on Imaw Bum, 11,000 feet altitude.

Although I have followed current practice and call styani a full
species, I suspect it could be designated as a subspecies of himalayica
and come closer to indicating the true relationships between the two
shrews. We did not take large enough series to establish definitely
that both do not occur in the same locality. This state of affairs
is suggested by the distribution of the six specimens representing
both styani and himalayica, but more material is needed to prove
this point.

Styan's shrew was taken in three different localities and is
doubtless to be found along most of the cool, mountain brooks in
that part of Burma where we collected. It was a red-letter day
when one was found in the traps although likely spots were plentifully
sprinkled with traps and no opportunity was missed to run a special
line for this species alone.

On every occasion but one the animals were captured at the
margins of pools or otherwise at the water's edge. The exception
was a shrew trapped forty or fifty feet from the Ngawchang River
at Gangfang. This specimen was brought in by my native assistant
who ran part of the traps that morning, through a misunderstanding,

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 77

while I was busy elsewhere. Later, I had him show me the spot
where the water shrew was caught and he was very definite and
insistent when I expressed doubt that the animal was so far from
water. The Ngawchang is a sizable stream, too large in most places
to wade, and during high water its banks extend back into the
shrubbery and scattered forest. At this place the high-water mark
was a low bank, the earth held by a tangle of roots, and with sand
running down to the stream. The locality was dry, not the environ-
ment favored by shrews where damp earth and rotting leaves make
good hunting for insects. The only interest a water shrew could
have had in such a spot would seem to be a nest burrow in the
bank or under" the roots.

Nectogale elegans Milne-Edwards. TIBETAN WATER SHREW.

Nectogale elegans Milne-Edwards, Compt. Rend. Acad. Sci. Paris, 70, p. 341,
1870.

Specimens collected. — 19: Hpare, 14, and 2 in alcohol; Lagwi, 1,
and 2 in alcohol.

After a careful study of this series and comparisons with the
characters given in the literature — no comparative material of this
rare shrew is available — I find nothing which might distinguish
the Burma animal from the one in Szechwan. Perhaps this apparent
lack of differentiation is the result of the special environment in
which this shrew lives. Practically all of its time is spent in moun-
tain streams, which would tend to offset any local influences such
as are correlated with differentiation found among small, terrestrial
mammals. Mountain brooks are very much the same in Burma and
in Szechwan. However, the terrestrial (or subterranean) Anourosorex
ranges over much of this same territory in western China and Burma
and shows a comparable lack of subspecific differentiation.

Our series of this water shrew was collected from several streams
in the Htawgaw-Hpare district. In every case the specimens were
brought in by natives who reported upon the locality where the
capture was made. Although traps were set for water shrews in
every region where streams were encountered, and specimens of
two species of water shrews of the related genus Chimarrogale were
taken, Nectogale would not take a bait or cross a set.

The natives took them by hand in a rather interesting fashion
which involved damming off a portion of the stream. This operation
required much time and hard work and I saw the process through
to the end on several occasions, but unfortunately these happened
to be the very times when no shrews were encountered in the drained

78 OSGOOD TESTIMONIAL VOLUME

watercourse and I did not actually witness a capture. I was paying
a rupee for each specimen brought into camp and this was sufficient
inducement for native men and boys to comb the streams for miles
around.

Nectogale frequents the fast-flowing streams and probably leaves
the water only when forced to do so. The streams have log jams,
boulder piles and other similar obstructions which provide recesses
for home burrows entered directly from the water. Although some
of the brooks hunted for this shrew were small enough to be crossed
by leaping from rock to rock, most of the watercourses were of a
size to be crossed only where bridges were built for the roads.

In working a stream the natives selected a stretch where the
channel divided or tended to divide the water into two main bodies.
At the head of this run a dam was thrown across one of the forks,
diverting the flow. Boulders and logs formed the bulk of the dam
but finally twigs, leaves, and sod were employed to cut the stream
to a mere trickle back of the dam and all of the water went down
the unobstructed branch. At the foot of the drained fork, where
the stream bed swung back into the flowing branch, sometimes several
hundred feet downstream, a small dam directed the scanty flow
through one or two gaps, and elongated wicker baskets, probably
built as fish traps, were placed in these gaps. Nothing could
swim or drift down into the full stream without passing into one
of the baskets.

Just back of the dam at the head, a bundle of aconite roots was
laid across a stone and pounded with a club. A milky juice ran into
the stream, now reduced to a series of pools joined by shallows,
and slowly worked down. The effect of the poison was obvious,
small fish and aquatic insects coming to the top in distress. The
natives hunted over the full length of the drained branch, turning
over boulders and logs where these could be moved and thrusting
long, slender poles into nooks and crevices which could not be opened
up. The shrews are sometimes seized in the hand, or they may be
recovered from the basket at the foot. The natives saved the small
fish as they appeared and it was doubtless the experience gained in
fishing which made them so adept at capturing Nectogale. They
showed very little skill in catching moles, for example, although the
mole runs were common and the men wanted to earn money. The
natives were familiar with the habits of Nectogale and not with those
of the mole.

I was told that this shrew could be seen in the daytime.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 79

Rhinolophus rouxi sinicus Andersen. ANDERSEN'S LEAF-NOSED
BAT.

Rhinolophus rouxi sinicus Andersen, Proc. Zool. Soc. Lond., 2, p. 98, 1905.

Specimen collected. — 1: Vijawlaw, in alcohol.

This is a very poor specimen, badly mutilated, and the skull
has been removed for study. The head skin is so torn that it is
difficult to discern the facial characters, but they seem to agree with
those ascribed to sinicus.

Hipposideros armiger armiger Hodgson. GREAT HIMALAYAN
LEAF-NOSED BAT.

Rhinolophus armiger Hodgson, Journ. Asiatic Soc. Bengal, 4, p. 699, 1835.

Specimens collected. — 6: Black Rock, 1; Chipwi, 3, and 1 in alcohol;
Tanga, 1.

These large bats display all the characters of typical armiger but
the series shows considerable variation in color with the extremes
representing what may be two color phases. One phase has the
hairs on the back tipped with warm brown, followed by a broad
zone of much lighter brown, and with a narrow basal band nearly
as dark as the tip. The other phase is darker, the tips of the hairs
approximating clove-brown, the broad subterminal zone dirty
whitish, and the dark base, on those regions where it exists, much the
same color as the tip.

This species was encountered only in the lowlands and the foot-
hills, our records 1,000 to 4,750 feet altitude. It was a fairly con-
spicuous bat, coming forth about sundown, and if one were hunting
for specimens it would be noticed as occurring in a region. It is
not easy to collect, however, because it flies rather low and one
can not catch it against the sky. It is a rapid flier and its large
size identifies it readily. At the camps in the higher country, Gang-
fang for example, where many evenings were spent in watching for
bats, it was not encountered.

There is an extensive cave two or three miles from Chipwi, and
Stanford visited it on our return to Myitkyina; armiger was one
of three species of bats which he collected there.

Hipposideros larvatus grandis Allen. ALLEN'S HORSESHOE BAT.

Hipposideros larvatus grandis Allen, Rec. Indian Mus., 38, p. 345, 1936.
Specimens collected. — 2: Chipwi, 1 skin and skull, 1 in alcohol.
These specimens agree in size, coloration, and facial and dental
characters with grandis, a larger subspecies of larvatus. Dr. G. H. H.

80 OSGOOD TESTIMONIAL VOLUME

Tate, who has in press a review of the genus Hipposideros, has called
to my attention the applicability of leptophylla Dobson. The type
locality of leptophylla is the Khasi Hills, Assam, and Allen had
specimens from there which he called grandis. Basing his opinion
on the literature and on a considerable number of specimens of the
genus seen in various museums, Tate suggests that further study of
Dobson's type may result in making grandis a synonym of leptophylla.

This bat was found only in the caves near Chipwi, in the warm
lowlands (altitude approximately 1,000 feet).

Triaenops wheeleri Osgood. WHEELER'S TRIDENT BAT.

Triaenops wheeleri Osgood, Field Mus. Nat. Hist., Zool. Ser., 18, No. 10,
p. 224, 1932.

Specimens collected. — 7: Chipwi, 6 skins and skulls, 1 in alcohol.

These specimens agree closely with Osgood's type description,
and with a specimen collected at Chapa, Tonkin, and obtained by
exchange with Field Museum. In his remarks, given in the type
description (p. 226), Osgood states that the reference of wheeleri
to the genus Triaenops is somewhat provisional.

The genotype is Triaenops persicus, which has quite different
facial characters (figured by Dobson, 1878, pi. 8) from those shown
by wheeleri. An alcoholic specimen of wheeleri permits much better
study of the facial structure than does a dry study skin and in all
essential details the complex pattern of the face and nasal appendages
seems a much closer match to Phyllorhina stoliczkana, figure 5 on
Dobson's plate, first described as Asellia stoliczkana (Dobson, 1871,
40, p. 106, and 1871a, p. 263).

Asellia stoliczkana came from Penang and the name apparently
has dropped out of recent literature. Dr. G. H. H. Tate has in the
press, as this is written, a paper discussing the relationships of the
genera of hipposiderine bats, and he has called to my attention
the possibility that wheeleri might be a synonym of stoliczkana or at
least congeneric with it. He believes that stoliczkana does not belong
in the genus Triaenops. Peters (1871, p. 513) describes Phyllorhina
trifida from Burma, and Dobson (1876, p. 61) places trifida in
synonymy with stoliczkana.

In the description by Dobson of stoliczkana and by Peters of
trifida, it is apparent that many of the characters shown by our
Burma series are clearly outlined. Their specimens were taken very
close to the region known to be occupied by wheeleri and until these
old names are adequately resolved there must be doubt as to the

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 81

validity of wheeleri as a good species. If it is a valid species there is
still the question of its inclusion in the genus Triaenops.

A skull of Triaenops persicus from Aden, Arabia, kindly lent
by the United States National Museum, shows, when compared
with a skull of wheeleri, quite a difference in the size, shape, and
location of the vertical expansion of the zygoma and in the inflation
of the rostrum.

Because of the scarcity of material representing the several old
names involved in the solution of this discussion, and in view of the
more comprehensive review being made by my colleague, Dr. Tate,
I have retained the name used by Dr. Osgood, Triaenops wheeleri,
as the course causing the least confusion at this time.

Pipistrellus affinis(?) Dobson. CHOCOLATE BAT.

Vesperugo (Pipistrellus) affinis Dobson, Proc. Asiatic Soc. Bengal, p. 213, 1871.

Specimens collected. — 1: Changyinku.

This specimen is provisionally identified as affinis, the type locality
for which was given by Dobson as "Bhamaw, Yunan," which
I take to be Bhamo, Burma, of today.

The Changyinku skin is very dark, almost black above, and
perhaps does not entirely agree with Dobson's "chocolate brown,"
but the length of forearm, 39 mm., is a good match for 1.55 inches
given for the type. I have considered raptor Thomas (1904, p. 388)
as a possible name for this specimen. Checking against the descrip-
tion I find about the same degree of conformity as for affinis. But
the type locality of affinis is only about a hundred miles from where
our specimen was taken; the type locality of raptor is Tonkin, about
four times as far away.

In the absence of any comparative material, this identification
must be taken as somewhat of a guess, but one which seems to accord
fairly well with literature and with geographic distribution.

Pipistrellus circumdatus Temminck. BLACK BAT.

Vespertilio circumdatus Temminck, Monog. Mamm., 2, p. 214, 1835-41.

Specimens collected. — 1: Pyepat rest house.

This is a very well-characterized species with dead black pelage,
tipped on upper parts with rich, glossy chestnut-brown and on lower
parts with grayish.

The type specimen came from Java and the species has been
reported from southern India. Dr. Tate examined, measured the

82 OSGOOD TESTIMONIAL VOLUME

type specimen, and took photographs of the type skull, when visiting
the Leiden Museum. He records the forearm measurement as 43
mm., and the Burma specimen has a forearm of 41.5. It is not
unlikely that the Burma bat represents a race of circumdatus dis-
tinct from that found in Java, but in the absence of sufficient material
to establish characters the present identification must suffice.

This specimen was shot at twilight by J. K. Stanford on the
trail just at the Pyepat rest house. The rest house is perched
on a very small clearing and the trail is cut into a steep hillside.
The retrieving of any bat shot from the trail involves a great element
of luck, and it was an exceptionally fortunate circumstance that this
very rare bat fell where it could be recovered.

Pipistrellus coromandrus tramatus Thomas. TONKIN

PlPISTRELLE.

Pipistrellus coromandrus tramatus Thomas, Proc. Zool. Soc. Lond., p. 144, 1928.

Specimens collected. — 1: Shingaw.

The characters of this specimen agree with those given in the
type description.

This bat lives in the warm lowlands and foothills and was not
encountered in the mountains. Our only specimen is the one shot at
dusk near the rest house at Shingaw, altitude about 750 feet.

Miniopterus schreibersii fuliginosus Hodgson. HODGSON'S
LONG-WINGED BAT.

Vespertilio fuliginosa Hodgson, Journ. Asiatic Soc. Bengal, 4, p. 700, 1835.

Specimens collected. — 3: Chipwi, 2, in alcohol; Gangfang, 1 skin
and skull.

The selection of a subspecific name for these bats presents a
problem incapable of satisfactory solution with the inadequate
material at hand for comparison. As a group, the known races of
schreibersii have a very extensive range and the characters of separa-
tion, chiefly size and color difference, are not of an order to permit
ready identification from literature alone. The American Museum
has specimens, from China, of s. chinensis and s. parvipes for com-
parison, but the Burma specimens can be matched about as well
in the one race as in the other; furthermore, one specimen of chinensis
agrees rather closely with selected specimens of parvipes. M. s.
fuliginosus is a much older name than either M. s. chinensis or M. s.
parvipes, and the type locality of Nepal, bearing a significant geo-
graphic relationship to northeastern Burma, calls for some weighing

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 83

against the more remote type localities in Hopei (chinensis) and
Fukien (parvipes).

The Gangfang specimen is very dark and it is to be noted that
dark specimens of schreibersii may turn up in company with much
browner individuals. This is the case in our series of s. parvipes
from Fukien. Howell (1929, p. 20) cites an extremely dark specimen
which he includes in a series from Fukien identified as s. parvipes.
Allen (1938, p. 266) states that "specimens from India, representing
M. fuliginosus, are not very different from those of eastern China,
but lack the warm russet tint to the otherwise somber pelage,"
and this characterization is a fairly good fit for the Burmese
specimens.

Since identification, under these circumstances, is only provisional
at best, I have chosen the oldest name.

This bat was shot at dusk while it was hunting insects.
Although two specimens were secured thus at Chipwi, none were
encountered in the caves near this place.

Murina cyclotis Dobson. ROUND-EARED, TUBE-NOSED BAT.

Murina cyclotis Dobson, Proc. Asiatic Soc. Bengal, p. 210, 1872.

Specimens collected. — 1: Gangfang.

This specimen is not very brightly ferruginous in color of upper
parts, to conform with Dobson's description, but otherwise agrees
with the characters given for cyclotis. The tips of the long hairs
are nearer Brussels brown and only sparsely cover the color below,
which is much darker. The long hairs clothing the base of the
interfemoral membrane, on the upper side, have a touch of brighter
color which suggests ferruginous.

This is a rare species in museum collections and we found it to
be so in the field. The single specimen secured was shot at dusk
while flying near the rest house at Gangfang.

Macaca mulatta Zimmermann. RHESUS MACAQUE.

Cercopithecus mulatta Zimmermann, Geog. Gesch. Mensch., 2, p. 195, 1780.

Specimens collected. — 1: shot along the road from Tanga to
Shingaw.

This specimen of a widely ranging race presents no unusual
features.

Rhesus macaques were not observed anywhere except in the warm
forests of the river valleys and lower foothills. Even here they

84 OSGOOD TESTIMONIAL VOLUME

appeared to be uncommon at the time we were traveling in these
regions.

Hylobates hoolock Harlan. HOOLOCK GIBBON.

Simia hoolock Harlan, Trans. Amer. Phil. Soc., n.s., 4, p. 52, pi. 2, 1834.

Specimens collected. — 2: purchased in flesh from native at Htaw-
gaw, 1; Pyepat, 1.

These two specimens represent a pair, a black male and a yellowish
brown female.

Gibbons were fairly abundant from elevations of about 5,000
feet up to 8,000 feet or more. They were much oftener heard than
seen, their resonant halloos carrying for several miles. They occur
in regions where the pine is a dominant forest tree as well as in
locations where the broad-leaf trees seemed to offer more in the way
of a food supply. Apparently they work up onto the higher ridges
very early in the spring for we heard them above Fort Hpimaw
late in February while there was still much snow in the pass. At
this time they must have been at 8,000 to 9,000 feet elevation. We
did not see or hear them in the warm zone forests of the lower
foothills.

On the Pyepat Ridge I had a good opportunity to observe a
small band at close range. In most cases, gibbons were encountered
under circumstances where it was impossible for a man to travel
under the trees without a great disturbance. This was especially
true on the precipitous mountain slopes where progress off the trail
became almost an acrobatic feat. My notes for Pyepat, on April 2,
are as follows:

"Heard gibbons calling from several quarters this morning and
got very close to a band just above the trail, not over a mile from
the rest house. The animals undoubtedly saw me and gave a
single loud alarm call when I came around a bend in the trail.
After a moment they went on with their calling to distant bands
and whooped it up in fine fashion. Some of them deliberately came
closer to the trail to have a better look at us (I was accompanied
by a native) and the band of 8 to 12(?) lingered in the vicinity,
shaking branches and occasionally scolding amongst themselves in
harsh, rasping tones. While the predominant call in the chorus was
a two-note whoop, there was a single, high-pitched voice that
differed greatly from the others. Do not know whether this was
the voice of a youngster or whether it was a definite one-note call
made by one of the adults as a variant, perhaps with a significance,
from the regular call.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 85

"These apes were brachiating and threw themselves fair distances
but nothing remarkable. Perhaps if they had been alarmed they
would have put on a better show. I preferred to watch them and
did not make a very serious effort to shoot one, although I was
approaching the stage where I was about to collect a good adult.
I gave a call, an attempted imitation, and at once the band became
silent. They did not rush away from the spot but rather quit
calling and moving. I saw two or three after I called but could not
see them well enough to discover whether the band was sneaking
away or hiding."

Ailurus fulgens styani Thomas. SMALL PANDA.

Ailurus fulgens styani Thomas, Ann. Mag. Nat. Hist., (7), 10, p. 251, 1902.

Specimens collected. — 2: native skins, without skulls, said to have
come from Sakkauk, north flank of Imaw Bum.

There is considerable difference in color shown by these two skins,
both of which are strikingly marked. One has the back predomi-
nantly reddish chestnut; the other is paler, the back yellowish brown.

Euarctos thibetanus thibetanus G. Cuvier. TIBETAN BLACK
BEAR.

Ursus thibetanus G. Cuvier, Ossemens Foss., 4, p. 325, 1823.

Specimens collected. — 1: skin and skeleton, from the Hpawshi
River, altitude 7,400 feet.

A good specimen of the Tibetan black bear was collected by
Stanford, who made a side trip from Gangfang up the ravine of a
small river, the Hpawshi, after scouts had reported the presence
of bears.

The skin shows the characteristic color pattern of thibetanus,
with a small cream-colored crescent across the base of the throat
and a small spot on the chin. The stomach of the bear was filled
with finely crushed acorns.

The natives told us that the Hpawshi district was good territory
for bears and on several occasions these animals were said to be
observed in other regions, but we saw little sign of their presence
about any of our collecting stations and their distribution must be
rather local.

Canis sp.? WOLF.

I believe that a small to medium-sized wolf occurs in the uplands
of northeastern Burma. No specimens were secured although we

86 OSGOOD TESTIMONIAL VOLUME

offered the natives an attractive price and I hunted both day and
night for it at Hpare, the locality where one was actually^ seen.

On the day we walked up to Hpare, along the fairly open river
valley that includes this district, a large dog-like animal was dis-
covered by the natives, who tried to point it out on the distant hill-
side. It was too inconspicuous, and too far off, for me to catch
it before it passed into cover. The natives called it a jungle dog;
that is, a wild dog as contrasted with a domestic dog.

Late the afternoon of this same day, about three miles farther
up the valley, I ran across what may have been the same animal.
It came out of a thicket situated in a small boggy hollow and was
about 40 or 50 yards away. I was near enough to the native houses
and clearings to suspect that I had frightened a domestic dog feeding
on the carcass of a cow or a mule. I did not shoot on first glance
and I never had another opportunity. The beast cut back through
the low bushes and then emerged on a long, grassy slope, running,
and too far for a shotgun.

The animal was the size of a large dog but not as large as our
North American wolf. It was very light-colored, the general tone
a dirty gray, washed with tawny, a rather striking and unusual
color unlike that of any dog seen in Burma. It had a very full
and busjiy tail. There was an old and very smelly carcass of some
large animal in the little ravine and this had attracted the attention
of the wolf.

When I returned to the rest house at Hpare I pressed an
inquiry into the presence of wolves and was assured that the villagers
saw them about occasionally but never killed one because there
were no good guns in Hpare. My native gun-bearer and trap boy
(not with me when I saw the wolf), who was reared in this same
village and by this time had learned enough of our strange ways
and interests to be extremely useful, was able to get me fairly
precise information. He now explained, through an interpreter of
course, that the animal we had encountered that morning as we
came up the valley was a wolf, not a dog run wild but a part of the
native fauna.

I went back to the boggy ravine that night with a headlight and
hunted there again at sunrise, as well as on many subsequent occa-
sions, but I did not see the wolf again.

Mustela altaica kathiah Hodgson. YELLOW-BELLIED WEASEL.

Mustela (Putorius) kathiah Hodgson, Journ. Asiatic Soc. Bengal, 4, p. 702,
1835.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 87

Specimens collected. — 2: Gangfang, 1; Gawlam, 1 (skin only,
purchased from native) .

These two weasels agree in size and pattern of coloration with
specimens collected in western China.

The one specimen trapped by the expedition was caught in a
rat trap set in a thicket of shrubbery along a small ravine. The
trap was placed on a rocky ledge so narrow that the weasel entered
the trap squarely and was struck across the back; the animal was
too large to have been held by the trap unless the back or skull
had been broken. The same trap had caught a Tupaia previously,
which was devoured and only part of the head left; perhaps the weasel
was responsible.

Mustela sibirica moupinensis Milne-Edwards. MOUPING
WEASEL.

Putorius moupinensis Milne-Edwards, Nouv. Arch. Mus. d'Hist. Nat. Paris,
7, Bull., p. 92, 1871.

Mustela hamptoni Thomas, Journ. Bombay Nat. Hist. Soc., 27, p. 500, 1921.

Specimens collected. — 4: Gangfang, 1 (skin only, brought in by
native); Imaw Bum, 1; Nyetmaw River, 2.

These specimens agree fairly well with descriptions of moupinensis
in literature and with specimens collected in Yunnan and Szechwan.
Our animal from Imaw Bum, as well as the two from the Nyetmaw
River, may be considered as topotypes of hamptoni which Thomas
compared principally with subhemachalana when he described it,
but later (1922, p. 395) admitted should have been compared with
moupinensis. The inference is that he might still (in 1922) have
considered his hamptoni as a distinct form, but I can see no signifi-
cant differences between our Burma specimens and those from
western China. The extent of the black on the tip of the tail is a
very variable character and the three skins taken by the expedition
and known to be in winter pelage all show some blackish tipping.
The greatest amount, however, is only about an inch and a half in
extent; the others have a scant inch.

This large weasel appeared to be not uncommon on the flanks of
Imaw Bum. Ward caught one in a rat trap, baited with a mixture
of rolled oats, bits of bacon, raisins, and peanut butter, set near the
ice-bound course of the Chaungmaw River. The wire bow of the trap
held the weasel by the neck and it had not been killed by the
blow. Inasmuch as this weasel is such a large and powerful species,
it is rather surprising that a rat trap was able to hold it.

88 OSGOOD TESTIMONIAL VOLUME

The second specimen I took in a No. 0 steel trap set along the
Nyetmaw River, at a spot where some animal, presumably this
weasel, had been robbing the mouse and rat traps. The trap was
baited with meat. This animal was alive and fought fiercely, proving
very tenacious of life. It was drowned in a pool but required very
long immersion. It emptied its scent glands and smelled abominably.
Another specimen was shot near camp early the same day.

Lutra sp.? OTTER.

Specimens collected. — None.

Two otter were seen the afternoon of December 17 along the
N'mai River near the rest house at Tanga, altitude 900 feet.

The river is quite wide at this place, a deep, large stream, and
the animals were on the other side where we could not stalk them.
They came running down the bank of the river to where a small
trickle of water entered it from the side. After pausing a moment
on the sand bank they entered the stream and swam down the river.
Cutting shot at them with a .22 caliber rifle but the distance was
well over one hundred yards and they were not hit. The animals
were aware of something unusual but could not understand what it
was; they were not alarmed. They swam downstream a short
distance, climbed out onto a large rock and looked about in obvious
curiosity. A bullet struck the rock and the otters squealed with
excitement. They soon concluded that the rock was not the best
place for them and went on about their business, down the river.

Paguma larvata intrudens Wroughton. SOUTHERN MASKED
PALM CIVET.

Paguma larvata intrudens Wroughton, Journ. Bombay Nat. Hist. Soc., 19,
p. 793, 1910.

Specimens collected. — 1: Gangfang (skin and skull, brought in
by natives).

The type locality for this civet is Myitkyina, no great distance
from Gangfang, and our specimen agrees fairly well with the descrip-
tion and with specimens taken in western Szechwan and Yunnan.

Prionodon pardicolor Hodgson. SPOTTED LINSANG or SPOTTED
TIGER CIVET.

Prionodon pardicotor (sic) Hodgson, Calcutta Journ. Nat. Hist., 2, p. 57,
pi. 1, figs. 3, 6, 1842.

Specimens collected. — 1: Hpawshi (native skin, no skull).

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 89

This skin was not a very good one and the fur had slipped in
some places.

Felis (Prionailurus) bengalensis bengalensis Kerr. LEOPARD
CAT or TIGER CAT.

Felis bengalensis Kerr, Anim. King., 1, Mamm., p. 151, 1792.

Specimens collected. — 1: Htawgaw (native skin, no skull).

The native who brought in this specimen said that the cat was
killed about the village of Htawgaw and that this animal some-
times bothered their chickens.

Felis tigris subsp.? TIGER.

Specimens collected. — None.

Presence of the tiger was noted at only two places visited by the
expedition. At Laukhaung, on our return from the higher mountain
section, on April 4, Stanford and I were told by Captain Parks,
who was in command of the Post, that two of his Sepoys had wounded
a tiger the day before. They were watching at a waterhole and
crippled the animal when he came toward the machan. The water-
hole was said to be a salt lick. The animal was reported to be
badly wounded and known to be lurking in the trees and shrubbery
not far from where it was shot.

Early in the morning of April 5, Parks, Stanford, and I tried to
hunt the tiger down. By this time the account of the wounded tiger
had been retold so often, through interpreters and by several indi-
viduals, that it was difficult to distinguish between fact and fancy.
A careful search of the terrain, which was not at all favorable to a
quiet stalk of a sulking tiger, failed to disclose the pools of blood
or other proof of a badly wounded animal which had featured the
stories. There seemed little doubt that the soldiers had seen a
tiger, shot at it and perhaps hurt it somewhat, but great doubt
that the animal was wounded so badly that we stood any chance
of walking up to it. We gave up the attempt and returned to the
rest house.

At Tanga, on April 8, I saw the skin of a tiger killed there by a
native who trapped it at the carcass of a sambar.

Callosciurus quinquestriatus quinquestriatus J. Anderson.
ANDERSON'S BELLY-BANDED SQUIRREL.

Sciurus quinquestriatus J. Anderson, Proc. Zool. Soc. Lond., p. 142, 1871.

Specimens collected. — 1: road between Nomoyoung and Seniku,
altitude about 1,000 feet.

90 OSGOOD TESTIMONIAL VOLUME

This specimen is much warmer in color, a bright chestnut, than
C. q. beebei. Probably the brighter coloration is correlated with
the dryer character of the forest encountered at the lower elevations.
There is a long, dry season in this part of Burma and the valleys
and foothills lack the influence of cool nights, mists, and low clouds
which make the mountain forests denser and darker.

Callosciurus quinquestriatus beebei J. A. Allen. BEEBE'S
BELLY-BANDED SQUIRREL.

Sciurus beebei Allen, Bull. Amer. Mus. Nat. Hist., 30, p. 338, 1911.

CaUosciurus quinquestriatus imarius Thomas, Ann. Mag. Nat. Hist., (9),
17, p. 640, 1926.

Specimens collected. — 22: Chipwi-Laukhaung road, 2; Gangfang,
1; Hkamkawn, 1; Htawgaw, 3; Hpimaw, 1; Laukhaung, 3; Pyepat, 3;
Pyepat-Langyang road, 2; Tamu-Chipwi road, 3; Tamu-Tanga
road, 2; Tsonma, 1.

The type of C. q. beebei was labeled as coming from Sarawak,
at the time it was described by Allen. Among other specimens in
the same collection, made by the Kuser-Beebe Pheasant Expedition,
is a squirrel of the vittatus group labeled as collected in the Sansi
Gorge, Burma- Yunnan frontier. It is obvious that the labels of
these two specimens in some way became transposed and that the
type locality of beebei is on the Burma- Yunnan frontier. The
geographical distribution of these two groups of squirrels is such
that the transposition of labels is the only way to account for the
two specimens being so far from where they belong. In this same
collection are two other squirrels, these representing C. q. quinque-
striatus, taken also in Burma.

This apparent discrepancy between the characters given for
beebei in the type description and the type locality, where none of
the quinquestriatus group can be logically expected, has been noted
by Ellerman (1940, p. 373). He lists beebei as a synonym of q. quin-
questriatus and states that Sarawak as a locality is erroneous.

I can see very little significant difference between squirrels col-
lected as listed above. While there is some individual variation in
color, the light stripes on the under parts range from white to
buffy or almost ochraceous, and there is a uniformity in general
appearance; all must belong to the same race. Some of this material
was taken not very far from the type locality of C. q. imarius and
is indistinguishable from the type of C. q. beebei, which has priority
by fifteen years.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 91

These squirrels were shy and comparatively scarce, considering
the number of persons in our party who were watching for them.
They were seen more frequently in the forests of the foothills and
more were shot along the trails as we traveled from Myitkyina to
our base camp at Gangfang than out of the collecting stations in
the heavier forests of the main range. Despite the fact that squirrels
are more readily seen in the more open type of forest often en-
countered at the elevations of 1,000 to 5,000 feet, I believe that they
actually are more numerous there, and had we been stopping to
collect intensively at some of our one-night rest houses a much
larger series would have been secured. In the climax forests of oak,
conifers, rhododendrons, and bamboo, squirrels were most difficult
to see.

This squirrel has a scolding call which is best described as a squall.
One that I shot at Pyepat uttered a hoarse bark, a single note,
not a chirr. It seems to spend most of its time up in trees; at least
we did not often note it at the ground level.

Dremomys lokriah bhotia Wroughton. LONG-SNOUTED BHUTAN
SQUIRREL.

Dremomys lokriah bhotia Wroughton, Journ. Bombay Nat. Hist. Soc., 24,
p. 426, 1916.

Specimens collected. — 2: Imaw Bum, 1; Nyetmaw River, 1.

These two squirrels have a rich ochraceous band running the
length of the under parts from chin to base of tail and obviously
belong in the lokriah group. Just which race of lokriah should be
used here is not so clear. The type locality of bhotia is eastern
Sikkim, and on geographical grounds one might expect the squirrel
from eastern Burma to show some differentiation. Another race,
garonum Thomas, has been described from the Garo Hills, Assam,
but is said to have the wash on the under parts "orange-buff"
(Ridgway), which is rather too pale to fit our specimens. Unfor-
tunately, the American Museum has for comparison no specimens
whatsoever of this section of Dremomys.

It is possible that these two animals represent an undescribed
race, but in view of the lack of comparative material and the fairly
close agreement with the few characters given in the description
of bhotia it seems the wisest course to use this name.

I have given Wroughton as the describer of D. I. bhotia but it
may be argued that Thomas is the author of the name. In the
same volume of the Journal, cited above, on page 417, Thomas

92 OSGOOD TESTIMONIAL VOLUME

begins a synopsis of the British Indian forms of Dremomys and on
page 418 gives the characters for "D. I. bhotia." It would seem that
this first use of the name, with enough characters to identify it,
should establish Thomas as the author. Nevertheless, Wroughton,
on page 426, under the heading "Dremomys lokriah bhotia, sp. n."
gives a full description and designates a type specimen. Ellerman
(1940, p. 381) lists "Dremomys lokriah bhotia, Thomas" and cites the
reference on page 426 of the Journal, which is in Wroughton's paper.
Both of the localities where this squirrel was encountered are
characterized by damp, high altitude (8,500 to 9,500 feet) forest.

Dremomys pernyi imus Thomas. LONG-SNOUTED BURMA
SQUIRREL.

Dremomys pernyi imus Thomas, Ann. Mag. Nat. Hist., (9), 10, p. 402, 1922.

Specimens collected. — 2: Gangfang (purchased from native, not
known to have been collected at Gangfang), 1; above Tsonma, 1.

No specimens of imus are available for comparison but the
American Museum has specimens of howelli from Yunnan and these
are very much like the Burma material. Thomas, I.e., states that
imus is "a large mountain race of D. p. howelli," and the type came
from the west flank of Imaw Bum, Burma. Our two specimens were
collected at no great distance from Imaw Bum, the Tsonma animal
being from a ridge that runs into the eastern flank of Imaw Bum.

If it is permissible to judge from the rather scanty material in
the American Museum representing several races of D. pernyi,
and from the rather close resemblance of these two specimens of
imus (which are almost topotypical) to the specimens of howelli
taken in Yunnan, I should characterize some of these subspecies
as very weakly differentiated. In the paper describing D. p. imus,
Thomas also describes D. p. howelli and the latter has page priority.
I use imus for our squirrels, primarily because of two considerations.
The skull of one of them measures 56.5 mm. in greatest length (as
against 53 mm. given for howelli). The proximity to the type locality
is one of the few definite bits of data not dependent on a personal
analysis of rather intangible characters.

Squirrels of the genus Dremomys appeared to be even rarer than
Callosciurus. The two genera occur together, at least in part of the
forest where we collected. At a one-night camp above Tsonma, altitude
about 8,300 feet, Stanford shot a specimen of each genus when he was
hunting a short distance. He reported that he heard two squirrels
barking, with a noise he compared to that of a pack of hounds.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 93

Their voices had great power and resonance. Although both genera
were represented by specimens he brought in, it is believed his
description applied to Dremomys, for the usual calls I heard made
by Callosdurus had no remarkable carrying power. Judging from
our rather limited contact with Dremomys, specimens collected by
us only on Imaw Bum, the Nyetmaw River, and adjacent Tsonma
camp, these squirrels prefer dense, dark woods and spend a good
deal of their time down on the ground.

Tamiops macclellandi macclellandi Horsfield. STRIPED
HIMALAYAN SQUIRREL.

Sciurus mcclellandii Horsfield, Proc. Zool. Soc. Lond., pt. 7, p. 152, 1839.

Specimens collected. — 2: Laukhaung-Pyepat road, 1; Seniku-
Shingaw road, 1.

The type locality for m. macclellandi is given as Assam without
any more specific designation within that area. According to the
map of distribution of Tamiops given by Allen (1940, p. 669), the
region where we collected in Burma is marked to indicate m. barbei
Blyth. Allen identified specimens from Yunnan, close to the Burma
border, as m. barbei and six of these are available for comparison.
The Burma specimens differ slightly from the Yunnan ones in having
paler under parts, but otherwise would fit reasonably well into the
same series. There are only three well-marked, dark, dorsal stripes
shown by the Burma Tamiops, collected in November and December;
the color of the sides passes directly into the creamy lateral stripes
without noticeable black edging.

The type of m. barbei came from Ye", Tenasserim, which is at
least twice as far from northeastern Burma as any probable locality
within the area of "Assam" as given for m. macclellandi. The rela-
tionships of most of the mammals in the foothills and mountains
of this corner of Burma tie up better with the Assam fauna than
with that of Tenasserim. No specimens of typical m. macclellandi
are in the American Museum to afford a comparison but the designa-
tion of these specimens in question as this race seems to be a better
choice than calling them m. barbei.

The specimen collected along the road from Laukhaung to Pyepat
was taken in fairly cool forest (5,400 feet elevation) which is part
of a mountain environment best classified as subtropic to temperate.
The other specimen, Seniku-Shingaw road, comes from a lower
elevation, between 1,000 and 2,000 feet, from foothills in the midst
of definitely tropical ecology.

94 OSGOOD TESTIMONIAL VOLUME

Tamiops monticolus spencei Thomas. SPENCE'S STRIPED
SQUIRREL.

Tamiops spencei Thomas, Journ. Bombay Nat. Hist. Soc., 27, p. 503, 1921.

Specimens collected. — 4: Imaw Bum, 2; road to Chimeli Pass, 2.

The type locality of spencei is given as northern "Kachin Province,
N. Burma, at 28° 22' N. 97° 40' E.," apparently the Namkiu Moun-
tains. This is no great distance from the mountain ranges whence
came our four specimens. They agree quite well with the type
description in warm coloration (inclining toward dull rufous), dorsal
stripes not as conspicuous as in other forms of the genus, and the
long pelage which one might expect in the cool, damp forests of
9,000 to 10,000 feet elevation.

These skins bear considerable resemblance to specimens from
Mucheng, Yunnan, identified by Allen (1940, p. 676) as T. s. swinhoei
and compared by Osgood (1932, p. 295) to spencei. The latter noted
the resemblance of the Mucheng specimens to spencei as described.
Our Burmese squirrels are not quite as clearly striped as the Mucheng
animals and are a shade darker in general coloration because of the
suppression of the outside pair of light stripes.

Squirrels of the genus Tamiops were only rarely noted by our
party and but six specimens, representing two species, were collected.
Two which I shot appeared to be rather indifferent to the presence
of man, and my first impression was that these animals would be
easy to collect whenever encountered. This idea was revised on
the basis of later experience; I was not so confident that one could
be collected once it was known to be in a locality. Whether this
scarcity of specimens is due to a conscious shyness and secretiveness
or to a naturally protective coloration and quiet demeanor can not
be determined from my few observations.

At the camp on Imaw Bum I shot one out of a leafless apple tree
after Ward and I had stalked it for several minutes. It was calling
in a fine, wiry note which we thought to be that of a small bird, and
I was not expecting to see a squirrel. The call lacked directional
quality and the animal, so closely matching the dark bark of the
tree, was very difficult to locate. It did not move or pay any atten-
tion to our disturbance of the shrubbery below it. A similar call-note
was heard near the camp on the Nyetmaw River and I was convinced
that it was made by Tamiops, but a long search, on several occasions,
met with no success.

Near the camp close to the Chimeli Pass I had waited very
quietly, late one afternoon, in the hope of getting a shot at a tufted

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 95

deer which had been jumped at this spot two days before. I was
in a dark patch of forest and nothing had moved for more than an
hour. A Tamiops came into sight, moving over logs and on the
ground, the first time I had noted one at the ground level. It slipped
along like a shadow and when it stopped moving blended into the
background so completely as virtually to disappear. Eventually
I shot it as it was climbing about the base of a clump of large bamboo.
I realized from watching this squirrel that I might have passed by
it a dozen times without seeing it had not the circumstance of move-
ment first caught my attention.

There were a few crab-apple trees scattered along the river
valley on Imaw Bum and the small, shriveled fruit lay on the ground.
Rodents cut up these apples to get at the seeds and Tamiops
undoubtedly has apple seed on its menu for two specimens were
collected in apple trees.

Pteromys (Hylopetes) alboniger orinus G. M. Allen. BLACK-
AND-WHITE FLYING SQUIRREL.

Pteromys (Hylopetes) alboniger orinus Allen, Mamm. China and Mongolia,
pt. 2, p. 723, 1940.

Specimens collected. — 4 : Gangfang (brought in by native hunters,
and Gangfang as a locality needs some reservation).

These specimens agree quite closely with material from Yunnan,
where the type was collected by Joseph Rock.

Despite night hunting with a headlight wherever the presence
of forest led me to expect flying squirrels, I saw no specimens of
Pteromys. Those we secured were bought from natives who pre-
sumably obtained them from some of the stands of primeval forest
only a relatively short distance from the village of Gangfang. Three
of these were brought in fresh, in the flesh, and good skins and skulls
were obtained. The fourth was a flat skin and lacked a skull. The
abundance of oaks in the forest, with a plentiful supply of acorns,
would seem to provide a congenial habitat for these squirrels, but
the difficulty in locating specimens indicates either a local distribu-
tion or very inconspicuous habits.

Belomys pearsoni pearsoni Gray. PEARSON'S FLYING SQUIRREL.

Sciuropterus pearsonii Gray, Ann. Mag. Nat. Hist., (1), 10, p. 263, 1842.

Specimens collected. — 3: Gangfang (about three miles above),
2; near Hpawshi, 1.

96 OSGOOD TESTIMONIAL VOLUME

Three specimens of a rare flying squirrel, of the genus Belomys,
were brought in to us by natives. One was in the flesh and was
saved as a skin and skull, the other two had been skinned and the
skulls were not available. The men reported that they had secured
the animals as noted above.

I have had for comparison the type of B. pearsoni blandus and
a specimen of B. p. pearsoni from Sikkim (both lent by Field
Museum), as well as a specimen from Assam, and two specimens
from Indo-China (Legendre Indo-China Expedition). This material
represents a wide geographical range and there are some color and
size differences, but with so few specimens it is difficult to evaluate
these characters. Some of the animals have skulls with unworn
molars, the crowns sharp, and the mature topography of the skull
yet to be achieved; the Burma skull has well-worn molars. Although
the Burma specimens do not agree in every respect with the Sikkim
specimen, they are so close that I believe they are the same subspecies.

Taking Ellerman's list of named forms (1940, p. 277), there are
four subspecies of pearsoni which call for consideration; the only
other subspecies in the list, kaleensis, is from North Formosa and
can be ruled out on geographical grounds.

Belomys pearsoni pearsoni; type locality, Sikkim
Belomys pearsoni blandus; type locality, Tongking
Belomys pearsoni villosus; type locality, Upper Assam
Belomys pearsoni trichotis; type locality, Manipur

Both Upper Assam and Manipur are fairly near to northeastern
Burma and perhaps our specimens should be called either villosus or
trichotis. There is nothing in Blyth's description of villosus (1847,
p. 866) which will not fit pearsoni. The color of the hair on the chest
of trichotis is given by Thomas (1908, p. 7) as white to the base,
a condition matched by the two Legendre Expedition squirrels
from Indo-China (which should be blandus on a geographical basis)
and approximated by a specimen from Assam.

Eight specimens is not enough to permit one to pass considered
judgment upon how many of these subspecies of pearsoni are based
upon characters of taxonomic value, although I suspect that four
distinct races, ranging from Sikkim to Tonkin, are probably too many.

Various authors, in giving the characters of the genus Belomys,
describe the ear as large, which is a statement requiring qualification.
It is not a large ear, although it may be large as compared with the
ear of Pteromyscus (see key in Thomas, 1908, p. 4), no specimens
of which have been examined by me. It seems that a more useful
comparison would be with a flying squirrel much better represented

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 97

in museums, Pteromys for example, and in this case one would
describe the ear of Belomys as small.

Petaurista clarkei Thomas. CLARKE'S FLYING SQUIRREL.

Petaurista clarkei Thomas, Ann. Mag. Nat. Hist., (9), 10, p. 396, 1922.

Specimens collected. — 3 (skins only) : Htawgaw, 1 (brought in by
native hunters); 2, no locality, probably not far from Htawgaw
(bought from natives).

These three specimens agree, in all essentials, with the type
description. Two of them have under parts washed with warm
buffy; the third is only slightly buffy below, almost white, except
for the edges of the lateral membranes.

This species was not encountered in the flesh by any of the
party. It does not seem to be as plentiful as the other form of
Petaurista brought in by the native hunters. The type series of
five, collected by Forrest in the Mekong Valley, were all shot in
pine forest, and those brought to us could also have been living in
pines, a common tree about Htawgaw and several of our lower camps.

Petaurista yunanensis J. Anderson. ANDERSON'S FLYING
SQUIRREL.

Pteromys yunanensis J. Anderson, Ann. Mag. Nat. Hist., (4), 16, p. 282, 1875.

Specimens collected.— 12: Black Rock, 3 skins with skulls (pur-
chased from natives); Gangfang, 2 skins with skulls, 1 skin only
(all from natives) ; Gawlam, 2 skins only (from natives) ; Laukhaung,
2 skins only (from natives); Nyetmaw River, 1 skin with skull;
no locality, 1 skin only (from natives).

These handsome squirrels agree, in all particulars, with descrip-
tions of yunanensis given in literature, and with material collected
in Yunnan. The series does not show very much variation in color
of upper parts, but below the color varies from all white to white
with brownish wash down the mid-line.

Only one specimen of this big flying squirrel was personally
collected by our party; all the others were purchased from natives.
Some of the natives brought them in as flat, or as stuffed skins, and
there are no skulls to go with these specimens. A few were brought
in as freshly killed animals and complete specimens could be saved
in such a case. The localities given for the native material do not
adequately designate the sources of these skins, merely the location
of the expedition at the time of purchase. It may be assumed,

98 OSGOOD TESTIMONIAL VOLUME

however, that most of the specimens originated at no very great
distance from the spot of delivery.

The one specimen shot was collected at the camp on the Nyetmaw
River, altitude 8,600 feet. I secured this early one evening, hunting
with a headlight. The animal was in mixed forest, oaks predominat-
ing, well above the ground and its eyes glowed brilliantly, a soft
yellowish red. Although this forest was hunted thoroughly on
several subsequent evenings, no other squirrels were seen.

Eothenomys melanogaster cachinus Thomas. CACHIN MEADOW
MOUSE.

Microtus (Eothenomys) cachinus Thomas, Journ. Bombay Nat. Hist. Soc.,
27, p. 504, 1921.

Specimens collected. — 109: Hpare-Saulang road, 10; Hpimaw
road, 18; Imaw Bum, 22; Nyetmaw River, 9; road to Chimeli Pass, 50.

The type locality of E. m. cachinus is Imaw Bum, altitude 9,000
feet. Our expedition had its base camp on the flanks of Imaw Bum,
at an elevation of 9,000 feet, and hence the series of twenty-two
specimens from there are topotypical cachinus. It is fortunate that
the entire series of this meadow mouse can be considered in relation
to topotypes for considerable individual variation occurs and some
of the characters given prominence in literature break down when
many specimens are involved.

The literature indicates that several forms of Eothenomys occur
in this northeastern corner of Burma; others have been reported
in western China and could be expected in Burma. Some of the
Chinese mice are available for comparison. The written descrip-
tions are seldom sufficiently descriptive and exclusive to afford a
satisfactory basis for identification of these plain-colored mice.

Despite the monotonous identity in external appearance when
these mice were examined in the field, I had rather expected that
two or more species, if not subgenera, would be discovered when
the mountain collections were studied at the museum. The chief
basis for this expectation was the observation that some of the
mice had five and some six plantar tubercles. This difference now
appears to have no significance. Howell (1924, p. 1014) has shown
that the number of plantar tubercles and exact molar patterns are
not to be considered as constant formulae for meadow mice in
California, and I suspect that this is true for Burma.

In literature the pattern of the third upper molar is given great
diagnostic value. The crown of this tooth in cachinus should have,

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 99

according to authors, four inner and four outer salient angles. In
our series I find this often to be the case but I also note that the last
loop of M- may range in development from an important feature
in the molar topography, with sharply salient angles, through
progressive reductions in size, past the stage with angles much
shortened, to the final pattern where a straight side, either inner or
outer, wipes out the salient completely.

This meadow mouse is a common resident in all the mountain
environments visited by the expedition. The altitudinal range
covered by our records is from 7,500 to 10,500 feet. It occurs in a
variety of situations but seems to prefer banks or slopes which may
be easily tunneled. Here its burrows open to the surface at
frequent intervals and there are numerous surface runways. The
banks along the trails are a favorite site, because moss, ferns, grass,
and low vegetation give some ground cover and here the workings
of a colony may be noted extending for long distances. I did not
see very extensive surface runways through rank grass in mountain
meadows, such as those made by many of our North American
voles. In a meadow near the Imaw Bum camp there were a fair
number of such runways but only a few mice seemed to be using
them and most of our specimens at this place came from the banks
of small streams.

This mouse was also trapped under rocks and logs but usually
there were some signs of tunnels or runways nearby. These animals
move about during the day but become most active about sundown
and at night.

Eothenomys melanogaster libonotus Hinton. PERE DAVID'S
VOLE.

Eothenomys melanogaster libonotus Hinton, Ann. Mag. Nat. Hist., (9), 11,
p. 151, 1923.

Specimens examined.- — 115: Changyinku, 14; Gangfang, 55;
Hkamkawn, 2; Hpare, 21; Hpawte, 7; Hpimaw road, 1; Hpinlawkha,
4; Htawgaw, 2; Langyang, 1; Luksuk, 2; Pyepat, 2; Tangtung, 4.

The name libonotus has been selected for these mice only after
a process of elimination which has removed from consideration all
of the comparative material of the genus in this museum, with none
of which they agree. No specimens of libonotus are available but
the characters as given in the original description come close enough
to make libonotus the first choice from the literature. The type
locality, Dreyi, Mishmi Hills, Assam, altitude 5,140 feet, is not

100 OSGOOD TESTIMONIAL VOLUME

greatly removed, either geographically or ecologically, from the
region in Burma where our specimens were collected.

The last upper molar is extremely variable, in crown pattern,
in this series from Burma, and the differences do not seem to be
co-ordinated with age or locality. The typical pattern for this tooth,
to follow the original description of libonotus, should be three salient
angles on both inner and outer faces. This is true of many of our
specimens but a number show four salients on the inner face, a few
have four on the outer face, others have four on both inner and
outer faces. Occasionally a skull has the last upper molar on one
side with a 3-3 pattern, its mate on the other side with a 3-4 pattern.
Most of the variation in this tooth is confined to the last loop, which
ranges from small and simple to elongated and complex.

The rather small ears, almost hidden in the fur of the surrounding
parts, the short sleek fur of the body, and the short tail, give this
meadow mouse an appearance suggestive of the species of Chilotus
and Pitymys. The first specimens taken were caught in mole run-
ways, which had been opened up to place traps flush with the floor
of the tunnel. The position of the mice in the traps showed that
they were using these subterranean highways and the circumstances
recalled those under which I had trapped Microtus (Chilotus) oregoni
in mole runways about Portland, Oregon. Later, specimens were
caught in traps set on the surface of the ground, in spots where
suitable cover made an environment attractive to meadow mice.
I believe, however, that the suggestive external appearance of this
mouse, indicating specialization for subterranean habits, was con-
firmed by our field experience and that more of its activities take
place underground than is the case with Eothenomys cachinus.

This round-headed, short-tailed meadow mouse was not caught
in the heavy forest of our upper altitude collecting sites. Its apparent
range is in the intermediate foothills (not of the dry lowlands),
where it may be found in grassy meadows, about cultivations, or
in the occasional stand of trees and shrubbery along the streams.
The highest altitude recorded is 9,000 feet. One specimen was
trapped in a mole runway at old Fort Hpimaw, in open terrain.

This mouse is both diurnal and nocturnal in habit. Breeding
activity must be at very low ebb for these prolific mammals during
the winter season, for very few immature or half-grown specimens
were taken in the traps.

Rhizomys sinensis wardi Thomas. WARD'S BAMBOO RAT.

Rhizomys wardi Thomas, Journ. Bombay Nat. Hist. Soc., 27, p. 504, 1921.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 101

Specimens collected. — 7: Gangfang, 4 (brought in by natives);
Imaw Bum, 1, skin and skeleton, 2 (brought in by natives).

The specimens from Imaw Bum are virtually topotypes, for Ward
secured the type on the west flank of Imaw Bum, at an elevation of
9,000 feet. The specimens brought in to us at Gangfang came
from nearby forest and probably within a radius of no more than
fifteen miles from Imaw Bum at the outside.

Bamboo rats seem to occur throughout the forested mountain
slopes where we collected, but they are difficult to trap and all
but one of our specimens were secured by purchase from natives.
Even the one that was actually caught by us was trapped by my
native trap-boy and gun-bearer who used his own methods after
steel traps failed. Not infrequently one can hear a bamboo rat
cutting bamboo underground and the brittle snapping of the tough
fibers under the powerful incisors is audible for a surprising distance.
Usually the burrows of these rats are to be found about clumps and
thickets of bamboo, and I doubt if they feed on much of anything
else. On the slopes of Imaw Bum we dug out a nest at well above
10,000 feet elevation. The nest was a grass-lined cavity and pieces
of freshly cut bamboo, bamboo twigs and leaves, and droppings
were in the burrow at this point.

An occupied burrow was located at about 9,000 feet in the valley
of the Chaungmaw River where we camped on the northeastern
flank of Imaw Bum, and my native boy showed me the approved
technique for trapping the animal. With the help of two Lisus,
my boy set about exploring the course of the burrow with sharp
bamboo stakes. Probing from above, the stake broke into the burrow
and revealed its presence. The home territory of a bamboo rat
includes several burrows and only one or two of these may be in
active use. Each time a burrow was opened the boy thrust in an
arm, took a sample of the debris from the bottom and felt, at arm's
length, for any turn or change in direction. The debris, made up
of droppings, short lengths of bamboo, chips, etc., indicated by its
appearance whether it was old or freshly made.

An old burrow might be ripped up in following its course, or,
if it went under a clump of bamboo or tree roots, the probe would
search for emergence on the other side. It was not long before sec-
tions of green, freshly cut bamboo were found, some of them thick
pieces two inches in diameter. The marks of the incisor teeth re-
minded me of the work of a beaver. Soon the nest itself was located,
a mass of leaves with fragments of bamboo and a great deal of a

102 OSGOOD TESTIMONIAL VOLUME

white, granular substance like fine sawdust. This may have been
from cuttings or disintegrated droppings. From this point the
main runway pitched under the roots of a large tree and the men
could dig no farther so gave up the idea that the rat could be captured
by excavation. At this time No. 0 Newhouse traps were set flush
with the floor of the burrow and stakes planted to force the rat
across the set. That night the rat plugged all the burrows that
had been opened, forcing fresh earth up from below, and sprung
the two traps with plugs of dirt.

My boy then set one of his own snares, making elaborate prepara-
tions which involved framing the entrance to the main burrow with
firmly driven stakes so that the rat had to follow the course intended
for it. Two stout bamboos were bent over to spring the snare
and it was held in position by a toggle working against a bamboo
splint. One end of this splint was firmly anchored to the floor of
the burrow and then passed squarely across the passageway. The
rat meeting this obstruction promptly cuts it to get it out of his
way. The snare itself was a slender strip split from the hard outside
shell of a green bamboo and passed for a brief period above a small
fire to make it pliable. The snare passed through an opening in the
roof of the burrow and the running noose filled the burrow. When
jerked upward by the bent bamboos the closing loop would pull
the rat up tight against the roof of the burrow and hold him there.
Indeed, I calculated that the power of the bent bamboo should be
almost sufficient to cut the animal in two and wondered why so
much energy was required. Apparently the natives believe in using
plenty of force in their traps.

After the snare was set in place the loose debris removed previ-
ously from the burrow was scattered back in place, the mouth of
the burrow was restored with damp earth, stakes were placed across
the opening made to get into the tunnel, and the leaves and loose
earth piled about to shut out all light. The snare had been rubbed
with earth to color it and great pains taken to avoid arousing the
suspicion of the rat. The occupant of the burrow sprung the snare
that night and may have been within the noose, but the violent
jerk of the released bamboos snapped the slender noose and we
secured no specimen. Neither the boy nor the rat was discouraged
by this episode and eventually, after four days and nights of trapping,
the bamboo rat reached the skinning table.

I believe that the natives eat these rats and are accustomed
to digging them out or trapping them when in need of food.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 103

Apodemus sylvaticus orestes Thomas. CHINESE WOOD MOUSE.

Apodemus speciosus orestes Thomas, Abstract No. 100, Proc. Zool. Soc. Lond.,
p. 49, 1911.

Specimens collected. — 209: Black Rock, 1; Changyinku, 16;
Chimeli road, 16; Gangfang, 55; Hpare, 21; Hpare Pass camp, 4;
Hpare-Saulang road, 8; Hpimaw, 8; Hpimaw road, 13; Hpawte, 4;
Hpinlawkha, 1; Htawgaw, 7; Imaw Bum, 19; Luksuk, 2; Nyetmaw
River, 23; Saulang, 7; Tangtung, 2; Tsonma, 2.

This large series displays considerable variation and it is possible
that more than one form is represented. The variation, in size and
coloration, does not appear to exceed the limits which define orestes
but when extreme examples are compared one gains the impression
that more than a single race, or perhaps species, is involved. Un-
fortunately, the very large individuals invariably have the dentition
so worn that nothing definite can be learned of the molar patterns.
Also the intermediate examples seem to bridge over any apparent
gaps between the extremes. The localities represented cover a
sufficient spread of ecologies to warrant the expectation that more
than one form of Apodemus would be found.

This mouse was usually the commonest small rodent in each
environment collected. It was found among the bracken, tall
grass, and shrubbery of the foothills and continued through the
forest up to elevations of 10,500 feet or more. I detected no marked
habitat preference. Specimens were caught along streams, among
rocks, on damp moss-covered forest floor, and in dry, exposed
situations. My notes record the fact that Apodemus was compara-
tively rare along the upper Hpimaw road where the environment
appeared to be favorable. At this place Neotetracus was common
and may possibly prey upon this mouse.

Micromys minutus erythrotis Blyth. BLYTH'S HARVEST MOUSE.

Mus erythrotis Blyth, Journ. Asiatic Soc. Bengal, 24, p. 721, 1855.

Specimens collected. — 17: Gangfang, 7; Hpare, 7; Hpawte, 1;
Hpimaw, 1; Htawgaw, 1.

I have used erythrotis for these mice, following Osgood (1932,
p. 318) who cites this as "the oldest name for any Asiatic Micromys,"
rather than Allen (1940, p. 963) who identifies Yunnan specimens
as pygmaeus of Milne-Edwards. The Burma specimens appear to
be identical with Yunnan material. Blyth's type came from the
Khasi Hills of Assam, Milne-Edwards based pygmaeus upon speci-
mens from central Szechwan, and our mice were taken about midway

104 OSGOOD TESTIMONIAL VOLUME

between these two localities. But Allen (I.e., p. 964) states that
"it is still to be shown that the Chinese specimens are really different
from M. minutus erythrotis ..." and under these circumstances the
older name should be given preference.

Harvest mice were found only on open hillsides, among low
shrubbery, bracken, and tall grass. They were not caught in the
dense, primeval forests although each of the localities where specimens
were trapped had formerly been a forested area. The present open
terrain is a secondary condition and harvest mice must have found
their way into it in comparatively recent times.

Leggada cookii meator G. M. Allen. ALLEN'S SPINY MOUSE.

Leggada cookii meator G. M. Allen, Amer. Mus. Nov., 270, p. 6, 1927.

Specimens collected. — 12 : Black Rock, 1 ; Gangf ang, 10 ; Langyang, 1 .

These mice match reasonably well with the series of meator from
Yunnan from which the type specimen was selected. Several of the
Gangfang specimens are quite dark, almost black, and most of
the Burma animals have spinous hairs mixed with the predominating
soft, normal pelage.

This mouse, of a group variously known as jungle mice or spiny
mice, was encountered only in open terrain where shrubbery had
taken the place formerly occupied by forest. The localities listed
can be reached up river valleys which afford avenues of penetration
from the warmer lowlands. Andrews and Heller took meator at
elevations up to 8,000 feet, but we caught none at similar mountain
camps on the western face of the Salween Divide.

Rattus rattus sladeni J. Anderson. SLADEN'S ROOF RAT.

Mus sladeni J. Anderson, Anat. and Zool. Researches Western Yunnan, p. 305,
1879.

Specimens collected. — 1: Htawgaw, altitude 5,600 feet.

This specimen agrees well with Yunnan specimens of sladeni.
Anderson gives the type locality as Ponsee, in the Kakhyen Hills,
on the Burmese border of Yunnan. It is near or on the Taping River,
has an altitude of 3,500 feet, and is not very far from the region
worked by our expedition. On modern maps Kakhyen is spelled
Kachin.

Anderson states that this rat appears to live in houses and also
in trees. It must be rare in northeastern Burma for only the single
specimen was encountered. It was trapped on the brushy hillside
not far from the rest house at Htawgaw.

Field Museum of Natural History

Zoology, Vol. 27, Plate 4

' /•«

IMAW BUM FROM THE TRAIL
Between Tsonma and Nyetmaw Pass

LOOKING WEST FROM TRAIL, GANGFANG TO HPAWTE
Imaw Bum in background

Of THE

UNMERSOT a*

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 105

Rattus nitidus Hodgson. HODGSON'S GRAY-BELLIED RAT.

Mus nitidus Hodgson, Ann. Mag. Nat. Hist., (1), 15, p. 267, 1845.

Specimens collected. — 13: Gangfang, 11; Htawgaw, 1; Rawngaw, 1.

This small series of rather dark-colored rats checks fairly closely
with specimens from Yunnan and also agrees with the data given
by various authors. It is not clear just which race of nitidus should
be used for these specimens. The type description of n. nitidus was
based upon specimens taken in Nepal, and later authors have given
nitidus a very extensive range. Several eastern races have been
described, one of them, n. obsoletus Hinton, from the Chin Hills
of Burma. On geographical grounds, perhaps obsoletus should be
applicable to our specimens but Allen (1940, p. 1002) doubts the
distinctness of this race. This conclusion finds me in a receptive
mood because the material of this genus now in the American
Museum amply demonstrates the variability of many of the char-
acters used to establish these subspecies and, in some cases, even
species.

With specimens of some of these questionable races on hand
for comparison, I find it difficult, in some instances, to share the
faith of the describer who enumerates exclusive characters. And
if one lacks specimens for comparison, it is well-nigh impossible to
satisfactorily allocate fresh material upon the basis of a written
description. A competent reviser, with ample material, may be able
to save some of the names that appear to have uncertain status
today, but too much emphasis seems to be given to trivial differences
which do not hold up for a large series of specimens. These reflec-
tions are not directed particularly toward the validity of R. n.
obsoletus, which may prove, in the final analysis, to be one of the
races to survive. This reaction has been induced by searching for
flitting characters in the genus Rattus, characters which are absent
when needed and turn up when the prescription states otherwise.
These things happen in series of specimens which should all be of
one race but which show composite characters to drag into considera-
tion one or more other races. This hunt has been in a field fertile
in names and leaves one almost ready to put the list in a hat, draw
out as many as needed, and pass on to something more worth while.

Rattus fulvescens fulvescens Gray. GRAY'S SPINY-HAIRED RAT.

Mus fulvescens Gray, Cat. Mamm. Nepal and Thibet, 1st ed., p. 18, 1846.

Specimens collected. — 4: Gangfang, 3; Ngawchang River, altitude
1,800 feet, 1.

106 OSGOOD TESTIMONIAL VOLUME

This spiny-haired rat, with warm brown to ochraceous pelage, was
rarely encountered. In its most highly colored phase it is a hand-
some form and easily distinguished from the other Rattus of the
same size. All of our specimens are in the winter pelage but there
is considerable variation in the development of the spiny hairs.
The spiniest, as well as the richest-colored example, is the one taken
at an elevation of 1,800 feet, in an open river valley with tempera-
tures much higher than at Gangfang, the source of the other speci-
mens, where ice formed overnight. One of these Gangfang rats, a
small animal not yet of mature dimensions, has no spines; the other
two are moderately spinous.

These animals were found in the more open, shrubby environ-
ment of the lower foothills. Perhaps they do not range much higher
than 5,000 feet elevation in northern Burma or, if they do, they
are comparatively rare. Good series of confucianus, andersoni, and
ninus were collected throughout the expedition and presumably
more fulvescens would have been trapped had it ranged in the same
territory.

Rattus confucianus confucianus Milne-Edwards. SULPHUR-
BELLIED RAT.

Mus confucianus Milne-Edwards, Nouv. Arch. Mus. d'Hist. Nat. Paris, 7,
Bull., p. 93, 1871.

Specimens collected. — 33: Changyinku, 4; Gangfang, 14; Hpare, 1;
Hpare-Saulang road, 1; Hpimaw fort, 3; Hpimaw road, 4; Hpawte,
1; Hpinlawkha, 1; Imaw Bum, 1; Saulang, 3.

A series of fifty-six specimens collected by the expedition appears
to represent R. c. confucianus and R. andersoni, but it is not a
simple matter to break the lot up into the two groups. In general,
andersoni is noticeably larger than confucianus, with longer and
heavier hind foot, larger skull, and longer and heavier toothrows.
There are no color differences that hold when many specimens are
compared.

These two forms, if indeed there are two, have overlapping ranges
and both were taken in the same trap line. Examples typifying the
two extremes are readily sorted out, but the intermediate specimens
are puzzling. The individuals listed above as confucianus include
some of these intermediates which appear to fall just short of the
characters which might justify calling them andersoni. Osgood
(1932, p. 306) had difficulty in arriving at a satisfactory allocation
of a large series of confucianus, concluding with the observation that
the group would not be thoroughly understood until some competent

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 107

reviser had studied more material than was then available. The
specimens under discussion confirm the soundness of his conclusion.

For comparison I have had a large series of confucianus collected
in Yunnan.

The habits of this rat are the same as those of andersoni, as far
as I can judge from the results of trapping.

Rattus andersoni Thomas. ANDERSON'S RAT.

Epimys andersoni Thomas, Abstract No. 90, Proc. Zool. Soc. Lond., p. 4, 1911.

Specimens collected. — 23: Changyinku, 1; Gangfang, 5; Hpare, 3;
Hpare Pass, 1; Nyetmaw River, 2; Pyepat, 3; Tangtung, 1; Tsonma,
5; Vijawlaw, 2.

As stated in the discussion of R. c. confucianus, the differences
between this rat and andersoni do not appear to be well defined.
I have been unable to apply Allen's diagnosis (1940, p. 1032) with
much success, about the only exclusive character being the heavier
dentition of andersoni. Selected examples of confucianus closely
approach andersoni even in size of teeth, and quite parallel it in color
of under parts and topography of skull.

To judge from the number of specimens of these two rats collected,
both are fairly common in northeastern Burma. They were trapped
in thickets of shrubbery, in forest, along the banks of streams and
among the rocks.

Rattus eha ninus Thomas. SMOKY-BELLIED RAT.

Rattus eha ninus Thomas, Ann. Mag. Nat. Hist., (9), 10, p. 404, 1922.

Specimens collected. — 23: Chimeli road, altitude 10,000 feet, 11;
Hpimaw road, altitude 9,000 feet, 2; Imaw Bum, 7; Nyetmaw
River, altitude 8,600 feet, 3.

This long-tailed rat, with dark, slender hind feet and pelage of
under parts slate-colored at base, is the only medium-sized species
of Rattus collected by the expedition which can be readily assembled
in a homogeneous series. The other forms of Rattus of comparable
size, the confucianus-andersoni-fulvescens assortment, require con-
siderable juggling to arrange in series which give full consideration
to all the characters, both those which are obvious and those which
are ascribed but fail to hold for any but exceptional specimens. Lest
this statement be interpreted to indicate that the range of individual
variation of ninus is narrow, it should be pointed out that our series
displays considerable variation in lengths of tails, of skulls, and

108 OSGOOD TESTIMONIAL VOLUME

amount of white on under parts. These differences are not sufficient
to obscure the many similarities which establish the relationship.

Rattus e. ninus was taken only at the higher elevations, in a
temperate zone ecology. The specimens were caught along the banks
of streams, about rocky outcroppings, and, in some instances, in
well-marked runways on the forest floor. Traps set on logs, well
above the ground, caught this rat at the Nyetmaw River camp where
the climax forest of oak, rhododendrons, birch, magnolia, etc.,
provided an ideal environment for a mammal with the arboreal
propensities which are attributed to several of these long-tailed
species of Rattus.

Both at Imaw Bum and on the Hpimaw road, ninus was taken
on snow-covered terrain. Dark, damp forest seems to be its favorite
habitat.

Rattus edwardsi gigas Satunin. SATUNIN'S GIANT RAT.

Mus gigas Satunin, Ann. Mus. Zool. Acad. Imp. Sci. St. Petersbourg, 7,
p. 562, 1902.

Specimens collected.— I: Hpare.

R. e. gigas is easily distinguished from R. b. bowersii on the basis
of color and skull topography. The warm brown pelage and small,
audital bullae of the former are noticeably different from the cool
grayish pelage and inflated bullae of the latter. R. listen garonum
described by Thomas (1923, p. 27), type locality Garo Hills, Assam,
requires consideration because it is one of the edwardsi group and
geographically it could range into northeastern Burma. The Assam
rat, however, is slightly smaller and measurements of both skull
and hind foot associate the Burma specimen with gigas.

Only one specimen of this large, brown rat was taken. It was
trapped on the bank of a fair-sized mountain brook running through
heavy forest, elevation about 6,000 feet above sea level. Additional
traps were put out in this area in the hopes of catching more speci-
mens but with no success.

This animal is seemingly rarer than R. b. bowersii in the regions
where we collected, for the natives brought us none as contrasted
with eight specimens of the latter species.

Rattus bowersii bowersii J. Anderson. BOWERS' GIANT RAT.

Mus bowersii J. Anderson, Anat. and Zool. Researches Western Yunnan,
p. 304, pi. 17, 1879.

Specimens collected. — 8: Gangfang, 2; Hpawshi, 1; Ngawchang
River, altitude 1,800 feet, 5.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 109

The colored plate of bowersii, given by Anderson in the type
description, shows a rat of warm brown coloration, rather unlike
anything in the series here identified as bowersii. The type was
collected about 1868 and was preserved in alcohol. Kloss, who
examined the type in the Indian Museum and comments on it
(1917, p. 5), writes of the faded color, and perhaps considerable
color change had taken place between the time of capture and the
execution of the color plate. Certainly there is little about this
plate to suggest the characterization of later authors who write of
the members of the bowersii group as being "large rats of a silvery
or brownish-grey colour minutely flecked with white" (Bonhote,
1903, p. 32), or "large iron-grey rats forming the 'bowersi group'
of Bonhote" (Thomas, 1916, p. 409). "Iron-grey" is a good descrip-
tion of the general color effect of the large rats collected by the
Vernay-Cutting Expedition. One is forced to conclude that the color
plate is not to be trusted.

There are no specimens of adult bowersii available for comparison.
Specimens collected by Andrews and Heller in western Yunnan,
and identified as bowersii by Allen (1940, p. 1044) are noticeably
smaller and browner than the specimens I here designate as bowersii.
A large, grizzled rat in the American Museum from "northwestern
Fukien" which Allen (1926, p. 16) states "is practically a topotype"
of latouchei is virtually indistinguishable from these Burmese speci-
mens. Unfortunately, the Fukien specimen lacks a skull. The
validity of latouchei, which has been treated as a subspecies of bowersii
by several authors, does not need to enter into consideration because
the older name, bowersii, must be used in any event. The type
locality of bowersii, Kakhyen Hills, is very near our localities.

All of the specimens of bowersii obtained by our expedition were
purchased from natives who brought the rats into camp from locali-
ties near at hand. One was caught near Gangfang and the native
took me to the spot where I examined the burrow and the deadfall
set there. The burrow was on a hillside covered with low scrub, so
thick that one would have to step almost into the hole to discover
it. Although this district was probably forested many years ago,
the climax ecology has been destroyed by clearings and fires, and the
tangle of low shrubbery, bracken, and herbaceous vegetation which
has taken possession of the low hills is radically different from
undisturbed regions at the heads of the ravines. If bowersii is a
forest-dwelling rat, as some authors have described it, the Gangfang
capture indicates that it may also occur several miles from large
trees.

110 OSGOOD TESTIMONIAL VOLUME

The rat had dug a large burrow laterally into the hillside and the
native had built a little palisade of twigs which compelled the
animal to pass under a small log poised as a deadfall by an ingenious
system of rattans, levers, and a treadle. The man told me that he
had found no other burrows on this particular hillside and he did
not catch more than the one rat in several nights of trapping. The
Kachins are accustomed to trap small mammals and are very clever
at using the materials close at hand, especially bamboo, which
supplies them with long, pliable strips twisted into cordage.

Vernaya gen. nov.

Description. — A small, long-tailed mouse closely related to
Vandeleuria and Chiropodomys and, to some degree, combining
characters of these two genera of climbing mice. In external appear-
ance very much like Vandeleuria in color pattern, character of
pelage, and long, non-tufted tail, but noticeably different in respect
to development of digits on fore and hind feet. With exception of
pollex, all digits of Vernaya carry typical, pointed claws; pollex
vestigial and carrying small, flattened nail visible under magnifica-
tion but not easily distinguished by the naked eye.

Skull with short rostrum and moderately inflated braincase; a
shallow but conspicuous longitudinal concavity extending from
interorbital region well along the nasals; incisive foramina long,
narrow, reaching about to plane of first molars; molars small, first
two resembling those of Chiropodomys in crown pattern, with three
well-developed, longitudinal series of tubercles, last molar much
smaller, roughly semicircular in cross section, crown about as broad
as long, in contrast with the last molar of Chiropodomys which is
distinctly longer in the axis of the toothrow; incisors without longi-
tudinal grooves.

Genotype. — Vernaya fulva G. M. Allen, represented by a specimen,
No. 43989, American Museum of Natural History, collected at
Yinpankai, Yunnan.

The genus is named for Mr. Arthur S. Vernay, who has given his
full support to so many expeditions for the American Museum and
whose interest in the fauna and flora of Burma led to the field work
which is the basis of this report.

Remarks. — Two specimens of climbing mice taken by the Vernay-
Cutting Burma Expedition proved so difficult to identify that it
became necessary to go over the scanty material available for
comparison rather critically in order to reconcile apparent discrep-

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 111

ancles between published accounts and the characters exhibited by
the specimens.

A specimen of this group of small, long-tailed climbing mice,
collected by Andrews and Heller in Yunnan in 1916, and now in
the American Museum, was described as Chiropodomys fulvus by
Allen (1927, p. 11). One of the characters cited was the presence
of flat nails on the pollex and hallux. This is not actually the case
for the hallux because it has a short, but pointed claw, not as com-
pressed laterally as the claws on the other digits but, nevertheless,
not to be confused with the broad, flat nails to be found on the hallux
of true Chiropodomys and true Vandeleuria.

Allen later (1940, p. 1048) reported this particular specimen as
Vandeleuria dumeticola, listing his Chiropodomys fulvus as a synonym
of V. dumeticola. But I am unable to detect any grooves on the
incisors and there are other characters which, as I am pointing out,
argue against calling fulva a Vandeleuria.

The two specimens from Burma seem to be so similar to fulva
that they should be considered identical with it, and thus there
are three specimens available to establish the characters of the new
genus. Thanks to the co-operation of Field Museum, I have had
the opportunity to examine the type specimen of Vandeleuria dumeti-
cola scandens Osgood and have also had the benefits of Dr. Osgood's
comments on our three specimens, which were mailed to him for
examination and comparison. He, too, is unable to see, in the type
of fulva, the characters which would place it, without question,
either in Chiropodomys or in Vandeleuria.

The American Museum has sufficient material of Chiropodomys,
several species, to fully demonstrate that fulva does not belong in
that genus. Apart from the characters of the nails and claws, the
structures of the skulls are quite different. The Chiropodomys
skull shows much greater inflation of the braincase, relatively shorter
and broader incisive foramina, and a better-developed last molar.
Chiropodomys gives evidence, in several respects, of being a more
highly specialized climber than Vernaya.

The only representatives of Vandeleuria that I have seen are the
type and topotype (skull broken) of V. d. scandens and a third
specimen of scandens collected by the Legendre Indo-China Expedi-
tion of the American Museum. These have grooved incisors, nails
on more digits than is the case in Vernaya, and show a molar pattern
that is very distinct from the new genus. The incisive foramina
of Vandeleuria are shorter and more open than in Vernaya.

112

OSGOOD TESTIMONIAL VOLUME

More material of Vandeleuria is badly needed in order to dispose
of all the names used in literature and to work out a more satisfactory
geographical distribution. Some of the older descriptions are brief
and inadequate, but the one point on which most agree is the presence
of longitudinal grooves down the anterior face of the upper incisors.

Vernaya fulva G. M. Allen. VERNAY'S CLIMBING MOUSE.

Chiropodomys fulvus Allen, Amer. Mus. Nov., 270, p. 11, 1927.
Vandeleuria fulva Allen, Mamm. China and Mongolia, p. 1048, 1940.

Specimens collected. — 2: Hpawte, 1; Hpimaw, 1.

The first specimen of Vernaya, fulva (a female) secured by our
expedition was trapped on an open hillside, covered by thickets of
low shrubbery and a heavy growth of bracken. The trap line was
set along a line of low cliffs and rocky outcrops. Because this mouse
was noted to be different from Micromys, rather similar in size and
coloration, which had been caught in similar environment earlier
in the trip, a special effort was made to capture more when we
returned via this one-night stop at Hpawte. None were caught
the second night and, unfortunately, I was not aware at the time
that the specimen was one of the specialized climbing mice. Upon
casual inspection the peculiarities of the hands and feet are not
apparent and a lens is required to perceive the presence of the tiny,
flattened nails. In the dry specimens it is especially difficult to get
these details because there is so little differentiation in color between
nail and shrunken epidermis, and the forefeet can not be twisted

Vandeleuria

Chiropodomys

Vernaya

Nails

1st and 5th

1st digit fore and

1st digit forefoot

digits both fore

hind feet

only

and hind feet

Tail

moderately

moderately long,

very long, well

long, thinly

penicillate

haired, not defi-

haired

nitely penicillate

Incisive foramina

relatively short

relatively short and

long and relatively

and broad

broad

narrow

Longitudinal con-

well indicated

well indicated

noticeably de-

cavity, interorbital-

veloped

nasal region

Incisors

longitudinally

not grooved

not grooved

grooved

First and second upper

resembling

more complex than

resembling Chi-

molars

Rattus pattern

Rattus, outer row of

ropodomys pattern

tubercles well de-

veloped

Third upper molar

reduced, sub-

reduced, greatest

reduced, greatest

circular in cross

dimension in axis

dimension trans-

section

of toothrow

verse to axis

Field Museum of Natural History

Zoology, Vol. 27, Plate 5

LOOKING EASTWARD FROM HPIMAW FORT TOWARD SALWEEN DIVIDE
Slopes show native clearings at base and climax forest at higher elevations

NATIVE DEADFALL SET FOR LARGE RAT, Rattus bowersii
Gangfang

THE LlBfiAHf
OF THE

if

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 113

out for clear vision except at the risk of breaking off a leg. Perhaps
a fresh specimen would reveal the foot structure in a more satisfactory
manner.

The other specimen, trapped at the former military post of Hpi-
maw, is a male. The trap line was set just below the crest of a
ridge on slopes from which the original forest had long been removed
and its place taken by bracken and low shrubbery, tangled and
difficult to penetrate in places.

Hystrix (Acanthion) subcristata subcristata Swinhoe. SUB-
CRESTED PORCUPINE.

Hystrix subcristata Swinhoe, Proc. Zool. Soc. Lond., p. 638, 1870.

Specimens collected. — 2: Gangfang, 1 skull; Hpimaw, 1 immature.

The only porcupines secured or seen were two brought in to camp
by natives. An adult had been so chewed up by dogs that only
the skull was worth saving. An immature animal was brought in
alive, but this specimen is so young as to have little value for
comparison.

Ochotona osgoodi sp. nov. OSGOOD'S PIKA.

Type from Nyetmaw River, northeastern Burma. Altitude
8,600 feet. No. 115,464 American Museum of Natural History.
Adult male. Collected January 28, 1939, by H. E. Anthony. The
type is a skin and skull in good condition.

General characters. — Probably most like forresti which it resembles
in coloration, enlarged front claws, and subtriangular palatine fora-
mina, but differs in smaller body size, less black on soles of feet
and larger auditory bullae.

Description. — Back mixed brown and black, nape grizzled, head
lightly washed with brown; ears only faintly edged with white;
fore and hind feet above, grayish; below heavily washed with buffy;
soles of fore and hind feet moderately furred, mixed whitish and
fuscous in color; terminal pads of toes not hidden by hair, conspicuous.

Skull slightly convex in superior profile; palatine foramina
restricted anteriorly and almost in contact with vomer, gradually
expanded posteriorly, pattern of entire opening subtriangular; bullae
large, well inflated.

Measurements. — Taken in the flesh, measurements of type of
forresti in parentheses: total length 169 (185); tail vertebrae from
skinned carcass 14; hind foot, c.u. 33, s.u. 28.5 (from dried skin),
(27). Greatest length of skull 39.4 (39); condylo-incisive length 37

114 OSGOOD TESTIMONIAL VOLUME

(37); zygomatic breadth 19.3 (19.4); nasals 13 by 5.5 (12.6 by 6);
interorbital breadth 4.2 (5); breadth of braincase 15.8 (15.8);
palatal foramina 9.5 by 4 (9.6 by 3.3) ; length of bullae 9.7 (9) ; upper
tooth-series (alveoli) 7.3 (7.3).

This pika is named for Dr. Wilfred H. Osgood of Field Museum
of Natural History, whose publications on mammals have done so
much to bring order out of taxonomic confusion. His report on the
"Mammals of the Kelley-Roosevelts and Delacour Asiatic Expedi-
tions" has been a constant guide in the preparation of this paper.

I have searched the literature carefully and examined all available
comparative material in the attempt to discover a name applicable
to these three specimens. Thomas (1921, p. 505) records Ochotona
roylei from Imaw Bum, 9,000 feet altitude, and our Nyetmaw River
specimen comes from the east flank of Imaw Bum. 0. roylei has
a reddish head and shoulders, at least in the summer pelage, and it
seems to be a larger animal. Our specimens are in winter pelage,
show no trace of reddish on head and shoulders, and it is difficult
to imagine a seasonal change which would make them match two
specimens of roylei in the American Museum from Kashmir.
Material is lacking to afford the basis for any categorical statement
on the degree of redness shown by winter pelages of roylei but the
evidence at hand seems sufficient to establish the fact that the
Nyetmaw pika is not roylei or any race of it.

The only other name to be considered is forresti, described from
the Likiang Range of Yunnan about a hundred miles distant. A
specimen identified by Allen (1938, p. 548), "A skin supposed to
be this [forresti] from the type locality," is in the American Museum.
The specimen is a skin and badly broken skull of what appears to
be a sub-adult individual. The palatine foramina flare posteriorly
and on this character I judge the specimen to belong to the thibetana
group. 0. forresti is contrasted with thibetana by Thomas (1923a,
p. 662) as follows: "Palatine foramina only slightly and evenly
expanded behind, quite without the conspicuous posterior broadening
found in thibetana." The Likiang specimen does have rather blackish
soles, agreeing in this respect with forresti, but the claws of the
forefeet are not developed as in forresti or in osgoodi. My basis for
distinguishing between forresti and osgoodi, therefore, has to be the
characters as given in the type description of forresti, and adequate
material may show that osgoodi is a race of forresti.

Examination of the Asiatic pikas in the American Museum in-
dicates that the shape of the palatine foramina and the characters

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 115

of the feet may be useful criteria for separating the several groups;
at least they have been sufficient to justify elimination of the thibe-
tana group from consideration in describing osgoodi.

My experience with the genus Ocholona, prior to the Burma
Expedition, was with the American species which live in loose rock
piles, in open, exposed situations. The capture of three pikas in
Burma, in dark, damp forest environment, has directed my attention
to the development of the claws and hairiness of the sole as a feature
of possible special significance. Collectors have commented briefly
on the occurrence of Asiatic pikas in forests or in grassy situations
but I have noted nothing on the foot differences, if any, of the pikas
living in these different environments. From my own observations,
not quite as limited as the small series indicates, I believe the forest-
dwelling pika of Burma is much more of a burrowing animal than
his rock-dwelling relatives. Runways and burrows were found in
fair numbers and the large front claws and reduced hairiness of the
sole (due to wear) suggest that the feet are used to move soil. I
have compared the feet of the Nyetmaw pika with those of a rock-
dwelling North American pika (0. p. lemhi from Idaho), of about
the same size. The Burma pika, collected in late January, is in
full winter pelage, the Idaho pika, taken in late August, is in worn
summer pelage. The soles of the feet of the Burma animal are less
densely haired, especially about the claws, the claws are longer and
sharper, and the pads at the base of the toes are noticeably smaller.
The pad of the Idaho pika is a large, black, subcircular structure
useful on a sloping rock surface; the pad of the Burma pika is about
half the size, whitish in color and of doubtful gripping value.

There is a similar contrast between the feet of 0. pallasii ("a
true rock-living species." Allen, 1938, p. 528) and those of 0.
dauurica ("found burrowing in the patches of grass and weeds in
the valley bottoms." Allen, I.e., p. 552). Skins of each, collected
in August, show a well-furred sole, with subcircular, heavily pig-
mented (black) toe pads for pallasii, and less brushy soles, narrower,
less-pigmented pads, and sharper claws for dauurica. I have not
attempted to carry out this inspection of feet and correlation with
known habitat preference for all the Asiatic pikas in the collection,
and I do not know how many exceptions might be discovered. In
some cases the habitat preference for a series of specimens is not
definitely known.

Notes taken on the occurrence and behavior of this pika are
extracted from my field journal as follows:

116 OSGOOD TESTIMONIAL VOLUME

"January 28, Nyetmaw River. — Caught in damp, dark woods
at mouth of hole running back under rocks, on a hillside a few feet
above the little river valley. Wet leaves covered the rocks, and
traps were set in this spot in hopes of getting a mole. I had been
digging wherever soil was loose enough, trying to locate mole run-
ways. Pulled leaves away and saw this well-worn hole running
back under rocks. Set a regular rat trap. Pika was caught squarely
across body. No obvious signs of Ochotona found in this place.
Environment not at all the type where one could find a North
American pika.

"January 29. — Traps set about this place baited with piece of
fresh onion — five Schuyler traps — caught nothing last night. One
of them sprung but no hair in trap.

"January 28. — Obvious signs of Ochotona, characteristic round
droppings found in forest at base of tree, up a dry valley — no
running water but woods fairly damp, not far from camp,
altitude perhaps 8,800 feet.

"Droppings also found about rocks, a low cliff on a hillside at
about 9,200 feet. This place a better prospect for pika, but no
slide rock, not much sunshine. Runways of a character suited to
Ochotona all over the hillside. A little dried vegetation apparently
stored in a cavity low down in a dry spot but no typical "hay piles."
This vegetation looked like short lengths of grass but may have
been fine stems of something else.

"No droppings seen high up on ridge which we climbed to 10,600 feet.

"February 9, Chimeli Camp (altitude about 10,000 to 10,500
feet). — One caught in mouse trap set in runway along bank above
trail; runway similar to hundreds seen in similar situations along
these mountain trails. Size of runway, and hole where runway
passed through parts of bank, about right for Ochotona, but I have
caught voles, rats, Apodemus, and shrews in such runways and have
not suspected Ochotona as a possibility. Rather open, exposed bank.

"Have seen droppings, almost certainly of Ochotona, along other
banks here, but rat traps set there have caught nothing. Suspect
my combination bait is not attractive to Ochotona because of bacon
content.

"Animal caught last night had tripped trap in passing and was
struck squarely across middle of back.

"Have tried baits of boiled rice on ten rat traps set where drop-
pings have been seen. Suspect I might catch many Ochotona here
if I knew a good bait.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 117

"February 10. — The fresh snow on the trail last night gave me
a few clues this morning as to the movements of Ochotona. Tracks
that I think were made by pikas were noted in several places, both
up and down the trail. Two types of tracks were seen, one suggestive
of a rabbit. This was in deep snow and the animal had progressed
by hops, the hind feet farther apart and over-reaching the forefeet.
In lighter snow the animal had walked or scampered and the tracks
were not bunched. Tracks started and ended at holes under logs,
rocks, or in banks. Up the trail a series of tracks ran for many
feet, in and out of cover. From places visited by tracks I deduce
that pikas are feeding on dry and green herbaceous perennials. Found
old cuttings to indicate this.

"February 11, Chimeli Camp. — Ochotona. A pika, caught where
I saw tracks in the snow yesterday, confirms my identification.
This animal tripped the trap in passing and did not touch the bait.
Loose patch of fur on the rump may have been dislodged by another
pika passing later, at any rate quite a patch of bare skin was exposed,
not cut as by a shrew or mouse."

In addition to the stations where specimens were actually taken,
observations confirmed the presence of the pika at Hpare Pass (one
seen by Stanford) and along the upper Hpimaw road at elevations
of 9,000 feet or more. Here burrows, with cut vegetation pulled
into them, and tracks in the snow (indistinct because snow was
melting) were pretty good evidence of pikas but none could be
coaxed into traps during the brief period they were set.

Sus scrofa subsp.? WILD BOAR.
Specimens collected. — None.

The wild boar is recorded on the basis of one animal seen on the
mule road to Hpimaw Pass, altitude about 8,700 feet, by Stanford,
on January 27. He reported that the animal was in the bracken
when discovered and bounded off down hill like a stag, heading
for the bamboo thickets. The forest at this point was open oak
and rhododendron. The natives (Lashis) with Stanford told him
that the "hill-pig" was not common but that it reached a large
size. At Hpawshi, in January, natives identified tracks as those
of this animal. At the Nyetmaw River camp, also in January, I
saw where some animal had been rooting in a muddy spot near the
small mountain stream. The natives said this was the work of the
wild boar. The abundance of several species of oaks in these moun-
tain forests probably provides a supply of acceptable food in the
form of acorns.

118 OSGOOD TESTIMONIAL VOLUME

Elaphodus cephalophus cephalophus Milne-Edwards. TUFTED
DEER.

Elaphodus cephalophus Milne-Edwards, in David, Nouv. Arch. Mus. d'Hist.
Nat. Paris, 7, Bull., p. 9, 1871.

Specimens collected. — 3: Pawahku, 1 male, skin and skeleton;
Sadulaw, 1 female, skin and skeleton, 1 embryo in alcohol.

These dark tufted deer are indistinguishable from a series col-
lected in western China for which the name cephalophus is applicable.
From the evidence on hand, northeastern Burma may be the western
limit of the range.

In newspaper accounts of the proposed field work in Burma, before
the expedition left the States, some mention was made of a "black
barking deer," never taken in Burma, and an especial object to be
sought. Apparently this statement derived in some way from the
fact that there is a true barking deer, so-called black, Muntiacus
crinifrons Sclater, of which only three specimens have been recorded
(these from Chekiang, China) and that a Chinese name for the
tufted deer can be translated as "black muntjac." There was no
likelihood that the very local Muntiacus crinifrons would be
encountered in Burma, over 1,000 miles removed from the known
records. When I saw the first specimen of the tufted deer I could
readily understand how natural a thing it would be for the layman
to call it a "black barking deer." Size, color, and general appear-
ance all make the name seem appropriate although it is not a barking
deer (Muntiacus} at all.

The tufted deer has been taken before in northeastern Burma.
Captain E. Maxwell West (1925, p. 1080) gives an account of a
hunt "within a day's march" of Htawgaw which brought him a
specimen of what he called Michie's tufted deer. Michie's variety
of tufted deer is the race confined to southeastern China and the
Burma animal is not michianus but the race discovered in Szechwan
by Pere David.

Our specimens were purchased from the natives who brought
them in the flesh, making it possible to save complete material.

I saw an animal near our camp on the Chimeli road but was
hunting with a shotgun and loads too light for deer. My native
boy and I were coming up the mule trail through primeval forest,
interspersed with small openings and at an elevation approximating
10,000 feet. The time was late in the afternoon. The deer was
in an opening near the trail and quite close before I saw it. It
bounded off into cover at once. I did not see any horns but was

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 119

impressed by the dark color and by the white underside of the tail,
which was very conspicuous. The tail was carried high, very much
like that of our Virginia deer, flopping with each leap.

I believe this deer is to be found in most of the high, damp forest
of the main mountain ridges of northeastern Burma. The second
one brought to us was said to have been trapped not far from the
Chimeli Pass section and the men carried it for three days to deliver
it to us at the Imaw Bum camp.

Muntiacus muntjak vaginalis Boddaert. LARGE INDIAN MUNT-
JAC or BARKING DEER.

Cervus vaginalis Boddaert, Elenchus Animalium, 1, p. 136, 1785.

Specimens collected. — 6: Changyinku, 1; Gangfang, 1; Hpare, 1,
skin and skeleton; Hpawshi, 1, skin and skeleton; Rawngaw, 1;
Tangtung, 1, juvenile.

This muntjac is the common small deer of the foothills and lower
mountains. Its characteristic barking call was heard mornings and
evenings at a number of stations where no specimens were secured.
The highest camp where this animal was noted was the one on the
Nyetmaw River, 8,500 feet. Here one approached the camp fires
about eight o'clock one evening and barked its curiosity, but managed
to keep out of sight when I searched for it with a flashlight.

I was able to collect only one specimen personally, the one from
Changyinku, although I had a very good look at one on the Hpimaw
road when I had no gun with me. This was at an elevation of
about 8,500 feet on the lower fringe of forest which climbed into
snow at 10,000 feet and higher. This particular animal was a
female and detected my presence very quickly. When she bounded
away the tail was carried conspicuously, the white underside rising
above the back.

The Changyinku muntjac, a male, was jumped from a dense
growth of tall bracken and probably would not have been discovered
had not the white underside of the tail caught my attention as the
deer dodged into a ravine filled with shrubbery. The animal did
not go far and with the help of a native to drive it past an opening
we were able to shoot it. The natives sometimes hunt the barking
deer with dogs and shoot the quarry with their cross-bows.

Rusa unicolor subsp.? SAMBAR.

Specimens collected. — None.

No evidence of the presence of the sambar was noted at our
collecting stations, with the exception of the Hpare Pass, altitude

120 OSGOOD TESTIMONIAL VOLUME

8,500 to 10,000 feet. At this place, visited briefly by Stanford and
Ward, the natives saw one animal and Stanford picked up cast antlers
of two individuals.

Capricornis sumatraensis milne-edwardsi David. MILNE-
EDWARDS' SEROW.

Capricornis milne-edwardsi David, Nouv. Arch. Mus. d'Hist. Nat. Paris, 5,
Bull., p. 10, 1869.

Specimens collected. — 2: Hpawshi, 1 skin and skull; Ngawchang
River, 1,800 feet altitude, 1 skeleton only, brought in by natives.

The specimen recorded from Hpawshi is a large adult male and
it was killed by natives who skinned the animal themselves. We
were camped near the Chimeli Pass when a messenger brought us
word that the natives had killed a large "mountain goat" on a
snow mountain about six miles from Vijawlaw. The animal was too
heavy and the travel too difficult to attempt to bring it down in the
flesh. Instructions for skinning were given and the natives were
told to have the specimen ready when we returned through Hpawte.
When the skin and skull arrived, Joseph, the head skinner, catalogued
it as taken at Hpawshi, presumably on the basis of what the hunters
told him. Since I could not understand any of the several native
languages spoken in camp, the data on material derived from natives
was once, and perhaps twice, translated before I received it.

In the case of this serow the two different localities reported to
me are so close together that either one fits the environmental
requirements equally well. The matter is mentioned only as an
illustration of the difficulty of securing precise localities for native-
collected material.

The skeleton acquired at the camp on the Ngawchang River
was bought from natives who had carried it in from a distance,
perhaps from the western flank of Imaw Bum. It is that of a sub-
adult male.

In comparing these two specimens with serows collected in China,
I have examined the type specimen and topotypical material of
C. s. montinus G. M. Allen. The adult male from Hpawshi ap-
proaches montinus in some characters. The depth of the postpalatal
notches, which is one of the features to separate montinus from
milne-edwardsi, is so different in the two skulls from Burma that
I suspect that age has much to do with it.

Budorcas taxicolor taxicolor Hodgson. TAKIN.

Budorcas taxicolor Hodgson, Journ. Asiatic Soc. Bengal, p. 65, 1850.
Specimens collected. — 1 pair horns, no definite locality.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 121

The expedition made an effort to collect specimens of takin and
natives were sent out to search for the animals or signs of their
presence. The takin is known to occur in the high country where
we were working but it does not seem to be very abundant and it
is very local in distribution. The scouts reported fresh signs in the
vicinity of Sadulaw, and Vernay and Cutting took four days to
explore these prospects. They required a day to reach this place
and another to return but the short stay near Sadulaw convinced
them of the futility of looking for takin in heavy forest.

The tracks showed that a few animals were feeding on the
steep slopes near Sadulaw where heavy forest and dense bamboo
made travel slow and stalking particularly difficult. One could
not penetrate this growth without making considerable noise, and
the range of vision was very limited. A takin could not be seen
unless one met it at close quarters and the odds were greatly against
such an event.

The best places to secure specimens are the open ridges at the
higher elevations where it is possible to scan a wide expanse with
binoculars. In winter these places may be covered with snow and
the takin are in the mixed bamboo and forest lower down, well
hidden from sight.

In response to the reward offered for reports on the presence
of takin or for specimens, the natives brought in an overstuffed
skin, slung from a pole. They said the animal was killed across the
border on the Yunnan side and they had come over the Chimeli
Pass. Unfortunately the skin had not been properly prepared, the
feet and ears were not skinned out, and the hair was too loose for
the specimen to have any value.

From what we learned the two most likely places for takin visited
by us are the upper slopes of Imaw Bum and the high ridges in the
vicinity of Chimeli Pass.

REFERENCES
ALLEN, G. M.

1923. New Chinese Insectivores. Amer. Mus. Nov., 100, 11 pp.

1926. Rats (Genus Rattus) from the Asiatic Expeditions. Amer. Mus. Nov..
217, 16 pp.

1927. Murid Rodents from the Asiatic Expeditions. Amer. Mus. Nov., 270,
12pp.

1938. The Mammals of China and Mongolia. Nat. Hist. Central Asia, Amer.
Mus., pt. 1, pp. 1-620.

1940. The Mammals of China and Mongolia. Nat. Hist. Central Asia, Amer.
Mus., pt. 2, pp. 621-1350.

122 OSGOOD TESTIMONIAL VOLUME

BLANFORD, W. T.

1888-91. The Fauna of British India, Including Ceylon and Burma. 617 pp.

BLYTH, E.

1847. Journal, Asiatic Society of Bengal. 16, p. 866.

BONHOTE, J. L.

1903. Report on the Mammals. Fasciculi Malayenses, Zool., 1, pp. 1-45,
pis. 1-4.

DOBSON, G. E.

1871. On Some New Species of Malayan Bats from the Collection of Dr.

Stoliczka. Proc. Asiatic Soc. Bengal, 40, pp. 105-108.
1871a. Description of Four New Species of Malayan Bats, from the Collection

of Dr. Stoliczka. Journ. Asiatic Soc. Bengal, pp. 260-267.
1876. Monograph of the Asiatic Chiroptera. 228 pp.
1878. Catalogue of the Chiroptera in the Collection of the British Museum.

567 pp.

ELLERMAN, J. R.

1940. The Families and Genera of Living Rodents. 1. — Rodents Other than
Muridae. 689 pp.

HOWELL, A. B.

1924. Individual and Age Variation in Microtus montamts yosemile. Journ.

Agri. Research, 18, No. 10, pp. 977-1015.
1929. Mammals from China in the Collections of the United States National

Museum. Proc. U. S. Nat. Mus., 75, art. 1, pp. 1-82.

KLOSS, C. B.

1917. Notes on the Type Specimens of Some Burmese and Himalayan Rats.
Rec. Indian Mus., 13, pp. 5-10.

MILLER, G. S., JR.

1940. Notes on Some Moles from Southeastern Asia. Journ. Mamm., 21,
pp. 442-444.

OSGOOD, W. H.

1932. Mammals of the Kelley-Roosevelts and Delacour Asiatic Expeditions.
Field Mus. Nat. Hist., Zool. Ser., 18, pp. 193-339.

PETERS, W.

1871. On Some Bats Collected by Mr. F. Day in Burma. Proc. Zool. Soc.
Lond., pp. 513-514.

THOMAS, O.

1904. Three New Bats, African and Asiatic. Ann. Mag. Nat. Hist., (7),
13, pp. 384-388.

1908. The Genera and Subgenera of the Sciuropterus Group, with Descriptions
of Three New Species. Ann. Mag. Nat. Hist., (8), 1, pp. 1-8.

1911. On Mammals from the Provinces of Kan-su and Sze-chwan, Western
China. Proc. Zool. Soc. Lond., pp. 158-180.

1912. On Mammals from the Provinces of Sze-chwan and Yunnan, Western
China. Proc. Zool. Soc. Lond., pp. 127-141.

1914. A New Soriculus from the Mishmi Hills. Journ. Bombay Nat. Hist.
Soc., 22, p. 683.

1915. A New Shrew of the Genus Blarinella from Upper Burma. Ann. Mag.
Nat. Hist., (8), 15, pp. 335-336.

1916. On Muridae from Darjiling and the Chin Hills. Journ. Bombay Nat.
Hist. Soc., 24, pp. 404-415.

1941 MAMMALS OF BURMA EXPEDITION— ANTHONY 123

1921. On Small Mammals from the Kachin Province, Northern Burma.
Journ. Bombay Nat. Hist. Soc., 27, pp. 499-505.

1922. On Mammals from the Yunnan Highlands Collected by Mr. George
Forrest and Presented to the British Museum by Col. Stephenson R. Clarke,
D.S.O. Ann. Mag. Nat. Hist., (9), 10, pp. 391-406.

1923. Two New Rats from Assam. Journ. Bombay Nat. Hist. Soc., 28,
pp. 26-27.

1923a. On Mammals from the Li-Kiang Range, Yunnan, Being a Further
Collection Obtained by Mr. George Forrest. Ann. Mag. Nat. Hist., (9),
11, pp. 655-663.

WARD, F. K.

1921. Observations on the Birds and Mammals of Imaw Bum. Journ. Bombay
Nat. Hist. Soc., 27, pp. 754-758.

WEST, E. M.

1925. On the N. E. Frontier of Burma. The Field, London. 146, No. 3809,
p. 1080.

ANGEL CABRERA

Professor of Paleontology, University of La Plata

Although there have been several valuable contributions to the
knowledge of the characters of skulls and teeth in the family Cervidae,
it is evident that our knowledge of these characters is still far from
satisfactory, especially as concerns the South American forms. In
distinguishing genera of deer it is customary to give preference to
form of antlers, which really are a part of the skull, but subject to
individual and age variation, besides being present in males only.
Brooke, in his well-known paper on the classification of these rumi-
nants (1878), described some interesting details of the skull structure,
but only the more superficial features. Moreover, in many instances,
characters given generic value by this author are not present in
some of the species included in the genera established. The same
may be said of Rutimeyer's treatise on the same subject (1881).
More recently, Knottnerus Meyer (1907) has contributed a very
elaborate monograph on the lacrimal bone of ungulates, in which
the structure of this bone is extensively discussed for the different
types of deer. This author, by giving too much importance to a
single part of the skull, reaches misleading conclusions when he
attempts to derive taxonomic categories from his work. For
instance, according to his views, the Virginia deer, Odocoileus,
and the pampas deer, Ozotoceros, both of them telemetacarpal and
having the choanae divided by the vomer, should be considered as
representing subgenera of the genus Dama, the typical species of
which is the European fallow deer, that is to say, a plesiometacarpal
species with undivided posterior nasal aperture.

Blainville's magnificent "Oste'ographie," unfortunately unfinished
because of his death, contains neither text nor figures of Cervidae,
and Hue, in his more recent "Muse'e oste"ologique," has figured the
European species only, without any reference to neotropical forms.

The taxonomic importance of the differences in the incisiform
teeth of deer has recently been pointed out by Pocock (1935), but
the observations of this distinguished British zoologist have a
limited value from the standpoint of the naturalists of the Americas,
as they are exclusively based on Eurasiatic species.

125

126 OSGOOD TESTIMONIAL VOLUME

The paucity of literature containing detailed descriptions of
cranial and dental features of this family is particularly felt by the
paleontologist attempting a comparative study of remains of extinct
deer. Some years ago, in the course of a revision of the material
of fossil Cervidoe in the La Plata Museum, it became necessary for
me to investigate the skull characters of the living species of South
American deer with branched antlers, and I found, as was to be
expected, that there vere a number of rather constant details
characterizing genera besides the general size and form of antlers.
The material on which those observations were based being somewhat
limited, I have supplemented it by taking notes on every skull
that has since become available. In the present paper I intend to
bring out the results of this research, describing those details of the
skull and the teeth which, in my opinion, may prove of systematic
value. The specimens examined were exclusively adult male skulls,
belonging to the four genera of deer with complex antlers living in
the New World south of Panama. Chronologically enumerated,
these genera are the following:

HippocamelUvS Leuckart, 1816.

Genotype — HippocamdttS dubius Leuckart, lSW=Equus bisukus
Molina, 1782. Two species, both from South America, are recog-
nized in this genus. Huemul.

Odocoileus Rnh'nesmie, 1832.

Genotype.— Odocoileus spelaeus Rafinesque, 1S32=Cervus vir-
ginianus Boddaert. 178"». Represented in the northern half of South
America by several forms, all of them considered by Lydekker
(1915) to be subspecies of the typical North American species,
and by other authors as specifically distinct. The Virginia deer.

Blastocerus Wagner, 1844.

Genotype. — Cennis ^aludosus Desmarest, 1822=C. dichotomus
Illiger, 1815. The genus contains only this species. The marsh deer.

Ozotoceros Ameghino. L891.

Genotype.— -BUi#b«;erus campestris Gray=Cervus bezoarticus Lin-
naeus, 1758, the only species of the genus. The pampas deer.

I have examine*! seventeen skulls of Ozotoceros bezoarticus,
fourteen of Hrir)Mn;*i.melus bisulcus, and nine of Blastocerus dicho-
tomus. As for the genus Odocoileus, I have had no opportunity of
studying material of South American origin beyond two excellent

1941 CRANIAL CHARACTERS OF CERVIDAE— CABRERA 127

photographs of the tropical form commonly known as 0. gymnotis
(the true name of which must very likely be 0. campestris)1 but I
have seen also four skulls of North American members of the virgini-
anus group. I must express my heartiest thanks to Dr. E. J. Mac-
Donagh for allowing me access to the splendid series of skulls
in the Department of Vertebrate Zoology at La Plata Museum, and
to Dr. J. Yepes, of the Argentine Museum of Natural Science at
Buenos Aires, for permitting me to study the material in the collec-
tion under his charge. Hippocamelus, Odocoileus, Blastocerus, and
Ozotoceros are closely allied genera, and they constitute, with the
brockets (Mazama), a very natural group of Cervidae for which the
subfamily name Odocoileinae,2 applied by Pocock, seems quite
appropriate. All of them are telemetacarpal deer, with the posterior
nares mesially divided by the vomer, the ectocuneiform and naviculo-
cuboid bones of the tarsus separated, and the prepuce placed im-
mediately before the scrotum. They show considerable differences
in the form of the antlers. These are not very divergent in Hippo-
camelus and normally form a simple fork. In the other three genera
the antlers are broadly lyrate, Odocoileus being peculiar in the position
of the brow-tine, which is internal, constituting the so-called basal
snag. Blastocerus and Ozotoceros have an anterior brow-tine, but
in the former it is bifurcate, while in Ozotoceros a forked brow-tine
is found only as an abnormality. Corresponding with these differ-
ences, and independent of either local or individual variation, many
distinctive features may be seen in the skull and in the incisiform
teeth. A discussion of these characters follows.

Rostrum. — The rostral part of the skull in Hippocamelus, or at
all events in H. bisukus, appears to be heavier than in the other
genera, this being a combined effect from convex upper outline and

1 Cervus campestris Cuvier, 1817, was primarily based on the antlers of an
Odocoileus from Brazil figured by Daubenton and on a similar specimen, without
locality, "qui se trouvait dans le cabinet de Tenon." These specimens were
mentioned by Cuvier and he described the species as having "bois courbes en
avant" and with "un andouiller a la face interne, s'elevant obliquement." These
characters are never seen in any deer except Odocoileus, and, in fact, when the
same author figured the animal in the "Histoire naturelle des mammiferes,"
he gave the portrait of an Odocoileus, apparently the same species later named
Cervus gymnotis by Wiegmann. Unfortunately, Azara's guazu-ti was erroneously
thought by Cuvier to be the same animal, and due to this confusion the name
campestris has been frequently used for the guazu-ti or pampas deer. That
Cuvier, himself, was not very sure about this identity seems to be shown in
his second description of Cervus campestris after recording the Odocoileus form
of its antlers: "Nous avons cru reconnaitre 1'espece qui se caracterise par ces sortes
de bois le cerf decrit par d'Azara sous le nom de Gouazouti." (The italics are mine.)

2 The alteration of this term to Odocoilenae, as used by Frick in his "Horned
Ruminants of North America," is untenable, both for etymological reasons
and from the nomenclatural standpoint (see Article 4 of the International Rules).

128 OSGOOD TESTIMONIAL VOLUME

comparatively short premaxillae. In Odocoileus, Blastocerus, and
Ozotoceros the nasals are rather variable in form, sometimes having
slightly concave lateral borders and sometimes almost straight and
parallel. Near the hinder part, where they contribute to form the
upper rim of the preorbital vacuities, these bones become more or
less expanded, and their posterior ends are slightly separated, a
small process of the f rentals extending wedgewise between them.
On the contrary, in all the specimens of Hippocamelus that I have
seen the form of the nasals is very constant, their borders being
practically straight for more than the anterior half and the posterior

FIG. 6. Side view of anterior part of rostrum in Hippocamelus bisulcus,
Odocoikus gymnotis, Blastocerus dichotomus, and Ozotoceros bezoarticus. X 3/8.

part appearing as a narrow hexagon, with an angle at the apex, where
the two bones do not allow for the intrusion of any frontal process.
About the middle of their length the nasals are somewhat pinched
and from this the slightly convex upper contour results. A similar
pinching of the nasals is sometimes observed in the other genera
but only in old specimens.

In all the genera, except Hippocamelus, the narial aperture is
high and narrow in the front view, this being to some extent an
effect of the great length of the premaxillae. The distance from the
tip of the nasals to the gnathion is about twice the breadth of
the aperture. In Hippocamelus this aperture is almost square, and the
premaxillae are rather short, the distance from nasals to gnathion
being only one and one-half times the breadth of the cavity.

The difference in the relation between the premaxilla and the
nasal has been frequently regarded as of taxonomic value in the

1941 CRANIAL CHARACTERS OF CERVIDAE— CABRERA 129

deer. As a matter of fact, in Odocoileus, as well as in Ozotoceros,
the upper or nasal branch of the premaxilla sometimes touches the
nasal bone in a small point, but more frequently these bones are
slightly separated one from another, the space between them being
occupied by a small, pointed projection of the maxilla. In all the
skulls of Blastocerus dichotomus that I have examined, the nasal
branch of the premaxilla does not reach the nasal bone, a gap of
6 to 10 mm. existing between them, whereas in Hippocamelus
bisulcus the premaxilla is broadly in contact with the nasal. This
character, however, may be of specific rather than generic significance
as, according to Gray (1872, p. 88) and Philippi (1894, p. 14),
Hippocamelus antisensis has the premaxilla separated from the
nasal. In contradiction with this, Garrod (1877, p. 14) asserts that
in antisensis the relative position of these bones is exactly the same
as in bisulcus, but it appears that, at the time when Garrod wrote,
the two species of Hippocamelus were frequently confounded.
I have never examined a skull of a male anlisensis, but in a semi-
adult female of this species in the La Plata Museum the relative
position of premaxilla and nasal is like that of Ozotoceros, and in
accord with Gray's and Philippi's statements.

Orbital region. — A very striking difference between Blastocerus
and Ozotoceros lies in the relative sizes of the orbit and the lacrimal
bone. In the marsh deer the antero-posterior diameter of the
orbital fossa is constantly rather less than the distance from its
anterior rim to the more anterior point of the lacrimal, while in the
pampas deer this distance is constantly shorter than the orbital
diameter. In all but two of the Hippocamelus skulls examined by
me the relative measurements were like those of Ozotoceros, both
the lacrimal and the orbit being, however, slightly smaller in propor-
tion to the size of the skull. The two exceptional specimens had
these measurements equal. Odocoileus resembles the huemul in
this respect. In comparing the orbital diameter with the basal
length, I have found an average orbital index of 14 for Blastocerus,
16 for Hippocamelus and Odocoileus, and 18 for Ozotoceros.

In all the four genera the lacrimal pit occupies almost the entire
exposed part of the lacrimal bone, but in Ozotoceros and Odocoileus
it is rather shallow, with a rounder upper border, the marsh deer
and the huemul having, on the contrary, a very deep lacrimal fossa
with prominent upper rim.

The size of the preorbital vacuity is also an excellent feature
distinguishing Ozotoceros from Blastocerus. In the pampas deer this

130

OSGOOD TESTIMONIAL VOLUME

cavity is never longer, and is frequently shorter than the antero-
posterior diameter of the orbit and, moreover, the frontal bone enters
it to form its upper border in a larger proportion than the nasal
bone. On the other hand, Blaslocerus dichotomus has a very large
vacuity, always longer than the orbit and with the upper border
formed by the nasal in a greater part than by the frontal. Odocoileus
resembles the marsh deer in this. In Hippocamelus the vacuities

Hb

FIG. 7. Orbital region in Hippocamelus bisulcus, Odocoileus gymnotis, Blasto-
cerus dichotomus, and Ozotoceros bezoarticus. X 1/3.

are short, as in Ozotoceros, but the upper rim is formed more by the
nasal than by the frontal.

Cranial roof. — In all the genera here discussed, excepting Hippo-
camelus, the frontals present a narrow median point advancing
between the nasals. According to Philippi, this occurs also in Hippo-
camelus antisensis. As stated above, I have not studied any male
skull of this species, but the female mentioned is quite similar to
H. bisulcus in this respect.

The frontal processes constituting the pedicels of the antlers are
in Odocoileus, when seen from front, very divergent, their inner borders
forming an angle of 65° to 70°. The divergence of the pedicels is
not so great in Blastocerus and Ozotoceros, the angle of deviation
being in these genera, on the average, 45°. In Hippocamelus, in
which the antlers tend to be parallel, the angle is only about 25°.

Ozotoceros differs from the other genera in having the parietal
ridges less concave in the part included between the metopic and
parieto-occipital sutures, so that the space limited laterally by them

1941 CRANIAL CHARACTERS OF CERVIDAE— CABRERA 131

is in this genus rather less constricted in its middle than in Blastocerus,
Odocoileus, or Hippocamelus. Moreover, in the pampas deer each
parietal ends anteriorly in a point, the metopic suture appearing
as an advancing angle. In the marsh deer, in Odocoileus, and in
Hippocamelus this suture frequently has the same aspect in young
skulls, but in every adult specimen used in connection with this
paper it tends to form a transverse and almost straight line between
the antler pedicels and a little before them, as figured by Cowan
(1936, p. 166) for Odocoileus hemionus columbianus. An "almost
straight line" refers only to the position of the suture, as this is really
very complexly indented in all the adult skulls of the four genera.

Occiput. — In the marsh deer the posterior outline of the braincase,
when seen from the side, is strongly concave, both the lambdoidal
region and the condyles* projecting much more backwards than in
the other deer here studied. Odocoileus has a lambdoidal edge rather
prominent in old adult specimens, but never so much as in. Blastocerus.

FIG. 8. Side view of occiput in Hippocamelus bisulcus, Odocoileus gymnotis,
Blastocerus dichotomus, and Ozotoceros bezoarticus. X 1/3.

As a combined result from the projection of the condyles and from
the fact that the paroccipital processes are very near the glenoid
fossae, each condyle in Blastocerus is entirely visible in a side view
of the skull. In the other genera, when the skull is seen from the
side, only the posterior half of the condyle appears behind the
paroccipital process.

Some years ago (1929, p. 55) I stated that Blastocerus was different
from Ozotoceros in having broader and shorter paroccipital processes.
As a matter of fact, the examination of a series of skulls shows that
there is in both genera a good deal of variation in this point. A
more constant difference may be found by viewing the skulls from
behind and comparing the distance between the two processes.
In Blastocerus these are nearer one to another than in the pampas
deer, the separation between the points being about twice the

132

OSGOOD TESTIMONIAL VOLUME

length of the anterior rim of the process. In Ozotoceros there is a
greater separation. Hippocamelus resembles the pampas deer in
this respect, while Odocoileus is more like Blastocerus.

Basicranial and otic region. — The foramina in the basicranium
present some noteworthy differences. For instance, the foramen
ovale, narrow and elongated in Ozotoceros, has a more rounded out-
line in the other genera. It is generally rather small as compared
with the foramen rotundum, but in Hippocamelus both foramina

Hb

FIG. 9. Bullar region in Hippocamelus bisulcus, Odocoileus gymnotis, Blasto-
cerus dichotomus, and Ozotoceros bezoarticus. X 2/5.

are about equal in size. This genus has also a large and almost
round sphenopalatine foramen, while in Odocoileus and Blastocerus
this foramen is more oval in form and of medium size, and in
Ozotoceros it is high and narrow.

The auditory bulla in Odocoileus is more inflated than in the
other genera. In Ozotoceros it has a very smooth meatal tube, with
hardly a suggestion of the ridge frequently present along its under
surface in Cervidae. The depression for the tympanohyal in the
same genus is rather deep, appearing as a well-defined pit. Hippo-
camelus has a slight indication of a ridge in the under side of the
meatal duct, and the pit for the tympanohyal in this genus is mark-
edly deeper than in the pampas deer. The bulla of Blastocerus is
quite different from those of the other genera, being much less
inflated, its meatal tube rugose and with a well-marked ridge, and
the tympanohyal depression shallow and open posteriorly.

Mandible. — 'Hippocamelus bisulcus possesses a very peculiar
mandible with the lower border almost straight from the posterior
part of the symphysis to a point below the last molar, and the
posterior ascending part of the ramus comparatively narrow, the
anterior and posterior borders being almost parallel and the last
becoming deeply concave above the angle. In Odocoileus, Blastocerus,

1941

CRANIAL CHARACTERS OF CERVIDAE— CABRERA

133

and Ozotoceros the lower profile of the ramus is evenly convex under
the entire cheek-series, and the ascending part has a less concave
posterior border, this and the anterior border diverging downwards
markedly. Blastocerus has a more remarkably curved, sickle-shaped
coronoid process than the other genera.

I cannot say if the differences in the form of the mandible I
have recorded for the huemul are of generic or only of specific
importance. The only specimen of Hippocamelus antisensis at
my disposition resembles the other genera very much in the characters
of the mandible, but it is an immature female (skeleton with upper
epiphysis of humerus and femur not yet united to the shaft), this
suggesting a difference dependent on age. In a semi-adult H.
bisulcus, however, the mandible is not very different from that of
the adult specimens.

Teeth. — Many years before the publication of Pocock's paper
upon the incisiform teeth of Eurasiatic Cervidae, Brooke (1878,

FIG. 10. Incisiform teeth in Hippocamelus bisulcus, Odocoikus gymnotis,
Blastocerus dichotomus, and Ozotoceros bezoarticus. X 3/4.

pp. 922, 923) called attention to the characters of the same teeth
in Furcifer (= Hippocamelus} and Blastocerus. He ascribed exactly
the same features to both genera, as he said that the former has
"central incisors very slightly spatulate," and defined Blastocerus
as possessing "central incisors very slightly spatulate and exceeding
the pair next to them but slightly in size." My own observations
upon fourteen mandibles of Hippocamelus bisulcus agree entirely
with this description, the form of the teeth being somewhat like
those of Akes alces as figured by Pocock, although the central

134 OSGOOD TESTIMONIAL VOLUME

incisors have a slightly wider edge, in which character they approach
those of Cervus elaphus. Brooke included under Blastocerus both
the marsh deer and the pampas deer but, as a matter of fact, the
dental characters he described are those of Blastocerus dichotomus
only. The incisor teeth of the pampas deer are quite different, this
being one of the characters justifying generic separation. In the
marsh deer the teeth resemble those of Alces still more than do those
of Hippocamelus, while in Ozotoceros bezoarticus the incisor teeth
are very like those of Axis and Dama. The first incisor in this species
has an almost triangular form, and its cutting edge is as wide as
those of the three remaining teeth together, or even wider, the
canine being especially noteworthy for its narrow crown. Odocoileus,
or at least the virginianus group, approaches the pampas deer in
this, but the difference of width between the central incisors and
the other teeth is not so remarkable. In the photographs of South
American specimens I have seen the dental features appear to be
very much as in the figures of Ussa and Melanaxis published
by Pocock.

The presence of upper canines in the male has been frequently
recorded as one of the distinctive characters both of Hippocamelus
and Blastocerus (Gray, 1872, p. 89; Burmeister, 1879, p. 88), and the
same character has been used by Wiegmann (1833, p. 954) to split
the pampas deer into two species. My own observations do not
bear out these statements. In fact, I have never found upper canines
in any specimen of the genera here discussed, with the sole exception
of the immature female of Hippocamelus antisensis mentioned above,
in which a very small canine is seen in the right maxilla. If the age
of this example is borne in mind, we must admit the possibility that
this tooth is a relic of the milk dentition.

The cheek-teeth in the four genera are subject to a great amount
of variation, especially as to the form and size of the upper and lower
second premolars. I have been quite unable to find any constant
distinctive character in the material examined. Small accessory
interlobular pillars may be present in one or another of the true
molars, sometimes appearing on one side only, but they are more
frequently wholly absent. I have observed them in an example
of Odocoileus, in two of Blastocerus, and in two also of Ozotoceros,
one of the last being a female and therefore a specimen not included
in the material used in preparing this paper.

REFERENCES

BROOKE, V.

1878. On the Classification of the Cervidae, with a Synopsis of the Existing
Species. Proc. Zool. Soc. Lond., pp. 883-928, figs. 1-19, pi. 55.

BURMEISTER, H.

1879. Description physique de la Republique Argentine. 3, pt. 1. Paris and
Buenos Aires.

CABRERA, A.

1929. Sobre los ciervos fosiles sudamericanos llamados Paraceros y Morenela-
phus. Mem. Real Soc. Espafi. Hist. Nat., 15, pp. 53-64, figs. 1-3.

COWAN, I. M.

1936. Distribution and Variation in Deer (Genus Odocoileus) of the Pacific
Coastal Region of North America. Calif. Pish and Game, 22, pp. 155-246,
figs. 51-63.

GARROD, A. H.

1877. Notes on the Visceral Anatomy and Osteology of the Ruminants, with
a Suggestion Regarding a Method of Expressing the Relations of Species
by Means of Formulae. Proc. Zool. Soc. Lond., pp. 2-18, figs. 1-25.

GRAY, J. E.

1872. Catalogue of the Ruminant Mammalia in the British Museum, pp. 1-
102, pis. 1-4. London.

KNOTTNERUS MEYER, TH.

1907. Ueber das Tranenbein der Huftiere. Arch. Naturg., 73, pt. 1, pp. 1-152,
figs. 1-34, pis. 1-5.

LYDEKKER, R.

1915. Catalogue of the Ungulate Mammals in the British Museum. 4, pp.
1-438, figs. 1-56. London.

PHILIPPI, R. A.

1894. Cervus antisensis, chilensis, brachyceros. Anal. Mus. Nac. Chile, 1,
pt. 7, pp. 1-16, pis. 1-4.

POCOCK, R. I.

1935. The Incisiform Teeth of European and Asiatic Cervidae. Proc. Zool.
Soc. Lond., pp. 179-194, figs. 1-7.

RUTIMEYER, L.

1881. Beitrage zu einer natiirlichen Geschichte der Hirsche. Abhandl. Schweiz.
Palaont. Gesellsch., 8, pp. 7-96.

WlEGMANN, A. F. A.

1833. Ueber eine neue Art des Hirschgeschlechtes. Isis, pp. 952-970.

135

THE ARTERIES OF THE FOREARM
IN CARNIVORES

D. DWIGHT DAVIS
Curator, Anatomy and Osteology, Field Museum of Natural History

CONTENTS

PAGE

INTRODUCTION 137

MATERIAL AND ACKNOWLEDGMENTS 139

ARTERIES OP THE FOREARM IN CARNIVORES: GENERAL CONSIDERATIONS . . 141

ARTERIES IN A PRIMITIVE MAMMAL (Echinosorex) 150

DESCRIPTION OP ARTERIES IN CARNIVORA 154

Canidae 154

Procyonidae — , 161

Ailuridae 171

Ursidae 178

Mustelidae 183

Viverridae 196

Herpestidae . 203

Hyaenidae 206

Felidae 210

DISCUSSION . . . 218

Phylogenetic Trends 218

Functional Adaptations 219

Canidae 222

Remaining Arctoidea 222

Musteloidea 223

Viverridae 223

Herpestidae 224

Hyaenidae 224

Felidae 224

SUMMARY 225

REFERENCES 226

INTRODUCTION

This study forms a part of a general plan for a survey of the
anatomy of the Carnivora, which is being made in connection with
a comprehensive study of the giant panda (Ailuropoda). No system
is generally regarded as less promising of return on time invested
in comparative morphological study than is the circulatory system.
This is attributed to a supposed failure of the blood vessels to adhere

137

138 OSGOOD TESTIMONIAL VOLUME

to any but the most general patterns in their ramifications. The
atmosphere of frustration, and even of disgust, that often emanates
from the more ambitious comparative studies of the circulatory
system is readily understood by anyone who is familiar with the
time and patience required for a single satisfactory dissection.

The arteries of the foreleg in the Carnivora fissipedia have not
gone without attention in the past, although nothing has been
added to our knowledge of them for more than a third of a century.
Disregarding the two familiar domestic carnivores, the dog and the
cat, the papers cited in the list of references appended to this study
contain descriptions of these vessels in 32 individuals, representing
24 species. No fewer than 16 of these are in Zuckerkandl's monu-
mental treatise alone. Yet, despite the acknowledged competence
of their several authors, these investigations failed to yield any
significant results as far as the Carnivora are concerned. There
are several factors that make this sterility more apparent than real.
Each of the investigators concerned was under the domination of
the philosophy of Gegenbaur, and hence regarded the Carnivora
merely as a convenient way station on a main line leading from the
monotremes to man — a concept that is scarcely conducive to a proper
evaluation of the carnivores. In the second place, in common with
the medical fraternity in general, few had more than the slightest
notion of taxonomic philosophy. When their descriptions are
rearranged in the sequence indicated by mutual relationships certain
suggestive similarities and differences begin to appear. In the third
place, critical examination of these studies reveals that by modern
standards they are superficial and incomplete to an extraordinary
degree. Finally, Reighard and Jennings' description of these
vessels in the domestic cat is quite inadequate, and Ellenberger
and Baum's description of the domestic dog is found to be complete
and accurate only after it has been made intelligible by comparing
it with an actual dissection — a situation caused by their peculiar
nomenclature and very inadequate illustrations.

Despite the fact that the arteries of the foreleg have been studied
more extensively than the vessels of any other region in the Carnivora,
the factors enumerated above indicate that they may have been
condemned, as not warranting further study, without a fair trial.
Moreover, a great deal of time and effort has been expended on the
arteries in the study of the giant panda now under way by the
author, and the resulting data would be essentially meaningless if
the arteries are devoid of comparative significance. To that extent,

1941 ARTERIES IN CARNIVORES— DAVIS 139

then, the present study was a "test case," in a circumscribed region,
of the value of the arterial pattern in providing clues to phylogenetic
relationship.

MATERIAL AND ACKNOWLEDGMENTS

Most of the material studied consisted of animals from the zoo
of the Chicago Zoological Society, which had been turned over to
the Museum for study following their deaths. Grateful acknowl-
edgment is hereby made to the Society for this wealth of material,
without which this study would have been quite impossible. The
domestic dog and cats dissected were provided by the General
Biological Supply House, of Chicago, and thanks are also due that
organization for the excellent embalming and injection performed
on several specimens by their preparator, Mr. Arnold Blaufuss.
The American Museum of Natural History, through Mr. H. C.
Raven, loaned three civets and a hyena for dissection, and this
study would have been much less complete without these critically
important animals. One of the two lesser pandas dissected was
lent by the United States National Museum. Finally, much of the
credit for this study is due my able assistant, Miss Elizabeth Story,
who in addition to spending many tedious hours dissecting is also
responsible for the drawings on the following pages.

In the present state of our knowledge of vessel patterns, it
seems best to follow the style used by Zuckerkandl in describing
the vessels. Each of the arteries, whether it appears to be of com-
parative importance or not, is described briefly. Considerable care
has been taken to keep the descriptions uniform throughout.

It was found that one of the most serious shortcomings of previous
work was in the matter of illustration, which was either entirely
lacking or much limited in value because muscle outlines hid exten-
sive areas of the circulation. The semi-diagrammatic type of drawing
used in this paper was adopted after considerable discussion. It is
believed that these illustrations give a clearer conception of the
inter-relations of the vessels than can be achieved by any other means.

The data on the 35 specimens dissected are as follows. Unless
otherwise noted the animals were adult.

ARCTOIDEA
Canidae

Cam's familiaris 9 (mongrel terrier) Both forelegs Latex injection

Canis nubilis 9 (Wisconsin) Right foreleg Uninjected

Nyctereutes procyonoides 9 (Zoo) Right foreleg Latex injection

Vulpes fulva d" (Indiana) Left foreleg Uninjected

140

OSGOOD TESTIMONIAL VOLUME

Procyonidae

Bassariscus astutus c? (California) Right foreleg Gelatine injection

Nasua narica 9 juv. (British Honduras) .... Both forelegs Uninjected

Procyon lotor 9 (Zoo) Right foreleg Starch injection

Procyon lotor cf (Zoo) Right foreleg Uninjected

Polos flams o" (Zoo) Both forelegs Starch injection

Potos flavus c? (British Honduras) Right foreleg Uninjected

Ailuridae

Ailurus fulgens 9 (Zoo) Both forelegs Starch injection

Ailurus fulgens 9 (Zoo) Right foreleg Uninjected

Ailuropoda melanohuca d" (Zoo) Both forelegs Starch injection

Ursidae

Euarctos amerwanus half-grown (Zoo) Both forelegs Starch injection

Euarctos americanus half-grown (Zoo) Right foreleg Starch injection

Ursus middendorffi newborn (Zoo) Both forelegs Starch injection

Ursus middendorffi newborn (Zoo) Both forelegs Starch injection

MUSTELOIDEA1

Mustelidae

Mustela putorius 9 (Zoo) Both forelegs Starch injection

Mustela noveboracensis 9 (Chicago) Right foreleg Gelatine injection

Tayra barbara & (Peru) Both forelegs Uninjected

Taxidea taxus <? (Zoo) Both forelegs Starch injection

Mephitis mesomelas <? (Zoo) Both forelegs Starch injection

AELUROIDEA
Viverridae

Arctictis binturong newborn (Zoo) Right foreleg Uninjected

Paradoxurus hermaphroditus Right foreleg Uninjected

(Wettar, East Indies)

Nandinia binotata newborn (Zoo) Right foreleg Uninjected

Genetta sp. juv. cf (Belgian Congo) Right foreleg Uninjected

Herpestidae

Herpestes ichneumon 9 Right foreleg Uninjected

(Cape Province, South Africa)

Hyaenidae

Hyaena striata (Zoo) Right foreleg Uninjected

Felidae

Felis domestica (3 specimens) Latex injection

Felis chaus cf (Zoo) Right foreleg Latex injection

Lynx lynx d" (Zoo) Right foreleg Starch injection

Panthera leo 9 (Zoo) Right foreleg Uninjected

Acinonyx jubata (Zoo) Right foreleg Uninjected

There are 25 genera represented in this list, which is slightly
less than one-fourth of the approximately 106 genera of living Carni-
vora. The mustelids and civets are most poorly represented, and
this is further aggravated by the great diversity of structure within

1 This superfamily was recently erected by Gregory and Hellman (Proc. Amer.
Phil. Soc., 81, p. 314, 1939) on the basis of fossil evidence.

1941 ARTERIES IN CARNIVORES— DAVIS 141

these two groups. On the other hand, the representation of the
procyonids, pandas, and bears is practically complete.

ARTERIES OF THE FOREARM IN CARNIVORES

GENERAL CONSIDERATIONS
A. brachialis:

The brachial artery is that section of the trunk vessel of the fore-
leg that is situated between the origin of the subscapular trunk in
the shoulder and the origin of the interosseae in the forearm.
Throughout its length it is associated with the median nerve. Only
the distal part of the vessel is of interest here.

Typically there are two pairs of small vessels arising from the
brachial in the cubital region. These are the ulnar and radial col-
laterals, which usually arise immediately above the elbow; and the
ulnar and radial recurrents, which usually arise immediately below
the joint. These vessels have been disregarded in the present study.

Of fundamental importance in connection with the brachial is
its relation to the entepicondylar foramen. When it is present,1
this foramen invariably transmits the median nerve. The brachial
artery may or may not accompany the nerve through the foramen,
and this relation appears to be very constant indeed within any
given group. The German literature contains an enormous amount
of speculation on the question of how the artery could relinquish
its course through the foramen, but this academic question is of no
interest here.

A. radialis super ficialis:

Collateralis radialis superior Ellenberger and Baum, 1891; Reighard and

Jennings, 1901, 1935.
Radialis superficial Schwalbe, 1895.
Brachialis superficialis inferior Miiller, 1904.
Brachialis anterior Goppert, 1905.
Brachialis superficialis + radialis superficialis + dorsalis manus superficialis

Zuckerkandl, 1907.
Collateralis radialis proximalis Bradley, 1935.

The superficial radial artery is a slender subcutaneous vessel,
situated external to the deep fascia of the forearm, that arises from
the brachial above the elbow. It then passes across the fossa cubiti

1 The entepicondylar foramen is absent only in the Canidae, the Ursidae,
and the skunks among the Mustelidae. It is often absent or poorly developed
in hyenas.

142 OSGOOD TESTIMONIAL VOLUME

onto the radial side of the dorsum of the forearm. Shortly beyond
its origin, usually in the fossa cubiti, the vessel divides into a rela-
tively strong dorsal ramus and a weak volar ramus.

The volar ramus is often no more than a muscular branch that
terminates in the flexor muscles of the forearm. In other cases it
may send a slender anastomotic twig down to the medianoradialis.
It does not accompany a nerve.

The dorsal ramus accompanies the medial ramus of the super-
ficial radial nerve down to the back of the hand, where it is the most
important element contributing to the superficial dorsal arch.
Shortly beyond its origin the dorsal ramus gives off a recurrent twig
to the flexor muscles of the upper arm. In the less primitive forms
this twig receives the terminus of the descending circumflex humeral,
which in primitive carnivores enters the main trunk of the dorsal
ramus farther distad. In most carnivores the dorsal ramus divides
into a pair of collateral branches, which reunite at the carpus. In
some (e.g. Canidae, Mustelidae, and all Aeluroidea) the weaker of
the collateral branches remains on the volar surface of the forearm,
accompanying N. cutaneus antibrachii lateralis down to the carpus,
where it winds around onto the dorsum. In others both collateral
branches remain on the dorsum, where they flank the cephalic vein.

A. mediana communis:

Antibrachialis Ellenberger and Baum, 1891.

Mediana (part) Schwalbe, 1895; Mtiller, 1904; Goppert, 1905.

Radialis (part) Reighard and Jennings, 1901, 1935.

Mediana communis Zuckerkandl, 1907.

Mediana Bradley, 1935.

The common median artery is the direct continuation of the
brachial beyond the origin of the interosseae. It accompanies the
median nerve, and terminates by dividing into the proper median
and medianoradial arteries. This division takes place near the
middle of the forearm in most carnivores, but may vary from the
proximal third (dogs, hyena) to the distal third or lower (bears
and pandas).

A. mediana propria:

Ulnaris Ellenberger and Baum, 1891; Bradley, 1935.
Mediana (part) Schwalbe, 1895; Miiller, 1904; Goppert, 1905.
Unnamed branch of radialis Reighard and Jennings, 1901, 1935.
Mediana propria Zuckerkandl, 1907.

1941 ARTERIES IN CARNIVORES— DAVIS 143

The proper median artery continues the course of the common
median, beside the median nerve, beyond the origin of the mediano-
radialis. It accompanies the nerve onto the palm, where it forms
the radial end of the superficial volar arch. The proper median is
usually chiefly instrumental in forming this arch, the caliber of the
vessels contributing the ulnar end of the arch often being relatively
insignificant.

The caliber of the mediana propria relative to that of the mediano-
radialis is subject to considerable variation. It may enormously
exceed the medianoradialis at one extreme (Procyon), and at the
other it may be reduced to a thread-like vessel, with the mediano-
radialis continuing the mediana communis practically undiminished
(e.g. Felidae).

In some carnivores there is a good-sized lateral (ulnar) branch
of the mediana propria. The distribution of this vessel is somewhat
erratic. It is uniformly present in the bears, for example, while
among the pandas it is present in Ailuropoda but absent in Ailurus.
This branch, which resembles a collateral branch of the distal part
of the mediana propria, has a very characteristic pattern when it
is present. It is joined by the terminus of the ulnaris volaris to
form a common trunk that accompanies the R. volaris manus of
the ulnar nerve on the volar side of the fifth metacarpal. This
trunk divides at the level of the pisiform, one branch forming the
ulnar end of the deep volar arch while the other continues distad
as A. metacarpea volaris 5; the latter completes the superficial
volar arch by means of a slender (occasionally strong) transverse
anastomotic loop.

A . medianoradialis :

Radialis Ellenberger and Baum, 1891; Bradley, 1935.

Medianoradialis Schwalbe, 1895; Miiller, 1904; Goppert, 1905; Zuckerkandl,

1907.
Radialis (part) Reighard and Jennings, 1901, 1935.

The medianoradial artery passes from its origin diagonally
toward the base of the first metacarpal; it does not accompany a
nerve. At the base of the thumb it winds around the radial border
of the carpus, passing beneath the tendon of M. abductor pollicis
longus onto the dorsum of the hand, where it terminates in one
of several different ways but is always associated with the deep
dorsal arch.

On the vola the medianoradialis gives rise to a constant R.
carpeus volaris at the carpus. This twig passes ulnaward into the

144 OSGOOD TESTIMONIAL VOLUME

volar rete, usually forming an anastomotic loop with one of
the terminal twigs of the interossea volaris. In some animals the
medianoradialis gives off a volar branch just before it passes under
the tendon of the abductor pollicis longus. This branch, judging
from conditions in various carnivores, appears to have arisen as a
branch of the carpeus volaris and to have migrated distad to varying
degrees. It usually enters the radial end of one of the volar arches;
exceptionally (e.g. Taxidea) it may exceed the continued dorsal
trunk of the medianoradialis in caliber. Its distribution within
the Carnivora is quite erratic, although it seems to be confined to
the arctoids and mustelids.

On the dorsum manus the medianoradialis first gives off a con-
stant slender anastomotic loop to the radialis superficialis; this twig
usually arises immediately after the parent vessel emerges from
beneath the tendon. It is followed by the R. perforans pollicis,1
which arises from the opposite (outer) wall of the medianoradialis
and perforates between the base of the first metacarpal and the radial
sesamoid to the vola. On the volar side its termination is quite
variable; usually it empties into the radial end of the deep volar
arch, giving off a twig to the outer border of the pollex. It may,
however, terminate in the superficial volar arch, in both arches, or
in neither. Beyond the origin of the perforans pollicis the mediano-
radialis gives rise to a constant R. carpeus dorsalis, which passes
into the dorsal carpal rete, usually forming an anastomotic loop
with one of the terminal twigs of the dorsal interossea volaris.

The medianoradialis terminates (1) by passing practically un-
diminished to the second intermetacarpal space (Canidae, Mus-
telidae, Felidae); (2) by dividing into subequal branches that pass
to the first and second intermetacarpal spaces, respectively (most
Procyonidae, pandas, Ursidae) ; or (3) by passing directly into the
dorsal carpal rete (Procyon, Taxidea). Exceptionally it may end
(4) by continuing directly into the deep dorsal arch (Hyaena).
Herpestes is unique among carnivores so far studied in that the
medianoradialis (5) passes directly to the first intermetacarpal space.

A. ulnaris:

R. volaris interossea Ellenberger and Baum, 1891.

Ulnaris Schwalbe, 1895; Reighard and Jennings, 1901, 1935; Miiller, 1904;

Goppert, 1905; Zuckerkandl, 1907.
Unnamed muscle branch Bradley, 1935.

1 This branch, which was present in all carnivores studied, does not appear
to have been described hitherto. The name given is used here for the first time.

1941 ARTERIES IN CARNIVORES— DAVIS 145

The ulnar artery is closely related to the interosseae, and these
vessels often arise by a common trunk. The two branches of the
ulnaris and the two interosseous vessels bear an extremely varied
relation to one another at their origins, but when the ulnar comes
off independently its origin is invariably proximad of the origin of
the interosseae.

The ulnaris is concerned chiefly with the blood supply of the
flexor muscles on the ulnar side of the forearm, and secondarily with
the formation of the ulnar ends of all four of the arches of the hand.
At a variable distance beyond its origin it divides into a volar branch,
which enters the volar arches, and a dorsal branch, which winds
around onto the dorsum to enter the dorsal arches. In some carni-
vores (e.g. Mustelidae) this division is near the carpus; in most it
is near the middle of the forearm; while in a few (e.g. Ursidae) it
takes place just beyond the origin of the ulnaris, in which case there
is only a very short common ulnar trunk. Exceptionally the volar
and dorsal branches may arise independently of one another. The
two branches of the ulnar artery accompany the corresponding
branches of the ulnar nerve. In those animals where the artery
bifurcates at the carpus the two divisions of the nerve also remain
associated down to this point, the corresponding nerve and vessel
branches then paralleling each other to their destinations.

The ulnaris volaris exceeds the dorsalis in caliber in some carni-
vores (e.g. Mustelidae, Hyaenidae, Felidae), while in other groups
it is usually the smaller of the two vessels. The volaris usually
unites either with the volar branch of the interossea volaris or with
the lateral branch of the mediana propria to form a common trunk.
In most cases this trunk bifurcates to form the ulnar ends of both
volar arches, although the connection with one or the other of the
arches may be lacking. A constant twig, the R. perforans minimi,1
arises from the ulnar end of the deep volar arch just below the pisi-
form, and perforates between M. abductor digiti quinti and M.
opponens digiti quinti at the base of the fifth metacarpal. On the
dorsum manus it enters the ulnar end of the deep dorsal arch.

The ulnaris dorsalis always winds around the ulnar border of
the forearm, at the base of the carpus, onto the dorsum. There
it almost invariably forms the ulnar ends of both dorsal arches;
when the deep dorsal arch is absent a twig goes to the fourth deep
dorsal metacarpal, which represents the ulnar end of the arch.

1 This branch, which closely resembles the perforans pollicis, was present in
all carnivores studied. It does not appear to have been described hitherto, and
the name given here is used for the first time.

146 OSGOOD TESTIMONIAL VOLUME

Typically it receives an anastomotic loop from the interossea volaris
on the vola; occasionally this loop may come from the lateral branch
of the mediana propria; and in one instance only (Taxidea) there
was no anastomotic loop from any source. In sporadic cases the
ulnaris dorsalis may give off a volar twig which, when present, is
associated with the ulnaris volaris.

A. volaris antibrachii:

Volaris antibrachii Ellenberger and Baum, 1891.

This vessel was described by Ellenberger and Baum for the
domestic dog, and up to the present does not seem to have been
noted in any other carnivore. It arises from the volar wall of the
mediana communis, and when well developed (as in the dog) is a
good-sized artery, equaling the ulnaris in caliber. It always accom-
panies the large muscle branch of the median nerve that supplies
the digital flexors, thus passing toward the ulnar border of the fore-
arm and then distad, deep to the superficial flexors of the forearm.
Near its base it gives off one or more recurrent twigs that pass
back to anastomose with the recurrens ulnaris. The vessel termi-
nates in the distal part of the forearm by anastomosing with the
ulnaris volaris. Thus it is apparent that the volaris antibrachii
practically duplicates the volar ulnar circulation.

This vessel was present in every carnivore dissected, although
in none of the others did it reach the same size and importance as
in the Canidae.

A. interossea communis:

There is almost invariably a short common interosseous trunk.
As was noted above, the ulnar artery is closely related to this trunk,
often arising from it instead of directly from the mediana communis.
The interossea communis gives off the relatively small interossea
dorsalis a short distance beyond its origin, the main trunk continuing
as the interossea volaris. A third, much smaller, branch usually
arises from the common interosseous, occasionally from the interossea
volaris. It ramifies to the proximal parts of the forearm extensors,
one of its terminal twigs often entering the base of the mediano-
radialis. Often it receives a slender anastomotic loop from the
radialis superficialis. This branch has been disregarded in the
present study.

A. interossea dorsalis:

R. dorsalis antibrachii a. interossea Ellenberger and Baum, 1891.
Interossea externa Schwalbe, 1895.

1941 ARTERIES IN CARNIVORES— DAVIS 147

Interossea posterior Reighard and Jennings, 1901, 1935.
Interossea dorsalis Miiller, 1904; Goppert, 1905; Zuckerkandl, 1907; Bradley,
1935.

The dorsal interosseous is invariably smaller than the volar
interosseous. It immediately perforates through to the dorsum at
the proximal end of the interosseous membrane, gives off a recurrent
branch to the outer side of the elbow, and then passes distad under
cover of the superficial extensors of the forearm. It does not accom-
pany a nerve. The major bulk of the vessel is dissipated in ramifi-
cations to the forearm extensors, although there is always a slender
twig that descends to anastomose with the dorsal (perforating)
branch of the interossea volaris.

The recurrent branch arises independently of the interossea
dorsalis in some animals, while in others these two vessels have a
common trunk of varying length.

A. interossea volaris:

R. interosseus a. interossea Ellenberger and Baum, 1891.
Interossea interna Schwalbe, 1895.
Interossea anterior Reighard and Jennings, 1901, 1935.

Interossea volaris Mtiller, 1904; Goppert, 1905; Zuckerkandl, 1907; Bradley,
1935.

The volar interosseous runs distad on the volar surface of the
interosseous membrane, accompanying the volar interosseous nerve.
It reaches its maximum caliber in the Canidae and in Procyon;
in these animals it is only slightly smaller than the mediana com-
munis. Just above the radio-carpal joint (occasionally higher)
the interossea volaris divides into a strong volar branch and a
weaker dorsal branch that perforates through to the dorsum at
the distal end of the interosseous membrane.

The volar branch first gives off a constant twig that forms a
transverse anastomotic loop with the R. carpeus volaris a. mediano-
radialis, then one or more twigs to the volar carpal rete. Typically
the volar branch terminates by combining with the ulnaris volaris,
the resulting common trunk forming the ulnar end of the deep volar
arch. There is much erratic variation in this region, however, and
it may enter both volar arches, may split to give a branch to the
ulnaris dorsalis, may terminate in the volar carpal rete without
reaching the arches, etc.

The dorsal (perforating) branch, upon reaching the dorsum,
receives the comparatively slender descending terminal twig from

148 OSGOOD TESTIMONIAL VOLUME

the interossea dorsalis. The vessel then terminates in the dorsal
carpal rete, often giving off an anastomotic loop to the dorsal branch
of the radialis superficialis.

Rete carpi dor sale:

The dorsal carpal rete is formed, as in man, by interanastomosis
of the R. carpeus dorsalis a. medianoradialis, a twig from the ulnaris
dorsalis (R. carpeus dorsalis a. ulnaris of human anatomy), and
terminal twigs of the dorsal interossea volaris into which the slender
descending branch of the interossea dorsalis has emptied. The
ulnar contribution is always relatively very slender, and may be
replaced by the perforating twig from the mediana propria + ulnaris
volaris that passes between the pisiform and the base of the fifth
metacarpal.

The rete exhibits two basically different forms in the Carnivora.
In primitive carnivores it forms an arch, homologous with the "dorsal
arch" of human anatomy, from which the deep dorsal metacarpals
arise. In these cases there is no true deep dorsal arch (cf. p. 149).
In other carnivores the rete is merely a network of relatively slender
vessels, and has no direct connection with the deep dorsal meta-
carpals. In these cases a deep dorsal arch is present, and the deep
dorsal metacarpals arise from it.

Rete carpi volar e:

The volar carpal rete is much less important than the dorsal
rete. It never substitutes for the deep volar arch, and consequently
never gives rise to the deep volar metacarpals. It is formed by
interanastomosis of the R. carpeus volaris a. medianoradialis and
twigs from the interossea volaris. The carpeus volaris and a strong
twig from the interossea volaris form an arch that marks the proximal
boundary of the rete.

Arcus dorsales et volares:

Typically there are four arches in the metacarpal region in the
Carnivora: two on the dorsum and two on the vola. These arches
are always formed by anastomosis between the termini of a vessel
situated on the radial side (in the case of the mediana propria nearly
at the midline) of the forearm and a vessel situated on the ulnar
side. One of the components of an arch may dominate the other
so completely that the larger vessel alone breaks up in leash formation
to form the metacarpeae. But the second component is always
present, however insignificant it may be, and for the sake of uni-
formity all formations are referred to as "arches."

1941 ARTERIES IN CARNIVORES— DAVIS 149

Each of the arches (except the deep dorsal arch), and the meta-
carpal vessels radiating from it, is associated with a particular
nerve system.

Arcus dorsalis superficialis is without a homologue in man, but
in the Carnivora it is the most consistent of the four arches. It
is subcutaneous, and is associated with the nerves of the dorsum
manus. The stronger radial end of the arch is formed by the radialis
superficialis, to which a feeble twig from the dorsal medianoradialis
is added as the vessel passes the radio-carpal articulation. The ulnar
end is formed by the ulnaris dorsalis. Metacarpeae dorsales super-
ficiales 1-5 are radiated from the arch to their respective inter-
metacarpal spaces.

In primitive carnivores there is often a tendency for the arch
to be compound, with the radialis superficialis giving rise to meta-
carpeae 1-3, the ulnaris dorsalis to metacarpea 5, and twigs from
both vessels combining to form metacarpea 4.

Arcus dorsalis profundus is situated deep to the fascia and
extensor tendons, and is not associated with nerves. In primitive
carnivores the deep dorsal metacarpals arise directly from the dorsal
carpal rete, without a transverse vessel interconnecting them above
the perforating vessels, and consequently these forms lack the deep
dorsal arch.1 In most Arctoidea, on the other hand, the mediano-
radialis and ulnaris dorsalis unite in a true arch on the back of the
hand. In these cases the deep dorsal metacarpals arise from the arch,
rather than from the rete. The radial half of the arch is usually
considerably stronger than the ulnar half.

Arcus volaris superficialis is associated with the distal end of
the median nerve, and to a lesser degree with the superficial ulnar
nerve. Its radial end is formed by the mediana propria, to which
the perforans pollicis is added; in exceptional cases other twigs may
contribute. The ulnar end of the arch is formed typically by the
combined trunk of the ulnaris volaris and interossea volaris. Excep-
tionally either one of these vessels alone may form the end of the
arch, and when a lateral branch of the mediana propria is present
it replaces the interossea volaris in the formation of the arch.

The mode of origin of the deep volar metacarpals produces
several different forms of the arch (fig. 11). The most primitive
appears to be the triradiate or trigeminal form, with metacarpeae
2-4 arising like the tines of a pitchfork. Other animals exhibit the

1 Nevertheless, for the sake of uniformity and clarity, this region is referred
to in the descriptions as the "deep dorsal arch," whether the arch is present or not.

150

arch form, with the metacarpeae radiating at more or less regular
intervals. The Mustelidae are characterized by the quadrigeminal
form, with metacarpeae 1-4 arising from a common center. Potos,
finally, is unique in having an arc type, with metacarpeae 1-3

A A fk W

Leash Trigeminal Quadrigeminal Arch Arc

FIG. 11. Types of arches found in the Carnivora.

arising from the mediana propria, the latter vessel and the interosseo-
ulnar trunk combining to form metacarpea 4.

ARTERIES IN A PRIMITIVE MAMMAL (Echinosorex)

(Figs. 12, 13)

An examination of the literature failed to reveal an adequate
description of the arteries of the foreleg in any insectivore. Since
a knowledge of the vessels in some unspecialized member of this
group is desirable as a clue to what is actually "primitive" in the
Carnivora, a specimen of Echinosorex albus (=Gymnura rafflesi of
authors) collected near Sandakan, British North Borneo, was
dissected.

A. brachialis gives off a long interosseo-ulnar trunk in the cubital
fossa, and the radialis superficialis arises from this trunk. There
is a small entepicondylar foramen, which transmits the median
nerve; the brachial artery fails to pass through the foramen. Since
the interosseo-ulnar trunk arises in the cubital fossa, and the main
vessel is regarded as the mediana communis beyond the origin of
this trunk, it follows that the brachialis proper does not reach the
forearm in this animal.

A. radialis superficialis is very slender. In the cubital fossa it
gives off twigs to the flexors of the upper arm and an anastomotic
twig that runs down to the base of the medianoradialis. A fine
twig arising independently from the mediana communis supplies
the pronator teres, and hence may represent the volar branch of
the radialis superficialis of carnivores; or the volar branch may be
represented by the anastomotic twig to the medianoradialis.

The trunk of the superficial radial divides into subequal dorsal
and volar collateral branches in the proximal part of the forearm.

1941 ARTERIES IN CARNIVORES— DAVIS 151

The very short dorsal branch winds directly onto the dorsum, where
it terminates in the much larger descending branch of the external
circumflex humeral. The resulting common trunk forms the radial
end of the superficial dorsal arch. The volar collateral branch
winds onto the dorsum at the carpus, and terminates in A. meta-
carpea dorsalis superficialis 1.

A. mediana communis is very short, passing onto the forearm
between the biceps and the pronator teres, and dividing at the
proximal fifth of the forearm into the large mediana propria and
the much smaller medianoradialis. Throughout its course it lies
superficial to all the musculature. Farther proximad it also gives
rise to a slender vessel that runs the length of the forearm to empty
into the interosseo-ulnar trunk at the carpus. This vessel is super-
ficial throughout its course, and in the middle half of the forearm
is separated from the mediana propria by the median nerve, which
there lies between them. This branch does not appear to be homolo-
gous with the volaris antibrachii of carnivores.

A. mediana propria forms the radial end of the superficial volar
arch. It is the chief source of this arch, the ulnar contribution being
relatively slender. A. metacarpea volaris superficialis 1 is given off
very high, at the carpo-metacarpal articulation, and is connected
with the medianoradialis by a short anastomotic loop.

A. medianoradialis gives off a very short and slender carpeus
volaris at the carpus, followed by the above-described anastomotic
loop to the first superficial volar metacarpal just before it passes
under the tendon of the abductor pollicis longus. On the dorsum
it breaks up into three subequal terminal twigs. One of these enters
the dorsal carpal rete, anastomosing with a terminal twig of the
dorsal interossea volaris. The other two pass to the first and second
intermetacarpal spaces as perforantes 1 and 2, that to the second
being slightly the larger. The first and second deep dorsal meta-
carpals arise from these perforating branches. The dorsal end of
the perforans pollicis arises from perforans 1.

There is no deep dorsal arch, metacarpeae dorsales profundae
3 and 4 being the direct continuations of the corresponding per-
forating branches. Each receives a twig from the dorsal carpal rete.
Metacarpea dorsalis profunda 5 is the direct dorsal continuation
of the perforans minimi, and it also receives a twig from the dorsal
carpal rete.

A. ulnaris arises by a long trunk common to it and the common
interosseous. It divides into subequal dorsal and volar branches

152

OSGOOD TESTIMONIAL VOLUME

just above the middle of the forearm. The ulnaris volaris is joined
to the ulnaris dorsalis by a transverse anastomotic loop near the
carpus. It also receives a terminal twig of the interossea volaris
and the terminus of the long lateral branch of the mediana communis,

A. brachialis

R. volaris a. rad. superf.

A. radialis superf.

A. mediana communis

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.
A. medianoradialis

A. mediana propria

R. carpeus volaris

R. anast. arcus dors, superf.

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

A. collateralis ulnaris

FOR. ENTEPICOND.
A. recurrens radialis
Aa. recurrentes ulnares

A. ulnaris

A. interossea recurrens
A. interossea dorsalis
A. interossea volaris

A. volaris antibrachii
A. ulnaris dorsalis
A. ulnaris volaris

R. dors. a. int. vol.
R. volaris a. int. vol.

Truncus ulnaris dorsalis

R. perforans minimis
Arcus volaris prof.

Arcus volaris superf.

2 I '4
'3

FIG. 12. Vessel pattern in Echinosorex albus; volar view.

the resulting trunk forming the ulnar ends of both volar arches.
The ulnaris dorsalis winds onto the dorsum near the carpus. It ter-
minates on the dorsum manus by forming the ulnar ends of both
dorsal arches.

Aa. interosseae arise by a very short common trunk. The inter-
ossea volaris considerably exceeds the dorsalis in caliber. Near its
base the volaris gives off a branch that ramifies to the flexors on the
ulnar side of the forearm; this branch may represent the volaris
antibrachii of carnivores. The interossea volaris divides into volar

1941

ARTERIES IN CARNIVORES— DAVIS

153

and dorsal branches at the distal quarter of the forearm. The volar
branch gives twigs to the volar carpal rete, the largest of its terminal
branches emptying into the ulnaris volaris. The dorsal branch
perforates through to the dorsum, where it first receives a descending

A. interossea recurrens
A. interossea dorsalis

Truncus ulnaris dorsalis

Rete carpi dorsale

R. perforans minimi.

R. desc. a. circ. hum. ext.

R. dors. a. rad. superf.

R. dors. a. int. vol.
Arcus dorsalis superf.

R. coll. vol. a. rad. superf.
A. medianoradialis
TENDO M. ABD. POLL. LONGUS
R. perforans pollicis

FIG. 13. Vessel pattern in Echinosorex albus; dorsal view.

twig from the interossea dorsalis, then ramifies to the dorsal carpal
rete. The interossea dorsalis gives off the recurrens before perforat-
ing, and the two vessels perforate to the dorsum side by side. On
the dorsum the main dorsal trunk ramifies to the extensors of the
forearm, terminating by anastomosing with the dorsal interossea
volaris.

Numerous features of the arterial arrangement in Echinosorex
are extremely helpful in diagnosing primitive conditions in the
Carnivora. It may be unsafe to draw extensive conclusions from

154 OSGOOD TESTIMONIAL VOLUME

a single dissection, but the vessel pattern in Echinosorex conforms
so closely to the expected primitive pattern that the evidence it
supplies is actually confirmatory rather than critical. Passage of
the brachial artery through the entepicondylar foramen is certainly
primitive, and its failure to do so in Echinosorex would conse-
quently be a specialization or an individual anomaly. This, how-
ever, was the only important non-primitive character encountered.

The following points in Echinosorex are of particular interest in
connection with the vessel patterns of carnivores:

(1) The large size of the descending circumflexa humeri anterior,
which indicates that this vessel originally supplied the superficial
dorsal arch and that the arch has been secondarily transferred to
the radialis superficialis.

(2) The fact that the volar collateral branch of the radialis
superficialis remains on the volar side of the forearm down to the
carpus.

(3) The very short mediana communis, i.e. its high division into
the mediana propria and medianoradialis.

(4) The large caliber of the mediana propria, and the corre-
spondingly slender medianoradialis.

(5) The fact that the terminal (perforating) branch of the
medianoradialis to the second dorsal intermetacarpal space exceeds
the branch that goes to the first.

(6) The relatively long common ulnar, i.e. its low division into
the ulnaris dorsalis and ulnaris volaris.

(7) The equal caliber of the two branches of the ulnaris.

(8) The fact that the interossea dorsalis and the recurrens
perforate separately.

(9) The absence of a true deep dorsal arch, with the deep dorsal
metacarpals arising directly from the dorsal carpal rete.

DESCRIPTION OF ARTERIES IN CARNIVORA
CANIDAB

DOMESTIC DOG (Canis familiaris)
(Figs. 14, 15)

A. brachialis gives off the superficial radial and radial recurrent
above the elbow, followed by two ulnar recurrents immediately
below the elbow. A common trunk for the common interosseous
and ulnaris comes off a few millimeters below the elbow. Beyond
this the main trunk continues as the mediana communis.

1941 ARTERIES IN CARNIVORES— DAVIS 155

A. radialis superficialis is very slender. It gives off a twig to
the biceps before passing onto the forearm. The vessel fails to divide
into dorsal and volar branches, the entire system representing the
dorsal branch of other carnivores. The trunk divides in the proximal
part of the forearm into three collateral branches, one of which
remains on the vola while the other two wind onto the dorsum.
The delicate volar collateral branch1 supplies only cutaneous struc-
tures on the volar side of the forearm; it may be followed down
to the carpus. The dorsal collateral branches are connected by a
delicate transverse anastomotic loop in the distal part of the fore-
arm. The more slender of these collateral branches terminates in
the dorsal branch of the medianoradialis, thus contributing to the
radial end of the superficial dorsal arch. The main collateral branch
gives off a recurrent twig to the flexors of the upper arm, then
receives the delicate descending circumflex humeral. The resulting
common trunk receives one of the terminal twigs of the dorsal inter-
ossea volaris and a twig from the medianoradialis near the distal
end of the forearm, then continues onto the metacarpus where it
enters the center of the superficial dorsal arch. The radial end of
this arch is formed by the medianoradialis-radialis superficialis
trunk referred to above, the ulnar end by the ulnaris dorsalis.

A. mediana communis divides just below the proximal third of
the forearm into the large mediana propria and the slender mediano-
radialis.

Near its origin the mediana communis gives off a large vessel
(the volaris antibrachii of Ellenberger and Baum), which accom-
panies the branch of the median nerve that supplies the flexor
digitorum sublimis and palmarus longus. This vessel, which is
represented only by a minor muscle branch in most carnivores,
parallels the ulnaris strikingly in its ramifications and terminates
by emptying into the ulnaris volaris in the distal part of the forearm.

A. mediana propria forms the strong superficial volar arch. A
branch of the interossea volaris, which also carries blood from both
ulnars, enters the ulnar side of this arch. A minute twig from the
volar branch of the medianoradialis passes to the radial side of
the arch.

A. medianoradialis divides into volar and dorsal branches at
the carpus. The volar branch sends twigs to the volar carpal rete,

1 This vessel accompanies N. cutaneus antibrachii lateralis, exactly like the
volar collateral branch in other carnivores. The true volar branch of other
carnivores is a muscle branch, and is not related to any nerve.

156

OSGOOD TESTIMONIAL VOLUME

then forms the radial end of the deep volar arch. This arch, in
addition to supplying the metacarpeae volares profundae 1-4,

R. cutaneus

A. collateralis ulnaris

A. brachialis

R. m. biceps

A. radialis superf.

R. coll. vol. a. rad. superf.

R. dors. a. rad. superf.

R. coll. dors. a. rad. superf.

A. mediana communis

A. medianoradialis
A. mediana propria

R. carpeus volaris

R. anast. a. medianoradialis

TENDO M.ABD. POLL. LONG

R. dorsalis a. medianorad.

R. cutaneus a. medianorad

R. perforans pollicis

R. volaris a. medianorad.

A. dig. com. vol. 1

A. recurrens radialis

Aa. recurrentes ulnares
R. m. pronator teres

A. ulnaris

A. interossea recurrens
A. interossea dorsalis
A. volaris antibrachii
A. interossea volaris
A. ulnaris dorsalis
A. ulnaris volaris

R. dors. a. int. vol.

Truncus ulnaris dorsalis

R. rete carpi volare
R. perforans minimi
Arcus volaris prof.
Arcus volaris superf.

FIG. 14. Vessel pattern in Canis familiaris; volar view.

sends four perforating branches through the first to fourth inter-
metacarpal spaces.

The dorsal branch divides immediately, one resulting twig
passing external to the tendon of the abductor pollicis longus onto
the back of the hand, while the other runs deep to this tendon.

1941

ARTERIES IN CARNIVORES— DAVIS

157

The first of these twigs receives the terminus of the radialis super-
ficialis, then passes distad to enter the radial end of the superficial

R. anast. a. rec. rad.

A. interossea recurrens

A. interossea dorsalis

R. anast.

Truncus ulnaris dorsalis
Rete carpi dorsale

R. perforans minimi
Arcus dorsalis superf.

R. desc. a. circ. hum. ext.

R. rec. a. rad. superf.
R. dors. a. rad. superf.

R. coll. dors. a. rad. superf.

R. dors. a. int. vol.
R. cutaneus

R. anast. a. medianoradialis
TENDO M. ABD. POLL. LONGUS
A. medianoradialis
R. perforans pollicis

R. cutaneus a. medianoradialis
A. dig. com. vol. 1

4 3

FIG. 15. Vessel pattern in Canis familiar is; dorsal view.

dorsal arch. The second twig terminates in the arch-like dorsal
carpal rete, where it is joined by the ulnar half of the rete to form
a perforating branch for the second intermetacarpal space.

There is no deep dorsal arch; all the deep dorsal metacarpals
(except the feeble second one) are the direct continuations of the

158 OSGOOD TESTIMONIAL VOLUME

corresponding volar perforating branches. Each metacarpal receives
a slender twig from the dorsal carpal rete.

A. ulnaris is much smaller than the interossea volaris, and arises
by a short trunk common to it and the interosseae. It divides into
volar and dorsal branches at the proximal third of the forearm;
the volaris exceeds the dorsalis in caliber. The ulnaris volaris is
joined by the volaris antibrachii at the distal quarter of the forearm,
and the resulting common trunk empties into the volar interossea
volaris, thus contributing to both volar arches. The ulnaris dorsalis
receives a strong anastomotic loop from the interossea volaris, and
the resulting common trunk forms the ulnar ends of both dorsal
arches.

Aa. interosseae arise by a short trunk common to them and the
ulnaris. This trunk is very large, equaling the mediana communis
in caliber. The interossea dorsalis immediately perforates to the
dorsal side of the forearm, where it sends a recurrent twig back to
the elbow, and a descending twig distad to anastomose with the
dorsal interossea volaris. The interossea volaris almost equals the
mediana propria in caliber. It gives off a relatively slender dorsal
branch at the distal third of the forearm. The powerful volar
branch gives off twigs to the volar carpal rete, then an anastomotic
twig to the ulnaris dorsalis, finally receiving the combined trunk
of the ulnaris volaris and volaris antibrachialis at the proximal
border of the carpus. The resulting common trunk forms the ulnar
ends of both volar arches. The dorsal interossea volaris receives
the descending anastomotic twig from the interossea dorsalis, then
breaks up into three twigs on the dorsum. One of these is an anasto-
motic loop to the descending external circumflex humeral, while the
other two enter the dorsal carpal rete.

TIMBER WOLF (Canis nubilis)

Dissection of the arteries in the foreleg of a wolf revealed only
two very trivial deviations from conditions in the domestic dog.
A. collateralis ulnaris arose from the base of the radialis superficialis
instead of independently from the brachial, and A. interossea com-
munis was relatively slightly smaller than in the dog. Either of
these is well within the limits of slight individual variations.

RACCOON DOG (Nyctereutes procyonoides)

The arteries of this animal differed little from the typical canid
pattern seen in the domestic dog. Only the following differences
were found:

1941 ARTERIES IN CARNIVORES— DAVIS 159

The dorsal collateral ramus of the radialis superficialis, which
in the dog divided into a pair of vessels at its origin (while still on
the vola), remained single in Nyctereutes as far as the middle of the
dorsum of the forearm. This unimportant variation did not affect
the pattern of the superficial dorsal arch, which was practically
identical with that of Canis. The volar ramus of the radialis super-
ficialis was absent, as in other Canidae.

A. volaris antibrachii arose immediately proximad of the inter-
osseo-ulnar trunk, instead of distad of that trunk. Otherwise
this vessel did not differ from that of Canis.

A. ulnaris divided into dorsal and volar branches at the distal
third of the forearm, instead of at the proximal third.

A. inter ossea dorsalis and A. inter ossea recurrens arose by a com-
mon trunk. The recurrens came off after the trunk had emerged
on the dorsal side of the forearm.

RED FOX (Vulpes fulvd)

A. brachialis gives off the superficial radial and radial recurrent
above the elbow, followed by the ulnar recurrent below the elbow.
The dorsal ulnar arises immediately below the elbow, followed by
the common interosseous and volar ulnar which arise from a common
center. Beyond this the main trunk continues as the mediana
communis.

A. radialis superficialis is very slender. It gives off a twig to
the biceps before passing onto the forearm. As in the dog, the
true volar branch is absent, the trunk dividing into three collateral
branches that represent the true dorsal branch. A delicate volar
collateral branch supplies only cutaneous structures on the volar
side of the forearm. The dorsal branch gives off a recurrent twig
to the flexors of the upper arm, then receives the terminus of the
descending circumflex humeral. The vessel then divides into a pair
of collateral branches, which are connected by a transverse anasto-
motic loop in the distal part of the forearm. The larger collateral
branch receives one of the terminal twigs of the interossea dorsalis,
then continues onto the metacarpus, where it enters the center of
the superficial dorsal arch. The smaller collateral branch gives
off a twig above the carpus that winds around to the dorsum, where
it anastomoses with the medianoradialis. Distad of this it receives
one of the terminal twigs of the dorsal interossea volaris, then forms
the radial end of the superficial dorsal arch. The ulnar end of this
arch is formed by the ulnaris dorsalis.

160 OSGOOD TESTIMONIAL VOLUME

A. mediana communis divides just below the proximal third of
the forearm into the very large mediana propria and the extremely
delicate medianoradialis.

A. volaris antibrachii arises from the mediana communis at its
base. The course and relations of this vessel are identical with those
of the dog. It terminates by emptying into the ulnaris volaris in the
distal part of the forearm.

A. mediana propria forms the strong superficial volar arch. A
branch of the interossea volaris, which carries blood from both
ulnars, enters the ulnar side of this arch. A twig from the volar
branch of the medianoradialis enters the radial side of the arch.

A. medianoradialis divides into volar and dorsal branches at the
carpus, the dorsal branch being reduced to a thread-like vessel.
The volar branch sends twigs to the volar carpal rete, then divides
to send a twig to the radial ends of both volar arches. The deep
volar arch, in addition to supplying the metacarpeae volares pro-
fundae 1-4, sends four perforating branches through the first to
fourth intermetacarpal spaces. The second of these runs up into
the dorsal carpal rete, while the others join metacarpeae dorsales
profundae 1, 3, and 4.

The dorsal branch passes under the tendon of the abductor
pollicis longus onto the back of the hand, where it forms the radial
end of the arch-like dorsal carpal rete. There is no deep dorsal
arch, all the deep dorsal metacarpals (except the second) being the
direct continuations of the corresponding perforating branches. A
slender twig descends from the dorsal carpal rete to each of the meta-
carpals. The deep dorsal arch sends a stout perforating branch
through the second intermetacarpal space, which gives off a delicate
metacarpea dorsalis profunda 2 before perforating. Delicate twigs
also go from this arch to the first, third, and fourth perforating
branches, which pass from the vola to the dorsum to form the larger
metacarpeae dorsales profundae 1, 3, and 4.

A. ulnaris is much smaller than the interossea communis, and
arises independently, proximad of the interosseae. It divides into
volar and dorsal branches at about the distal third of the forearm;
the volaris slightly exceeds the dorsalis in caliber. The ulnaris volaris
is joined by the volaris antibrachii in the distal part of the forearm,
and the resulting common trunk empties into the volar interossea
volaris, thus contributing to both volar arches. The ulnaris dorsalis
receives a thread-like anastomotic loop from the interossea volaris, and
the resulting common trunk forms the ulnar ends of both dorsal arches.

1941 ARTERIES IN CARNIVORES— DAVIS 161

Aa. interosseae arise by a relatively long common trunk, which
comes off from a common center with the volaris antibrachii. The
common interosseous slightly exceeds the mediana communis in
caliber. The interossea dorsalis immediately perforates to the
dorsal side of the forearm, where it sends a recurrent twig back
to the elbow, and a descending twig distad to anastomose with the
radialis superficialis. The interossea volaris equals the mediana
propria in caliber. It gives off a relatively slender dorsal branch
at the distal third of the forearm. The powerful volar branch gives
off twigs to the volar carpal rete, then a fine anastomotic twig to
the dorsal ulnar, finally receiving the trunk of the combined volar
ulnar and ulnaris antibrachii at the carpus. The resulting common
trunk forms the ulnar ends of both volar arches. The dorsal inter-
ossea volaris breaks up into three twigs on the dorsum, all of which
go to the dorsal carpal rete.

PROCYONIDAE

CACOMISTL (Bassariscus astutus)
(Figs. 16, 17)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then detours around the foramen onto the fore-
arm. The ulnar and common interosseous arise by a short common
trunk in the proximal quarter of the forearm, beyond which the
trunk continues as the mediana communis.

A. radialis superficialis divides shortly beyond its origin into a
volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm, and a twig from it anastomoses with the
medianoradialis near the middle of the forearm. The dorsal branch
sends a recurrent twig back to the superficial pectoral musculature;
this twig receives an extremely delicate descending branch from the
external circumflex humeral. The main trunk of the dorsal branch
passes down the dorsum of the forearm to the manus, where it
forms the superficial dorsal arch with the dorsal branch of the
ulnaris dorsalis. A fine anastomotic twig at the carpus connects
the dorsal branch of the radialis superficialis with the medianoradialis.

A. mediana communis divides near the middle of the forearm
into the mediana propria and the smaller medianoradialis.

A. mediana propria forms the strong superficial volar arch with
a common trunk formed by the ulnaris dorsalis, the ulnaris volaris,
and the interossea volaris. From this arch arise metacarpeae volares
superficiales 1-4 and the perforans pollicis.

162

OSGOOD TESTIMONIAL VOLUME

A. medianoradialis gives off the carpeus volaris at the carpus, then
passes under the tendon of the abductor pollicis longus onto the
dorsum manus where, after receiving a delicate anastomotic loop
from the radialis superficialis, it gives off the perforans pollicis and
the carpeus dorsalis. The medianoradialis terminates by dividing

A. brachialis

A. radialis superf.

R. volaris a. rad. superf.

R. rec. a. rad. superf.

R. dors. a. rad. superf.

R. coll. dors. a. rad. superf.

A. mediana communis
A. medianoradialis

A. mediana propria

R. dors. a. int. vol.

R. carpeus volaris

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

Arcus volaris superf.

A. collateralis ulnaris

FOR. ENTEPICOND.
A. recurrens radialis

- A. recurrens ulnaris

A. interossea dorsalis
A. interossea volaris
A. ulnaris

A. volaris antibrachii
A. ulnaris dorsalis
A. ulnaris volaris

R. volaris a. int. vol.
R. vol. a. uln. dors.
R. dors. a. uln. dors.
R. rete carpi volare
R. perforans minimi

Arcus volaris prof.

FIG. 16. Vessel pattern in Bassariscus astutus; volar view.

into perforantes 1 and 2, of which 2 is the larger. Each of the latter
gives off its corresponding deep dorsal metacarpal, and together they
represent the radial half of the deep dorsal arch.

The deep dorsal arch is interrupted across the third metacarpal
bone, but is otherwise complete and gives rise to all the deep dorsal
metacarpals. The radial half of the arch considerably exceeds the
ulnar half in caliber. The second perforating branch is the largest.

A. ulnaris, which slightly exceeds the interossea volaris in caliber,
divides near the middle of the forearm into a volar and a dorsal

1941

ARTERIES IN CARNIVORES— DAVIS

163

branch. The smaller volaris empties into the volar branch of the
ulnaris dorsalis at the pisiform. The dorsalis divides into volar and
dorsal branches at the carpus. The volar branch is joined by the
ulnaris volaris, then by a branch of the interossea volaris, the result-
ing common trunk forming the ulnar end of the superficial volar

R. desc. a. circ..hum. ext.
R. rec. a. rad. superf.

A. interossea recurrens
A. interossea dorsalis

R. dors. a. int. vol.
A. ulnaris dorsalis
R. perforans minimi

Arcus dorsalis prof.

R. dors. a. rad. superf.
R. coll. dors. a. rad. superf.

A. medianoradialis

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

R. carpeus dorsalis

Arcus dorsalis superf.

FIG. 17. Vessel pattern in Bassariscus astutus; dorsal view.

arch. The dorsal branch receives an anastomotic twig from the
radialis superficialis, then splits to form the ulnar ends of both
dorsal arches.

Aa. interosseae. — The volar interosseous considerably exceeds
the dorsal in caliber. It divides into a volar and a dorsal branch
near the proximal border of the carpus. The volar branch gives
off an anastomotic twig to the carpeus volaris and twigs to the
volar carpal rete, then divides. One resulting branch joins the
common trunk formed by the volar branches of the ulnaris, the other

164 OSGOOD TESTIMONIAL VOLUME

forming the ulnar end of the deep volar arch. The dorsal branch
of the volar interosseous sends a slender recurrent twig back to
anastomose with the dorsal interosseous, then itself ramifies to the
dorsal carpal rete. The interossea dorsalis supplies the extensor
muscles of the forearm, the greatly reduced trunk continuing to
the carpus, to anastomose with the dorsal recurrent twig of the
interossea volaris.

COATI (Nasua narica)

A. brachialis gives off the superficial brachial above the entepi-
condylar foramen, then detours around the foramen onto the fore-
arm. The radial recurrent comes off immediately below the foramen,
followed a few millimeters farther distad by the smaller ulnar
recurrent. The ulnar arises at the proximal fifth of the forearm,
followed immediately by the common interosseous. Beyond this
the main trunk continues as the mediana communis.

A. brachialis superficialis divides shortly beyond its origin into
a volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm. The dorsal branch sends a delicate recurrent
twig back to the flexors of the upper arm; this twig receives an
extremely delicate descending branch from the external circumflex
humeral. The main trunk of the dorsal branch passes down the
dorsum of the forearm to the manus, where it forms the superficial
dorsal arch with the dorsal ulnar. A fine anastomotic twig at the
carpus connects the brachialis superficialis with the medianoradialis.

A. mediana communis divides just below the middle of the fore-
arm into the mediana propria and the larger medianoradialis.

A. mediana propria divides almost immediately into a pair of
collateral branches. The more medial of these forms the radial end
of the superficial volar arch, while the other enters the center of this
arch. The ulnar end of the arch is formed by the interossea volaris.

A. medianoradialis gives off the carpeus volaris at the carpus,
then passes under the tendon of the abductor pollicis longus onto
the dorsum manus, where, after receiving a delicate anastomotic
loop from the radialis superficialis it gives off the perforans pollicis
and carpeus dorsalis. The medianoradialis terminates by dividing
into perforantes 1 and 2, of which 2 is the larger. Each of the
latter gives off its corresponding deep dorsal metacarpal, and together
they represent the radial half of the deep dorsal arch.

The deep dorsal arch is interrupted across the third metacarpal
bone, but is otherwise complete and gives rise to all the deep dorsal

1941 ARTERIES IN CARNIVORES— DAVIS 165

metacarpals. The radial half of the arch slightly exceeds the ulnar
half in caliber. The second perforating branch is the largest.

A. ulnaris is slightly smaller than the interossea volaris. It
divides immediately into a slender volar and a strong dorsal branch.
The volar branch terminates by entering the interossea volaris at
the carpus; thus this branch contributes to the formation of the
ulnar ends of both volar arches and of the metacarpea volaris 5.
The dorsal branch gives off a recurrent branch near its origin, and
receives an anastomotic branch from the interossea volaris at the
carpus. It then winds around the ulnar border of the carpus onto
the dorsum, where it forms the ulnar ends of both dorsal arches.

Aa. inter osseae.— The interossea volaris greatly exceeds the
dorsalis in caliber. It divides into a volar and a dorsal branch at
the distal third of the forearm. The volar branch gives off an anasto-
motic twig to the dorsal ulnar, then receives the terminus of the volar
ulnar; both volar arches arise from the common trunk so formed.
The dorsal branch perforates to the dorsum near the proximal
border of the carpus; on the dorsum it enters the dorsal carpal
rete, in addition to sending a slender recurrent anastomotic twig
back to the interossea dorsalis. The interossea dorsalis supplies
the extensors of the forearm.

RACCOON (Procyon lotor)
(Figs. 18, 19)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then detours around the foramen onto the fore-
arm. The ulnar and common interosseous arise from a common
center at the proximal fifth of the forearm, beyond which the con-
siderably reduced trunk continues as the mediana communis.

A. radialis super ficialis divides shortly beyond its origin into a
volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm, and a twig from it anastomoses with the
medianoradialis in the proximal part of the forearm. The dorsal
branch sends several recurrent twigs back to the superficial pectoral
musculature and the flexors of the upper arm, then divides into a
pair of collateral branches that reunite farther distad to form the
radial end of the superficial dorsal arch. The dorsal collateral
receives the descending external circumflex humeral in the proximal
part of the forearm, and is connected with terminal twigs of both
interosseae and the ulnaris dorsalis by a loose subcutaneous network
of threadlike twigs.

166

OSGOOD TESTIMONIAL VOLUME

A. mediana communis divides at the proximal third of the fore-
arm into the large mediana propria and the remarkably slender
medianoradialis.

A. collaterals ulnaris
A. brachialis

A. radialis superf.
R. volaris a. rad. superf.

R. rec. a. rad. superf.

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.

A. medianoradialis

A. mediana propria
Rr. coll. a. medianoradialis -

R. dors. a. int. vol.

R. carpeus volaris

TENDO M. ABD. POLL. LONG

R. volaris a. medianorad.

R. perforans pollicis

R. anast. arcus dors, superf.

FOR. ENTEPICOND.

A. recurrens radialis
A. recurrens ulnaris

A. ulnaris

A. ulnaris dorsalis

A. interossea dorsalis
A. ulnaris volaris
A. mediana communis
Rr. collaterals
A. interossea volaris
R. prof. a. uln. vol.
R. superf. a. uln. vol.

A. ulnaris dorsalis
R. volaris a. int. vol.

R. perforans minimi

Arcus volaris prof.
Arcus volaris superf.

3 4

FIG. 18. Vessel pattern in Procyon lotor; volar view.

A. mediana propria forms the strong superficial volar arch
practically unassisted. A threadlike twig from the ulnaris volaris
enters the ulnar end of the arch.

1941

ARTERIES IN CARNIVORES— DAVIS

167

A. medianoradialis, despite its small size, gives off near its
origin a pair of minute vessels that accompany the mediana propria,

A. interossea recurrens

A. interossea dorsalis

R. dors. a. int. vol.
A. ulnaris dorsalis

Rete carpi dorsale

R. perforans minimi
Arcus dorsalis superf.

R. desc. a. circ. hum. ext.

R. rec. a. rad. superf.

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.

TENDO M. ABD. POLL. LONG

A. medianoradialis

R. perforans pollicis

R. coll. vol. a. rad. superf.

FIG. 19. Vessel pattern in Procyon lotor; dorsal view.

lying one on either side, down to the palm.1 After giving off the
carpeus volaris, the medianoradialis passes under the tendon of the

1 These two accompanying vessels were present in both specimens dissected.
They appear to be characteristic of Procyon, since Muller (1904) also found them
in his specimen, although he says that they arose from the interossea volaris.

168 OSGOOD TESTIMONIAL VOLUME

abductor pollicis longus onto the dorsum manus, where, after receiv-
ing an anastomotic loop from the radialis superficialis it gives off
the perforans pollicis, then terminates in the dorsal carpal rete
instead of continuing as the second perforans.

There is no deep dorsal arch; all the deep dorsal metacarpals
are the direct continuations of the corresponding volar perforating
branches, and each receives a slender twig from the dorsal carpal
rete. The second perforating branch does not exceed the others
in caliber.

A. ulnaris is much smaller than the interossea volaris. It divides
almost at once into a volar and a dorsal branch. The volaris is
slightly the larger. It divides into collateral branches at the proximal
third of the forearm; the deeper of these, after receiving the volar
ulnaris dorsalis, terminates in the interossea volaris at the carpus;
the more superficial branch, after receiving a delicate anastomotic
loop from one of the fine accompanying vessels of the mediana
propria, enters the ulnar side of the superficial volar arch. The
ulnaris dorsalis divides into volar and dorsal branches at the carpus.
The volar branch terminates in the ulnaris volaris; the dorsal branch
receives a descending twig of the interossea dorsalis, the resulting
common trunk forming the ulnar end of the superficial dorsal arch.

Aa. interosseae arise by a very short common trunk. The volaris
greatly exceeds the dorsalis in caliber, and is flanked by a pair of
threadlike vessels. It divides into volar and dorsal branches at the
distal quarter of the forearm. The volar branch gives off an anasto-
motic twig to the carpeus volaris, then divides. The larger of the
resulting branches receives the deep branch of the ulnaris volaris,
the resulting common trunk forming the ulnar end of the deep
volar arch; the other branch passes to the radial end of the deep volar
arch. The interossea dorsalis supplies the extensors, its terminal
twigs entering extensively into the dorsal subcutaneous network of
the forearm. One of two descending twigs anastomoses with the
ulnaris dorsalis at the carpus, the other with the dorsal recurrent
twig of the interossea volaris.

KINKAJOU (Potos flavus)
(Figs. 20, 21)

A. brachialis gives off the superficial brachial in the distal quarter
of the upper arm, then accompanies the median nerve through the
entepicondylar foramen. The radial recurrent is given off imme-
diately below the foramen, the ulnar recurrent farther distad.

1941 ARTERIES IN CARNIVORES— DAVIS 169

The volar ulnar comes off at the proximal sixth of the forearm,
followed 5 mm. farther distad by the dorsal ulnar, beside which
the common interosseous arises. Beyond this the main trunk
continues as the mediana communis.

A. brachialis superficialis divides shortly beyond its origin into
a slender volar branch and a much larger dorsal branch. The volar
branch supplies the flexors of the forearm. The dorsal branch gives
off recurrent twigs to the pectorals and the flexor muscles of the upper
arm. The brachialis superficialis then divides into a pair of collateral
branches that are united by several transverse anastomotic loops
as they pass down the forearm, and which at the carpus form the
superficial dorsal arch with the dorsal ulnar. The dorsal collateral
gives off a branch at the middle of the forearm that receives a
very delicate descending branch from the external circumflex humeral,
then passes to the ulnar side of the superficial dorsal arch, where it
joins the ulnaris dorsalis. A fine anastomotic twig at the carpus
also connects the dorsal collateral branch with the medianoradialis.

A. mediana communis divides near the middle of the forearm
into the mediana propria and the smaller medianoradialis.

A. mediana propria gives off a stout lateral branch at the distal
third of the forearm that passes toward the base of digit 5. This
branch first receives the terminus of the ulnaris volaris, then two
anastomotic twigs from the ulnaris dorsalis; finally it passes onto
the palm, where it gives off the metacarpea volaris 5, then forms the
ulnar end of the superficial volar arch.

The main trunk of the mediana propria forms the radial end of
the superficial volar arch.

A. medianoradialis gives off the carpeus volaris at the carpus,
then passes under the tendon of the abductor pollicis longus onto
the back of the hand. On the dorsum it receives a delicate anasto-
motic loop from the radialis superficialis, gives off the perforans
pollicis and the carpeus dorsalis, and then continues as the radial
end of the deep dorsal arch.

The deep dorsal arch is complete and uninterrupted. It gives
rise to metacarpeae dorsales profundae 1-5, of which 1 and 2 con-
siderably exceed the others in caliber. The radial half of the arch
exceeds the ulnar half in caliber; the second perforans is the largest.

A. ulnaris slightly exceeds the common interosseous in caliber.
It divides almost immediately into dorsal and volar branches;
the dorsal is slightly the larger (on the right arm the two branches
of the ulnaris arise independently from the mediana communis).

170

OSGOOD TESTIMONIAL VOLUME

The ulnaris volaris, besides giving off a large muscular twig, termi-
nates by uniting with the lateral branch of the mediana propria;
it thus contributes to the superficial volar arch, and indirectly via
anastomotic twigs to the deep volar arch.

A. radialis superf.

R. rec. a. rad. superf.

R. volaris a. rad. superf.

A. recurrens radialis

A. interossea communis

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.

A. mediana communis

R. anast. r. dors. a. rad. superf.

A. medianoradialis

R. dors. a. int. vol.

R. carpeus volaris

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

R. anast. arcus dors, superf.

Arcus volaris prof.
Arcus volaris superf.

A. brachialis

A. collateralis ulnaris

FOR. ENTEPICOND.

A. recurrens ulnaris
A. ulnaris
A. ulnaris volaris
A. ulnaris dorsalis
A. interossea dorsalis

A. interossea volaris
A. mediana propria

R. lateralis a. med. prop.

R. volaris a. int. vol.
R. dors. a. uln. dors.
Truncus ulnaris dorsalis

R. vol. a. uln. dors.

R. perforans minimi

R. anast. arcus dors, superf.

FIG. 20. Vessel pattern in Polos flavus; volar view.

The ulnaris dorsalis gives off a large muscular twig and a recurrent
twig near its base. Near the carpus it divides into volar and dorsal
branches. The volar branch forms the ulnar end of the deep volar
arch. The dorsal branch gives off a strong transverse anastomotic
branch to the volar interosseous, then passes onto the back of the
hand, where it receives an anastomotic twig from the perforating
branch of the volar interosseous, then continues distad to form the
ulnar ends of both dorsal arches in addition to entering the dorsal
carpal rete.

Aa. interosseae arise by a short common trunk. The volar
interosseous considerably exceeds the dorsal in caliber. It divides

1941

ARTERIES IN CARNIVORES— DAVIS

171

into a volar and a dorsal branch at the proximal border of the
carpus. The volar branch gives off a slender anastomotic twig to
the R. carpeus volaris, then passes across the base of the carpus
to terminate by anastomosing with the dorsal branch of the ulnaris

A. interossea recurrens
A. interossea dorsalis

R. dors. a. int. vol.

R. rete carpi dorsale

Truncus ulnaris dorsalis

R. perforans minimi
R. anast. a. metac. vol. 5

R. desc. a. circ. hum. ext.

R. dors. a. rad. superf.

R. anast. r. coll. vol.

a. rad. superf.

TENDO M. ABD. POLL. LONGUS

A. medianeradialis

R. perforans pollicis

R. anast. arcus vol. superf.

Arcus dorsalis superf.

Arcus dorsalis prof.

FIG. 21. Vessel pattern in Potos flavus; dorsal view.

dorsalis. The dorsal branch perforates through to the dorsum,
where it sends one branch to the dorsal carpal rete, a second branch
anastomosing with the dorsal branch of the ulnaris dorsalis.

The dorsal interosseous supplies the extensor muscles of the
forearm.

AILURIDAE

LESSER PANDA (Ailurus fulgens)
(Figs. 22, 23)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then detours around the foramen onto the fore-

172

OSGOOD TESTIMONIAL VOLUME

arm. In the proximal quarter of the forearm the brachial trunk
appears to bifurcate into the common median and a common trunk
for the ulnaris and interosseae.

A. radialis superficialis gives off twigs to the biceps before passing
onto the forearm. The vessel fails to divide into dorsal and volar

A. brachialis

A. radialis superf.

R. dors. a. rad. superf.

A. mediana communis

A. interossea volaris

R. coll. vol. a. rad. superf.

A. medianoradialis

R. anast. r. dors. a. rad. superf.
R. carpeus volaris

R. rete carpi dorsale
TENDO M. ABD. POLL. LONGUS

R. perforans pollicis
R. anast. arcus dors, superf.

A. recurrens radialis
FOR. ENTEPICOND.
A. recurrens ulnaris
A. interossea dorsalis
A. ulnaris

A. ulnaris dorsalis
A. ulnaris volaris

A. mediana propria
Rr. dors. a. int. vol.
R. volaris a. int. vol.
Truncus uinaris dorsalis
R. rete carpi volare

Arcus volaris prof.
R. perforans minimi
Arcus volaris superf.

FIG. 22. Vessel pattern in Ailurus fulgens; volar view.

branches,1 the entire system representing the dorsal branch of other
carnivores (see also Cam's). The trunk divides into dorsal (the
dorsal divides again into a pair of vessels) and volar collateral
branches in the proximal part of the forearm; these are reunited at
the carpus. The dorsal collateral branch receives the descending
circumflex humeral at the elbow. The reunited collateral vessels
form the radial end of the superficial dorsal arch. One anastomotic

1 This point was carefully checked in four arms.

1941

ARTERIES IN CARNIVORES— DAVIS

173

loop near the base of the carpus connects with the medianoradialis,
while a second, farther distad, enters the radial end of the superficial
volar arch.

A. mediana communis divides at the distal third of the forearm
into the slender mediana propria and the larger medianoradialis.

R. desc. a. circ. hum. ext.

R. rec. a. rad. superf.
s . s~j ^-^

A. interossea recurrens

R. dors. a. rad. superf.
\ i r \ — •?—

A. interossea dorsalis

Rr. dors. a. int. vol.
Truncus ulnaris dorsalis

Rete carpi dorsale
R. perforans minimi

Arcus dorsalis prof.
R. anast. a. metac. vol. 5

R. coll. vol. a. rad. superf.

R. anast. a. medianoradialis

R. rete carpi dorsale

TENDO M. ABD. POLL. LONGUS

A. medianoradialis

R. perforans pollicis

R. anast. arcus vol. superf.

R. carpeus dorsalis

Arcus dorsalis superf.

FIG. 23. Vessel pattern in Ailurus fulgens; dorsal view.

In one out of four arms the division took place slightly above the
middle of the forearm.

A. mediana propria enters the middle of the superficial volar
arch. The radial end of this arch is formed by the perforans pollicis
and an anastomotic loop from the radialis superficialis, the ulnar
end by the combined trunk of the interossea volaris and ulnaris
volaris. The mediana propria is accompanied by a slender collateral
branch.

174 OSGOOD TESTIMONIAL VOLUME

A. medianoradialis passes under the tendon of the abductor
pollicis longus onto the dorsum manus; the perforans pollicis is
given off beneath the tendon, and is followed by two dorsal carpal
twigs. The main trunk of the medianoradialis terminates by divid-
ing into perforantes 1 and 2, of which 2 is the larger. Each of the
latter gives off its corresponding deep dorsal metacarpal, and together
they represent the radial half of the deep dorsal arch. The first
metacarpea exceeds its perforating branch in caliber; the reverse
is true of the second.

The deep dorsal arch is interrupted across the third metacarpal
bone, but is otherwise complete and gives rise to all the deep dorsal
metacarpals. The radial half of the arch considerably exceeds the
ulnar half in caliber. The second perforating branch is the largest.

A. ulnaris is smaller than the interossea volaris. It divides at
the proximal third of the forearm into a strong volar and a weaker
dorsal branch (the volaris was the stronger in all four arms studied).
The volaris terminates in the strong dorsal ulnar trunk arising
from the interossea volaris; a branch from it also joins the main
volar branch of the interossea volaris, thus contributing to both
volar arches. The ulnaris dorsalis empties into the dorsal ulnar
trunk.

Aa. interosseae arise by a trunk common to them and the ulnaris.
The interossea volaris considerably exceeds the dorsalis in caliber.
It gives off a pair (in all four arms) of dorsal branches near the
proximal border of the carpus, then continues as the volar branch.
The latter, after giving off twigs to the volar carpal rete, divides
to form a strong dorsal ulnar trunk into which both ulnars empty,
and a main volar branch, which is joined by a branch from the
ulnaris volaris, then continues to form the ulnar ends of both volar
arches. Of the two dorsal branches of the interossea volaris, one
is a recurrent branch that passes proximad to anastomose with the
interossea dorsalis; the other ramifies to the dorsal carpal rete.
The interossea dorsalis supplies the forearm extensors, terminating
by anastomosing with the recurrent branch of the interossea volaris.

GIANT PANDA (Ailuropoda melanoleuca)1
(Figs. 24, 25)

A. brachialis gives off the superficial brachial above the entepi-
condylar foramen, then detours around the foramen onto the fore-

1 A more comprehensive description will appear in a forthcoming monograph
on Ailuropoda, from which this description has been abstracted.

1941 ARTERIES IN CARNIVORES— DAVIS 175

arm. The ulnar artery comes off at the proximal fifth of the forearm,
followed immediately by the interosseae. Beyond this the main
trunk continues as the mediana communis.

A. brachialis superficialis divides at its origin into a volar and a
dorsal branch. The smaller volar branch supplies the flexors of
the forearm. The dorsal branch gives off recurrent twigs to the
flexors of the upper arm, then divides into a pair of collateral
branches, which reunite at the carpus. One collateral branch perfo-
rates the brachioradialis to reach the dorsum of the forearm, where
it passes to the carpus. The second collateral branch winds along
the distal border of the brachioradialis onto the dorsum, where
after receiving the first collateral branch it divides into its terminal
twigs. One of these anastomoses with the dorsal branch of the
interossea volaris; the other opens into an anastomotic branch of
the medianoradialis, the resulting common trunk forming the radial
end of the delicate superficial dorsal arch.

A. mediana communis divides a short distance above the carpus
into the subequal mediana propria and medianoradialis.

A. mediana propria gives off a stout lateral branch at the carpus
that passes to the outer side of digit 5. This branch first receives
the terminus of the fine ulnaris volaris, then divides into superficial
and deep twigs. The superficial twig gives off an anastomotic loop
to the mediana propria, then passes to the outer border of digit 5
as the metacarpea volaris 5; the deep twig forms the ulnar end of
the deep volar arch.

The main trunk of the mediana propria arches across the palm
to form the stout superficial volar arch, from which arise the digitales
volares communes 1-4. At its base this arch is connected by an
anastomotic loop with the metacarpea volaris 5, and thus indirectly
receives blood from the ulnaris volaris.

A. medianoradialis gives off the carpeus volaris at the carpus,
followed immediately (while still on the vola) by an anastomotic
loop to the radialis superficialis; the latter winds around the border
of the hand to reach the dorsum. The medianoradialis then passes
under the tendon of the abductor pollicis longus, where it gives off
the perforans pollicis and the carpeus dorsalis and then continues
as the radial end of the deep dorsal arch. A second perforans
pollicis, arising from the vessel to the outer border of the pollex,
perforates between the pollex and the radial sesamoid, near the
distal end of the latter. This division was lower than in any other
carnivore dissected.

176

OSGOOD TESTIMONIAL VOLUME

The deep dorsal arch is complete and uninterrupted. It gives
rise to metacarpeae dorsales profundae 1^4, which are subequal in
caliber. The second perforans is the largest.

A. idnaris is approximately the same diameter as the interossea
volaris. Numerous muscular twigs greatly reduce its caliber as it

Aa. collaterals ulnares

A. brachialis

R. anast. a. circ. hum. ext

A. radialis superf.

A. recurrens radialis

R. rec. a. rad. superf.

R. anast a. int. rec.

R. dors. a. rad. superf.

A. coilateralis radialis

R. coll. vol. a. rad. superf.

R. dors. a. int. vol.

A. medianoradialis

R. carpeus volaris

R. anast. r. dors. a. rad. superf.

TENDO M. ABD. POLL. LONGUS

R. anast. a. metac. dors. prof. 1

Rr. perforans pollicis

R. rete articulare cubiti

R. anast a. int rec.
FOR. EXTEPICOXD.
R. volaris a. rad. superf.
Aa. recurrentes ulnares

A. interossea dorsalis
A. interossea volaris
A. ulnaris
A. mediana communis

A. ulnaris volaris
R. volaris a. int. vol.
A. mediana propria
A. ulnaris dorsalis
R. lateralis a. med. prop.
R. perforans minimi
~ Arcus volaris superf.
R. anast. a. uln. dors.
A. metacarpea volaris 5
Arcus volaris prof.

A. metacarpea dorsalis 4

FIG. 24. Vessel pattern in Ailur&poda melanoleuca; volar view.

passes down the forearm. At the distal quarter of the forearm the
greatly reduced trunk divides into a very delicate ulnaris volaris
and a larger ulnaris dorsalis. The volaris unites with the lateral
branch of the mediana propria; the resulting common trunk forms
the metacarpea volaris 5 and the ulnar end of the deep volar arch,
an anastomotic loop also connecting it with the superficial volar
arch. On the dorsum manus the dorsalis gives off twigs to the
dorsal carpal rete, then divides into a superficial branch, which

1941

ARTERIES IN CARNIVORES— DAVIS

177

forms the ulnar end of the superficial dorsal arch, and a deep branch,
which forms the ulnar end of the deep dorsal arch.

Aa. interosseae arise together, but without the intervention of
a common trunk. They are subequal in size. The volaris divides
into a volar and a dorsal branch at the proximal border of the carpus.

R. anast. a. rec. uln.
Rete articulare cubiti

R. anast. a. coll. rad.
A. interossea recurrens^ "~~~7^M^/ ™*/ "^^ R. desc. a. circ. hum. ext.

*^--^ I F---~_^ ~mf ^^

_ _ _ R. anast. a. rec. rad.

A. interossea dorsalis

^hA / r-

R. dors. a. rad. superf.

R. anast.

R. rete carpi dorsale

A. ulnaris dorsalis

R. perforans minimi

Arcus dorsalis superf.

R. anast. a. metac. vol. 5

R. carpeus dorsalis

A. metacarpea dorsalis 4

R. desc. a. circ. hum. ext.

R. coll. vol. a. rad. superf.

R. dors. a. int. vol.

R. anast. a. medianoradialis

A. medianoradialis

TENDO M. ABD. POLL. LONGUS

R. anast. a. medianoradialis

Rr. perforans pollicis

Arcus dorsalis prof.

4. 3

FIG. 25. Vessel pattern in Ailuropoda melanoleuca; dorsal view.

The volar branch gives off an anastomotic twig to the carpeus volaris,
then passes toward the ulnar side of the carpus, sending a twig to
the volar carpal rete and terminating by anastomosing with a
branch of the mediana propria by one twig and with the ulnaris
dorsalis by a second. The dorsal branch perforates through to the
dorsum. Here it first gives off a stout twig to the dorsal carpal
rete that receives the terminus of the interossea dorsalis at its base,
then receives the terminus of the descending external circumflex

178 OSGOOD TESTIMONIAL VOLUME

humeral and the dorsal collateral branch of the brachialis super-
ficialis. The dorsal branch terminates by entering the middle of
the superficial dorsal arch.

The interossea dorsalis perforates to the dorsum near the elbow.
Here it gives off a stout recurrent branch before passing distad.
One of two terminal twigs anastomoses with the dorsal branch of
the interossea volaris; the other empties into the descending circum-
flex humeral.

URSIDAE

AMERICAN BLACK BEAR (Euarctos americanus)
(Figs. 26, 27)

A. brachialis gives off the superficial radial above the elbow.
The large ulnar recurrent arises just below the elbow, followed a
few millimeters farther distad by the ulnar and common interosseous,
which arise from a common center. Beyond this the vessel continues
as the mediana communis.

A. radialis superficialis divides almost at once into volar and
dorsal branches. The smaller volar branch supplies the flexors of
the forearm. The dorsal branch gives off a threadlike volar collateral
twig that accompanies N. cutaneus antibrachii lateralis, terminating
just below the distal third of the forearm by emptying into the
medianoradialis. Upon reaching the dorsum the dorsal branch gives
off a recurrent twig to the flexors of the upper arm, immediately
beyond which it receives the extremely delicate descending cir-
cumflex humeral. It also receives a stout anastomotic branch from
the dorsal interosseous at the middle of the forearm, then continues
onto the back of the hand. Here it forms the extremely delicate
superficial dorsal arch with the ulnaris dorsalis. A fine anastomotic
twig at the carpus connects the superficial radial with the mediano-
radialis.

A. mediana communis divides at the distal third of the forearm
into the mediana propria and the medianoradialis. The mediana
propria slightly exceeds the medianoradialis in caliber.

A. mediana propria gives off a stout lateral branch just above
the carpus that passes to the outer side of digit 5. This branch
first receives the terminus of the ulnaris volaris. It then gives off
a dorsal twig that winds around the distal end of the ulna, receiving
the terminus of the ulnaris dorsalis, to form the ulnar ends of both
dorsal arches. Immediately beyond the origin of this dorsal twig
the main lateral vessel divides, one resulting twig forming the ulnar
end of the deep volar arch, while the other passes to the outer border

1941

ARTERIES IN CARNIVORES— DAVIS

179

of digit 5 as A. metacarpea volaris 5. The latter is connected with
the mediana propria by an anastomotic loop that extends across the
palm; this loop represents the ulnar end of the superficial volar arch.

A. collateralis ulnaris

A. brachialis

R. volaris a. rad. superf.

A. radialis superf.

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.

A. mediana communis

A. medianoradialis

R. dors. a. int. vol.

R. rete carpi volare

R. carpeus volaris

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

A. recurrens radialis

Aa. recurrentes ulnares

A. interossea communis
A. interossea recurrens
A. interossea dorsalis

A. ulnaris

A. interossea volaris
A. ulnaris volaris
A. ulnaris dorsalis

A. mediana propria

R. lateralis a. med. prop.

R. volaris a. int. vol.

R. anast. r. dors. a. int. vol.

Truncus ulnaris dorsalis
R. perforans minimi-
Arcus volaris prof.
Arcus volaris superf.

FIG. 26. Vessel pattern in Euardos americanus; volar view.

The main trunk of the mediana propria gives off a slender trans-
verse anastomotic loop to the perforating branch of the mediano-
radialis; the slender metacarpea volaris superficialis 1 arises from
this loop. The trunk then breaks up into metacarpeae volares super-
ficiales 2-4.

A. medianoradialis gives off the carpeus volaris at the carpus,
then passes under the tendon of the abductor pollicis longus onto

180

OSGOOD TESTIMONIAL VOLUME

the dorsum manus, where, after receiving an anastomotic loop from
the radialis superficialis, it gives off the perforans pollicis and several
threadlike dorsal carpal twigs. The medianoradialis terminates by
dividing into perforantes 1 and 2, of which 2 is the larger. The first

R. anast. a. rec. rad.

A. interossea recurrens
A. interossea dorsalis

R. anast. r. vol. a. int vol.
R. dors. a. int. vol.

Rete carpi dorsale

R. perforans minimi

Truncus ulnaris dorsalis

Arcus dorsalis superf.

R. desc. a. circ. hum. ext.
R. rec. a. rad. superf.

R. dors. a. rad. superf.
R. anast.

TENDO M. ABD. POLL. LONCUS
A. medianoradialis
R. perforans pollicis
R. carpeus dorsalis
Arcus dorsalis prof.

4 3
FIG. 27. Vessel pattern in Euarctos americanus; dorsal view.

deep dorsal metacarpal arises from the trunk independently of its
perforating branch in one of three feet studied.

The deep dorsal arch is interrupted across the third metacarpal,
but is bridged even here by a slender loop, connected with the dorsal
carpal rete, that runs from perforans 3 to metacarpea dorsalis pro-

1941 ARTERIES IN CARNIVORES— DAVIS 181

funda 2. The radial half of the arch is the larger, and the second
perforans is the largest.

A. ulnaris is the smallest of the main arteries of the forearm.
It divides just above the middle of the forearm into a volar and a
dorsal branch, of which the volar is the larger. Both of these pass
distad on the volar side of the forearm. The ulnaris volaris unites
with the lateral branch of the mediana propria; the resulting common
trunk forms the metacarpea volaris 5 and the ulnar end of the deep
volar arch, an anastomotic loop also connecting it with the super-
ficial volar arch. The ulnaris dorsalis unites with the dorsal twig
of the mediana propria, and the resulting common trunk contributes
to both dorsal arches.

Aa. interosseae arise by a short common trunk. The interossea
volaris considerably exceeds the dorsalis in caliber. It divides into
volar and dorsal branches at the proximal border of the carpus.
The volar branch gives off a slender anastomotic twig to the carpeus
volaris, then continues into the volar carpal rete; the dorsal branch
perforates through, to ramify to the dorsal carpal rete. The in-
terossea dorsalis supplies the extensor muscles, terminal twigs
anastomosing with the radialis superficialis at the middle of the
forearm, and with the dorsal interossea volaris.

A second individual, a litter mate of the preceding one, differed
from it in two points only. A. radialis superficialis was stronger,
corresponding more closely with the caliber of this vessel in the
specimens of Ursus middendorffi dissected. A. ulnaris divided into
volar and dorsal branches just beyond its origin instead of near the
middle of the forearm.

KODIAK BEAR (Ursus middendorffi, new-born)

A. brachialis gives off the superficial radial by a very short com-
mon trunk with the ulnaris collateralis (both arms) that arises above
the elbow. The large radial recurrent arises immediately below the
elbow, followed by the ulnar recurrent, the ulnar, and the common
interosseous, all of which arise from a common center. Beyond
this the vessel continues as the mediana communis.

A. radialis superficialis divides shortly beyond its origin into a
volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm. The dorsal branch gives off a threadlike
volar collateral twig that accompanies N. cutaneus antibrachii
lateralis, reuniting with the main dorsal branch at the carpus. Upon

182 OSGOOD TESTIMONIAL VOLUME

reaching the dorsum the dorsal branch gives off a recurrent twig
to the flexors of the upper arm that receives the delicate descending
circumflex humeral. A threadlike twig from the descending circum-
flex humeral continues down to the middle of the forearm, where
it receives a slender anastomotic loop from the interossea dorsalis
before entering the radialis superficialis. The main trunk continues
onto the back of the hand, where it forms the extremely delicate
superficial dorsal arch with the dorsal ulnar. A fine anastomotic twig
at the carpus connects the superficial radial with the medianoradialis.

A. mediana communis divides at the distal third of the forearm
into the mediana propria and the slightly larger medianoradialis.

A. mediana propria gives off a stout lateral branch at the proximal
border of the carpus that passes to the outer border of digit 5. This
branch first receives the terminus of the ulnaris volaris, then divides
into superficial and deep twigs. The superficial twig gives off an
anastomotic loop to the mediana propria, then passes to the outer
border of digit 5 as the metacarpea volaris 5 ; the deep twig receives
a fine anastomotic loop from the interossea volaris, then forms the
ulnar end of the deep volar arch.

The main trunk of the mediana propria receives an anastomotic
loop from the volar branch of the medianoradialis, then arches across
the palm to form the stout superficial volar arch, from which arise
the digi tales volares communes 2-4; a fine twig is also sent to the
first intermetacarpal space, which accompanies the larger true
digitalis volaris communis 1 coming from the volar branch of the
medianoradialis.

A. medianoradialis gives off the carpeus volaris at the carpus.
At the same level it gives off a slender volar branch that forms the
radial ends of both volar arches. The main trunk of the mediano-
radialis passes under the tendon of the abductor pollicis longus onto
the back of the hand, where, after receiving an anastomotic loop
from the radialis superficialis, it gives off the perforans pollicis and
several dorsal carpal twigs. The trunk of the medianoradialis then
continues as the radial end of the deep dorsal arch.

The deep dorsal arch is complete and uninterrupted. It gives
rise to metacarpeae dorsales profundae 1-5, and each of the first
four of these receives a perforating branch at or near its base. The
second perforating branch is the largest, but only slightly exceeds
the first; both of these greatly exceed the third and fourth in caliber.

A. ulnaris is much smaller than the interossea volaris. It divides
a short distance beyond its origin into volar and dorsal branches.

1941 ARTERIES IN CARNIVORES— DAVIS 183

The volar branch, which considerably exceeds the dorsal in caliber,
terminates in the lateral branch of the mediana propria. The slender
dorsalis passes distad along the ulnar border of the forearm, receiving
a transverse anastomotic loop from the interossea volaris at the
middle of the forearm, and terminal twigs of the interossea volaris
farther distad, and at the carpus winding onto the dorsum to form
the ulnar end of the superficial dorsal arch.

Aa. interosseae arise by a powerful short common trunk that
equals the mediana communis in caliber. The volaris greatly exceeds
the dorsalis in caliber. It gives off an anastomotic loop to the ulnaris
dorsalis at the middle of the forearm, then divides into volar and
dorsal branches near the proximal border of the carpus. The volar
branch splits immediately, one twig forming an anastomotic loop
with the carpeus volaris from which arise twigs to the volar carpal
rete, while the second twig breaks up into twigs that go to the
ulnaris dorsalis and the common trunk formed by the ulnaris volaris
and the lateral branch of the mediana propria. The dorsal branch per-
forates through, receiving the fair-sized descending terminal twig of
the interossea dorsalis, then giving off a threadlike anastomotic loop
to the radialis superficialis, and terminating in the dorsal carpal rete.

The interossea dorsalis perforates to the dorsum in the proximal
part of the forearm. Here it gives off a stout recurrent branch to
the elbow, then runs distad to terminate by anastomosing with the
recurrent branch of the dorsal interossea volaris. A slender anasto-
motic loop unites it with the radialis superficialis near the middle
of the forearm.

A second specimen of Ursus middendorffi (a litter mate of the
preceding one) differed from the first only in three very minor partic-
ulars. The dorsal and volar branches of the radialis superficialis
arose independently (on both arms) instead of by the usual common
trunk. In the medianoradialis the carpeus volaris and volar mediano-
radialis arose by a short common trunk, instead of side by side;
and the metacarpea dorsalis profunda 1 came off the deep dorsal
arch independently of its corresponding perforating branch.

MUSTELIDAE

FERRET (Mustela putorius)

(Figs. 28, 29)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen by a trunk common to it and the ulnar collateral,

184

OSGOOD TESTIMONIAL VOLUME

then accompanies the median nerve through the foramen. The
radial recurrent arises immediately below the foramen, followed by
the ulnar recurrent. A common trunk for the ulnar and dorsal
interosseous comes off at about the proximal quarter of the forearm,

Aa, collaterales ulnares

A. radialis superf .

A. brachialis

R. velaris a. rad. superf.

R. rec. a. rad. superf.

A. medians communis

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.
A. medianoradialis

R. carpeus voUris

R. volaris a. medianorad.

TENDO M. ABO. POLL. LONGCS

R. perforans pollicis

R. anast. arcus dors, superf.

Areas volaris prof.

FOR. ENTEPICOXD.

A. recurrens radialis
A. recurrens ulnaris
A. interossea dorsal is
A. ulnaris

A. interossea volaris

A. ulnaris dorsalis
A. ulnaris volaris
A. mediana propria
R. lateralis a. med. prop.
R. dors. a. int. vol.
R. volaris a. int. vol.
R. anast. a. int vol.
Truncus ulnaris dorsalis

R. perforans minimi
Arcus volaris superf.

FIG. 28. Vessel pattern in Muslela putorius; volar view.

followed a few millimeters farther distad by the interossea volaris.
On the left leg the ulnar and interosseae arise by a common trunk.
Beyond this the main trunk continues as the mediana communis.
A. radialis superficialis divides shortly beyond its origin into a volar
and a dorsal branch. The much smaller volar branch supplies the
flexors of the forearm. The dorsal branch divides into dorsal and volar

1941

ARTERIES IN CARNIVORES— DAVIS

185

collateral branches, which reunite at the carpus, then pass to the
superficial dorsal arch. The larger dorsal collateral branch gives
off two recurrent twigs to the pectoral muscles and the flexors of
the upper arm, one of which receives the terminus of the descending

A. interossea recurrens
A. interossea dorsalis

R. anast.

R. dors. a. int. vol.

R. rete carpi dorsale

Truncus ulnaris dorsalis

Rete carpi dorsale

R. perforans minimi

R. desc. a. circ. hum. ext.

Sj^

-yf ^___ ^-^-R. rec. a. rad. superf.

R. dors. a. rad. superf.

TENDO M. ABD. POLL. LONGUS
A. medianoradialis
— R. perforans pollicis

R. anast. r. coll. vol.

a. rad. superf.

Arcus dorsalis superf.

FIG. 29. Vessel pattern in Mustela putorius; dorsal view.

external circumflex humeral. The resulting common trunk forms the
radial end of the superficial dorsal arch. A fine anastomotic twig at
the carpus connects the main dorsal branch with the medianoradialis.
A. mediana communis divides just above the middle of the fore-
arm into the mediana propria and the somewhat smaller mediano-
radialis.

186 OSGOOD TESTIMONIAL VOLUME

A. mediana propria terminates in the middle of the superficial
volar arch, and is the chief source of this arch. The radial end of
this arch is formed by the volar medianoradialis, the ulnar end by
the common trunk of the ulnaris volaris and interossea volaris.

A. medianoradialis gives off the carpeus volaris, then divides
at the base of the carpus into a dorsal branch and a slender volar
branch. The volar branch forms the radial end of the superficial
volar arch. The dorsal branch passes under the tendon of the
abductor pollicis longus onto the back of the hand, where, after
receiving an anastomotic twig from the radialis superficialis, it
gives off the perforans pollicis and carpeus dorsalis, then terminates
as the powerful perforans 2.

There is no deep dorsal arch; all the deep dorsal metacarpals
(except the feeble second one which arises directly from perforans 2)
are the direct continuations of the corresponding volar perforating
branches, each receiving a slender twig from the dorsal carpal rete.
The second perforating branch is much the largest.

A. ulnaris slightly exceeds the volar interosseous in caliber. It
divides into volar and dorsal branches slightly above the proximal
third of the forearm. The larger ulnaris volaris gives off an anasto-
motic loop to the ulnaris dorsalis, then receives an anastomotic
twig from the mediana propria; the resulting common trunk forms
the ulnar end of the superficial volar arch and participates in the
formation of the deep volar arch. The ulnaris dorsalis, in addition
to the anastomotic loop from the ulnaris volaris, is connected with
the interossea volaris by several threadlike anastomotic loops.
It winds onto the dorsum, where it forms the ulnar ends of both
dorsal arches.

Aa. interosseae arise independently on the right leg, and by a
common trunk on the left. The interossea dorsalis is slightly smaller
than the volaris. It perforates to the dorsum, where it ramifies to
the extensors, a twig descending to anastomose with the interossea
volaris at the carpus. The interossea volaris gives off a delicate
anastomotic loop to the ulnaris dorsalis, then divides into volar
and dorsal branches at the proximal border of the carpus. The
volar branch receives a short stout anastomotic branch from
the ulnaris volaris, then passes to the metacarpus where it forms the
ulnar end of the deep volar arch; the radial end of the arch is formed
by the main (second) perforating branch of the medianoradialis.
This arch, in addition to giving off the metacarpeae volares pro-
fundae 1-4, gives rise to three perforating branches that pass through

1941 ARTERIES IN CARNIVORES— DAVIS 187

the first, third, and fourth intermetacarpal spaces to enter the deep
dorsal arch. The dorsal branch perforates through to the dorsum,
where it terminates in the dorsal carpal rete in addition to receiving
the descending twig of the interossea dorsalis.

WEASEL (Mustela noveboracensis)

A. brachialis gives off the superficial radial and ulnar collateral
above the entepicondylar foramen, then accompanies the median
nerve through the foramen. The radial recurrent arises immediately
below the foramen, followed by the ulnar recurrent. The ulnaris
volaris arises at the proximal fifth of the forearm, followed by a
common trunk for the ulnaris dorsalis and interossea dorsalis. The
interossea volaris arises independently a short distance farther
distad. Beyond this the main trunk continues as the mediana
communis.

A. radialis superficialis divides shortly beyond its origin into a
volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm. The dorsal branch divides into a pair of
collateral branches, the smaller of which remains on the volar sur-
face of the forearm; these two branches reunite at the carpus, then
pass to the superficial dorsal arch. The larger dorsal collateral branch
gives off two recurrent twigs to the pectoral muscles and the flexors
of the upper arm, one of which receives the terminus of the descending
external circumflex humeral. The resulting common trunk forms
the radial end of the superficial dorsal arch. A fine anastomotic
twig at the carpus connects the main dorsal branch with the mediano-
radialis.

A. mediana communis divides some distance below the middle
of the forearm into the mediana propria and the slightly smaller
medianoradialis.

A. mediana propria terminates in the middle of the superficial
volar arch, and is the chief source of this arch. The radial end of
the arch is formed by the volar medianoradialis, the ulnar end by
a common trunk formed by the combined ulnars and the interossea
volaris.

A. medianoradialis gives off the carpeus volaris, then passes
under the tendon of the abductor pollicis longus onto the back of
the hand. Here it immediately gives off the perforans pollicis, then
receives an anastomotic loop from the radialis superficialis, finally
giving off the carpeus dorsalis before terminating as the powerful
perforans 2. There is no deep dorsal arch; all the deep dorsal

188 OSGOOD TESTIMONIAL VOLUME

metacarpals (except the feeble second one which arises directly from
perforans 2) are the direct continuations of the corresponding volar
perforating branches, each receiving a slender twig from the dorsal
carpal rete. The second perforating branch is much the largest.

Aa. ulnares. — The dorsal and volar ulnars arise independently.
The ulnaris volaris receives a strong anastomotic branch from the
ulnaris dorsalis, the anastomotic branch exceeding the trunk of the
ulnaris volaris itself in caliber, and then a slender anastomotic loop
composed of combined twigs from the mediana propria and interossea
volaris. The resulting common trunk forms the ulnar end of the
superficial volar arch and participates in the formation of the deep
volar arch. The ulnaris dorsalis divides at the distal third of the
forearm into a strong anastomotic branch that goes to the ulnaris
volaris and a branch that winds onto the dorsum of the hand. The
latter, which receives an anastomotic twig from the interossea volaris,
forms the ulnar ends of both dorsal arches.

Aa. interosseae arise independently. The interossea dorsalis is
slightly smaller in caliber than the volaris. It perforates to the
dorsum, where it ramifies to the extensors; one twig descends to
anastomose with the interossea volaris at the carpus, and a delicate
anastomotic loop passes from this twig across to the ulnaris dorsalis.
The interossea volaris divides into volar and dorsal branches at
the proximal border of the carpus. The volar branch gives off a
stout anastomotic branch to the ulnaris volaris, then passes to the
metacarpus where it forms the ulnar end of the deep volar arch;
the radial end of the arch is formed by the main (second) perforating
branch of the medianoradialis. This arch, in addition to giving off
the metacarpeae volares profundae 1-4, gives rise to three perfo-
rating branches that pass through the first, third, and fourth
intermetacarpal spaces to enter the deep dorsal arch. The dorsal
branch perforates through to the dorsum, where it terminates
in the dorsal carpal rete in addition to receiving the descending
twig of the interossea dorsalis.

TAYRA (Tayra barbara)
(Figs. 30, 31)

A. brachialis gives off the superficial brachial above the entepi-
condylar foramen, then accompanies the median nerve through the
foramen. The brachial vein does not pass through the foramen.
The ulnar and radial recurrents arise opposite each other immediately
below the foramen, and a second ulnar recurrent is given off farther

1941 ARTERIES IN CARNIVORES— DAVIS 189

distad. The ulnar artery comes off at the proximal quarter of the
forearm, followed by the common interosseous. Beyond this the main
trunk continues as the mediana communis.

A. brachialis superficialis divides shortly beyond its origin into
a volar and a dorsal branch. The smaller volar branch supplies the
flexors of the forearm, one twig descending toward the carpus to
anastomose with a twig from the mediana propria. The dorsal
branch breaks up into collateral branches upon reaching the fore-
arm. One of these perforates through to the dorsum at the middle
of the forearm, then joins the second collateral branch. A second
collateral branch also perforates through to the dorsum, and after
receiving the first collateral branch and a twig from the third,
terminates in the dorsal branch of the interossea volaris. The third
and largest collateral branch gives off recurrent twigs to the flexors
of the upper arm; the largest of these receives an anastomotic twig
from the delicate descending external circumflex humeral. In the
proximal part of the forearm the collateral branch gives off a fine
collateral twig that joins the descending circumflex humeral, the
resulting delicate trunk opening into the superficial dorsal arch;
the main superficial brachial trunk forms the radial end of the
superficial dorsal arch.

A. mediana communis divides at the middle of the forearm into
the mediana propria and the somewhat smaller medianoradialis.

A. mediana propria gives off a stout branch at the distal quarter
of the forearm that passes to the outer side of digit 5. This branch
first receives the terminus of the ulnaris volaris, then gives off an
anastomotic branch that runs to the ulnar border of the ulno-carpal
articulation where it anastomoses with the terminus of the volar
branch of the ulnaris dorsalis and sends a fine twig onto the carpus
that anastomoses with the dorsal branch of the ulnaris dorsalis and
the volar branch of the interossea volaris. Immediately beyond
the origin of the foregoing anastomotic branch the main vessel
divides, one resulting twig forming the ulnar end of the deep volar
arch, while the other passes to the base of the fifth metacarpal
where it divides into the metacarpea volaris 5 and a twig that forms
the ulnar end of the superficial volar arch.

The main trunk of the mediana propria terminates in the middle
of the superficial volar arch, and is the chief source of this arch.
The radial end of the arch is formed by the fine first perforating
branch of the medianoradialis, the ulnar end by the lateral branch
of the mediana propria.

190

OSGOOD TESTIMONIAL VOLUME

A. medianoradialis gives off the carpeus volaris, then passes
under the tendon of the abductor pollicis longus onto the dorsum
manus. On the dorsum, after receiving an anastomotic loop from
the radialis superficialis, it gives off the perforating pollicis and
several dorsal carpal twigs. The medianoradialis terminates by
dividing into perforantes 1 and 2, of which 2 is much the larger.

A. radialis superf.

A. brachialis

R. volaris a. rad. superf.

A. recurrens radialis

R. anast. a. rec. rad.
R. rec. a. rad. superf.
R. coll. a. rad. superf.
R. dors. a. rad. superf

A. medianoradialis

R. anast. r. dors. a. rad. superf.
R. dors. a. int. vol

R. carpeus volaris

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

Arcus volaris prof.

Rr. anast. a. coll. uln. + a. rec. uln.

. collaterals ulnaris
FOR. ENTEPICOND.
Aa. recurrentes ulnares
R. muscularis
A. ulnaris

A. interossea communis
A. interossea dorsalis
A. interossea volaris
A. mediana communis
A. mediana propria
A. ulnaris volaris

A. ulnaris dorsalis

R. lateralis a. med. prop.

R. volaris a. int. vol.

Truncus ulnaris dorsalis

R. perforans minimi

R. anast. arcus dors, superf.

A. metacarpea volaris 5
Arcus volaris superf.

FIG. 30. Vessel pattern in Tayra barbara; volar view.

Each of the latter gives off its corresponding deep dorsal metacarpal
and together they represent the radial half of the deep dorsal arch.
The deep dorsal arch is interrupted across the third metacarpal
bone, but is otherwise complete and gives rise to all the deep dorsal
metacarpals. The radial half of the arch considerably exceeds the
ulnar half in caliber. The second perforating branch is the largest.

A. ulnaris exceeds the common interosseous in caliber. It
divides into volar and dorsal branches at the proximal third of the
forearm, of which the volaris is slightly the larger. The ulnaris

1941

ARTERIES IN CARNIVORES— DAVIS

191

volaris terminates in the lateral branch of the mediana propria.
The ulnaris dorsalis divides into dorsal and volar branches near the
carpus. The volar branch enters the lateral branch of the mediana
propria and the dorsal carpal rete, while the dorsal branch forms
the ulnar ends of both dorsal arches, in addition sending a twig
into the dorsal carpal rete.

Rr. anast. a. coll. uln. +

a. rec. uln.

Rete articulare cubiti

R. anast. a. rec. rad

A. interossea recurrens
A. interossea dorsalis

R. dors. a. int. vol.

R. rete carpi dorsale

Arcus dorsalis superf.

Truncus ulnaris dorsalis

R. perforans minimi

R. anast. a. metac. vol. 5

Arcus dorsalis prof.

R. desc. a. circ. hum. ext.

R. rec. a. rad. superf.

R. dors. a. rad. superf.
R. coll. a. rad. superf.

R. anast. a. med. prop.
TENDO M. ABD. POLL. LONGUS
A. medianoradialis

R. perforans pollicis

FIG. 31. Vessel pattern in Tayra barbara; dorsal view.

Aa. interosseae arise by a common trunk. The volaris consider-
ably exceeds the dorsalis in caliber. The interossea dorsalis im-
mediately perforates to the dorsal side of the forearm, where it
ramifies to the extensor muscles, terminating near the carpus by
anastomosing with the dorsal branch of the interossea volaris. The
interossea volaris divides into volar and dorsal branches near the
carpus. The volar branch immediately gives off an anastomotic
twig to the R. carpeus volaris, then twigs to the volar carpal rete,
a strong anastomotic twig to the lateral branch of the mediana
propria, and another to the ulnaris dorsalis. The dorsal branch

192

OSGOOD TESTIMONIAL VOLUME

sends one anastomotic twig back to the interossea dorsalis, another
back to the brachialis superficialis, and a smaller twig into the
dorsal carpal rete.

AMERICAN BADGER (Taxidea taxus)
(Figs. 32, 33)

A. brachialis gives off the superficial radial just above the entepi-
condylar foramen, then accompanies the median nerve through the

A. collateralis ulnaris
A. brachialis

A. radialis superf.

A. recurrens radialis

R. volaris a. rad. superf.

R. dors. a. rad. superf.

A. interossea communis

A. mediana communis

A. medianoradialis

R. coll. vol. a. rad. superf.

R. dors. a. int. vol.

R. carpeus volaris

R. dorsalis a. medianorad.

TENDO M. ABD. POLL. LONGUS

R. anast. r. dors. a. rad. superf.
R. perforans pollicis

R. volaris a. medianorad.
Arcus volaris prof.

FOR. ENTEPICOND.
A. recurrens ulnaris
A. ulnaris

A. interossea dorsalis
A. interossea volaris

A. mediana propria

A. ulnaris dorsalis
A. ulnaris volaris
R. volaris a. int. vol.
R. rete carpi volare

A. metacarpea volaris 5
R. perforans minimi

R. anast. arcus dors, superf.
Arcus volaris superf.

234

FIG. 32. Vessel pattern in Taxidea taxus; volar view.

foramen. The ulnar recurrent arises immediately below the foramen,
the radial recurrent slightly distad. The ulnar artery comes off
at the proximal quarter of the forearm, followed 3 mm. farther
distad by the common interosseous. Beyond this the main trunk
continues as the mediana communis.

A. radialis superficialis divides shortly beyond its origin into a
volar and a dorsal branch. The much larger volar branch supplies

1941

ARTERIES IN CARNIVORES— DAVIS

193

the flexors of the forearm. The dorsal branch divides into a pair
of collateral branches, which pass to the superficial dorsal arch.
The larger collateral branch interanastomoses with the descending
branch of the external circumflex humeral at the carpus, to form
the superficial dorsal arch with it. A fine anastomotic twig
at the carpus connects the main dorsal branch with the mediano-
radialis, and the smaller collateral dorsal branch terminates in this.

A. interossea recurrens
A. interossea dorsalis

A. ulnaris dorsalis

R. rete carpi dorsale

Arcus dorsalis superf.

R. anast. a. metac. vol. 5

R. perforans minimi

R. desc. a. circ. hum. ext.

R. dors. a. rad. superf.

R. dors. a. int. vol.

R. coll. vol. a. rad. superf.
TENDO M. ABD. POLL. LONGUS

R. dorsalis a. medianorad.
Rete carpi dorsale

4 3

FIG. 33. Vessel pattern in Taxidea laxus; dorsal view.

A. mediana communis divides a short distance above the middle
of the forearm into the mediana propria and the somewhat smaller
medianoradialis.

A. mediana propria terminates in the middle of the superficial
volar arch, and is the chief source of this arch. The radial end of
the arch is formed by the volar branch of the medianoradialis, the
ulnar end by the ulnaris volaris.

194 OSGOOD TESTIMONIAL VOLUME

A. medianoradialis gives off the carpeus volaris, then divides at
the base of the carpus into a slender dorsal and a much larger volar
branch. The volar branch forms the radial ends of both volar arches.
The perforans pollicis arises from the dorsal branch before the latter
passes under the tendon of the abductor pollicis longus (hence on
the volar side) ; it passes through the notch between the outer borders
of the scapholunar and the trapezium, joining twigs from both
volar arches to form the artery for the outer border of the pollex.

On the dorsum manus the dorsal branch receives an anastomotic
loop from the radialis superficialis, then terminates in the dorsal
carpal rete without forming a powerful perforans 2.

There is no deep dorsal arch; all the deep dorsal metacarpals
are the direct continuations of the corresponding volar perforating
branches, each receiving a slender twig from the dorsal carpal rete.
The second and third deep dorsal metacarpals exceed the others in
caliber.

A. ulnaris slightly exceeds the volar interosseous in caliber. It
divides into volar and dorsal branches near the middle of the fore-
arm. The larger ulnaris volaris gives off a short anastomotic twig
to the volar interosseous at the carpus, then gives off A. metacarpea
volaris 5, and forms the ulnar end of the superficial volar arch. An
anastomotic twig from A. metacarpea volaris 5 passes around the
outer border of the hand to the ulnaris dorsalis. The ulnaris dorsalis
forms the ulnar ends of both dorsal arches.

Aa. interosseae arise by a short common trunk. The volar inter-
osseous considerably exceeds the dorsal in caliber. The interossea
dorsalis immediately perforates to the dorsal side of the forearm,
where it ramifies to the extensor muscles. Near the carpus it anasto-
moses with the dorsal branch of the interossea volaris. The
interossea volaris divides into volar and dorsal branches near the
carpus. The volar branch immediately gives off an anastomotic
twig to the R. carpeus volaris, then a twig to the rete carpi volare;
after receiving a short stout anastomotic branch from the ulnaris
volaris the trunk terminates as the ulnar end of the deep volar
arch. The dorsal branch ramifies to the dorsal carpal rete, in
addition to sending an anastomotic twig back to the interossea
dorsalis.

SKUNK (Mephitis mesomelas)

A. brachialis gives off the superficial radial just above the elbow
(the entepicondylar foramen is wanting). The radial recurrent
arises at the elbow, followed by a short common trunk for the

1941 ARTERIES IN CARNIVORES— DAVIS 195

ulnar recurrent and a second radial recurrent branch. The ulnar
and common interosseous arise from a common center at the proximal
quarter of the forearm, beyond which the greatly reduced main
trunk continues as the mediana communis.

A. radialis superficialis divides shortly beyond its origin into a volar
and a dorsal branch. The smaller volar branch supplies the flexors
of the forearm, one delicate twig running down to the carpus where
it anastomoses with the medianoradialis. The dorsal branch divides
into a pair of collateral branches, which pass to the superficial dorsal
arch. The larger collateral branch gives off a recurrent twig to the
flexors of the upper arm, and receives a descending branch of the
external circumflex humeral at the middle of the forearm, the result-
ing common trunk forming the radial end of the superficial dorsal
arch. A fine anastomotic twig at the carpus connects the main
dorsal branch with the medianoradialis.

A. mediana communis divides slightly above the middle of the
forearm into the mediana propria and the somewhat smaller mediano-
radialis.

A. mediana propria terminates in the middle of the superficial
volar arch, and is the chief source of this arch. The radial end of
the arch is formed by the volar branch of the medianoradialis, the
ulnar end by the common trunk of the ulnaris volaris and the inter-
ossea volaris.

A. medianoradialis gives off the carpeus volaris, then divides
at the base of the carpus into a dorsal and a slender volar branch.
The volar branch forms the radial end of the superficial volar arch.
The dorsal branch, after receiving an anastomotic loop from the
radialis superficialis, gives off the perforans pollicis and a slender
perforans 1, then terminates by dividing into the carpeus dorsalis
and perforans 2, which are subequal in caliber. Perforantes 1 and
2 give off their corresponding deep dorsal metacarpals, and together
they represent the radial half of the deep dorsal arch.

There is no deep dorsal arch; all the deep dorsal metacarpals
(except the second one, which arises directly from perforans 2) are
formed by union of the volar perforating branches with vessels from
the dorsal carpal rete. The second perforating branch is the largest.

A. ulnaris is somewhat smaller than the common interosseous.
It divides into volar and dorsal branches at the distal third of the
forearm; the volaris is slightly the larger. The volar branch termi-
nates at the carpus by anastomosing with the volar interosseous,
thus contributing to the superficial volar arch. The dorsal branch

196 OSGOOD TESTIMONIAL VOLUME

x.

joins a branch of the volar interosseous, the resulting common trunk
forming the ulnar end of the superficial dorsal arch.

Aa. interosseae arise by a short common trunk. The volar inter-
osseous considerably exceeds the dorsal in caliber. The interossea
dorsalis immediately perforates to the dorsal side of the forearm,
where it ramifies to the extensor muscles, a twig descending to
anastomose with the dorsal interossea volaris. The interossea volaris
divides into volar and dorsal branches a short distance below the
middle of the forearm. The volar branch immediately gives off a
branch that passes to the carpus, where it forms a common trunk
with the dorsal ulnar; then a second branch that joins the volar
ulnar, the resulting common trunk supplying the ulnar ends of both
volar arches. The much reduced main trunk gives off an anastomotic
twig to the carpeus volaris, and terminates by entering the volar
carpal rete. The dorsal branch terminates in the deep dorsal arch,
also supplying twigs to the dorsal carpal rete.

VlVERRIDAE
BINTURONG (Arctictis binturong)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then accompanies the brachial vein and the
median nerve through the foramen. The radial recurrent is given
off immediately below the foramen, the ulnar recurrent farther
distad. The ulnar and common interosseous arise by a short common
trunk in the proximal quarter of the forearm, beyond which the
trunk continues as the mediana communis.

A. radialis superficialis divides shortly beyond its origin into a
volar and a dorsal branch. The volar branch supplies the flexors
of the forearm. The dorsal branch sends a recurrent twig back to
the superficial pectoral muscle, the main trunk passing down the
dorsum of the forearm toward the manus. At the middle of the
forearm it receives a strong descending branch from the external
circumflex humeral, and a terminal twig of the interossea dorsalis;
the resulting common trunk forms a pair of collateral branches,
which form the radial end of the superficial dorsal arch. A fine
anastomotic twig at the carpus connects the dorsal branch of the
radialis superficialis with the medianoradialis.

A. mediana communis divides just above the middle of the fore-
arm into the small mediana propria and the much larger mediano-
radialis. These two vessels are united farther distad by a short
anastomotic loop.

1941 ARTERIES IN CARNIVORES— DAVIS 197

A. mediana propria forms the superficial volar arch with a common
trunk formed by the ulnaris volaris and interossea volaris. From
this arch arise metacarpea volares superficiales 1-5.

A. medianoradialis gives off the carpeus volaris, then receives
an anastomotic twig from the radialis superficialis before passing
under the tendon of the abductor pollicis longus onto the dorsum
manus. On the dorsum it receives a second anastomotic twig from
the radialis superficialis and gives off the perforans pollicis and a
threadlike carpeus dorsalis, then terminates by dividing into per-
forantes 1 and 2, which are subequal in caliber. Each of the latter
gives off its corresponding deep dorsal metacarpal.

There is no deep dorsal arch, metacarpeae dorsales profundae
3 and 4 being the direct continuations of the corresponding volar
perforating branches. Each receives a slender twig from the dorsal
carpal rete. The first and second perforating branches are the
largest, and are subequal in size.

A. ulnaris considerably exceeds the common interosseous in
caliber. It divides almost immediately into a dorsal and a volar
branch; the volar is slightly the larger. The ulnaris volaris gives
off an anastomotic loop (the dorsal ulnaris volaris) to the ulnaris
dorsalis near the distal end of the forearm, then receives an anasto-
motic twig from the interossea volaris, and the resulting trunk forms
the ulnar ends of both volar arches; twigs perforate the third and
fourth intermetacarpal spaces to enter the ulnar half of the incom-
plete deep dorsal arch. The ulnaris dorsalis receives the dorsal
ulnaris volaris, then an anastomotic twig from the interossea volaris.
It then winds onto the dorsum, where it forms the ulnar ends of both
dorsal arches.

Aa. interosseae arise by a very short common trunk. The volar
interosseous slightly exceeds the dorsal in caliber. It divides into
a volar and a dorsal branch at the proximal border of the carpus.
The volar branch arches ulnaward at the proximal border of the
carpus, and the following twigs radiate from this arch: an anasto-
motic twig that sends one twig to the carpeus volaris, a second going
to the first perforating branch of the medianoradialis; a twig to the
volar carpal rete; and an anastomotic twig to the ulnaris volaris.
The much reduced trunk itself terminates in the ulnaris dorsalis. The
dorsal branch terminates in the dorsal carpal rete.

The interossea dorsalis supplies the extensor muscles of the fore-
arm. At the middle of the forearm it sends a transverse anastomotic
branch across to the descending branch of the external circumflex
humeral, thus contributing indirectly to the superficial dorsal arch.

198

OSGOOD TESTIMONIAL VOLUME

PALM CIVET (Paradoxurus hermaphroditus)
(Figs. 34, 35)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then accompanies the median nerve through the
foramen. The radial and ulnar recurrents arise from the interossea

A. brachialis

A. radialis superf.

R. volaris a. rad. superf.

.A. recurrens radialis

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.-
A. mediana communis

A. mediana propria
A. medianoradialis

Rr. collaterals

R. anast. r. coll. dors,
a. rad. superf.

R. dors. a. int. vol.

R. carpeus volaris

R. anast. r. dors. a. rad. superf.

TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

Arcus volaris superf.

A. collateralis ulnaris
FOR. ENTEPICOND.

Aa. recurrentes ulnares

A. interossea recurrens
A. interossea dorsalis
A. interossea volaris
A. ulnaris
A. volaris antibrachii

A. ulnaris volaris
A. ulnaris dorsalis

R. volaris a. int. vol.
Truncus ulnaris dorsalis
R. rete carpi volare

R. perforans minimi
Arcus volaris prof.

FIG. 34. Vessel pattern in Paradoxurus hermaphroditus; volar view.

recurrens. The ulnar and common interosseous arise by a short
common trunk at the proximal third of the forearm, beyond which
the main trunk continues as the mediana communis.

1941

ARTERIES IN CARNIVORES— DAVIS

199

A. radialis superficialis is very large. Immediately beyond its
origin it divides into volar and dorsal branches. The volar branch
supplies the flexors of the forearm, also giving off the ulnar collateral
near its base. The dorsal branch gives off an anastomotic loop to
the interossea recurrens in the proximal part of the forearm, and from

R. anast. a. rec. rad.

A. interossea recurrens

A. interossea dorsalis

Rr. anast.

R. dors. a. int. vol.
Truncus ulnaris dorsalis

Rete carpi dorsale
Arcus dorsalis superf.
R. perforans minimi

R. desc. a. circ. hum. ext

R. dors. a. rad. superf.

R. coll. dors. a. rad. superf.

TENDO M. ABD. POLL. LONGUS

R. coll. vol. a. rad. superf.
A. medianoradialis
Rr. collaterales
R. carpeus dorsalis
R. perforans pollicis

FIG. 35. Vessel pattern in Paradoxurus hermaphrodilus; dorsal view.

this loop arise a recurrent twig to the biceps, a volar collateral branch
that rejoins the main dorsal branch below the carpus, and a second
volar branch that flanks the medianoradialis. The main dorsal

200 OSGOOD TESTIMONIAL VOLUME

branch, which forms a pair of collateral branches on the dorsum,
receives the slender descending circumflex humeral in addition to
a terminal twig of the interossea dorsalis. It forms the radial end
of the superficial dorsal arch and is also connected with the ulnaris
dorsalis by two slender transverse arches just proximal of the arch.

A. mediana communis divides immediately below the proximal
third of the forearm into the small mediana propria and the much
larger medianoradialis.

A. mediana propria gives off a branch near its origin that flanks
the medianoradialis. The main trunk forms the superficial volar
arch, with a common trunk formed by the ulnaris volaris and volaris
antibrachii + interossea volaris. From this arch arise metacarpeae
volares superficiales 1-5.

A. medianoradialis is flanked on either side by a small accompany-
ing vessel ; one of these arises from the radialis superficialis, the other
from the mediana propria. They accompany the main vessel beneath
the tendon of the abductor pollicis longus onto the dorsum manus.
The main trunk gives off the carpeus volaris before passing onto the
dorsum. On the dorsum it terminates by dividing into perforantes
1 and 2, of which 2 is much the larger although 1 exceeds the other
perforantes in caliber. The carpeus dorsalis and perforans pollicis
arise from the accompanying vessels.

There is no deep dorsal arch, metacarpeae dorsales profundae
3 and 4 being the direct continuations of the corresponding volar
perforating branches. Each of the four metacarpeae receives a
twig from the dorsal carpal rete.

A. ulnaris arises by a trunk common to it and the volaris anti-
brachii; the trunk divides to form these two subequal vessels below
the proximal third of the forearm, a short distance beyond its origin.
All the recurrent vessels of the forearm — the radial, ulnar, and
interosseous — arise by a single trunk from the interosseo-ulnar trunk.
The ulnaris divides at the middle of the forearm into a dorsal and
a volar branch, of which the dorsal is considerably the larger. The
ulnaris volaris is joined by the terminus of the volaris antibrachii
at the carpus, and the anastomotic loop so formed gives rise to the
ulnar ends of both volar arches. The ulnaris dorsalis receives an
anastomotic loop from the volaris antibrachii, then winds onto
the dorsum where it forms the ulnar ends of both dorsal arches.

The volaris antibrachii appears to have taken over a part of the
duties of the ulnaris volaris. Near the distal end of the forearm

1941 ARTERIES IN CARNIVORES— DAVIS 201

it gives off the usual anastomotic loop to the ulnaris dorsalis, then
receives the good-sized terminus of the volar interossea volaris.

Aa. interosseae arise by a very short common trunk, the interossea
recurrens arising from a separate trunk along with the other recurrent
vessels, as described above. The interossea volaris considerably
exceeds the dorsalis in caliber. It divides into a volar and a dorsal
branch near the proximal border of the carpus. The short volar
branch gives off twigs to the volar carpal rete, then empties into the
volaris antibrachii. The dorsal branch perforates through to the
dorsum, receives a terminal twig from the interossea dorsalis, and
ramifies to the dorsal carpal rete.

The interossea dorsalis perforates to the dorsum beside the perfo-
rating recurrent branch. On the dorsum it receives an anastomotic
twig from the radial recurrent, then ramifies to the forearm extensors.

WEST AFRICAN TREE CIVET (Nandinia binotata)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then accompanies the median nerve through the
foramen. The radial recurrent arises below the foramen, followed
almost at once by an ulnar recurrent. The ulnar and common
interosseous arise from a common center above the proximal third
of the forearm, and beyond this the main trunk continues as the
mediana communis.

A. radialis superficialis divides shortly beyond its origin into
volar and dorsal branches. The volar branch supplies the flexors
of the forearm. The dorsal branch gives off a delicate volar collateral
branch in the proximal part of the forearm; distally this terminates
in the anastomotic loop that connects the main dorsal branch with
the medianoradialis. The main dorsal branch gives off a threadlike
recurrent twig to the flexors of the upper arm, and receives the
stout descending circumflex humeral near the middle of the forearm.
Near the carpus it receives a terminal twig of the dorsal interossea
volaris and gives off an anastomotic loop to the medianoradialis.
The vessel terminates by forming the radial end of the superficial
dorsal arch, and is also connected with the ulnaris dorsalis by a
slender transverse arch just proximad of the arch.

A. mediana communis divides at the distal third of the forearm
into the mediana propria and the larger medianoradialis. Near
its origin the mediana communis gives off a fair-sized volaris anti-
brachii, which terminates in the flexors of the forearm.

A. mediana propria forms the radial end of the superficial volar
arch. From this arch arise metacarpeae volares superficiales 1-5.

202 OSGOOD TESTIMONIAL VOLUME

A. medianoradialis gives off the carpeus volaris and an anasto-
motic loop to the brachialis superficial before passing onto the
dorsum. On the dorsum it gives off the carpeus dorsalis and perforans
pollicis, then terminates by perforating the second intermetacarpal
space. This perforating branch enormously exceeds the other
perforantes in caliber.

There is no deep dorsal arch, metacarpeae dorsales profundae
3 and 4 being the direct continuations of the corresponding volar per-
forating branches, each receiving a twig from the dorsal carpal rete.

A. ulnaris divides near the middle of the forearm into a dorsal
and a volar branch, which are about equal in caliber. The volaris
is joined by a terminal twig of the interossea volaris at the carpus,
and the resulting common trunk forms the ulnar ends of both volar
arches. The ulnaris dorsalis also receives a terminal twig of the
interossea volaris, then winds onto the dorsum where it forms the
ulnar ends of both dorsal arches.

Aa. interosseae arise by a common trunk, the interossea recurrens
coming from the base of this trunk. The interossea volaris divides
into volar and dorsal branches just above the carpus, the volar
branch ramifying to the volar carpal rete and both branches of the
ulnar, while the dorsal branch terminates as usual in the dorsal
carpal rete. The interossea dorsalis perforates to the dorsum at a
considerable distance from the perforating recurrent branch. It
ramifies as usual on the dorsum.

GENET (Genettasp.)

A. brachialis gives off the superficial radial above the entepi-
condylar foramen, then accompanies the median nerve through the
foramen. The radial recurrent is given off below the foramen,
followed after a short interval by the ulnar recurrent. The dorsal
interosseous arises at the proximal quarter of the forearm while
the volar interosseous and ulnar arise by a short common trunk
at the proximal third of the forearm. Beyond this the main trunk
continues as the mediana communis.

A. radialis super ficialis is large. Immediately beyond its origin
it gives off the ulnar collateral, then divides into volar and dorsal
branches. The smaller volar branch supplies the flexors of the
forearm. The dorsal branch gives off a volar collateral branch in
the proximal part of the forearm; distally this is reunited to the main
dorsal branch by a series of transverse anastomotic loops. The
most proximal of these loops receives one of the terminal twigs of

1941 ARTERIES IN CARNIVORES— DAVIS 203

the interossea dorsalis. The main dorsal branch gives off a recurrent
twig to the flexors of the forearm. Near the carpus it receives
a terminal twig of the dorsal interossea volaris. The vessel termi-
nates by forming the radial end of the superficial dorsal arch.

A. mediana communis divides at the distal third of the forearm
into the subequal mediana propria and medianoradialis.

A. mediana propria forms the radial end of the superficial volar
arch, and is the chief source of this arch. From the arch arise
metacarpeae volares superficiales 1-5.

A. medianoradialis gives off the carpeus volaris and an anasto-
motic loop to the brachialis superficialis before passing onto the
dorsum. On the dorsum it gives off the perforans pollicis and a
delicate carpeus dorsalis, then terminates by dividing into perf orantes
1 and 2, of which 2 is much the larger although 1 exceeds the other
perforantes in caliber.

The arrangement of the deep dorsal arch is like that of Herpestes,
with threadlike anastomotic loops simulating a true arch.

A. ulnaris slightly exceeds the interossea volaris in caliber. It
divides into a dorsal and a volar branch at the middle of the forearm,
the dorsal branch considerably exceeding the volar in caliber. The
ulnaris volaris is joined by a terminal twig of the interossea volaris
below the carpus, and the resulting common trunk forms the ulnar
end of the superficial volar arch. The ulnaris dorsalis is joined by
a second terminal twig of the interossea volaris, then winds onto
the dorsum where it forms the ulnar ends of both dorsal arches.

Aa. interosseae arise independently. The interossea volaris
divides into a volar and a dorsal branch, at the distal quarter of the
forearm. The volar branch, in addition to giving twigs to the
volar carpal rete, supplies a terminal branch to each of the ulnars,
while a third forms the ulnar end of the deep volar arch. The dorsal
branch has the usual relations with the dorsal interossea volaris and
radialis superficialis.

The interossea dorsalis is represented by two branches, the
recurrens arising independently and perforating to the dorsum
beside the main trunk. These have been the usual relations.

HERPESTIDAE

MONGOOSE (Herpestes ichneumon)
(Figs. 36, 37)

A. brachialis gives off the superficial radial above the entepicon-
dylar foramen, then accompanies the median nerve through the

204

OSGOOD TESTIMONIAL VOLUME

foramen. The radial recurrent is given off below the foramen,
followed immediately by the ulnar recurrent. The ulnar and com-
mon interosseous arise by a short common trunk just above the
proximal third of the forearm, beyond which the trunk continues
as the mediana communis.

A. collaterals ulnaris

A. brachialis

A. radialis superf.

R. volaris a. rad. superf.

R. rec. a. rad. superf.

R. dors. a. rad. superf.

A. mediana communis

A. medianoradialis

R. coll. vol. a. rad. superf.

Rr. anast. r. dors. a. rad. superf.

TEJJDO M. ABD. POLL. LONGUS

R. perforans pollicis

R. anast. r. dors. a. rad. superf.

Arcus volaris prof.

FOR. ENTEPICOND.
A. recurrens radialis
Aa. recurrentes ulnares

A. interossea recurrens
A. interossea dorsalis
A. ulnaris
A. interossea volaris

A. mediana propria
R. dors. a. int. vol.
R. volaris a. int. vol.
A. ulnaris dorsalis

A. ulnaris volaris

R. perforans minimi
Arcus volaris superf.

FIG. 36. Vessel pattern of Herpestes ichneumon; volar view.

A. radialis super ficialis is very large. Immediately beyond its
origin it gives off the ulnar collateral, then divides into volar and
dorsal branches. The volar branch supplies the flexors of the fore-
arm. The dorsal branch gives off a powerful volar collateral branch
in the proximal part of the forearm; distally this is reunited to the
main dorsal branch by a series of transverse anastomotic loops.
The main dorsal branch gives off a recurrent twig to the flexors of
the upper arm and receives the stout descending circumflex humeral
at the proximal end of the forearm. Farther distad it gives off a
slender transverse anastomotic loop to the interossea dorsalis, and

1941

ARTERIES IN CARNIVORES— DAVIS

205

near the carpus it receives a terminal twig of the dorsal interossea
volaris. The vessel terminates by forming the radial end of the
superficial dorsal arch; it is also connected with the ulnaris dorsalis
by a slender transverse arch just proximal of the arch.

A. mediana communis divides at the middle of the forearm into
the large mediana propria and the smaller medianoradialis. A

R. anast. a. rec. rad.

A. interossea recurrens
A. interossea dorsalis

Rr. anast.
R. dors. a. int. vol.

Truncus ulnaris dorsalis

Rete carpi dorsale

R. perforans minimi

Arcus dorsalis superf.

R. desc. a. circ. hum. ext.
R. dors. a. rad. superf.

Rr. anast. r. coll. vol.

a. rad. superf.
A. medianoradialis

TENDO M. ABD. POLL. LONGUS
R. perforans pollicis

R. anast. r. coll. vol.

a. rad. superf.
Rete carpi dorsale

4 3
FIG. 37. Vessel pattern of Herpestes ichneumon; dorsal view.

slender twig arising from the ulnar side of the mediana communis
some distance above its bifurcation appears to represent the volaris
antibrachii; this vessel terminates in the flexors of the forearm.

A. mediana propria forms the radial end of the superficial volar
arch, and is the chief source of this arch. From the arch arise
metacarpeae volares superficiales 1-5.

A. medianoradialis gives off the carpeus volaris and an anasto-
motic loop to the radialis superficialis before passing onto the
dorsum. On the dorsum it gives off the carpeus dorsalis and perforans

206 OSGOOD TESTIMONIAL VOLUME

pollicis, then terminates by perforating the first intermetacarpal
space; this is the only instance encountered in which the mediano-
radialis passed to the first intermetacarpal space rather than to the
second.1

All the deep dorsal metacarpals (except the first, which arises
directly from the medianoradialis) are continuations of the corre-
sponding perforating branches, each also receiving a twig from the
dorsal carpal rete. Threadlike anastomotic loops extend across
from one to the other at the level of the perforating branches, and
these collectively give the appearance of a deep dorsal arch. That
it is not homologous with the arch of other carnivores is indicated
by the direct relation of the metacarpals to the dorsal carpal rete.

A. ulnaris and the interossea are subequal in caliber. The ulnar
divides into a dorsal and a volar branch a short distance above the
carpus, the dorsal branch being considerably the larger. The
ulnaris volaris is joined by a terminal twig of the interossea volaris
above the carpus, and the resulting common trunk gives rise to the
ulnar ends of both volar arches. The ulnaris dorsalis is joined by
a second terminal twig of the interossea volaris, then winds onto
the dorsum where it forms the ulnar ends of both dorsal arches.

Ao,. interosseae arise by a very short common trunk. The
interossea volaris exceeds the dorsalis only slightly in caliber. It
divides into a volar and a dorsal branch at the distal quarter of the
forearm. The volar branch gives twigs to the volar carpal rete, then
terminates by emptying into the ulnars. The dorsal branch perfo-
rates through to the dorsum, where it breaks up into twigs that
ramify to the dorsal carpal rete. One of these twigs receives a
terminal twig from the interossea dorsalis.

The interossea dorsalis is represented by two branches, the
recurrens arising independently and perforating to the dorsum beside
the main trunk. On the dorsum the interossea dorsalis receives an
anastomotic twig from the radial recurrent, then ramifies to the
extensor muscles of the forearm.

HYAENIDAE

STRIPED HYENA (Hyaena striata)
(Figs. 38, 39)

A. brachialis gives off the superficial radial above the elbow,
then accompanies the median nerve through the entepicondylar

1 This apparently is the normal condition in Herpestes, since Zuckerkandl
found a similar arrangement in a specimen of H. fasciatus and one of H. javanicus,
and Schwalbe also described it for H. griseus.

1941 ARTERIES IN CARNIVORES— DAVIS 207

foramen.1 The large radial recurrent arises immediately below the
foramen, followed by the smaller ulnar recurrent. The ulnaris
dorsalis comes off a few millimeters below the elbow, followed imme-
diately by the common interosseous. The ulnaris volaris arises
from the volaris antibrachii.

A, radialis superficialis is very large; a short distance beyond
its origin it gives off a slender volar branch, the main trunk continu-
ing as the dorsal branch. At the crease of the elbow the latter gives
most of its bulk to a powerful recurrent branch that passes proximad
to anastomose with the large descending external circumflex humeral.
The remaining trunk at once forms three collateral vessels, two dorsal
and one volar. The volar branch, which accompanies N. cutaneus
antibrachii lateralis, had been cut off before it reached the middle
of the foreleg, so that its distal ramification is unknown. The
smaller of the two dorsal collaterals runs through beneath the
brachioradialis to reach the dorsum. The two dorsal vessels reunite
on the dorsum; after receiving an anastomotic twig from the inter-
ossea dorsalis and giving off an anastomotic loop to the mediano-
radialis, the combined trunk forms the radial end of the superficial
dorsal arch.

A. mediana communis divides at the proximal third of the fore-
arm into the mediana propria and the smaller medianoradialis.
Near its origin the mediana communis gives off a powerful volaris
antibrachii, which in every respect is similar to the corresponding
vessel in Cam's, except that here it spends itself in the digital flexors.

A. mediana propria does not form the strong superficial volar
arch until near the distal end of the metacarpals. A threadlike
twig from the interossea volaris, which also carries blood from the
ulnaris volaris, enters the ulnar end of this arch. Two fine anasto-
motic vessels passing around the radial border of the hand connect
the mediana propria with the superficial dorsal arch.

A. medianoradialis gives off the carpeus volaris and an anasto-
motic loop to the radialis superficialis before passing beneath the
tendon of the abductor pollicis longus onto the dorsum. On the
dorsum it gives off several carpal twigs and the perforans pollicis,
then continues into the radial end of the dorsal carpal rete.

There is no deep dorsal arch, although the arch formed by the
distal end of the dorsal carpal rete is situated so close to the perforat-

1 This foramen is often absent in hyenas, but apparently when it is present
it transmits the artery. A hyena dissected by Zuckerkandl agreed with the
present specimen in this respect.

208

OSGOOD TESTIMONIAL VOLUME

ing branches that it simulates a true dorsal arch. Metacarpeae
dorsales profundae 2-4 are the direct continuations of the corre-

Aa. collaterals ulnares

R. cutam

A. brachialis

R. volaris a. rad. superf.

A. radialis superf.

R. desc. a. circ. hum. ext.

R. rec. a. rad. superf.

R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.(cut)

R. coll. dors. a. rad. superf.

A. medianoradialis

R. dors. a. int. vol.
R. carpeus volaris

R. anast. r. dors. a. rad. superf.
TENDO M. ABD. POLL. LONGUS

R. perforans pollicis

Arcus volaris superf.

Rr. anast. rete carpi dorsale

FOR. ENTEPICOND.
A. recurrens radialis
A. recurrens ulnaris
A. ulnaris dorsalis

A. interossea dorsalis
A. interossea volaris
A. mediana communis
A. volaris antibrachii
A. ulnaris volaris
A. mediana propria

R. volaris a. int. vol.
Truncus ulnaris dorsalis

Rr. rete carpi volare
R. perforans minimi
R. anast. arcus dors. prof.
Arcus volaris prof.

FIG. 38. Vessel pattern of Hyaena striata; volar view.

spending perforating branches, each also receiving a large twig
from the dorsal carpal rete. The fourth and fifth metacarpals are
much larger than the others, while the first (the pollex is absent in

1941

ARTERIES IN CARNIVORES— DAVIS

209

Hyaena) is represented by a threadlike vestigial twig that is without
a perforating branch.

A. interossea recurrens
A. interossea dorsalis

Rr. anast.

R. dors. a. int. vol.

Truncus ulnaris dorsalis
Arcus dorsalis super!.

R. perforans' minimi
R. anast. arcus vol. prof.

R. desc. a. circ. hum. ext.

R. anast. a. rec. rad.
A. radialis superf.
R. rec. a. rad. superf.
R. dors. a. rad. superf.

~~R. coll. dors. a. rad. superf.

R. anast. a. medianoradialis
TENDO M. ABD. POLL. LONGUS

A. medianoradialis
R. rete carpi dorsale

R. perforans pollicis
Rete carpi dorsale

FIG. 39. Vessel pattern of Hyaena striata; dorsal view.

Aa. ulnares arise independently, the dorsalis coming directly
from the brachialis while the volaris arises from the volaris anti-
brachii; the two vessels are nearly equal in size, with the volaris

210 OSGOOD TESTIMONIAL VOLUME

very slightly the larger, and the two together are much smaller
than the interossea volaris. The ulnaris volaris terminates in the
volar interossea volaris near the pisiform. The ulnaris dorsalis
receives a strong anastomotic loop from the interossea volaris,
and the resulting common trunk forms the ulnar ends of both dorsal
arches.

Aa. interosseae arise by a very short common trunk. The
interossea dorsalis immediately divides into two branches, which
perforate to the dorsal side of the forearm side by side. One of these
is a recurrent twig to the elbow; the other sends two descending
twigs distad, one of which anastomoses with the dorsal interossea
volaris, while the other joins the radialis superficialis. The interossea
volaris almost equals the mediana propria in caliber. It gives off
a good-sized dorsal branch near the proximal border of the carpus.
The powerful volar branch gives off twigs to the volar carpal rete,
then a stout anastomotic branch to the ulnaris dorsalis, finally
receiving the relatively slender ulnaris volaris at the proximal
border of the carpus. The resulting common trunk forms the ulnar
ends of both volar arches. The dorsal interossea volaris receives
the descending anastomotic twig from the interossea dorsalis, then
continues into the dorsal carpal rete. Most of its bulk may be
followed directly through the rete into the fourth deep dorsal
metacarpal.

FELIDAE

DOMESTIC CAT (Felis domestica)
(Figs. 40, 41)

A. brachialis gives off the superficial radial above the elbow,
then accompanies the median nerve through the entepicondylar
foramen. The large radial recurrent arises immediately below the
foramen, followed by the smaller ulnar recurrent. The dorsal
interosseous is given off at the proximal quarter of the forearm,
while the volar interosseous and ulnar arteries arise by a short
common trunk (in two individuals; the interossea volaris comes off
farther distad in a third) at the proximal third of the forearm.
Beyond this the vessel continues distad as the mediana communis.

A. radialis superficialis divides into volar and dorsal branches a
short distance beyond its origin. The smaller volar branch supplies
the flexors of the forearm. The dorsal branch gives off several
recurrent twigs to the flexors of the upper arm, then divides into
dorsal and volar collateral branches. At the crease of the elbow
the larger dorsal collateral branch gives off a large recurrent twig,

1941 ARTERIES IN CARNIVORES— DAVIS 211

which receives the delicate descending circumflex humeral; near the
carpus it is connected with the medianoradialis by a fine anastomotic
loop. The volar collateral branch terminates in this anastomotic loop.

A. mediana communis gives off an extremely delicate mediana
propria at the distal quarter of the forearm, beyond which the
trunk continues, undiminished in caliber, as the medianoradialis.

A. mediana propria forms the radial end of the delicate super-
ficial volar arch. The ulnar end of this arch is formed by a thread-
like branch of the ulnaris volaris.

A. medianoradialis gives off the carpeus volaris and a fine anasto-
motic loop to the radialis superficialis, then passes under the tendon
of the abductor pollicis longus onto the back of the hand. On the
dorsum it gives off the carpeus dorsalis, then the perforans pollicis,
which enters the radial end of the superficial volar arch. The main
trunk of the medianoradialis continues as the perforans 2, which
enormously exceeds the other perforantes in caliber; on the vola
this branch forms the radial end of the powerful deep volar arch.

There is no deep dorsal arch. Perforantes 3 and 4 arise from
the irregular dorsal carpal rete, chiefly from a vessel that can be
followed directly back to the dorsal interossea volaris. Perforans 1
comes from medianoradialis.

A. ulnaris and the interossea volaris are subequal in caliber.
The ulnaris divides into volar and dorsal branches near the middle
of the forearm; the volaris greatly exceeds the dorsalis in caliber.
The ulnaris volaris divides into volar and dorsal branches near the
base of the carpus; the volar branch forms the ulnar ends of both
volar arches, while the dorsal branch combines with the minute
dorsal ulnar and a twig from the interossea volaris to form the dorsal
ulnar trunk. The dorsal ulnar trunk sends twigs into the
dorsal carpal rete; it forms the ulnar end of the superficial dorsal
arch.

Aa. interosseae arise independently. The volaris slightly exceeds
the dorsalis in caliber. It divides into volar and dorsal branches
near the base of the carpus. The volar branch divides, an anasto-
motic twig going to the carpeus volaris while a second terminal twig
divides again, one twig joining the ulnaris volaris and the other
the dorsal ulnar trunk. The dorsal branch terminates in the dorsal
carpal rete. The interossea dorsalis gives off the recurrens at its
origin, then supplies the extensor muscles of the forearm, sending
two slender terminal twigs down to the dorsal carpal rete.

212

OSGOOD TESTIMONIAL VOLUME

A. brachialis

A. radialis superf.

R. volaris a. rad. superf.

R. dors. a. rad. superf.

A. mediana communis
R. coll. vol. a. rad. superf.

R. anast. r. dors. a. rad. superf.

A. medianoradialis

R. volaris a. int. vol.

R. anast. r. dors. a. rad. superf.

R. carpeus volaris

TENDO M. ABD. POLL. LONGUS

R. cutaneus

R. perforans pollicis

Arcus volaris prof.

A. collateral ulnaris
FOR. ENTEPICOND.
A. recurrens radialis
A. recurrens ulnaris
A. volaris antibrachii
A. interossea recurrens
A. interossea dorsalis

A. ulnaris

A. interossea volaris

A. ulnaris dorsalis
A. ulnaris volaris
A. mediana propria

R. dors. a. int. vol.
Truncus ulnaris dorsalis
R. perforans minimi

Arcus volaris superf.

34 =
FIG. 40. Vessel pattern of Felis domestica; volar view.

JUNGLE CAT (Felis chaus)

An Indian jungle cat differed from the domestic cat only in two
points related to the interosseous vessels. The first of these is
insignificant- — the fact that the interossea dorsalis and recurrens
have a rather long common trunk. Possibly more significant is the
fact that the interossea volaris was somewhat smaller than the
ulnaris. This, however, was because of reduction of the interossea,
and not because of increase in the caliber of the ulnaris, as in Panthera.

1941

ARTERIES IN CARNIVORES— DAVIS

213

A. recurrens radialis

A. interossea recurrens

A. interossea dorsalis

Rr. anast.

R. anast. a. uln. vol.
R. dors. a. int. vol.

R. rete carpi dorsale

Truncus ulnaris dorsalis
R. perforans minimi
Rete carpi dorsale

R. anast. a. metac. vol. 5

R. desc. a. circ. hum. ext.
Rr. rec. a. rad. superf.

R. dors. a. rad. superf.

R. anast. r. coll. vol.

a. rad. superf.

R. anast. a. medianoradialis

TENDO M. ABD. POLL. LONGUS

A. medianoradialis

R. perforans pollicis

R. anast. a. medianoradialis

R. anast. arcus vol. superf.

Arcus dorsalis superf.

4 3

FIG. 41. Vessel pattern of Felis domestica; dorsal view.

LYNX (Lynx lynx)

A Siberian lynx differed from the domestic cat only in a few
minor details. The interossea recurrens and interossea dorsalis
arose separately, instead of by a common trunk, at the proximal
quarter of the forearm. The interosseo-ulnar trunk also came off
at the proximal quarter, instead of the proximal third, of the fore-
arm. The volaris antibrachii was relatively somewhat larger than in
the cat, equaling the ulnaris in caliber, but otherwise nearly identical.

214

OSGOOD TESTIMONIAL VOLUME

LION (P anther a ko)
(Figs. 42, 43)

A. brachialis accompanies the median nerve through the entepi-
condylar foramen, first giving off a stout common trunk for the

A. brachialis

A. radialis superf.

R. volaris a. rad. superf.

A. recurrens radialis

*»*
R. dors. a. rad. superf.

R. coll. vol. a. rad. superf.
A. mediana propria

A. medianoradialis

Rr. anast. r. coll. dors.
a. rad. superf.

R. carpeus volaris
TENDO M. ABD. POLL. LONGUS

R. perforans pollicis
Arcus volaris superf.

Aa. collaterales ulnares
FOR. ENTEPICOND.

A. recurrens ulnaris
A. volaris antibrachii

A. interossea dorsalis

A. interossea volaris
A. ulnaris

A. ulnaris dorsalis
•A. ulnaris volaris

R. anast. r. dors. a. int. vol.
R. dors. a. int. vol.
Truncus ulnaris dorsalis
R. volaris a. int. vol.
R. rete carpi volare
R. perforans minimi

Arcus volaris prof.

FIG. 42. Vessel pattern of Panther a leo; volar view.

superficial radial and medianoradialis. The radial recurrent arises
from the brachial artery immediately below the foramen, followed
farther distad by the ulnar recurrent. The common interosseous
and a minute mediana propria come off at the proximal quarter of
the forearm, and beyond this the main trunk continues as the huge
ulnar artery.

1941

ARTERIES IN CARNIVORES— DAVIS

215

A. radialis superficialis arises in the usual way, although actually
representing the combined proximal ends of this vessel and the
medianoradialis.1 This trunk supplies numerous twigs to the flexors
of the upper arm as it crosses them, and divides in the fossa cubiti

A. interossea recurrens
A. interossea dorsalis

R. anast. tr. uln. dors.

R. dors. a. int. vol.

Truncus ulnaris dorsalis

R. arcus dors, superf. (cut)

R. perforans minimi
Rete carpi dorsale

R. anast. a. rec. rad.

R. desc. a. circ. hum. ext.
R. rec. a. rad. superf.

R. dors. a. rad. superf.

Tr. dors. a. rad. superf. (cut)

R. coll. dors. a. rad. superf.

Rr. anast. a. medianoradialis

TENDO M. ABD. POLL. LONG
A. medianoradialis
R. perforans pollicis

FIG. 43. Vessel pattern of Panther a leo; dorsal view.

into the radialis superficialis proper and the medianoradialis. The
radialis superficialis then gives off a transverse anastomotic loop
to the base of the mediana propria, before winding onto the dorsum

1 This origin of the medianoradialis, the only one encountered in 35 dissec-
tions, is doubtless an individual anomaly. A similar high origin of the radial
artery is well known in man.

216 OSGOOD TESTIMONIAL VOLUME

of the forearm. On the dorsum it combines with the larger descend-
ing circumflex humeral and passes distad, presumably to form the
radial end of the superficial dorsal arch (this arch had been destroyed
in removing the skin).

A. mediana communis is not represented because of the abnormal
origin of the medianoradialis.

A. mediana propria forms the radial end of the superficial volar
arch. The formation of this arch is peculiar; the mediana propria
terminates in the third intermetacarpal space as A. metacarpea vola-
ris superficial 3, the ulnar in the fourth space as A.metacarpea volaris
superficialis 4. These two vessels are then united across digit 4 by
a delicate transverse loop.

A. medianoradialis gives off the carpeus volaris before winding
onto the dorsum manus. On the back of the hand it gives off several
dorsal carpal twigs and the perforans pollicis, the main trunk con-
tinuing as the perforans 2, which greatly exceeds the other per-
forantes in caliber.

There is no deep dorsal arch. Perforantes 3 and 4 arise from the
complex dorsal carpal rete, while perforans 1 comes from the
medianoradialis.

A. ulnaris is the main continuation of the brachial artery, and
far exceeds any of the main volar branches in caliber. Just above
the middle of the forearm it gives off an extremely slender dorsal
branch, the main trunk continuing almost undiminished as the very
powerful volar branch. The ulnaris volaris gives off a good-sized
dorsal branch near the carpus, which after supplying a branch to
the volar carpal rete is joined by the ulnaris dorsalis and winds onto
the dorsum. The main volar trunk continues onto the palm, where
it forms the ulnar ends of both volar arches. The minute ulnaris
dorsalis joins the larger dorsal branch of the ulnaris volaris, and the
resulting dorsal ulnar trunk forms the ulnar ends of both dorsal arches.

Aa. interosseae arise by a very short common trunk, and the two
branches are subequal in caliber. The volaris, which is compara-
tively slender, divides into volar and dorsal branches near the base
of the carpus. The volar branch divides, one anastomotic twig
going to the carpeus volaris while a second anastomoses with a volar
branch of the dorsal ulnar trunk. The dorsal branch terminates
in the dorsal carpal rete. The interossea dorsalis gives off the
interossea recurrens on the dorsal side of the forearm, the main
trunk ramifying to the extensor muscles of the forearm; several
slender terminal twigs extend down to the dorsal carpal rete.

1941 ARTERIES IN CARNIVORES— DAVIS 217

CHEETAH (Acinonyx jubata)

A. brachialis gives off the superficial radial above the elbow, then
accompanies the median nerve through the entepicondylar foramen.
The radial and ulnar recurrent vessels arise from opposite sides of
the brachial immediately below the foramen. The three interosseous
vessels arise very high (at the proximal eighth of the forearm) and
independently of each other, immediately beyond which the brachial
divides into an enormous ulnar artery and a very slender mediana
communis.

A. radialis superficialis divides into volar and dorsal branches
at the crease of the elbow. The volar branch supplies the flexors
of the forearm. The dorsal branch gives off several recurrent twigs
to the flexors of the upper arm, then divides into dorsal and volar
collateral branches before passing onto the forearm. The larger
dorsal collateral branch winds onto the dorsum of the forearm, where
it receives the descending circumflex humeral before passing distad;
the distal part of this vessel, including the superficial dorsal arch,
had been destroyed in removing the skin. The slender volar col-
lateral branch terminates in muscles before reaching the wrist.

A. mediana communis, which is very slender, divides at the distal
quarter of the forearm into the extremely delicate mediana propria
and the larger medianoradialis.

A good-sized vessel, corresponding closely to the volaris anti-
brachii of the Canidae and Hyaena, arises from the brachial just
above the mediana communis. As in the dogs and hyena, this
vessel accompanies the branch of the median nerve that supplies
the flexor digitorum sublimis and palmaris longus, giving off a re-
current twig that passes back to the olecranal rete. The vessel
differs in Acinonyx only in that it terminates in the mediana com-
munis instead of in the ulnaris volaris.

A. mediana propria forms the radial end of the delicate superficial
volar arch. The ulnar end of this arch is formed by an equally
slender branch of the ulnaris volaris.

A. medianoradialis gives off the carpeus volaris before passing
onto the dorsum manus. On the dorsum it gives off the perforans
pollicis, then terminates in the dorsal carpal rete by several twigs,
the resulting arrangement being similar to that in Taxidea (fig. 33).

There is no deep dorsal arch, all the deep dorsal metacarpals
being continued from the corresponding perforating branches. They
are augmented by numerous twigs from the dorsal carpal rete.
The second perforating branch does not exceed the others in caliber.

218 OSGOOD TESTIMONIAL VOLUME

A. ulnaris is the main continuation of the brachial artery, and
greatly exceeds any of the other main branches in caliber. It divides
into volar and dorsal branches at the distal quarter of the forearm.
The ulnaris volaris, which enormously exceeds the dorsalis in caliber,
forms the ulnar ends of both volar arches. The ulnaris dorsalis is
connected with the dorsal interosseous vessels by several slender
transverse anastomotic loops, and near the carpus it is connected
with the ulnaris volaris by a similar loop. On the dorsum it supplies
twigs to the dorsal carpal rete, then forms the ulnar ends of both
dorsal arches.

Aa. interosseae arise from the brachial as three independent
vessels, just proximad of its bifurcation into the mediana communis
and ulnaris. The interossea volaris arises from the radial side of the
brachial. It divides into volar and dorsal branches near the carpus.
The volar branch terminates in the volar carpal rete, while the dorsal
branch perforates through to terminate in the dorsal carpal rete.
The interossea dorsalis, and interossea recurrens arise close together
but independently, from the ulnar side of the brachial. On the
dorsum of the forearm the recurrens sends a delicate descending
twig down to the dorsal carpal rete, in addition to the usual descend-
ing twig from the interossea dorsalis.

DISCUSSION

On the basis of their vessel patterns the carnivores studied fall
into four rather well-marked groups. These are (1) the Canidae,
which differ radically from the remaining Arctoidea; (2) the remain-
ing Arctoidea; (3) the Musteloidea; and (4) the Aeluroidea. Each
of these groups is discussed below, where data that could not be
presented in the accompanying table are also considered.

Phylogenetic trends. — The basic vessel pattern of the Carnivora
(fig. 44) is primitive, with the main trunk of the upper arm (the
brachialis) continued through the entepicondylar foramen directly
onto the forearm as the mediana communis, and the latter bifurcat-
ing in the upper third of the forearm to form a larger vessel that
supplies the palm (the mediana propria) and a slightly smaller one
that supplies the back of the hand (the medianoradialis). The
ulnar and interosseous arteries are concerned chiefly with the blood
supply of the forearm musculature.

This fundamental pattern is characteristic, with relatively minor
modifications, of the Carnivora, but has evolved in two quite different
directions within the group. The first of these is typical of the

1941 ARTERIES IN CARNIVORES— DAVIS 219

Arctoidea, exclusive of the Canidae, which have largely retained
the primitive pattern. The brachialis fails to pass through the
entepicondylar foramen; its bifurcation migrates distad (reaching
an extreme in the bears and pandas, where it divides almost at the
carpus), and the medianoradialis increases in caliber at the expense
of the mediana propria. The second, and quite different, trend is
found in the cats. Here there is an astonishing increase in the caliber
of one of a pair of vessels, with corresponding reduction of the bther.
Thus, in the domestic cat the ulnar circulation is essentially normal,
while in the median circulation the medianoradialis is so large that

-FOR. ENTEPICOND.

^~ s *

A. brachialis « _

A. ulnaris & Aa. interosseae
(chiefly muscular)

A. mediana communis

,. ,. ,. Jrl — A. mediana propria

A. medianoradiahs — ____^ m \ ^
(to dorsum manus) ~~i \ (to vola manus)

FIG. 44. Diagram of the chief vessels of the forearm in the Carnivora.

the bifurcation of the mediana communis must be looked for carefully,
the mediana propria being so threadlike that it was ignored by
Reighard and Jennings. In the lion and cheetah, on the other hand,
the brachialis continues almost without reduction as the ulnaris,
with the whole median circulation reduced to a very secondary
system.

Functional adaptations. — No obvious adaptive significance can be
attached to either of the "trends" described above, at least not at
present. In fact, only one instance was noted that could with
reasonable certainty be regarded as a definite functional adaptation
—the hypertrophy of the volaris antibrachii in connection with
cursorial locomotion. The dogs, the hyenas, and the cheetah are
by far the most cursorial of the carnivores, and in all of these the
volaris antibrachii has undergone a notable increase in size. This
vessel forms a part of the blood supply to the forearm (strictly,
digital) flexors, and these muscles are obviously important in oppos-
ing the thrust of the limb during locomotion.

Suppression of the entepicondylar foramen is probably also
associated with cursorial adaptation in some way, as witness its
absence in the otherwise very primitive foreleg of the dogs and its

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222 OSGOOD TESTIMONIAL VOLUME

unstable character in the hyenas. On the other hand, its absence
in the bears and skunks can hardly be so construed.

The Canidae. — The forearm arteries of the dogs are noteworthy
for two reasons — their extreme uniformity within the family, and
the primitive nature of the vessel pattern. As shown in the table,
the Canidae show fewer specializations (i.e. non-primitive characters)
than any other family except the Hyaenidae. This is particularly
striking in view of the cursorial adaptations that have modified
their limb structure in other respects, and sets them off sharply
from the remaining Arctoidea.

The Canidae differ consistently from all other carnivores studied
in one feature, the persistent absence of the volar branch of the
radialis superficialis. No particular importance can be attached to
this fact at present.

The remaining Arctoidea. — The procyonids, pandas, and bears
form a rather closely knit group, agreeing more closely among them-
selves than any of them does with any other group. The bears and
pandas agree with each other particularly closely. The group as a
whole shows a higher degree of specialization in the arteries of the
forearm than does any other group of carnivores. With the two
exceptions discussed separately below, this group is characterized
by the following non-primitive characters:

(1) The brachialis does not pass through the entepicondylar
foramen, although with the exception of the bears that foramen is
present and transmits the median nerve. This is a very striking
and highly characteristic feature of this group.

(2) The deep dorsal arch is a true arch.

(3) The bifurcation of the mediana communis exhibits a tendency
to shift distad, reaching an extreme position near the carpus in the
bears and pandas.

(4) There is often a lateral branch of the mediana propria. This
feature is encountered elsewhere only in the Mustelidae.

(5) The hypertrophy and subequal caliber of metacarpeae dor-
sales profundae 1 and 2 are characteristic.

(6) The interossea dorsalis and interossea recurrens always arise
independently.

Procyon is unique among the members of this group in the large
number of primitive characters retained in its vessel pattern; this
is even true in contrast with such a supposedly primitive form as
Bassariscus. Procyon does have the brachialis by-passing the entepi-

1941 ARTERIES IN CARNIVORES— DAVIS 223

condylar foramen and a true deep dorsal arch, which are perhaps the
most diagnostic features of the non-canid Arctoidea. On the other
hand, it lacks features almost equally diagnostic, and has several
unique features of its own, such as the great reduction of the mediano-
radialis and the presence of a persistent pattern of threadlike accom-
panying vessels. In view of these radical differences between Procyon
and the other members of this group, the close agreement between
Nasua and Bassariscus is striking. The possible significance of the ves-
sel pattern in Procyon can be determined only after additional data
from other parts of the anatomy are available for similar comparison.

Potos, the second non-conforming member of this group, is even
more striking. The most consistent feature of the arctoid group,
and one that appears to be unique among living mammals except
as an occasional anomaly, is the failure of the brachial artery to
pass through the entepicondylar foramen. No procyonid or ailurid
examined to date has failed to exhibit this feature (the foramen is
absent in the Canidae and Ursidae), while the vessel has passed
through the foramen in every specimen of Potos.1 This character
points toward the Mustelidae, since the relation between the brachial
artery and the foramen is the only feature in the forearm circulation
that positively differentiates the non-canid Arctoidea from the
Mustelidae. A second non-arctoid character, the fact that the
ulnaris exceeds the interossea in caliber, is also shared by Potos
with the Mustelidae. Potos differs from the remaining Procyonidae
in having a mediana propria lateralis, sharing this character with
the Ailuridae, Ursidae, and Mustelidae.

The Musteloidea. — As far as can be judged from the limited
material available (only four of about 30 known genera were studied),
the Mustelidae are moderately specialized in their forearm arteries,
and differ from the Arctoidea in several characters. They are, how-
ever, much closer to the Arctoidea than to any other group. The
brachial artery always passes through the entepicondylar foramen.
The most distinctive feature of the group is the characteristic
quadrigeminal form of the superficial volar arch.

Tayra differs in a number of respects from the other mustelids
studied, which suggests that subgroupings within the Mustelidae,
somewhat different from those now current, would be revealed by
further study. It is also noteworthy that the vessel pattern in Tayra
approaches that of the Arctoidea.

The Viverridae. — The civets exhibit a rather surprising amount
of specialization, the vessel pattern in this group being the least

1 A Potos dissected by Zuckerkandl agreed with ours.

224 OSGOOD TESTIMONIAL VOLUME

primitive among the Aeluroidea. The four genera studied (out of
approximately 22 known) vary considerably among themselves,
and are probably far from representing a cross section of the family.

Most characteristic of the Viverridae is the form of the deep
volar arch (cf. fig. 34). The large medianoradialis, perforating
from the dorsum through the second intermetacarpal space, runs
distad on the palm for some distance before breaking up in triradiate
fashion into metacarpeae 2-4. The arch is completed by a slender
ulnar branch entering the base of metacarpea 4.

The Herpestidae. — Herpestes, the sole representative studied of
the 17-odd genera making up this family, is unique among known
carnivores in that the medianoradialis perforates the first intermeta-
carpal space instead of the second. It differs from the Viverridae in
that the mediana propria exceeds the medianoradialis in caliber,
but otherwise conforms fairly closely to the viverrid pattern.

The Hyaenidae. — If the single hyena dissected is representative,
this family has retained more primitive characters than any other
family of carnivores — this in spite of the modification of its limbs
for cursorial locomotion. Of its two non-primitive characters listed
in the table, one (enlargement of the volaris antibrachii) has been
construed as a cursorial adaptation (p. 219), and the second cannot
be regarded as a very fundamental character.

The Felidae. — The cats, except for the highly specialized cheetah,
have retained a fair proportion of primitive characters. Their
tendency to increase the caliber of one of a pair of vessels at the
expense of the other was noted on page 219.

The Felidae were divided by Pocock (1916) into three subfamilies:
the Pantherinae, containing the lion and other large cats, in which
the larynx is loosely attached to the skull by the largely ligamentary
suspensorium of the hyoid; the Felinae, containing the smaller cats
and the puma, in which the suspensorium of the hyoid is normally
ossified; and the Acinonychinae, including only the cheetah, which
lacks the integumentary sheaths of the claws and has the hyoid
as in the Felinae. Little additional evidence has since been adduced
to support these characters. The four cats (exclusive of the cheetah)
dissected in connection with this study fall into two very extreme
types, and it is interesting that these types agree completely with
Pocock's Pantherinae and Felinae. In the lion (fig. 42) the ulnar
is an enormous vessel, while in the remaining cats the ulnar and
interosseous are subequal in caliber and exceeded by the mediana
communis; a puma dissected by Zuckerkandl agreed with the latter.

1941 ARTERIES IN CARNIVORES— DAVIS 225

Conditions in the cheetah are similar to the lion, and hence do not
bear out the evidence of the hyoid apparatus.

With respect to the major thesis of this study, there can be no
doubt that vessel patterns, if studied in a large and sufficiently
representative series of forms, may supply important data as to
inter-family and inter-generic relationships. It is true that the
inter-relationships of the Carnivora as indicated by the artery
pattern of the foreleg are somewhat at variance with current views
derived chiefly from the dentition of recent carnivores and from
the usual interpretation of fossil carnivore material. Our conclusions,
however, are supported by a considerable mass of data, as yet
unpublished, from other morphological features in the Carnivora.
It is perhaps heretical to hint that the soft anatomy may sometimes
be a more reliable guide to relationships than that venerable stand-by
of taxonomists, the dentition. It may be pointed out, however,
that few anatomical structures come into more intimate contact
with the environment than does the dentition, and that it would
be difficult to find among the Carnivora more striking examples of
isolated specialization (and hence more suspect as a basis for postu-
lating relationships) than are provided by the teeth of the kinkajou
and the pandas.

It may also be emphasized that it is extremely hazardous to
attempt to homologize the limb vessels of a single species with those
of man without knowledge of the fundamental pattern in the group
as a whole. In my own case the present study made it necessary
to revise the description of these vessels in Ailuropoda, and Reighard
and Jennings' extraordinary misinterpretations and oversights pro-
vide an even more eloquent example and one that is the more unfortu-
nate because their "Anatomy of the Cat" is the standard basis for
any morphological work on the Carnivora.

SUMMARY

(1) Dissection of the forearm arteries of 35 carnivores reveals
that:

(a) Individual anomalies of the type common in human

anatomy are singularly rare.

(6) The vessel patterns in this region afford important
evidence as to inter-family and inter-generic relationships.

(c) To some extent vessel patterns may be correlated with
functional specializations of the foreleg.

226 OSGOOD TESTIMONIAL VOLUME

(2) The Canidae exhibit little variation in the pattern. It is
an extremely primitive one, fundamentally different from the pattern
in other Arctoidea.

(3) The Procyonidae, Ailuridae, and Ursidae, with two individual
exceptions, form a compact, closely knit group, with a comparatively
specialized vessel pattern.

(a) Procyon has a very aberrant, but basically quite primitive,
pattern. It is, however, different from that of the Canidae.

(6) Potos differs basically from all other Arctoidea, exhibiting
several mustelid characters.

(4) The Mustelidae differ from the Arctoidea in several basic
features, but limited material makes evaluation of inter-generic
differences impossible.

(5) The Viverridae exhibit the least primitive pattern among
the Aeluroidea. Limited material prevents evaluation of characters
and the variations they show.

(6) The Herpestidae have a somewhat more primitive pattern
than the Viverridae, but differ from the Viverridae and all other
carnivores in the condition of the deep dorsal metacarpals.

(7) The Hyaenidae have the most primitive vessel pattern among
the Carnivora. This, however, is associated with several cursorial
adaptations.

(8) The Felidae fall into two types, and these agree with the
subfamilies Pantherinae and Felinae of Pocock. Acinonyx has a
highly specialized pattern, which, however, agrees fundamentally
with that of the Pantherinae.

REFERENCES

BRADLEY, O. C.

1935. Topographical Anatomy of the Dog. 3rd ed. xii+284 pp., 91 figs.
New York, Macmillan.

ELLENBERGER, W. and BAUM, H.

1891. Systematische und topographische Anatomic des Hundes. xxiv+646 pp.,
208 figs., 37 pis. Berlin, Parey.

GOPPERT, E.

1905. Saugetiere, Gefasssystem. In Bronn's Klassen und Ordnungen des
Tierreichs, 6, Abt. 5, pp. 1221-1330, pis. 126-134.

MULLER, E.

1904. Beitrage zur Morphologic des Gefasssy stems. II. Die Armarterien der
Saugetiere. Anat. Hefte, (1), 27, pp. 71-242, 17 figs., pis. 5-16.

POCOCK, R. I.

1916. On the Hyoidean Apparatus of the Lion (F. leo) and Related Species
of Felidae. Ann. Mag. Nat. Hist., (8), 18, pp. 222-229, 2 figs.

REIGHARD, J. and JENNINGS, H. S.

1901. Anatomy of the Cat. xx+498 pp., 173 figs. New York, Henry Holt.
1935. Anatomy of the Cat. 3rd ed. xxii+486 pp., 177 figs.

SCHWALBE, E.

1895. Zur vergleichenden Anatomie der Unterarmarterien, speciell des Arcus
volaris sublimis. Morph. Jahrb., 23, pp. 412-451, pis. 26-27.

ZUCKERKANDL, E.

1907. Zur Anatomie und Morphologic der Extremitatenarterien. Sitzungsber.
K. Akad. Wiss. Wien, (3), 116, pp. 459-730, 14 figs., 6 pis.

227

A PLEISTOCENE OTTER FROM IOWA

EDWARD A. GOLDMAN

Senior Biologist, Fish and Wildlife Service
United States Department of the Interior

The fragmentary skull of an otter, consisting of most of the
anterior part of the upper segment and one of the parietals back to
near the occipital crest, with one second incisor and all of the molari-
form teeth in place, was found in the southeast part of a marsh of
about 1,200 acres, known as Big Wall Lake, southeast of Clarion,
Wright County, Iowa. The specimen was forwarded for determina-
tion by Thomas G. Scott, Leader of the Iowa Cooperative Wildlife
Unit conducting investigations under the joint auspices of the Fish
and Wildlife Service, Department of the Interior, and the State of
Iowa, at Iowa State College, Ames, Iowa. The skull is quite unlike
that of Lutra canadensis interior, a recent inhabitant of the region,
now apparently extirpated. The bone is very dark, as though
impregnated by long contact with decayed marsh vegetation, but
the teeth are only slightly discolored. The specimen is un weathered
or eroded, however, and probably came from a recently uncovered
section of a Pleistocene deposit. It seems to represent an unrec-
ognized species and is described as follows:

Lutra iowa sp. nov.

Type from Big Wall Lake, seven miles south and four miles east
of Clarion, Wright County, Iowa. No. 266580 (fragmentary skull
only) United States National Museum, Biological Survey Collection.
Collected January 18, 1940, by Paul Lester Errington and Thomas
George Scott. X-catalog No. 30230.

Distribution. — Known only from the type specimen, from northern
Iowa; assumed to be of Pleistocene age.

Characters. — A species of medium size, with remarkably heavy
dentition; upper carnassials very broad, with large internal lobes
and prominent antero-external cusps, the anterior borders distinctly
excavated, or notched, immediately behind the third upper pre-
molars; upper molars with inner sides decidedly longer than outer
sides, owing to posterior extent of large inner lobes, the anterior
borders nearly straight and transverse to axis of skull; crown of
third upper premolar relatively short (antero-posterior diameter)
and broad (transverse diameter). Similar to Lutra annectens of

229

230

OSGOOD TESTIMONIAL VOLUME

western Mexico in form of cranium and dental sculpture, but teeth
larger; upper carnassial with a well-developed antero-external cusp
and distinct emargination of anterior border of crown much as in
annectens, but anterior border sloping less obliquely inward and back-

s>' • '

'-- tl

•

.. - .

FIG. 45. Lutra iowa sp. nov. Wall Lake, Wright County, Iowa. No. 266580
United States National Museum, Biological Survey Collection. Type specimen.
Upper, lower, and lateral views (left side) of cranium. Natural size.

ward; inner lobe of upper carnassial much larger, more extended
antero-posteriorly, the inner border with a distinct notch in front
of a small, subsidiary cusp (absent in annectens) ; upper molar with
anterior border of crown more transverse, or at a right angle with
axis of skull, and inner lobe much larger; upper molar with inner
side of basal border (or cingulum) of crown decidedly longer than

1941 PLEISTOCENE OTTER— GOLDMAN 231

outer side (about equal in annectens) ; posterior base of upper molar
crown more deeply emarginate. Compared with that of Lutra
canadensis of Canada and the United States, the skull is broader
across zygomata at postorbital processes and exhibits a departure
in dental detail; upper carnassial considerably larger, with a more
prominent antero-external cusp and much more extensive inner
lobe; upper molar crown more quadrate in outline, the anterior
basal border nearly straight and transverse to axis; molar crown
with inner basal border or cingulum longer than outer border (about
equal in canadensis}, owing to greater development of an antero-
internal shelf; posterior base of upper molar crown deeply emarginate,
much as in canadensis; crown of third upper premolar broader.

Measurements. — Type (cranial and dental dimensions) : zygomatic
breadth near postorbital processes 66.4; width of rostrum at swelling
over outer sides of canines 31.3; interorbital width 27.3; postorbital
constriction 20; distance between tips of postorbital processes 39;
maxillary toothrow (alveolus at anterior base of canine to back of
molar crown) 39; upper molariform toothrow (crown length) 35.1;
upper carnassial, crown length (outer side) 13.2, crown width
(transverse diameter) 11; upper molar, crown length (inner side)
10.4, crown length (outer side) 9.5, crown width (transverse diameter
near anterior border) 12.8; third upper premolar, crown length 6.9,
crown width 5.8.

Remarks. — Lutra iowa does not appear to require close comparison
with any of the fossil otters described from North America. I have
not seen the material on which Cope (Proc. Acad. Nat. Sci. Phila.,
p. 391, 1896) based Lutra rhoadsii from Port Kennedy, Pennsylvania;
but Hall, who has examined it in connection with his recent review
of the group, states (Carnegie Inst. Wash., Pub. 473, p. 75, 1936)
that no characters are presented that distinguish it from Lutra
canadensis lataxina, the race which occurs in the same region today.
Lutra parvicuspis Gidley and Gazin (Journ. Mamm., 14, p. 351,
1933), from the Cumberland Cave Pleistocene of Maryland, is a
small species of the Lutra canadensis group. The characters presented
by Lutra iowa indicate closer alliance to Lutra annectens than to
Lutra canadensis, and suggest the former extension of the range
of the annectens group much farther north than at present.

REVISION OF THE RODENT GENUS
MICRODIPODOPS

E. RAYMOND HALL

University of California Museum of Vertebrate Zoology

HISTORY

The history of Microdipodops begins with the autumn of 1890
when Vernon Bailey took six specimens in Nevada. C. Hart Merriam
studied this material and in July of the following year named Micro-
dipodops megacephalus as a new genus and new species. In 1901
he named Microdipodops megacephalus oregonus from southern
Oregon, Microdipodops pallidus from Nevada, and Microdipodops
californicus (=M. megacephalus californicus) from Plumas County,
California. Grinnell in 1914 named Microdipodops polionotus
(=M. megacephalus polionotus) from Mono County, California.
In 1926 Goldman named Microdipodops megacephalus lucidus from
Esmeralda County, Nevada, and in 1927, Microdipodops megaceph-
alus dickeyi from Mono County, California. Both these names
now are placed in the synonymy of M. pallidus pallidus. In 1929
Hall and Linsdale published notes on the life history of the kangaroo
mouse. In 1932 Hatt published a paper on the vertebral columns of
ricochetal rodents, in which Microdipodops was given detailed con-
sideration. Wood in 1935 gave a comprehensive account of the
skeleton and dentition and compared the animal with other hetero-
myids. Hall and Durrant in 1937 named Microdipodops pallidus
albiventer (=M. megacephalus albiventer) from southeastern Nevada,
and in 1941 Microdipodops megacephalus paululus and Microdipo-
dops megacephalus leucotis from western Utah. In the same year
Hall named Microdipodops megacephalus sabulonis and Microdipodops
pallidus ruficollaris. Six new subspecies are named in the present
paper.

In all, 16 named kinds, belonging to two full species, are recog-
nized, as follows:

PAGE

Microdipodops megacephalus 242

M. m. oregonus Merriam 248

M. m. californicus Merriam 250

M. m. nasutus subsp. nov 251

M. m. polionotus Grinnell 251

M. TO. ambiguus subsp. nov 252

M. TO. medius subsp. nov 256

233

234 OSGOOD TESTIMONIAL VOLUME

PAGE

M. m. nexus subsp. nov 257

M. m. megacephalus Merriam 258

M. m. sabulonis Hall 260

M. m. albiventer Hall and Durrant 263

M. m. paululus Hall and Durrant 264

M. m. leucotis Hall and Durrant 266

Microdipodops pallidus 267

M. p. pallidus Merriam 269

M . p. ruficollaris Hall 272

M. p. ammophilus subsp. nov 273

M. p. purus subsp. nov 273

MATERIAL AND ACKNOWLEDGMENTS

This revision of Microdipodops is the result of the study of 2,025
specimens, almost all of which are study skins accompanied by skulls,
and the usual data as to locality, date, external measurements,
weights, and numbers of embryos. Nearly all of the specimens are
adult individuals. The criterion of maturity accepted was some
wear on the fourth permanent upper premolars. Some complete
skeletons and entire animals preserved in alcohol are included in
the material studied. Of this total, 1,751 specimens are from Nevada.
These are available because of the interest of Miss Annie M.
Alexander in the mammals of that state, and many of the specimens
were collected and prepared by her and Miss Louise Kellogg. Eighty-
five of the specimens are from collections other than that of the
Museum of Vertebrate Zoology, and for the opportunity to examine
these I make grateful acknowledgment to Stephen D. Durrant,
Ralph Ellis, Edward A. Goldman, Hartley H. T. Jackson, Stanley G.
Jewett, Adriaan van Rossem, Jack C. von Bloeker, Jr., and George
Willett.

I am grateful also to Miss Jean Boulware, who prepared the
distribution maps, to Miss Viola H. Memmler, who made the
drawings of the skulls, and to Mr. Donald F. Hoffmeister, who
made preliminary segregations of the specimens and rendered much
assistance in other ways.

Kangaroo mice have been regarded as rare by most naturalists,
and as late as 1927 there were probably no more than 150 specimens
in all collections combined. Ten years before and after 1900, when
the earlier collections of mammals were made from within the
geographic range of Microdipodops, the collectors relied on horses
for transportation. Stops for overnight trapping were made where
water and, if possible, green forage for the horses were to be had.
Microdipodops prefers a habitat more arid than is ordinarily found

1941 RODENT GENUS MICRODIPODOPS— HALL 235

at a place of this kind, and, therefore, but few were taken. The
collections here reported upon were made mostly between 1927 and
1937, when automobiles were used for transportation, making it
easy to stop overnight in dry places far removed from water. This
change in means of transportation, I think, was responsible more
than anything else for the taking of large numbers of kangaroo
mice in later years. Of course, once it was learned where profitably
to look for Microdipodops, special effort was made to get them.
Even so, it probably is fair to say that the automobile is responsible
for the present abundance of study specimens of Microdipodops.

OCCURRENCE

If any list of genera be drawn up as typical of the Great Basin,
the genus Microdipodops must be included. It ranges from the
eastern base of the Sierra Nevada to, or nearly to, the western base
of the Wasatch Range and the connected mountains that extend
south thereof, and from the low country of eastern Oregon into
southern Nevada a short distance north of 37° N. Lat. Altitudinally,
the mice have been taken from as low as 3,900 feet at Smoke Creek,
Nevada, up to 7,600 feet in Monitor Valley of the same state. All
the known occurrences are in the Upper Sonoran Life-zone. Within
this zone, edaphic features control the distribution of each species
and even some subspecies.

The subspecies M. m. megacephalus and M. m. sabulonis occur
on gravelly soil, more often where gravel is mixed with either fine
or coarse sand. At some places, for example at Cobre, the animals
seem to avoid fine sand. Where mice of these two races have been
found on sandy soil, it is, as often as not, packed and firm. The
species M. pallidus, including all its subspecies, is restricted to fine,
loose, wind-blown sand. At eleven of the twelve places where the
two species were taken together, careful note was made of the
character of the soil on which each species was caught, and in every
instance M. pallidus was restricted to the fine sand and M. mega-
cephalus to coarser soils. This was true in Great Smoky Valley,
where the ranges of the two met northeast of San Antonio. Along
the eastern bank of the wash in the center of the valley, M. pallidus
ranged continuously from San Antonio, on fine sand of uniform
character, northward for 4% miles. Here a smaller side wash,
ten feet wide and four feet deep, with fine sand in the bottom and
with gently sloping, sandy sides, comprised the boundary between
the ranges of the two species. The sand itself is indistinguishable
north and south of this wash but dark-colored gravel up to the

236 OSGOOD TESTIMONIAL VOLUME

size of the ball of a man's thumb is mixed with the sand, beginning
at the center of the wash and extending for an undetermined distance
northward, and gives the soil a much darker color. On this darker
soil, only M. megacephalus was taken. An individual of M. pallidus
was caught in the bottom of the wash on the fine sand only four
feet from its edge, and an individual of M. megacephalus was caught
only 35 feet farther north on the darker-colored, coarser soil. A
change in flora was as abrupt as those in the soil and in the mice.
South of the wash the shrubs were a third taller than to the north.
Atriplex canescens was dominant on the south side and absent on
the north. Parosela sp. (blue flowers) was common on the south
side and represented by a mere trace on the north side. Chryso-
thamnus viscidiflorus var. pumilis occurred on the north side only.
Tetradymia sp. was equally common on the two sides. From observa-
tions at other places where the ranges of the two species meet it
is concluded that the difference in flora, like the difference in the
mice, depended on the change in type of soil; the change in type of
flora was not the limiting factor for the mice, or vice versa.

SPECIATION

At the place near San Antonio, described in the preceding para-
graph, as at ten other places where the two species of mice were
taken together, there was no evidence of crossbreeding. At the
twelfth place, Penoyer Valley, north of Groom Baldy (see fig. 52, p.
268), the population of mice appears to be an exception. There the
difference in color between the two species is less than at any of
the eleven other places, by reason of addition of much buff color
in each of the two kinds. Also the difference in length of hind foot
is less than at most other places where the two kinds meet or occur
together. These resemblances, at first glance, suggest that cross-
breeding to some degree has occurred. Shape of the incisive foramina,
breadth of the interorbital region, width of skull across the auditory
bullae, and closer attention to color nevertheless permit ready
identification as to species of all but three of the 57 specimens.

Specimen No. 52672 has the color and incisive foramina as in
megacephalus, and the interorbital breadth and greatest breadth of
the skull as in pallidus. No. 52728 is intermediate in color and
interorbital breadth, like pallidus in the shape of incisive foramina,
and like megacephalus in the greatest breadth across the auditory
bullae. No. 52718 has the color and the interorbital breadth as in
pallidus, the breadth across the auditory bullae and the breadth
across the maxillary processes of the zygomata as in megacephalus,

1941 RODENT GENUS MICRODIPODOPS— HALL 237

and the incisive foramina of an intermediate shape. These three
specimens appear to be the result of crossbreeding between the two
species. Because only three of a total of 57 specimens are of this
nature, they are regarded as hybrids rather than intergrades. Un-
fortunately, the field notes for this catch record only that the mice
were taken on sandy areas alternating with areas of hard-packed
soil; the precise kind of soil on which the three seeming hybrids
were taken is not stated.

By referring to the three individuals described in the preceding
paragraph as hybrids, it is not intended to imply that they are
infertile. Although no conclusive information is available on that
point, it is supposed that hybrids here are fertile, because individuals
of the two kinds at this locality closely resemble one another in color
and in the relation of nasals to premaxillae, and are indistinguishable
in length of hind foot. These are some of the features by which the
two kinds can be distinguished at all other places where they have
been found in the same locality.

Two of the possible explanations for the situation existing in
Penoyer Valley are (1) that two full species, long separated without
any crossbreeding between them, happen now to crossbreed at this
one place among the several at which their ranges meet, or (2) that
this is "a species in the making"— an instance where the two kinds
have ceased to crossbreed except at this one place where separation
never has been wholly accomplished.

No evidence has been found which supports the first explanation
and not the second. Some evidence which lends credence to the
second explanation and not the first is this: The northern, western,
and eastern limits of the geographic range of pallidus coincide with
those of several other mammalian species, for example, Dipodomys
merriami, D. deserti, and Perognathus formosus. The southern
limit of the range of each of the other species does not coincide
with the southern limit for pallidus but is much farther south,
well down in the Lower Sonoran Life-zone. The other species differ
from their nearest relatives to the northward more than pallidus
does from megacephalus, its nearest relative to the northward. The
differentiation from one another of megacephalus and pallidus prob-
ably, therefore, has occurred relatively recently, and the suggestion
is that they are species in the making.

If this hypothesis should prove to be correct, the question will
remain as to how this division of one species into two took place.
Possibly it began by an ecological separation of the animals living

238 OSGOOD TESTIMONIAL VOLUME

on the fine sand from those on firmer soils. Like many plants and
some kinds of animals which live in the bottom of the valley on the
fine sands, the Microdipodops there may have begun their reproduc-
tive cycle earlier than mice of their kind on firmer soils, which in
general are at a higher elevation, with the result that a measure of
isolation occurred because of physiological differences. The possi-
bility that some physiological separation now exists was first con-
sidered on May 31, 1932, when adults and a few young of both
species were taken 14}/£ to 15 miles south of Groom Baldy. The
young of pallidus were older than those of megacephalus.

To speculate further, and with even less factual basis: If from
Penoyer Valley the incipient species pallidus, adapted to existence
in the fine sand, spread to the westward (appropriate soils occur in
that direction), a plausible explanation of the limits of range of
pallidus is provided. With a progressive diminution in the area of
Lake Lahontan to the westward of the main range of megacephalus,
it, like pallidus, may have extended its range into the areas newly
available because of the drying up of Lake Lahontan, but this was
in a part of the Lahontan Basin north of that first invaded by pallidus.
Before this occurred, megacephalus, to judge from its present distribu-
tion, may have extended its geographic range around the northern
end of Lake Lahontan and then on southward along the western
shore. When populations of the two species met west of Penoyer
Valley, for example in Cactus Flat and at the southern end of
Great Smoky Valley, it is conceivable that differentiation had
progressed to the point where no crossbreeding at all occurred.

At still more western localities, for example in the area about
Mono Lake, California, and in the eastern part of its range, for
example Skull Valley, Utah — places reached and now inhabited by
megacephalus but probably never reached by pallidus — megacephalus
has several characters of pallidus, namely, long hind foot, large
auditory bullae, and white under parts. In these places megacephalus
lives in the fine sand. This parallelism between sand-inhabiting
populations of megacephalus lends greater probability to the view
that pallidus has developed some of its characters as a result of
adaptation to living in the one kind of soil, fine sand. Also, the
fact that megacephalus inhabits fine sand only on the margins of
its range, places far removed from known occurrences of pallidus,
lends greater probability to the above-postulated origin of pallidus
in Penoyer Valley or in some nearby part of south-central Nevada
(see figs. 48 and 52, pp. 247 and 268).

1941 RODENT GENUS MICRODIPODOPS— HALL 239

The larger tympanic bullae of pallidus indicate that it is the
more specialized of the two species and I think of it as the offspring
rather than the parent or even sibling of megacephalus. Because
M. pallidus lives on the fine sands in the bottoms of valleys where
plants and animals associated with Microdipodops prosper most —
population-densities for most species are greater there than on any
one type of the firmer soils — it appears to be the more advanced
of the two species. M. megacephalus has a wider tolerance as regards
kind of soil. This fact and its more generalized structure (smaller
auditory bullae) indicate for it greater potentialities in speciation;
if additional species of Microdipodops are formed they probably will
stem from megacephalus rather than from pallidus.

In review, a hypothesis sufficing for the meager factual informa-
tion now available is that: The two species are at the stage rarely
observed which can be designated as that between the last stage of
a subspecies and the first stage of a species. The progress registered
toward the formation of two full species has been accomplished by
ecological separation, physiological separation, and extension of the
geographic range, in the order mentioned.

HABITS

Kangaroo mice are nocturnal. In the daytime they live below
ground in burrows which are closed to the outside by earth that
the mice probably push into the opening; in any event, the wind soon
after sunrise ordinarily drifts sand over the mouths of the burrows.
A caged mouse invariably kept the entrance to its small nest box
closed with sand during the day. This mouse, M. p. pallidus, was
kept for six months in captivity without any water to drink. The
burrows of M. p. pallidus studied ranged in length from eight inches
to nearly three feet, and in depth from four inches to two feet. None
had a nest and probably all were only resting places for the mice
during the day.

Tracks of kangaroo mice are essentially miniatures of those of
kangaroo rats. The relatively large impressions of the hind feet
usually are not parallel but have the toes pointing outward. This
position permits the hind feet, equipped as they are with stiff, pro-
jecting hairs on the sides of the soles, to function effectively in the
sand when the animal leaps, which it does by using the two hind
feet at the same time rather than alternately. Impressions of the
forefeet usually are present, but if not, consecutive pairs of tracks
left by the hind feet are farther apart than otherwise. This indicates
that rapid progress is accomplished mainly or wholly by use of the

240 OSGOOD TESTIMONIAL VOLUME

hind feet. The mark ordinarily left by the dragging tail is absent
under these circumstances; the tail is apparently carried higher off
the ground when the animal makes haste. One young kangaroo
mouse at Halleck repeatedly jumped out of a can the sides of which
were 17 inches high. This it did without touching the sides of the
can, which was only ten inches in diameter.

Ordinarily the wanderings of one of these mice over the sand
can not be traced far because there are tracks of so many animals
that an individual trail is blotted out by those from another direction.
Once, however, five miles west of Halleck, I followed the tracks of
one individual between two points that were 70 yards apart.

I do not know whether the mice come out in the snow. Each
of the two species has been trapped on bare ground on nights so
cold that their bodies were solidly frozen in the morning. On
nights when rain fell they seemed not to come out of their burrows;
traps then caught but few kangaroo mice and sometimes none in
places where they were known to be numerous.

Although commonly thought of as rare, these mice, like other
desert rodents, become truly abundant at times in their preferred
habitat. Indication of this abundance is provided by catches as
follows: On July 10, 1933, nine miles west and three miles south
of Tybo, 121 kangaroo mice, species M. megacephalus, and 35
other rodents were taken in one night in 313 traps. On May 17,
1931, 92 of the species M. pallidus were taken in 198 traps in one night
in Kawich Valley.

The food probably consists mostly of seeds, but insects comprise
a considerable share. In the cheek pouches of M. megacephalus we
found one freshly killed larva of an insect 13 mm. long and 5 mm.
in diameter; a second mouse had a larva of an insect in each pouch; a
third had several plant seeds and one insect larva in each pouch;
and a fourth had in the two pouches a few fragments of a leopard
lizard and 57 plant seeds. In the cheek pouches of M. pallidus
caught in Fish Lake Valley we found seeds of Gilia sp. and Oryzopsis
hymenoides and a larva, three-fourths of an inch long, of an insect.
In the next valley to the east, eight miles southeast of Blair, W. B.
Davis (MS.) recorded that the contents of the cheek pouches of
several of these mice comprised two scarabaeid beetles, one small
centipede, the pupa of a moth, and several kinds of seeds.

In each species the number of embryos per litter averaged 3.9,
the usual number being four. For megacephalus (54 pregnant) the
number ranged from two to seven, and in pallidus (56 pregnant),
from two to six. No mice were trapped from mid-October to March 27,

1941 RODENT GENUS MICRODIPODOPS— HALL 241

but pregnancies were recorded from March 28 to September 22.
The data suggest but do not prove that there is more than one
litter per year.

Averages of measurements of 70 adults of each sex of M.
megacephalus and 40 adults of each sex of M. pallidus reveal no
secondary sexual difference in size save possibly in weight. The
males averaged 0.9 and 0.8 per cent heavier, respectively.

Molt was in progress in 74 adults of megacephalus. Of these,
14 were taken in May, one in June, and the remaining 59 in July.
Of M. pallidus, 25 adults were in process of molt. Two of these
were taken in June and the remainder in July. There seems to be
but one molt per year.

Genus Microdipodops Merriam.

Microdipodops Merriam, N. Amer. Fauna, 5, p. 115, 1891.

Type species. — Microdipodops megacephalus Merriam.

Diagnosis. — Size small, adults from 130 to 180 mm. in total length
with tail averaging slightly longer than head and body; tail short-
haired, lacking terminal tuft and of greater diameter in middle
than at base or tip; sole of hind foot densely covered with long
hair; no dermal gland on back between shoulders; auditory bullae
more highly inflated than in any other heteromyid, reaching below
level of grinding surface of cheek-teeth and in many individuals
extending anteriorly beyond glenoid fossae; bullae meeting in a
symphysis across ventral face of basisphenoid; antero-lateral face
of zygomatic process of maxilla not much expanded, resulting in
hamular process of lacrimal projecting free of maxilla; dental formula:
T> %> T, I; upper incisors grooved; cheek-teeth hypsodont but each
with more than one root, except M|; molars with H-pattern; PA as
in Perognathus; P¥ with five or six cusps; cusps soon worn away
with result that occlusal face of each cheek-tooth is an area of
dentine completely surrounded by enamel; no pit behind M^; manus
long and slender; tibia and fibula fused throughout almost three-
fifths of their length; cervical vertebrae mostly fused; caudal
vertebrae lacking median ventral foramen; locomotion ricochetal.

Remarks. — Among living genera of heteromyids, Microdipodops
is in many features intermediate between Dipodomys and Perognathus
but shows greater resemblance to the latter. The best account of
the osteology and dentition in comparison with that of other genera,
living and extinct, is by Wood (1935). Hatt (1932) made a compari-
son of the vertebral column with that of other ricochetal rodents.

242 OSGOOD TESTIMONIAL VOLUME

Merriam's (1891, p. 115) mention of rootless molars was properly
queried by Wood (1935), whose limited material prevented him
from satisfying himself on this point. Teeth extracted from speci-
mens in the Museum of Vertebrate Zoology show that M> is rooted
in both old and young specimens of M . pdttidus, and that the roots
are present in both adult and young topotypes of M. megacephalus
although small in the young. Indeed, in one of two young topotypes
of megacephalus no indication of roots was found. Thus Merriam's
statement probably was correct for the specimen examined by him,
but actually the anterior molar above is normally rooted, as is also
the first molar below, the upper and lower premolar, and sometimes
the second upper and lower molar. The third (last) molar is single-
rooted above and below.

The short-haired tail of Microdipodops is notable for being larger
in the middle and most of the proximal third than at either the
base or the tip. Probably this fleshiness near the middle permits
it to function as a balancing organ in somewhat the same way as
does the tail in Dipodomys and Perognathus but what Dipodomys
accomplishes by a combined lengthening of the tail and growth
of long hairs on its tip, or what Perognathus accomplishes by a
mere lengthening of the tail, Microdipodops does by an increase in
diameter of the middle part of the tail. The adaptation resembles
that in the fat-tailed mice of the desert of northern Africa, but the
degree of "fattening" is much less.

The increased diameter of the tail about a third of its length
back from the base in Microdipodops is only a little less than in
Salpingotus crassicauda (Vinogradov, 1924, p. 150, fig. 1) from the
deserts of central Asia. Probably ecologically, and certainly in
structural features of an adaptive sort, these two genera are extreme
developments in the same direction within their respective families,
Heteromyidae and Dipodidae. Each has tremendously enlarged
auditory bullae, thick and stiff hair on the sole of the hind foot,
a tail that is long, short-haired, and thicker in its middle and most
of its proximal third than at the base. In each of the mentioned
features, Salpingotus is more specialized than Microdipodops, prob-
ably because the deserts of central Asia are older than those of
America and evolution along the adaptive lines mentioned has been
operative for a longer time.

Microdipodops megacephalus. DARK KANGAROO MOUSE.

Diagnosis. — Upper parts brownish, blackish, or grayish depend-
ing upon the subspecies, with basal two-thirds of hair plumbeous,

1941

RODENT GENUS MICRODIPODOPS— HALL

243

followed by brownish or buffy portion, and, on most longer hairs,
tip of darker brown or black; under parts lighter, usually plumbeous
in basal half and distally white, but in some subspecies white to

FIG. 46. a, b, Skull of Microdipodops megacephalus megacephalus, No. 70942,
female, Winzell, Eureka County, Nevada, a, Dorsal view. b, Ventral view.

c, d, Skull of Microdipodops pallidus pallidus, No. 59344, female, eight miles
southeast of Blair, 4,500 feet, Esmeralda County, Nevada, c, Dorsal view.

d, Ventral view. Note in a and b, in comparison with c and d, shortness of nasals
relative to premaxillae, smaller auditory bullae, narrowness across maxillary arms
of zygomata, and expansion posteriorly of incisive foramina. All X 1M«

base, and in others plumbeous basally, then white and tipped with
buffy; color of under parts extending over fore and hind legs, flanks
and sides of head, but not encroaching as far upward as base of ear

244 OSGOOD TESTIMONIAL VOLUME

or lower lid of eye; length of hair about 12 mm. on back and 8 mm.
on under parts; facial vibrissae (about 35 mm. long) reaching to
behind ear; supraorbital light spot present in many populations and
all but a few populations have a light postauricular patch shaded
with buffy; antipalmar and antiplantar faces of feet short-haired
and grayish or brownish; tail likewise short-haired and, although
not sharply bicolor, of same color above and below as corresponding
parts of body except that distal half to sixth ordinarily is darker than
back, sometimes black; skull relatively narrow (see below).

Remarks. — The races M. m. megacephalus and M. m. sabulonis
in comparison with M. pallidus (all races included) differ in brownish
or blackish rather than whitish or light buffy upper parts; buffy
rather than white postauricular light patches; hair of under parts
plumbeous basally rather than everywhere white entirely to base;
tail above tipped with black rather than without darker color ter-
minally; hind foot shorter (23 to 25 rather than 25 to 27 mm.); skull
with less inflated auditory bullae and hence less in maximum width;
upper incisors more recurved; anterior palatine foramina wider posteri-
orly and tapering to sharper point anteriorly rather than narrow
and parallel-sided with less obviously tapered anterior ends; nasals
extending posteriorly quite or almost as far as do premaxillae rather
than extending posteriorly to a point considerably short of that
reached by premaxillae. At the eleven places where the race M. m.
sabulonis and some race of M. pallidus meet or occur together, the
two kinds are easily distinguished either by the skins or by the
skulls. Exception is to be made only for Penoyer Valley, as described
in detail under the account of the genus, where three seeming hybrids
were found among a total of 57 animals, including 34 of M. pallidus
ruficollaris and 20 of M . megacephalus sabulonis.

In the other, more western and more eastern, subspecies of
M. megacephalus, not one of the characters above mentioned as
diagnostic of M. m. megacephalus and M. m. sabulonis everywhere
holds. In the western races it is true that the upper parts always
are darker colored than in pallidus, but the narrower skull as measured
across the mastoids, especially in relation to the basal length,
although nearly always diagnostic of populations is less often of
individuals. The terminal darkening of the tail and basally plum-
beous pelage of the under parts serve to distinguish most specimens
of M. megacephalus from M. pallidus, but at a few localities most
specimens resemble M. pallidus in these two features. The shape
of the incisive foramina closely approaches that in M. pallidus, and
the curvature of the upper incisors is in even more specimens the

1941

RODENT GENUS MICRODIPODOPS— HALL

245

same as in M. pallidus, as is also the relation to one another of
the posterior ends of the nasals and premaxillae. The hind foot
in these western forms of M. megacephalus often is as long as in
M. pallidus. Furthermore, these western forms of megacephalus
are partial to fine wind-drifted sand, as is M. pallidus. At only one
place in this western region, in Granite Spring Valley, 21 miles west

FIG. 47. a, b, Microdipodops megacephalus megacephalus, No. 70942, female,
Winzell, Eureka County, Nevada, a, Occlusal view of teeth and lower jaw.
b, View of left side of preorbital part of skull, c, Perognathus parvus columbianus,
No. 86892, male, Ritzyille, Adams County, Washington; plantar view of right
hind foot, d, Microdipodops pallidus pallidus, No. 38757, male, seven miles
north of Arlemont, 5,500 feet, Esmeralda County, Nevada; plantar view of right
hind foot, e, Microdipodops pallidus pallidus, No. 59344, female, eight miles
southeast of Blair, 4,500 feet, Esmeralda County, Nevada; view of left side of
cranium and lower jaw. Note in e, in comparison with b, greater antero-posterior
extent of lateral face of maxillary arm of zygoma, and less recurved upper incisors.
d illustrates the hairiness of the sole of the hind foot of Microdipodops in compari-
son with the naked sole of the foot of Perognathus. All

and two miles north of Lovelock, have we found the two species
together. If there was a difference in type of soil occupied by the
two we did not note it at this place. The two specimens of M. mega-
cephalus are easily differentiated from the 11 M. pallidus by darker
color and by lesser width across the auditory bullae. Otherwise,
the 46 places of capture of these western races of M. megacephalus
and the 19 places of capture of M. pallidus, west of Nye County,
yielded mice of only a single kind at any one locality. Between the
sandy soils supporting the two kinds of mice, some barrier of soil

246

inhospitable to mice of this genus intervenes. For example, the sand
about Wadsworth and southeastward for a mile and a half harbors
M. megacephalus. Twenty-five miles southward, near Fallon, the
fine sand harbors M. pallidus. In the low pass, to the east of Fernley,
connecting the two sandy areas, Microdipodops do not occur, accord-
ing to our testing (365 traps) and observation of the area. Along
the eastern base of the Sierra Nevada, M. megacephalus keeps to
the sandy areas, and M. pattidus occupies similar soils in the generally
slightly lower and hotter terrain in the bottom of the trough lying
along the eastern base of the Sierra Nevada. In this general area,
then, not an edaphic difference but some other difference or factor,
at this writing unknown, accounts for the different ranges of the
two kinds.

In view of the foregoing it may reasonably be asked whether
these western dark-colored Microdipodops (races oregonus, cali-
fornicus, ambiguus, nexus, medius, nasutus, and polionotus) are
conspecific with M. megacephalus. The test of actual intergradation,
involving continuous geographic distribution, probably cannot be
applied to these mice because they seem to have an interrupted
distribution conforming to the distribution of a few types of soils.
Therefore, actual crossbreeding does not occur between some popu-
lations. The critical area as regards the relation (intergradation or
lack of it) between M. m. megacephalus and the more western races
referred to the species megacephalus is the territory of northern
Eureka County and a part of northern Lander County, or the coun-
try (see fig. 48, p. 247) between the eastern border, as now known,
of the race M. m. nexus and the westernmost known occurrence of
M. m. megacephalus. The westernmost nexus were taken in sand,
and the easternmost M. m. megacephalus on firmer, less sandy soil.
Between the two places there are areas judged by W. C. Russell
and W. B. Richardson, who tested the area for Microdipodops, to be
unsuitable for either of the subspecies concerned. Apparently the
two kinds do not actually meet. Nevertheless, the difference between
the two is relatively slight, as is set forth in the accounts of the
subspecies. Also, M. m. nexus is, in color, in length of the hind foot,
and in some cranial proportions, intermediate between M. m.
megacephalus known from about 75 miles to the eastward and M. m.
ambiguus known from five miles or less to the westward. This is
the basis for regarding the western dark-colored races (oregonus,
californicus, nasutus, polionotus, medius, ambiguus, and nexus) as
conspecific with M. megacephalus rather than as a third species
distinct from M. megacephalus and, of course, from M. pattidus.

Locality of Occurrence

© Type Locality

M.m ambiguus
M. m medius
M. m. nexus
M. m.mejacephakis

Published Record of Occurrence

FIG. 48. Map showing geographic range of the subspecies of Microdipodops
megacephalus.

247

248 OSGOOD TESTIMONIAL VOLUME

Microdipodops megacephalus oregonus Merriam.

Microdipodops megacephalus oregonus Merriam, Proc. Biol. Soc. Wash., 14,
p. 127, 1901; Bailey, N. Amer. Fauna, 55, p. 241, 1936.

Type. — Male, not fully adult (crown of P- barely worn), skin
with skull; No. 80128 United States National Museum, Biological
Survey Collection ; Wild Horse Creek, four miles northwest of Alvord
Lake, Harney County, Oregon; August 18, 1896; collected by Clark
P. Streator; original No. 5430.

Range. — Southeastern Oregon, northeastern California, and
northwestern Nevada (see fig. 48, p. 247).

Diagnosis. — Body short; tail relatively long; upper parts, includ-
ing upper side of tail, blackish with a reddish hue; tail black above
distally; postauricular and supraorbital light spots small or wanting
and ordinarily overlaid with buffy; hair of under parts usually with
faint plumbeous shade basally and tipped with buffy; skull with
basal length more or less than greatest breadth; incisive foramina
averaging widest posteriorly, but sometimes widest near middle;
nasals extending posteriorly as far as premaxillae.

Comparisons. — From M. m. californicus this race differs in : upper
parts darker, more reddish and less grayish; hair of under parts
more often plumbeous basally and buffy distally rather than white
entirely to base; skull narrower across maxillary arms of zygomata.
From M. m. ambiguus, oregonus differs in: body shorter; upper parts
lighter, less reddish and more grayish; feet lighter-colored; skull
averaging narrower across auditory bullae and maxillary arms of
zygomatic arches.

Remarks. — Intergradation with ambiguus is indicated by speci-
mens of that race from Smoke Creek, nine miles east of the California
boundary, and by specimens assigned to oregonus from Denio.

Some geographic variation is shown by specimens from Oregon,
which suggests that more than one race should be recognized there.
From "Lake Alvord" there are nine specimens obtained in 1930
by Miss Annie M. Alexander and Miss Louise Kellogg, which
include two animals colored about like the abundant material from
two miles south of Borax Spring and from seven miles south of
Andrews. The seven other specimens are so much lighter above
as instantly to catch the eye. The seven have white rather than
buffy postauricular patches and the fur of the under parts is distally
white rather than buffy. In three, the hair of the under parts is
white all the way to the base, as it is in the one specimen taken in
1920 by S. G. Jewett at Powell Butte. On the upper parts this

1941 RODENT GENUS MICRODIPODOPS— HALL 249

specimen from Powell Butte is intermediate in color between the
light and dark specimens from Lake Alvord. Specimens from the
northeast edge of Alkali Lake in Lake County differ in color from
the dark specimens from Lake Alvord, so far as I can see, only in
that the hair on the under parts is distally white rather than buffy.
The skull of the lightest-colored animal from Lake Alvord (M.V.Z.
No. 45329) has the premaxillae extending exceptionally far behind
the nasals. Otherwise it, and the skulls of the other light-colored
specimens, including the one from Powell Butte, so far as I can see,
present no features distinguishing them from the skulls of the dark-
colored specimens from Oregon. Possibly more than one geographic
race is present in Oregon but with the information which is outlined
above I can find basis for recognizing only one.

The darkest specimens of all are those from northeastern Washoe
County, Nevada. These animals from near Painted Point, Vya,
and Hausen are more blackish and have a darker red color than
others. Also, in some populations from this area, the postauricular
and supraorbital spots are absent. This tendency to darker color
is associated with longer body, which occurs also in animals of the
race californicus. In referring these Nevadan populations to oregonus
the fact should not be lost sight of that relatively dark color and large
body are associated with this area of dark-colored lavas and that
Microdipodops has responded in the same direction, namely, darker
color, as has Dipodomys microps. Of the latter species, the subspecies
aquilonius^has become differentiated in this region and several other
mammals vary in the same way. Californian specimens from
Observation Peak and from one mile west of Red Rock Post Office
are slightly lighter-colored than the Nevadan specimens mentioned
but have much reddish color in the upper parts.

Specimens examined. — Total number 205, as follows:

OREGON. — Crook County: Becker Ranch, Powell Butte, 1 (Coll.
Stanley G. Jewett). Lake County: 2^ miles northeast of Alkali
Lake Ranch, 2 ; northeast edge of Alkali Lake, 4,200 feet, 20. Harney
County: one mile south of Narrows, 4,200 feet, 3; five miles south-
west of Narrows, 4,000 feet, 24; seven miles south of Andrews,
4,300 feet, 4; Lake Alvord, Alvord Desert, 11; two miles south of
Borax Spring, south end of Lake Alvord, 4,300 feet, 20; 1^ miles
east of Denio, 4,200 feet, 6.

CALIFORNIA.— Modoc County: Sand Creek, 1 (U. S. Nat. Mus.,
Biol. Surv. Coll.); three miles east of Eagleville, 1 (L. A. Mus.).
Lassen County: two miles west of Red Rock Post Office, 5,200 feet,

250 OSGOOD TESTIMONIAL VOLUME

2; one mile west of Red Rock Post Office, 5,300 feet, 11; seven
miles north of Observation Peak, 5,300 feet, 1; six miles north of
Observation Peak, 13.

NEVADA. — Washoe County: three miles north of Vya, 5,900 feet,
4; 43/£ miles northeast of Painted Point, 5,800 feet, 10; 8^ miles
east of Vya, 5,900 feet, 7; three miles east of Painted Point, 5,850
feet, 3; 10^ miles south of Vya, 5,800 feet, 2; 11 miles south of Vya,
5,800 feet, 1; 12 miles south of Vya, 5,800 feet, 4; 13 miles south of
Vya, 5,800 feet, 1; 15 miles south of Vya, 5,800 feet, 1; Little High
Rock Canyon, 5,000 feet, 1; mouth of Little High Rock Canyon,
5,000 feet, 11; one mile east of mouth of Little High Rock Can-
yon, 5,000 feet, 1; one mile west of Hausen, 4,650 feet, 4; Hausen,
4,800 feet, 3 ; ten miles southeast of Hausen, 4,675 feet, 13. Humboldt
County: one mile south of Denio (Oregon), 4,200 feet, 19.

Microdipodops megacephalus californicus Merriam.

Microdipodops californicus Merriam, Proc. Biol. Soc. Wash., 14, p. 128, 1901.

Type. — Male, not fully adult (crown of PA barely worn), skin
with skull; No. 101227 United States National Museum, Biological
Survey Collection; Sierra Valley, near Vinton, Plumas County,
California; August 7, 1900; collected by Walter K. Fisher; original
No. 1596.

Range. — Intermontane valleys of eastern Plumas County, Cali-
fornia, and southern Washoe and Ormsby counties, Nevada (see
fig. 48, p. 247).

Diagnosis. — Tail and hind foot of medium length or long; upper
parts grayish brown with reddish hue; tail distally blackish or dark
brownish; postauricular and supraorbital light patches usually
present but sometimes absent; feet grayish; hair of under parts
white all the way to base; skull with width across auditory bullae
not much if any greater than basal length; broad across zygomatic
arms of maxillae and interorbitally; incisive foramina generally
widest near middle; relation between posterior ends of nasals and
premaxillae variable but nasals usually extending nearly as far
posteriorly as premaxillae.

Comparisons. — Comparisons with oregonus, ambiguus, and nasutus
are made in the accounts of those forms.

Remarks. — The one specimen from near Carson City is notable for
the large, nearly white postauricular patches and for the narrowness
of the skull as measured across the auditory bullae (17.1 mm.) and
maxillary processes of the zygomata (11.2). The basal length is 18.4.

1941 RODENT GENUS MICRODIPODOPS— HALL 251

Specimens examined. — Total number 23, as follows:

CALIFORNIA. — Plumas County: Sierra Valley, Vinton, 13 (12 in
U. S. Nat. Mus., Biol. Surv. Coll.).

NEVADA. — Washoe County: 2% miles southwest of Pyramid,
4,300 feet, 6; Junction House, 4,500 feet, 3. Ormsby County: 3^
miles east of Carson City, 4,700 feet, 1.

Microdipodops megacephalus nasutus subsp. nov.

Type. — Female, adult, skin with skull; No. 40439 Museum of
Vertebrate Zoology; Fletcher, 6,098 feet, Mineral County, Nevada;
July 22, 1928; collected by Louise Kellogg; original No. 374.

Range. — Known only from the type locality (see fig. 48, p. 247).

Diagnosis. — Tail of short to medium length; hind foot long;
upper parts grayish marked with blackish; supraorbital patches
faint or absent; postauricular patches light gray rather than white
or buffy; feet light gray; under parts white but light plumbeous
basally; skull with greatest breadth slightly exceeding basal length;
broad across zygomatic arms of maxillae and interorbitally; incisive
foramina broad, either parallel-sided or widest posteriorly; relation
of posterior end of nasals and premaxillae variable but premaxillae
extending well behind nasals in three of four adults.

Comparisons. — From calif ornicus, this race differs in: tail and
body slightly shorter; upper parts grayer (distinctly less reddish);
skull broader across auditory bullae. From polionotus, nasutus
differs in: body longer; tail relatively shorter; hind foot longer;
skull relatively broader across auditory bullae; nasals longer.

Specimens examined. — Total number 6, as follows:
NEVADA.— Mineral County: Fletcher, 6,098 feet, 6.

Microdipodops megacephalus polionotus Grinnell.

Microdipodops polionotus Grinnell, Univ. Calif. Pub. Zool., 12, p. 302, 1914.

Type.— Male, adult, skin with skull; No. 17031 Museum of
Vertebrate Zoology; McKeever's Ranch, two miles south of Benton
Station, 5,200 feet, Mono County, California; July 10, 1912;
collected by C. D. Holliger; original No. 184.

Range. — Mono Lake Basin and extreme head of Owens Valley,
in Mono County, California (see fig. 48, p. 247).

Diagnosis. — Tail long relatively; body and hind foot short; upper
parts grayish, with mixed brownish and blackish; tail above colored
like upper parts and scarcely darker distally than proximally;

252 OSGOOD TESTIMONIAL VOLUME

supraorbital patches faint or wanting; postauricular patches white;
feet light gray; under parts with hair white all the way to base;
skull with greatest breadth only slightly exceeding basal length;
broad across zygomatic arms of maxillae and interorbi tally; incisive
foramina widest posteriorly; premaxillae extending well behind nasals.

Comparisons. — Comparison with nasutus is made in the account
of that race. Most, but not all, specimens are lighter-colored on the
upper parts than nasutus.

Remarks. — The upper parts range from a color almost as dark
as in nasutus to one much paler because of a reduction of the blackish
pigment and addition of light cinnamon color. The palest animals,
nevertheless, are much darker than those of the species pattidus.
Both the dark and light specimens of polionotus differ from other
races of the species megacephalus along the California-Nevada
boundary in having the black on the top of the terminal fourth of
the tail much reduced in amount, although in no specimens seen
is the black entirely lacking.

Despite what has been said above about the pale color of polio-
notus, and Grinnell's (1914, p. 302) statement, made when first
describing the form, that it "differs from all those previously described
in extreme pallor of coloration," this race is darker-colored on the
upper parts than is M . m. leucotis, is no paler and probably always
darker than M. m. albiventer and M. m. paululus, and is darker-colored
than races of the species M . pattidus.

Specimens examined. — Total number 65, as follows:

CALIFORNIA. — Mono County: east side of Mono Lake, 1 (U. S.
Nat. Mus., Biol. Surv. Coll.) ; Salmon Ranch, 6,600 feet, Mono Lake, 4;
Farrington Ranch, Mono Lake, 4 (U. S. Nat. Mus., Biol. Surv. Coll.);
Pellisier Ranch, 5,600 feet, five miles north of Ben ton, 6; Ben ton,
5,639 feet, 8; Dutch Pete's Ranch, 6,500 to 6,600 feet, four miles
west of Ben ton, 6; Taylor Ranch, 5,300 feet, two miles south of
Benton Station, 25; McKeever's Ranch, 5,200 feet, two miles south
of Benton Station, 10; Taylor Valley, 7,000 feet, 25 miles west of
Benton Station, 1 (L. A. Mus.).

Microdipodops megacephalus ambiguus subsp. nov.

Type. — Male, adult, skin with skull; No. 73840 Museum of
Vertebrate Zoology; 1^ miles north of Sulphur, 4,050 feet, Hum-
boldt County, Nevada; July 25, 1936; collected by E. Raymond
Hall; original No. 5285.

1941 RODENT GENUS MICRODIPODOPS— HALL 253

Range. — Smoke Creek and Black Rock deserts and lower part
of Humboldt River Valley in Nevada and in extreme eastern Cali-
fornia; from Quinn River Crossing southwest to Warm Spring,
south to Humboldt, and east to Golconda (see fig. 48, p. 247).

Diagnosis. — Tail and hind foot long; upper parts grayish with
olive hue; tail black above distally; feet whitish; postauricular and
supraorbital patches of moderate size; hair of under parts white,
plumbeous at base in topotypes but white all the way to base in
many populations; skull with tympanic bullae much inflated, result-
ing in greatest breadth of skull amounting to more than basal length;
narrow across zygomatic arms of maxillae; interorbital breadth
medium; incisive foramina generally widest posteriorly but some-
times widest at middle; nasals projecting nearly as far posteriorly
as premaxillae in northern populations but falling much short of
premaxillae in southern populations, although variable there.

Comparisons. — From calif ornicus, this race differs in: body
shorter; tail longer; upper parts lighter (more grayish olive and less
reddish); skull broader across auditory bullae but narrower across
maxillary arms of zygomata and interorbitally. Comparisons with
oregonus and medius are made in the accounts of those forms. From
nexus, ambiguus differs in: tail shorter; upper parts and upper
side of tail lighter (more yellowish and less blackish and less
reddish); hair of under parts often white entirely to base rather
than plumbeous basally. From the race megacephalus, ambiguus
differs in: tail and hind foot longer; upper parts, including upper
side of tail, markedly lighter; postauricular patches white or nearly
so rather than buffy; black on upper side of tail more extensive and
more intense; skull broader across tympanic bullae, and interorbitally.

Remarks. — The geographic range of ambiguus is relatively large
and in it there are exposures of many different geological formations.
Lying on these are varied products of relatively recent volcanic
activity and in addition there are the even more recent deposits
left by the Pleistocene Lake Lahontan. These diverse formations
have contributed to the building up of many different kinds of sandy
soils suitable for occupancy by Microdipodops. The populations of
mice themselves show a wide variation. This is true to some extent
of the skulls, is even more evident in the external proportions, and
is most pronounced in the coloration. The palest of the animals are
those from one mile west of Humboldt. In order of increasing
darkness the others are those from the vicinities of Jungo, Sulphur,
Flanigan, Winnemucca, and Wadsworth. The difference in color

254 OSGOOD TESTIMONIAL VOLUME

is not, however, entirely a matter of lightness and darkness. Those
from Smoke Creek are intermediate in color, as they are also geo-
graphically, between oregonus and ambiguus, and resemble cali-
fornicus in color, although the resemblance is judged not to be the
result of continuity in geographic range with californicus, nor the
result of close genetic relationship with it. In color, those from
Jackson Creek Ranch approach the population from Denio assigned
to oregonus; those from Wadsworth approach californicus; those
from Winnemucca tend toward nexus. Thus, intergradation is
evidenced with each of the subspecies of megacephcdus whose range
meets or closely approaches that of ambiguus.

In external measurements, evidence of intergradation with nearby
races is provided by the greater length of tail in animals from nine
to ten miles north of Golconda, as well as by the shorter body.
These strongly resemble nexus. The reduced length of tail in
animals from Quinn River Crossing is a feature better developed
farther north in the populations of oregonus.

Cranially, animals from Quinn River Crossing and from Flanigan
tend to be broad interorbitally much as in oregonus and californicus.
This suggests intergradation in this feature. The incisive foramina
are widest posteriorly in animals from the vicinities of Quinn River
Crossing and Golconda, as they generally are in animals from Sulphur.
At Flanigan the incisive foramina are widest near the middle in most
specimens.

Of populations assigned to ambiguus, that from the vicinity of
Flanigan, including the animals from the vicinity of Warm Spring
just across the boundary in California, is the most aberrant. At
the same time the variation between individuals here is greater than
at any other locality. In the population as a whole, the body is
long, the tail short, the hind foot long, the weight great, the color
light, the skull narrow across the auditory bullae and wide across
the maxillary arms of the zygomata and in the interorbital region.
The cranial proportions mentioned suggest intergradation of ambiguus
with californicus, as does the longer body, but the other features
enumerated in some measure set the population from Flanigan
apart from any of the surrounding races. The incisive foramina
tend to be widest at the middle rather than posteriorly as in most
of the dark races. The situation is complicated because the variation
in color between individuals is greater here than at any other locality.
In one animal the color is as dark as in oregonus, and in some others
as light as in pallidus. The vast majority of the specimens agree
in color with topotypes of ambiguus. The skulls are more uniform

1941 RODENT GENUS MICRODIPODOPS— HALL 255

than the skins. The skulls of the dark and light animals agree with
those of the specimens colored as in typical ambiguus.

With the information now available, it appears that the popula-
tions of Microdipodops from the vicinity of Flanigan and Warm
Spring (1) agree in essential characters with ambiguus, (2) in several
features are intermediate toward the race californicus to the south-
westward, (3) in a few characters differ from any of the surrounding
subspecies, and (4) embrace a few individuals which in color and
color pattern have preserved the characters of nearby races.

This interpretation is the best that I can offer for the facts in
hand, but additional field work with particular attention to type
of soil on which animals of different colors occur would be worth
while, to see if a better explanation can be found.

Peromyscus maniculatus and some other mammals in this low
area about Flanigan show a high percentage of light-colored individ-
uals such as predominate in populations farther to the southeast.
Microdipodops, then, is not unique in showing much color variation
here.

Specimens examined. — Total number 259, as follows:

CALIFORNIA. — Lassen County: Warm Spring, 4,000 feet, nine
miles east of Amadee, 3; one mile southwest of Warm Spring, 4,000
feet, 4.

NEVADA. — Washoe County: 2% miles east and 13 miles north
of Gerlach, 4,050 feet, 1; 2^ miles east and 11 miles north of Gerlach,
4,050 feet, 4; three miles east and ten miles north of Gerlach, 4,000
feet, 1; Smoke Creek, nine miles east of California boundary, 3,900
feet, 9; north side of Sand Pass, 3,900 feet, 5; four miles northwest
of Flanigan, 4,200 feet, 7; 3^ miles northwest of Flanigan, 4,200
feet, 17; one-half mile northwest of Flanigan, 4,200 feet, 3; 2%
miles east of Flanigan, 4,200 feet, 8; 3J/£ miles east of Flanigan,
4,200 feet, 4; iy2 miles north of Wadsworth, 4,100 feet, 2. Lyon
County: one-half mile southeast of Wadsworth, 4,200 feet, 4; one
mile southeast of Wadsworth, 4,200 feet, 12. Humboldt County:
one-half mile west of Quinn River Crossing, 4,100 feet, 2; two miles
southwest of Quinn River Crossing, 4,000 feet, 7; 2^ miles south-
west of Quinn River Crossing, 4,100 feet, 1; 4J^ miles south of
Quinn River Crossing (4,000 feet, 5; 4,100 feet, 3), 8; Jackson
Creek Ranch, 17 Y^ miles south and five miles west of Quinn River
Crossing, 4,000 feet, 7; seven miles north of Winnemucca, 4,400
feet, 20; nine miles northwest of Golconda, 21; ten miles north-
northwest of Golconda, 12; six miles north of Golconda, 19; Flowing

256 OSGOOD TESTIMONIAL VOLUME

Spring, 2 (U. S. Nat. Mus., Biol. Surv. Coll.); 9^ miles north of
Sulphur, 4,050 feet, 6; eight miles east and one mile north of Jungo,
4,200 feet, 22; 11 miles east and one mile north of Jungo, 4,200
feet, 1; three miles southwest of Winnemucca, 4,500 feet, 2; five
miles southwest of Winnemucca, 4; ten miles southwest of Winne-
mucca, 4,500 feet, 7; 1% miles north of Sulphur, 4,050 feet, 14;
one mile west of Sulphur, 4,040 feet, 3; three-quarters of a mile
south of Sulphur, 4,050 feet, 3. Pershing County: 15 miles south-
west of Winnemucca, 1; one mile west of Humboldt, 4,180 feet, 13.

Microdipodops megacephalus medius subsp. nov.

Type. — Female, adult, skin with skull; No. 73890 Museum of
Vertebrate Zoology; three miles south of Vernon, 4,250 feet, Pershing
County, Nevada; July 28, 1936; collected by E. Raymond Hall;
original No. 5324.

Range. — Southwestern Pershing County, Nevada (see fig. 48,
p. 247).

Diagnosis. — Tail of short to medium length; hind foot short;
upper parts, including upper side of tail, blackish with a reddish
hue; tail blackish above distally; feet light dusky; postauricular
light patches well developed and whitish; supraorbital light patches
present but less conspicuous than postauricular patches; under
parts white although hair often plumbeous at base; skull with
auditory bullae moderately inflated; interorbital breadth "average"
for the species; incisive foramina widest posteriorly; premaxillae
extending relatively far, for this species, behind the nasals, but
variable.

Comparisons. — From ambiguus, this race differs in: upper parts
darker, more blackish and more reddish (less gray) ; skull narrower
as result of lesser inflation of auditory bullae. From oregonus,
medium differs in: upper parts lighter, less blackish and slightly less
reddish; feet lighter; postauricular patches more prominent; under
parts white rather than frequently tipped with buffy; hind foot
shorter; skull broader as result of greater inflation of auditory bullae;
premaxillae extending farther behind nasals.

Remarks. — Near Vernon, medius, as might be expected from the
color of the upper parts, occurs on dark-colored soils. It occurs
also on light-colored soils, as is shown by the two specimens from
west of Lovelock which were taken on a light-colored area which
yielded also 11 specimens of the different species, M. pallidus. At
this place the skins of the two can readily be separated by color.
The skulls can be told apart by the lesser breadth (18.3 and

1941 RODENT GENUS MICRODIPODOPS— HALL 257

19.2 mm.) across the auditory bullae. In the 11 specimens of palli-
dus the average and extremes for the corresponding measurements
are 19.7 (19.3-20.1).

Specimens examined. — Total number 21, as follows:

NEVADA. — Pershing County: three miles southwest of Vernon,
4,300 feet, 1; three miles south of Vernon, 4,250 feet, 18; 21 miles
west and two miles north of Lovelock, 4,000 feet, 2.

Microdipodops megacephalus nexus subsp. nov.

Type.— Male, adult, skin with skull; No. 70917 Museum of
Vertebrate Zoology; three miles south of Izenhood, Lander County,
Nevada; May 22, 1936; collected by Ward C. Russell; original No.
4466.

Range. — From 5^ miles northeast of Golconda, Humboldt
County, east to Izenhood, Lander County, Nevada (see fig. 48, p. 247).

Diagnosis. — Tail and hind foot long; upper parts grayish-brown;
tail distally black; supraorbital spots indistinct; postauricular
patches buffy; under parts white but plumbeous basally; skull with
auditory bullae much inflated, resulting in greatest breadth amount-
ing to more than basal length; narrow across zygomatic arms of
maxillae; interorbital breadth medium; incisive foramina generally
parallel-sided but rounded posteriorly and sharply pointed anteri-
orly; premaxillae extending a relatively short distance behind nasals.

Comparisons. — Comparisons with ambiguus and megacephalus are
made in the accounts of those forms.

Remarks. — The range of this race is separated from that of
ambiguus by a low range of mountains extending in a northeast
direction from Golconda. In isolated populations from 5^ miles
northeast of Golconda to Izenhood, the characters are maintained
in uniform fashion. In color these animals are almost exactly
intermediate between ambiguus and megacephalus and thus bridge
the gap between the western gray mice and the black mice from
farther east. Geographically, there is a gap of about 75 miles
between nexus and megacephalus to the eastward. In 1936 vain
search was made for Microdipodops in this area about Battle Moun-
tain, Cortez and Beowawe, by Ward C. Russell and William B.
Richardson, who concluded that the mice did not occur in this area.
Specimens examined. — Total number 36, as follows:
NEVADA. — Humboldt County: five miles northeast of Golconda,
16. Lander County: Izenhood, 6; three miles south of Izenhood, 14.

258 OSGOOD TESTIMONIAL VOLUME

Microdipodops megacephalus megacephalus Merriam.

Microdipodops megacephalus Merriam, N. Amer. Fauna, 5, p. 116, 1891.

Type.— Male, adult, skin with skull; No. 24417/31823 United
States National Museum, Biological Survey Collection; Halleck, Elko
County, Nevada; October 23, 1890; collected by Vernon Bailey;
original No. 2005.

Range. — Northeastern Nevada; from northern Elko County
south to northern Nye and Lincoln counties; from western Lander
County east almost to Utah boundary (see fig. 48, p. 247).

Diagnosis. — Body large, tail and hind foot short; upper parts
dark brown mixed with black; distal fourth to half of tail black;
supraorbital spots faintly developed or absent; postauricular patches
buffy; feet dusky; under parts with hair whitish to base only on
throat, otherwise deep plumbeous basally with terminal wash of
buffy; skull with auditory bullae moderately inflated, resulting in
greatest width slightly exceeding basal length; maxillary and inter-
orbital breadth moderate to slight; incisive foramina widest poste-
riorly and sharply pointed anteriorly; nasals projecting posteriorly
nearly as far as premaxillae.

Comparisons. — From nexus, this race differs in: tail and hind foot
shorter; upper parts, including upper side of tail, more blackish
and less reddish; hair of under parts distally buffy rather than
white; skull narrower across tympanic bullae. From sabulonis,
megacephalus differs in slightly longer hind foot, in color in almost
the same way as from nexus, and in tendency to slightly narrower
incisive foramina. Comparisons with leucotis, paululus, and albi-
venter are made in the accounts of those forms.

Remarks. — So far as known, there are no fully adult topotypes
of this race in any collection. Adult specimens to the number of
ten from Elko County, northeast of Halleck, differ from other
populations here assigned to the race in longer body and shorter
tail. These are the only specimens of the genus in which the tail
is shorter than the combined length of the head and body. In some
of the specimens from Elko County the incisive foramina are widest
near the middle. Except in these particulars the animals agree with
others from farther south. For this reason and because adult topo-
types of megacephalus are unknown, it seems best to refer these
short-tailed specimens to megacephalus.

Geographic variation is shown by other populations. The darkest
specimens are from central Nevada, those from Reese River Valley
and from Eureka County being darker even than specimens from

1941 RODENT GENUS MICRODIPODOPS— HALL 259

Elko County. Specimens from Eureka County are notable for long
tail, which possibly reflects intergradation with nexus. Specimens
from Dutch Flat Schoolhouse in Reese River Valley have short
tails like the population of sabulonis, which occurs near Millett in
the next valley (Great Smoky Valley) to the east. Specimens from
Steptoe Valley, 5>£ miles south of Ely, are notable for generally
large size but narrow interorbital region. Specimens from Greens
Ranch, fifty-odd miles to the north in the same valley, are not
exceptionally large but of a size about average for the subspecies.

Intergradation with sabulonis is complete. Specimens referred
to megacephalus which have lighter (less blackish and more reddish)
upper parts and the hair of the under parts white or only lightly
tipped with buffy are those from Hot Creek Valley south to Old
Mill at the north end of Reveille Valley, and those from Ralston
Valley, 15^ miles northeast of Tonopah. Specimens from Spring
Valley, near Osceola and Shoshone, are lighter (grayer) above,
lack the buffy terminal tipping of the hair of the under parts, which
in many specimens is white entirely to the base, and thus are inter-
mediate toward paululus, known from Utah.

Specimens examined. — Total number 296, as follows:

NEVADA. — Lander County: Reese River Valley, seven miles north
of Austin, 4; six miles east-northeast of Smiths Creek Ranch, 5,550
feet, II; 2^ miles northeast of Smiths Creek Ranch, 5,800 feet, 5;
Smiths Creek Valley, two miles west of Railroad Pass, 5,550 feet,
4. Eureka County: Winzell, 18; four miles southeast of Romano,
Diamond Valley, 18; eight miles west of Eureka, 15. Nye County:
Dutch Flat Schoolhouse, Reese River, 6,715 feet, 10; 30 miles north
of Belmont, Monitor Valley, 1 (U. S. Nat. Mus., Biol. Surv. Coll.);
6J^ miles north of Fish Lake, Fish Spring Valley, 6,700 feet, 14;
nine miles east of Toquima Peak, Monitor Valley, 7,600 feet, 2;
10^ miles east of Toquima Peak, Monitor Valley, 6,900 feet, 24;
five miles north of Belmont, Monitor Valley, 1 (U. S. Nat. Mus.,
Biol. Surv. Coll.); 3^ miles east of Hot Creek, Hot Creek Valley,
5,650 feet, 17; 15^ miles northeast of Tonopah, Ralston Valley,
5,800 feet, 13; 2^ miles east and north of Twin Spring, south end
of Hot Creek Valley, 5,400 feet, 3; Old Mill, north end of Reveille
Valley, 6,200 feet, 36. Elko County: nine miles northeast of San
Jacinto, 5,300 feet, 1; 15 miles south of Contact, 5,800 feet, 6;
Marys River, 22 miles north of Deeth, 5,800 feet, 9; Cobre, 6,100
feet, 5; two miles southwest of Cobre, 2; three to five miles west of
Halleck, 5,200 to 5,300 feet, 6 (1 in Coll. Ralph Ellis). White

260 OSGOOD TESTIMONIAL VOLUME

Pine County: five miles southeast of Greens Ranch, Steptoe Valley,
5,900 feet, 11; 5>3 miles southeast of Ely, Steptoe Creek, 6,400 to
6,500 feet, 7; seven miles southwest of Osceola, Spring Valley, 6,275
feet, 24; 5M miles northwest of Shoshone Post Office, 6,100 feet, 3;
four miles south of Shoshone, Spring Valley, 5,900 feet, 16. Lincoln
County: three miles south of Geyser, Duck Valley, 6,050 feet, 10.

Microdipodops megacephalus sabulonis Hall.

Mierodipodops megacephalus sabulonis Hall, Proc. Biol. Soc. Wash., 54, p. 59,
1941.

Type. — Male, adult, skin with skull; No. 49381 Museum of
Vertebrate Zoology; five miles southeast of Kawich Post Office,
5,400 feet, Kawich Valley, Nye County, Nevada; September 27,
1931; collected by Robert T. Orr; original No. 384.

Range. — South-central Nevada from Esmeralda County eastward
across Nye County to western Lincoln County (see fig. 48, p. 247).

Diagnosis. — Tail and hind foot short; upper parts brownish with
much reddish; distal fourth to sixth of tail dark brown or black;
supraorbital and postauricular patches light buffy; feet light gray;
under parts white (basally plumbeous); skull with auditory bullae
much inflated for this species, which results in greatest width exceed-
ing basal length; maxillary and interorbital breadth moderate to
slight; incisive foramina widest posteriorly; nasals extending posteri-
orly almost as far as premaxillae.

Comparisons. — From albiventer, this race differs in: body and tail
longer; tail relatively longer; skull, including nasals, longer; upper
parts, including upper side of tail, darker (more reddish); hair of
under parts sometimes plumbeous basally rather than always white.
From paululus, sabulonis differs in: longer body and much longer
tail, in color in the same way as described for albiventer, and in
shorter, narrower skull.

Remarks. — Specimens assigned to sabulonis from Coal Valley
closely approach albiventer in pallor of coloration and indicate
intergradation between the two. Specimens from Garden Valley
also are lighter-colored than most populations of sabulonis and differ
also in larger size of all parts measured, although relative proportions
of the parts are about as in other populations. The animals from
Great Smoky Valley (near Millett and San Antonio) have as much
red in the upper parts as any other population, and more than most.
Topotypes have longer tails than most specimens. At some localities,
occasional specimens have a light wash of buffy on the tips of the
hairs of the under parts.

FIG. 49. a, b, d, e, Microdipodops megacephalus sabulonis, from nine miles
west and three miles south of Tybo, 6,200 feet, Nye County, Nevada. X 1^>.
c, /, Mus musculus subsp.?, from 2^ miles west of Hazen, Lyon County, Nevada.
X 1^. The dorsal and ventral views of the cranium of a kangaroo mouse (a, d)
show the greatly enlarged auditory bullae in place. Compare with corresponding
structures in the house mouse (c, /), a rodent of more generalized structure. In
the kangaroo mouse (b, e) the bullae are detached, revealing the great reduction
in size of the interparietal and occipital bones, which in the house mouse enclose
the brain posteriorly. Photograph by W. C. Matthews.

261

262

OSGOOD TESTIMONIAL VOLUME

This subspecies of megacephalus occurs in the same general area
as ruficollaris, a race of the different species pallidus. The firmer
soils were favored by sabulonis at each of the eleven places where
the two species were taken in the same trap line. M. pallidus
occupied the fine sands. It follows from the distribution of these
two types of soils that sabulonis occurs on the sides of the valleys
and has a more nearly continuous distribution than does pallidus,
which occurs ordinarily in the lowest parts of the valleys. The

FIG. 50. Skeleton of Microdipodops megacephalus sabulonis, male, from nine
miles west and three miles south of Tybo, 6,200 feet, Nye County, Nevada.
X 4/5. Note the great length of the head relative to that of the body. Photo-
graph by W. C. Matthews.

two kinds are easily distinguished by the color, and to me the
difference is more easily perceivable in the live or freshly killed
animals than in prepared study skins. The occurrence of three
seeming hybrids among the 57 animals (34 pallidus, 20 megacephalus,
and three "crosses") saved from Penoyer (Sand Spring) Valley makes
further study at this place desirable, to learn for certain if two
free-living species of wild mammals do here hybridize. If they do
so, opportunity to study an unusual stage in the formation, or extinc-
tion by dilution, of a species would be afforded. The characters
of the seeming hybrids are discussed in detail in the preceding section
(p. 236) entitled "Speciation."

Specimens examined. — Total number 413, as follows:

NEVADA. — Esmeralda County: 13^ miles northwest of Goldfield,
4,850 feet, 22. Nye County: four miles southeast of Millett, 5,500
feet, 17; five miles southeast of Millett, 4; four miles south of Millett,
5,500 feet, 5; 11 Y^ to 13 miles northeast of San Antonio, 5,700 to
6,700 feet, 26; 4% to six miles northeast of San Antonio, 5,650

1941 RODENT GENUS MICRODIPODOPS— HALL 263

to 5,700 feet, 29; 17 miles west of Sunnyside, White River Valley, 12;
nine miles west and three miles south of Tybo, 6,200 feet, 43; 15 to
16^ miles west-southwest of Sunnyside, White River Valley, 5,500
feet, 11; 14 to 15 miles northeast of Sharp, Garden Valley, 23;
S^2 miles northeast of Garden Valley, 28; 34 miles east and one
mile north of Tonopah, 5,650 feet, 6; north shore of Mud Lake,
south end of Ralston Valley, 5,300 feet, 2; 1^ to 3| miles south of
Silverbow, Kawich Mountains, 6,200 to 6,400 feet, 19; five to 6^
miles southwest of Silverbow, Cactus Flat, 5,700 to 6,000 feet, 18;
11^ miles southwest of Silverbow, Cactus Flat, 5,400 feet, 9; 14
miles southeast of Goldfield, Stonewall Flat, 4,700 feet, 2; ly^ miles
east of Cliff Spring, 5,900 feet, 37; 4^ miles northwest of Indian
Spring, Kawich Valley, 5,700 feet, 6; five to 5ro miles southeast of
Kawich Post Office, Kawich Valley, 5,400 feet, 12. Lincoln County:
14 miles north of Seeman Pass, east side of Coal Valley, 4,850 feet, 26;
ten miles north of Seeman Pass, 4,650 feet, Coal Valley, 14; 17 miles
north of Groom Baldy, Penoyer Valley, 14; 14 to 15 miles north-
northwest of Groom Baldy, Penoyer Valley, 8; nine miles west of
Groom Baldy, 5,500 feet, 13; 11 ^ miles east of Jonnies Water, 1;
14 Yi to 15 miles south of Groom Baldy, 6.

Microdipodops megacephalus albiventer Hall and Durrant.

Microdipodops pallidus albiventer Hall and Durrant, Journ. Mamm., 18,
p. 357, 1937.

Type. — Male, adult, skin with skull; No. 52803 Museum of
Vertebrate Zoology; Desert Valley, 5,300 feet, 21 miles west of
Panaca, Lincoln County, Nevada; May 30, 1932; collected by
Ward C. Russell; original No. 2188.

Range. — Desert Valley, central Lincoln County, Nevada (see
fig. 48, p. 247).

Diagnosis. — Tail, body, and hind foot short; upper parts grayish
faintly lined with brownish; top of tail at tip with blackish markings
faint or absent; postauricular patches white; supraorbital patches
white, sometimes with trace of buffy; hair of under parts white to
base; skull with auditory bullae much inflated and greatest width
of skull greatly exceeding basal length; maxillary breadth slight;
interorbital breadth moderate for the species; incisive foramina widest
posteriorly; nasals short and not extending nearly as far posteriorly
as premaxillae.

Comparisons. — From megacephalus, this race differs in: average
size of external measurements less; upper parts lighter; postauricular
patches and under parts white rather than buffy; distal part of upper

264 OSGOOD TESTIMONIAL VOLUME

side of tail almost white rather than distinctly blackish; skull with
nasals shorter. From paululus, albiventer differs in: tail longer;
upper parts lighter; tip of tail more blackish; skull larger in all
parts measured except length of nasals, which is less. Comparison
with sabulonis is made in the account of that form.

Remarks. — When albiventer was named, the describers knew that
there were two full species of Microdipodops in western Lincoln
County, Nevada, and because of its pale color albiventer was assigned
to the paler of these two species. Subsequent study, which revealed
cranial differences between the two species, indicates that albiventer
is, instead, a race of the darker species, M. megacephalus. In the
original description, animals from Pine Valley, Utah, were assigned
to the race albiventer, but these were later separated from albiventer
and made the basis of the name Microdipodops megacephalus paululus
(Hall and Durrant, p. 5, 1941). Thus, albiventer as here understood
is restricted to Desert Valley in central Lincoln County. Animals
from Coal Valley, about 25 miles to the west and north, although
assigned to the race sabulonis, are much paler than typical specimens
and approach albiventer in color.

Specimens examined. — Total number 23, as follows:

NEVADA. — Lincoln County: Desert Valley, 21 miles west of
Panaca, 5,300 feet, 23.

Microdipodops megacephalus paululus Hall and Durrant.

Microdipodops megacephalus paululus Hall and Durrant, The Murrelet, 22,
p. 5, 1941.

Microdipodops pallidus albiventer Hall and Durrant, Journ. Mamm., 18,
p. 357, 1937 (in part).

Type. — Male, subadult, skin with skull; No. 74660 Museum of
Vertebrate Zoology; Pine Valley, one-half mile east of headquarters
building of the Desert Range Experiment Station of the United
States Forest Service, sec. 33, T. 25 S., R. 17 W., Salt Lake B. M.,
Millard County, Utah; July 17, 1936; collected by Stephen D.
Durrant; original No. 955.

Range. — Western Utah in Pine, White, and Snake valleys (see
fig. 48, p. 247).

Diagnosis. — Hind foot and tail short; upper parts brownish gray
lightly mixed with blackish; under parts with hair everywhere
white to base; supraorbital patches buffy white; postauricular
patches white; tail bicolored, corresponding to body with terminal
fourth or less blackish above; feet and ears whitish; skull small;

1941 RODENT GENUS MICRODIPODOPS— HALL 265

auditory bullae moderately inflated; maxillary breadth across
zygomata slight; interorbital constriction moderate; incisive foramina
widest posteriorly.

Comparisons. — From megacephalus, as known by specimens from
Elko and White Pine counties, Nevada, including topotypes, paululus
differs in: body shorter; tail much shorter; color above slightly lighter;
hair of under parts everywhere white to base rather than plumbeous
basally and buffy distally; postauricular light patches white rather
than buffy; skull averaging shorter but otherwise closely resembling
that of M. m. megacephalus. From albiventer, paululus differs in:
tail shorter; upper parts darker; tip of tail with more blackish;
skull averaging smaller in all measurements taken except length of
nasals, which is more. Comparison with leucotis is made in the
account of that form.

Remarks. — The type specimen has the permanent upper fourth
premolars in place but almost unworn. Therefore it may be correctly
referred to as a subadult.

Snake Valley and White Valley are only provisionally included
in the range of this subspecies. The one animal (No. 3073 Univ.
Utah) seen from White Valley has paler upper parts than paululus,
a longer tail, and is smaller as regards those parts of the broken skull
that can be measured. In these features the specimen approaches
leucotis as it does also geographically. From Snake Valley, two young
specimens from five miles south of Garrison differ from topotypes
of paululus only in longer tail but one from about 35 miles farther
north in the same valley (four miles south of Gandy) has the colora-
tion of the upper parts more as in leucotis although not so light.
All these animals from Snake Valley are so young that they do not
satisfactorily display in either the skull or the pelage characters
diagnostic of subspecies.

Of the 24 topotypes of paululus, all but two have the black tip
on the upper surface of the tail. Intergradation with the race
megacephalus is suggested by specimens from Spring Valley, Nevada,
four miles south of Shoshone. They have the upper parts lighter
than in other populations of megacephalus and thus approach
paululus, although otherwise they are referable to megacephalus.

Specimens examined. — Total number 29, as follows:

UTAH. — Millard County: four miles south of Gandy, 5,000 feet,
2 (Mus. Vert. Zool.); White Valley, 60 miles west of Delta, 1 (Univ.
Utah Mus. Zool.); five miles south of Garrison, 5,400 feet, 2 (Mus.

266 OSGOOD TESTIMONIAL VOLUME

Vert. Zool.); type locality, 24 (23, Univ. Utah Mus. Zool.; 1,
Mus. Vert. Zool.).

Microdipodops megacephalus leucotis Hall and Durrant.

Microdipodops megacephalus leucotis Hall and Durrant, The Murrelet, 22,
p. 6, 1941.

Type.— Female, adult, skin with skull; No. 3525 University of
Utah Museum of Zoology; 18 miles southwest of Orr's Ranch, 4,400
feet, Tooele County, Utah; June 6, 1940; collected by Stephen D.
Durrant; original No. 1904.

Range. — Known only from the type locality (see fig. 48, p. 247).

Diagnosis. — Size small; hind foot short; tail relatively long;
upper parts near (e) Light Pinkish Cinnamon (capitalized color
terms after Ridgway, Color Standards and Color Nomenclature,
Washington, D.C., 1912); under parts with hair everywhere white
to base and encroaching on area ordinarily occupied by upper parts
almost to lower margin of eye; postauricular and supraorbital white
patches prominent; tail without black tip; feet and ears white;
skull small except that auditory bullae are much inflated, resulting
in greatest width exceeding basal length; skull relatively broad pos-
teriorly; incisive foramina widest posteriorly; nasals projecting
posteriorly nearly as far as premaxillae.

Comparisons. — From paululus, this race differs in: tail longer;
upper parts strikingly lighter; area of white on head much more
extensive than light areas on head of paululus; tail without blackish
or darker color on tip; skull smaller in all parts measured except
width across auditory bullae, which is more. The much greater
inflation of the auditory bullae and lesser interorbital breadth are
the two most prominent cranial differences. From megacephalus,
leucotis differs in: body shorter; color everywhere paler; all light
areas more extensive and white rather than buffy or plumbeous;
upper parts of leucotis at first glance appearing white in contrast
to the dark brown or blackish of megacephalus; skull differing in
same way as from paululus.

Remarks. — This animal is one of the palest known for the genus;
it is paler than topotypes of M. p. pallidus, and rivals topotypes of
M. p. purus. It agrees with the species pallidus in the great inflation
of the auditory bullae. Other cranial features, the short hind foot,
and the geographic place of occurrence indicate that its affinities
are with the species M. megacephalus.

Specimens examined. — One, the type.

1941

RODENT GENUS MICRODIPODOPS— HALL

267

Microdipodops pallidus. PALLID KANGAROO MOUSE.

Diagnosis. — Upper parts near (e) Light Pinkish Cinnamon, lightly
marked with buffy or blackish; basal two- thirds or more of hair
plumbeous and distal third buffy, in some races with a short terminal
tip of blackish; hair of under parts everywhere white to base, as is
that on legs, feet, and under side of tail; upper side of tail about
same color as upper parts of body but lacking black tip; length of

FIG 51 Typical habitat of the pallid kangaroo mouse (Microdipodops pal-
lidus). Fine, wind-blown sand with xerophitic shrubs, seven miles north of
Arlemont, Esmeralda County, Nevada. Photograph taken June 4, 1927, by Miss
Annie M. Alexander.

hair and facial vibrissae as described in species megacephalus; post-
auricular patch prominent and pure white in all races; supraorbital
spot white or faintly tinged with buffy, in some forms wanting;
hind foot large, averaging more than 25 mm. in length; auditory
bullae showing maximum degree of inflation for genus; upper incisors
relatively straight; incisive foramina parallel-sided; premaxillae
extending well behind nasals. Several of these features are of a com-
parative nature and are mentioned in greater detail in the preceding
account of the full species M. megacephalus.

Remarks. — Fine sand supporting some plant growth meets the
requirements of this species; as previously pointed out (Hall and
Linsdale, p. 299, 1929), fine sand without plants does not harbor the

DISTRIBUTION MAP
MUSOJMor VERTEBRATE 200LOGY

FIG. 52. Map showing geographic range of the subspecies of Microdipodops
pallidus.

268

1941 RODENT GENUS MICRODIPODOPS— HALL 269

mice. Because the finest sand ordinarily occurs in the bottoms of
valleys, as on the windward side of a playa, the mice are most
abundant in the low parts of valleys. The distribution of the species
is less continuous than that of M. megacephalus, which lives in
coarser soils.

Elevations of occurrence range from about 3,900 feet at Soda Lake
up to 5,700 feet in Huntoon Valley. At every place where specimens
were taken, the vegetation is of a kind which favors a zonal position
lower than places supporting Artemisia tridentata. Atriplex and
Sarcobatus are shrubs characteristic of the areas in which the mice
occur. Nowhere have they been found at a place low enough zonally
to support the creosote bush, Larrea. By our definition of zones,
then, this mouse has not been found in the Lower Sonoran Life-zone,
although edaphic conditions appear suitable for it there. The nearest
approach to occurrence in this zone was in Desert Valley, the next
valley west of Pahranagat Valley. At this place Joshua trees, cholla,
and Artemisia tridentata grew together. In the lower part of the Upper
Sonoran Life-zone, M. pallidus occupies the same territory as do
Dipodomys deserti, D. merriami, and some other mammalian species
which, unlike M. pallidus, are predominantly Lower Sonoran in
distribution.

Microdipodops pallidus pallidus Merriam.

Microdipodops pallidus Merriam, Proc. Biol. Soc. Wash., 14, p. 127, 1901.

Microdipodops megacephalus lucidus Goldman, Proc. Biol. Soc. Wash., 39,
p. 127, 1926 — type from eight miles southeast of Blair, 4,500 feet, Esme-
ralda County, Nevada.

Microdipodops megacephalus dickeyi Goldman, Proc. Biol. Soc. Wash., 40,
p. 115, 1927— type from three miles southeast of Oasis, 5,150 feet, Mono
County, California.

Type.— Female, adult, skin with skull; No. 93520 United States
National Museum, Biological Survey Collection; Mountain Well
[according to Vernon Bailey, MS.], Churchill County, Nevada; May
11, 1898; collected by Harry C. Oberholser; original No. 101.

Range. — Low western part of Nevada from southern Pershing
County southward through Fish Lake Valley to Oasis, Mono County,
California, and in Deep Spring Valley, Inyo County, California
(see fig. 52, p. 268).

Diagnosis. — Size large; tail relatively long; color pale; nasals long.

Comparisons. — From M. p. ruficollaris this race differs in less
reddish color of the upper parts, absence of the cinnamon-colored
collar, longer tail, and longer nasals.

270

OSGOOD TESTIMONIAL VOLUME

Remarks. — The occurrence of this mouse well up near the summit
of a pass in the Still water Range, at the type locality, is unusual.
At this place wind-borne sand of fine texture has accumulated in
dunes and provides the requisite habitat ordinarily found low down
in valleys.

Intergradation with ruficollaris is suggested by the redder than
average color of specimens from Millers Wells.

FIG. 53. Live adult pallid kangaroo mouse (Microdipodops pallidus pallidus)
from seven miles north of Arlemont, Esmeralda County, Nevada. Photograph
taken June 14, 1927, by J. Dixon. Slightly less than half natural size.

Note the large eye, small pinna of ear, large head, long hind foot, and long,
non-penicillate tail, which is of greatest diameter in the middle portion.

There is some geographic variation within the subspecies. Speci-
mens from 21 miles west and two miles north of Lovelock, the north-
ernmost record-station of occurrence for the species, represent one
of the two palest-colored populations, the other being the far southern
population from eight miles southeast of Blair. Topotypes are more
reddish by a slight degree than are any other specimens. Animals
from Mountain Well and from the vicinity of Schurz have actually
and relatively shorter tails than others. In most of the measurements
taken, animals from Fingerrock Wash average larger than those from
any other place. Sixteen specimens from Deep Spring Valley have
on each shoulder a slight suggestion of the collar that is well developed

1941 RODENT GENUS MICRODIPODOPS— HALL 271

in ruficollaris but otherwise agree well with specimens of pallidus
from Fish Lake Valley.

Specimens from eight miles southeast of Blair average 0.2 mm.
less in basal length and 0.1 mm. less in interorbital breadth
than any other population. These animals, like those from the
same latitude farther west, have upper molariform toothrows
that average between 0.1 and 0.2 mm. longer than in the northern-
most populations. The name Microdipodops megacephalus lucidus
Goldman was based on animals from eight miles southeast of Blair.
Another name, Microdipodops megacephalus dickeyi Goldman, was
based on specimens from three miles southeast of Oasis, California.
Topotypes and abundant material from other places in the same
valley present no differences from other populations. Both of these
names are placed as synonyms of pallidus.

Specimens examined. — Total number 415, as follows:
CALIFORNIA. — Mono County: three miles southeast of Oasis,
14 (L. A. Mus.); 43^ to 5^ miles southeast of Oasis, 5,300 feet,
9. Inyo County: Deep Spring Valley, 4,900 to 5,000 feet, 16 (L.
A. Mus.).

NEVADA. — Lyon County: 11% miles south and 2% miles east
of Yerington, 4,650 feet, 23. Pershing County: 21 miles west and
two miles north of Lovelock, 4,000 feet, 11. Churchill County:
one mile north of Soda Lake, 4,000 feet, 1; west end of Soda Lake,
3,900 feet, 2; one mile west of Mountain Well, 5,350 feet, 16; Moun-
tain Well, 5,600 feet, 20. Mineral County: three miles south of
Schurz, 4,100 feet, 26; eight miles southeast of Schurz, 4,100 feet, 2;
Fingerrock Wash, Stewart Valley, 5,400 feet, 34; Cat Creek, four
miles west of Hawthorne, 4,500 feet, 1; Marietta, 4,900 feet, 3;
Huntoon Valley, 5,700 feet, 8; south side of Teels Marsh, 4,900
feet, 7. Esmeralda County: 1^ miles west of Millers Wells, 4,800
feet, 16; 3^ to four miles southeast of Coaldale, 4,850 feet, 12;
13^ miles northwest of Goldfield, 4,850 feet, 2; seven miles north of
Arlemont, 5,500 feet, 78; 1^ to 2^ miles north of Dyer, 4,800 to
4,850 feet, 17; Fish Lake Valley, 4,945 feet, 1; two miles southeast
of Dyer, 4,900 to 4,950 feet, 10; eight miles southeast of Blair,
4,500 feet, 46; mouth of Palmetto Wash (5,350 feet, 3; 5,500 feet, 1),
4 (Coll. D. R. Dickey). Nye County: northeast of San Antonio
(5^ miles, 5,700 feet, 1; 4M miles, 5,650 feet, 3; 4% miles, 5,650
feet, 3; 4>^ miles, 5,640 to 5,650 feet, 7; 4^ miles, 5,650 feet, 2;
four miles, 5,650 feet, 3), 19; San Antonio, 5,407 feet, 17.

272 OSGOOD TESTIMONIAL VOLUME

Microdipodops pallidus ruficollaris Hall.

Microdipodos [misspelling for Microdipodops] pallidus ruficollaris Hall, Proc.
Biol. Soc. Wash., 54, p. 60, 1941.

Type. — Female, adult, skin with skull; No. 49254 Museum of
Vertebrate Zoology; five miles southeast of Kawich Post Office,
5,400 feet, Kawich Valley, Nye County, Nevada; September 25,
1931; collected by Robert T. Orr; original No. 367.

Range. — Fine sands of valleys from western Nye County east-
ward to western Lincoln County, Nevada (see fig. 52, p. 268).

Diagnosis. — Upper parts near (e) Light Pinkish Cinnamon mixed
with blackish, with a broad collar of more nearly cinnamon color;
otherwise as described for the species.

Comparisons. — From purus, this race differs in more reddish
upper parts, presence of the cinnamon-colored collar, lesser maxillary
breadth, and slightly less inflated auditory bullae. Comparisons
with pallidus and ammophilus are made in the accounts of those races.

Remarks. — There is surprisingly little variation between popula-
tions of this race considering the fact that it occurs mainly or entirely
on fine sand, which results in a noncontinuous distribution. The
population which shows the greatest departure from the mean is
that in Penoyer Valley. These animals are more reddish than typical
specimens, by weight are the heaviest of any, have relatively short
tails and greatly inflated auditory bullae. This inflation of the bullae
is reflected in the great average breadth of the skull, which actually
(20.1 mm.) and also relative to the basal length (18.5) is more than
in any other population studied of Nevadan Microdipodops. Addi-
tional comment on this population from Penoyer Valley is made in
the accounts of M. p. purus and M. m. sabulonis, and in the account
(p. 236) headed "Speciation."

Specimens examined. — Total number 165, as follows:
NEVADA. — Nye County: nine miles west and three miles south of
Tybo, 6,200 feet, 2; 34 miles east and one mile north of Tonopah,
5,650 feet, 39; north shore of Mud Lake, south end of Ralston
Valley, 5,300 feet, 10; !}/£ to 3| miles south of Silverbow, Kawich
Mountains, 6,200 to 6,400 feet, 3; 11 J^ miles southwest of Silverbow,
Cactus Flat, 5,400 feet, 5; six miles west of Kawich Post Office, Gold
Flat, 5,150 feet, 5; five to 5^ miles west of Kawich Post Office,
Gold Flat, 5,100 to 5,200 feet, 8; five to 5^ miles southeast of Kawich
Post Office, Kawich Valley, 5,400 feet, 46; six miles southwest of
Kawich Post Office, Gold Flat, 5,100 feet, 12. Lincoln County:

1941 RODENT GENUS MICRODIPODOPS— HALL 273

17 miles north of Groom Baldy, Penoyer Valley, 25; 14 to 15 miles
north-northwest of Groom Baldy, Penoyer Valley, 10.

Microdipodops pallidus ammophilus subsp. nov.

Type. — Female, adult, skin with skull; No. 58208 Museum of
Vertebrate Zoology; Railroad Valley, Able Spring, 12^ miles south
of Locks Ranch, 5,000 feet, Nye County, Nevada; July 29, 1933;
collected by E. Raymond Hall; original No. 3934.

Range.— Railroad Valley, Nye County, Nevada (see fig. 52, p. 268).

Diagnosis. — Upper parts near (e) Light Pinkish Cinnamon,
heavily mixed with blackish; a broad collar of cinnamon color
lightly mixed with blackish; otherwise as described for the species.

Comparisons and remarks. — In some ways this is the most hand-
some of all the kangaroo mice. Its ground color is that of the light-
colored species pallidus, but this color is overlaid with a frosting of
black. The collar is barely evident, much less so than in ruficollaris
from which ammophilus is further distinguished by the frosting of
black. Specimens from 93^ miles east of New Reveille, which is
at the southern end of Railroad Valley, show only slight approach
to ruficollaris and indicate for ammophilus a range, in Railroad
Valley, of 50 miles in extent in a southwest to northeast direction.

Specimens examined. — Total number 30, as follows:

NEVADA.— Nye County: Railroad Valley, 5,000 feet (2^ to 3^
miles south of Locks Ranch, 10; nine miles south of Locks Ranch,
10; 12^ miles south of Locks Ranch, Able Spring, 2), 22; 9^ miles
east of New Reveille, Railroad Valley, 5,100 feet, 8.

Microdipodops pallidus purus subsp. nov.

Type. — Male, adult, skin with skull; No. 52753 Museum of
Vertebrate Zoology; 14}^ miles south of Groom Baldy, Lincoln
County, Nevada; June 1, 1932; collected by H. Robert Poultney;
original No. 3618 of E. Raymond Hall.

Range. — Emigrant and Desert valleys in eastern Lincoln County,
Nevada (see fig. 52, p. 268).

Diagnosis. — Upper parts near (e) Light Pinkish Cinnamon;
distinctly whitish; otherwise as described for the species.

Comparisons and remarks. — This race, at the type locality, is the
palest, most nearly white, of any. It is rivaled in this respect only
by the population from eight miles southeast of Blair, here referred
to the race pallidus. Cranially the topotypes are notable for the

274 OSGOOD TESTIMONIAL VOLUME

greater average width across the maxillary processes of the zygomata
and the reduced interorbital breadth. In the population from the
next valley to the east, the interorbital breadth is larger, as in most
other populations of the full species pattidus, but the narrowness
across the zygomatic arches anteriorly is as in the topotypes.

Reference to the distribution map (fig. 52, p. 268) reveals that from
the main geographic range of ruficollaris there are three projections
to the eastward. These are (1) ammopkilus to the northeast, (2) the
populations in Penoyer Valley to the east, and (3) purus to the south-
east. Each of these differs appreciably from ruficollaris; ammophilus
is "blacker," animals from Penoyer Valley are "redder," and purus
is '^whiter." From one another, they differ far more than any of
them differs from ruficollaris. Perhaps this is, in a measure, the
result of isolation from one another by hills and mountains, whereas
closer connection is maintained with ruficottaris. A low pass through
which mice of this species may occur connects the range of ammophilus
with that of ruficollaris, and another similar pass connects Penoyer
Valley with the range of ruficollaris, but there is no such low pass
between Penoyer Valley and the range of ammaphilus (see fig. 52,
p. 268). The range of purus may not be continuous with that of
ruficollaris, but the two are less isolated than purus is from the
population in Penoyer Valley.

The habitat of purus is the fine, exceptionally white sand which
in large part probably results from the disintegration of Sieberts
Tuff, a white deposit abundantly exposed in the area where purus
occurs.

Specimens examined. — Total number 38, as follows:

NEVADA. — Lincoln County: Desert Valley, eight miles southwest
of Hancock Summit, 5,300 feet, 3; eight miles north of Summit
Spring, 3; 5>i miles north of Summit Spring, 4,700 feet, 3; 14^ to
15 miles south of Groom Baldy, 29.

REFERENCES
GOLDMAN, E. A.

1926. A New Kangaroo Mouse from Nevada. Proc. Biol. Soc. Wash., 39,
pp. 127-128.

1927. A New Kangaroo Mouse from California. Proc. Biol. Soc. Wash.,
4t, pp. 115-116.

GWNNELL, J.

1914. A Second Species of the Mammalian Genus Mierodipodops from Cali-
fornia. TJniv. Calif. Pub. ZooL, 12, pp. 301-304.

HALL, E. R.

19*41. New Heteromyid Rodents from Nevada. Proc. Biol. Soc. Wash., 54,
pp. 55-61.

1941 RODENT GENUS MICRODIPODOPS— HALL 275

- and DURRANT, S. D.

1937. A New Kangaroo Mouse (Microdipodops) of Utah and Nevada. Journ.

Mamm., 18, pp. 357-359.
1941. Two New Kangaroo-Mice from Utah. The Murrelet, 22, pp. 5-7.

- and LIXSDALE, J. M.

1929. Notes on the Life History of the Kangaroo Mouse (Microdipodopg).
Journ. Mamm., 10, pp. 298-305, 1 pi.

HATT, R. T.

1932. The Vertebral Columns of Ricochetal Rodents. Bull. Amer. Mus.
Nat. Hist., 63, pp. 599-738, 10 pis., 27 figs.

MERRIAM, C. H.

1891. Description of a New Genus and Species of Dwarf Kangaroo Rat from
Nevada (Microdipodops megacephalus). N. Amer. Fauna, 5, pp. 115-117.
1901. Descriptions of Three New Kangaroo Mice of the Genus Microdipodops.
Proc. Biol. Soc. Wash., 14, pp. 127-128.

VlNOGRADOV, B.

1924. A Second Interesting Species of Mongolian Gerboa of the Genus Sal-
pingotus Vinogr. (Salpinyotus crassicauda sp. n.). Zool. Anz., 61, pp. 150-
152.

WOOD, A. E.

1935. Evolution and Relationships of the Heteromyid Rodents with New
Forms from the Tertiary of Western North America. Ann. Carnegie Mus.,
24, pp. 73-262, 157 figs.

276

OSGOOD TESTIMONIAL VOLUME

MEASUREMENTS OF ADULTS OF MICRODIPODOPS
(In millimeters)

M. TO. oregonus, 13 (7 d1, 6 9 ); two miles south of Borax Spring

Average 154 87 25.2 13.1 18.3 10.0 18.5 11.7

Minimum 146 76 23 11.9 17.7 9.5 17.7 11.0

Maximum 163 94 27 15.0 19.0 10.9 19.5 12.3

M. TO. californicus, 5 (4 d", 1 9 ); 2% miles south of Pyramid

Average 161 87 25.2 .... 18.7 10.1 18.3 12.0

Minimum 158 81 24 .... 18.6 9.9 17.9 11.9

Maximum 163 91 26 .... 18.9 10.6 18.6 12.2

M. TO. nasutus, 4 (2 d1, 2 9); Fletcher

Average 155 83 25.3 .... 18.5 10.1 18.9 12.0

Minimum 150 78 24 .... 18.0 10.0 18.2 11.2

Maximum 159 88 26 19.2 10.4 19.4 12.4

M. TO. polionotus, 20 (10 d1, 10 9); Taylor and McKeever ranches

Average 152 85 24.4 .... 18.1 9.8 18.2 12.1

Minimum 143 77 23 .... 17.4 9.2 17.8 11.7

Maximum 155 93 26 .... 18.-8 10.3 18.7 12.6

M. TO. ambiguus, 17 (10 d1, 7 9); within 1% miles of Sulphur

Average 165 91 25.0 12.4 18.4 10.1 19.3 11.6

Minimum 162 85 24 10.2 17.7 9.5 18.6 11.1

Maximum 176 98 26 14.0 19.0 10.4 19.8 12.5

M. TO. medius, 18 (9 d1, 9 9 ); three miles south of Vernon

Average 166 90 24.8 .... 18.6 10.1 19.1 11.7

Minimum 155 83 23 18.0 9.4 18.8 11.2

Maximum 177 95 26 19.1 10.6 19.6 12.2

M. TO. nexus, 20 (10 d1, 10 9 ); Izenhood and three miles south

Average 166 94 25.0 18.5 9.9 19.3 11.5

Minimum 160 86 24 17.8 9.4 18.8 11.0

Maximum 176 103 27 .... 19.0 10.2 20.0 12.2

M. TO. megacephalus, 10 (4 d", 6 9); Elko County

Average 155 76 24.0 13.4 18.4 10.0 18.6 11.8

Minimum 145 67 23 12.3 17.9 9.9 18.2 11.5

Maximum 163 80 25 14.5 18.7 10.1 19.1 12.4

* Measured from anterior face of incisor tooth.

1941

RODENT GENUS MICRODIPODOPS— HALL

277

MEASUREMENTS OF ADULTS OF MICRODIPODOPS — continued

II

s;

Hi

II

M. m. sabulonis, 9 (4 cf , 5 9 ); five miles southeast of Kawich
Average.. . 154 84 24.1 11.6 18.2 9.9 19.0 11.7

Minimum 150

Maximum.. . 159

81

22.3
25.0

10.5
13.5

17.3
19.1

9.5
10.3

18.1
20.0

11.2
12.4

6.5
6.1

6.8

M. m. albiventer, 14 (9 cf , 5 9 ); 21 miles west of Panaca
Average.. . 150 80 24.1 13.1 18.2 9.6 19.1 11.9

Minimum 138

Maximum.. . 158

72
89

23.0
25.3

11.6
15.3

17.7
18.6

9.1
10.2

18.7
19.6

6.5
11.4 6.2
12.3 6.9

M. TO. paululus, 10 (6 cf, 4 9); Pine Valley
Average.. . 137 69 24.5 17.9 9.7 18.7

Minimum 130

Maximum . . . 148

64

74

24
25

17.6
18.5

9.3
10.2

18.5
19.3

11.5 6.5
11.3 6.3
11.8 6.6

M. m. kucotis, 1(9); type specimen
142 75 24 17.5 9.3

19.2 11.3 6.1

M. p. pallidus, 20 (10 cf , 10 9 ); Mountain Well

Average 162 86 25.5 14.7 18.6 10.0 19.7 12.3 6.8

Minimum 150 74 25 12.2 17.9 9.6 18.4 11.7 6.5

Maximum 169 94 27 16.8 19.1 10.6 20.8 12.7 7.1

M. p. ruficollaris, 10 (3 cf , 7 9 ); five miles southeast of Kawich Post Office

Average 160 88 25.1 12.3 18.3 9.9 19.6 12.2 6.9

Minimum 154 83 25 10.8 18.0 9.5 19.2 11.8 6.7

Maximum 164 91 26 13.3 18.7 10.3 20.1 12.7 7.3

M. p. ammophilus, 12 (8 cf , 4 9 ); 3M to 12 ^ miles south of Locks Ranch

Average .... 161 89 25.5 .... 18.3 9.7 19.5 12.2 6.9

Minimum 154 81 25.0 .... 17.9 9.3 18.8 11.6 6.7

Maximum 173 99 26.5 .... 18.9 9.9 20.4 12.6 7.1

M, p. purus, 20 (10 cf , 10 9 ); 14 H to 15 miles south of Groom Baldy

Average 160 87 25.6 13.6 18.7 9.8 19.6 12.4 6.7

Minimum 152 83 25 10.3 18.1 9.4 19.1 11.9 6.4

Maximum . 168 94 26 15.6 19.2 10.3 20.2 12.9 6.9

* Measured from anterior face of incisor tooth.

THE FEMORAL TROCHANTERS

A. BRAZIER HOWELL

Department of Anatomy, The Johns Hopkins University

Recently I have had occasion to consider in much detail the
question of the precise identity of the femoral trochanters in tetra-
pods. In spite of the fact that some twenty years ago the subject
was given attention by Gregory (1918) and by Romer (1922, 1924)
a number of important points still are unsettled. In order to refresh
my memory and seek for details that formerly I had not considered,
I repeated dissection of the hip region of a number of vertebrates,
including Iguana and Gallus, with a reconsideration of the architec-
ture of this area, paying attention particularly to exact attachments
of muscles and their effects on the adjacent bone.

The pitfalls in this problem always have concerned the proper
identification of homologous muscles, and some of the previous
investigators, not primarily myologists themselves and relying on
the literature or the illustrations of others, became much confused
in their homologies. It seems better to approach the question of
the trochanters from a myological rather than from an essentially
osteological angle.

Muscle attachments to bone may be marked by a process, a
mere roughened scar, a pit or depression, or there may be no mark
that is clearly discernible. It may be said that these differences
are due to the dissimilarity of the kinds and directions of the muscle
pulls involved, and I think it may be accepted that this assertion
is true in part. But no one knows what other factors are involved.
Trochanters exist where the muscular pull is essentially at a right
angle to the bone, but it cannot be said that a pull of this angle
always results in such a process. In mammals the trochanters
constitute what Parsons (1904) has called traction epiphyses, but
the femoral trochanter is not epiphyseal in most reptiles.

Appleton (1925) cut the deep gluteal muscles of young rabbits
and found that this did not affect the growth of the greater tro-
chanter, although the results would have been more conclusive if
his experiments had been more extensive. This fact does not prove
that the muscles regularly attached to a trochanter are unimportant.
Trochanters and similar bony processes are the result over a very
long period of time of applied stresses, most of which have been

279

280 OSGOOD TESTIMONIAL VOLUME

muscular. Part is due to inheritance and part is effective during
the development of the individual. That is all that can be safely
affirmed at present.

In order properly to present my views it is necessary to offer
at this point some discussion of muscle relationship.

The muscles of the limbs appear to have been derived from the
muscles of the trunk, but they are, for the most part, so distinct
that it is now convenient to recognize separate groupings of the
• muscular system, comprising axial and appendicular musculature.
But in this there is still much arbitrary decision. Thus the levator
scapulae, from trunk to scapula, is called a muscle of the limb,
while the external oblique and iliococcygeus, from trunk to pelvis,
are always termed muscles of the trunk. The criterion is whether
the muscle in question does or does not move the girdle or other
part of the limb, providing it does not basically belong to some other
major subdivision (the trapezius, for instance, a branchial apparatus
muscle that now is utilized by the limb).

The limb muscles are most logically divisible into a main dorsal
group, often termed extensors, innervated by more dorsal nerves of
the plexus, and a main ventral or primarily flexor group, supplied
by ventral branches of the plexus. In addition, other axial muscles
may later intrude (as caudofemoralis) and align themselves with
either dorsal or ventral units.

In the case of the pelvic limb, the girdle became attached to the
axial skeleton in such a manner as to bisect the limb plexus and
make of it two plexuses, now termed respectively the lumbar and
the sacral plexus. The former of these is cranial to the sacroiliac
articulation and accordingly is prozonal or prepelvic, and the latter
metazonal or postpelvic in situation. Each has dorsal and ventral
branches to main muscle groups that it is most convenient to desig-
nate by the name of their main nerve branches. Thus the muscles
innervated by the dorsal prozonal nerves are termed the Femoral
group of muscles, the ventral prozonals the Obturator group, the
dorsal metazonal ones Peroneal, and the ventral metazonals Tibial.
This scheme has been set forth in more detail in many of my papers.

These four muscle groups are the fundamental muscle "elements"
of the pelvic limb. Each element usually splits into two or more
units and the latter are not always equivalent in different animals.
To illustrate, the crural flexors number six — a, 6, c, d, e, f — in some
reptiles. In some mammals there are but three. These may be,
for instance, a, c, e; or ac, b and part of d, part of d and /, with e

1941 FEMORAL TROCHANTERS— HOWELL 281

unrepresented; or any other combination. Exact homology of such
slips is absolutely impossible. When it is realized that these different
combinations have diverse effects upon the parts of the bones to
which they are attached, according to differences in posture and other
factors, it is apparent that perhaps there can be no real homology
of either muscle units or processes in different classes of tetrapods.
Not only is this the case but conditions may so vary between major
groups within the same class that it is unsafe to attempt exact
parallels even after careful dissections.

The above concepts have not been entertained in connection
with any work on the homology of the femoral trochanters, so far
as I am aware. Other workers have appeared to regard the tro-
chanters as definite entities which, like bones, could be present or
absent or appear de novo. Instead, the concept here followed is
that if a muscle causes a process in one animal, the "element" of
that process is also present in another animal provided that muscle
inserts upon the same bone, even though there may be no bony
evidence of the fact. The element can be absent only when the
muscle disappears or its attachment shifts to another bone. Simi-
larly, no process can be a neomorph uftless it is due to a muscle
that has newly migrated from one bone to another.

Gregory's (1918) contention was that the internal trochanter of
reptiles is homologous to the lesser trochanter of mammals, and
the external trochanter of reptiles to the greater trochanter of
mammals. He also maintained that the third trochanter of some
mammals is a neomorph, while the fourth trochanter of crocodilians,
dinosaurs, and some birds is a divergent derivative of the reptilian
internal trochanteric crest. Romer (1922, 1924) believed that the
lesser trochanter of mammals is entirely different from the internal
trochanter of reptiles, and that the latter, as well as a fourth tro-
chanter, is unrepresented in living mammals. He contended that
the mammalian greater trochanter occurs only in the remains of
mammal-like reptiles and in mammals.

In the following pages particular attention is paid to the condition
in man, the best-known mammal, the reptile Iguana, and the bird
Gallus. Reference is made to many other forms but no serious
attempt is made to analyze the condition of the trochanters in any
fossil reptile. The muscular details in neither Iguana nor any other
living reptile should be considered as in any wise ancestral to those
in mammals. On the contrary, living members of the former class,
with very different postures, have probably departed farther from

282 OSGOOD TESTIMONIAL VOLUME

basic reptiles in the plan of their hip musculature than have mam-
mals. The plan in birds, of course, is different from either but
probably is suggestive of that in archosaurs, and, likely because of
similarity in posture, by parallelism, possibly of conditions in
ornithischian dinosaurs.

The names of the trochanters employed for mammals are too
firmly established for a change to be feasible, yet it would be better
if they were more diagnostic, and, in the present paper only, I wish
to employ alternate terms, based on the muscles concerned, for
easier discussion.

The lesser trochanter of mammals is situated upon the medio-
caudal aspect of the proximal femur. Associated with it is the
iliopsoas; the fibers of the psoas major part of this complex insert
upon the trochanter, and those of the iliacus part mostly directly
distal to the process. In this class, therefore, the lesser trochanter
properly may be termed a femoral process (process of the femoral
nerve group of muscles), or more restrictedly a psoas process.

The mammalian greater trochanter is situated lateral to the
head of the femur and may be high or low. Upon it are inserted
all of the deep gluteal muscles (innervated by the superior gluteal
branch of the peroneal nerve) that are attached to the femur (gluteus
medius and piriformis above, gluteus minimus laterally). But
associated with the margin of the trochanter are quadratus femoris
(tibial group) inserted upon the trochanteric crest, between greater
and lesser trochanters, obturator internus and gemelli (tibial group)
at the medial base of the trochanter just above the trochanteric
fossa, and obturator externus (obturator group) into the fossa.
Accordingly, the greater trochanter is a peroneal, or more properly
a deep gluteal, process, with ventral, chiefly tibial, elements
associated.

But these muscles vary in different mammals and there is corre-
sponding variation in the composition of the trochanter. Appleton
(1928) has claimed that in the marsupial Dasyurus the caudofemoralis
is inserted upon the greater trochanter; but I am not entirely con-
vinced of the homology of this muscle slip. In some mammals
the attachment of the quadratus femoris has wandered away from
the trochanteric crest. The gluteus maximus (inferior gluteal branch
of peroneal nerve) also is often associated in some degree with the
greater trochanter, either along both the process and its distal
base as in some rodents, restricted upon its distal base as in some
carnivores, or at times really beyond the trochanter proper as is

1941

FEMORAL TROCHANTERS— HOWELL

283

usual in man. Associated, and indeed fairly continuous, with the
gluteus maximus in many mammals is a longer unit of the superficial
gluteal muscle (sometimes termed femoro-coccygeus, or erroneously
considered as being the anterior part of the biceps femoris). At
times its connection with the femur is hardly more than fascial,
its real insertion being on the lower leg. In some mammals, however,
it is attached firmly to the femur along the gluteal line, distal to the

•PIRIF:-.
GLUT. MED ..-DEEP GLUT

GLUT MIN--

FEMORAL GROUP
PERONEAL GROUP

- CAUOOIUOFEMORALIS

ij;££5 - OBTURATOR GROUP

|l!|i|i|ii]|l|; - TIBIAL GROUP

FIG. 54. The proximal right femur of man (H), Iguana (I), and Gallus (G),
external views above and end views below. The arrows are disposed in the trans-
verse plane. The labeling is a combination of individual muscle units and basic
groups. Tibial group of Iguana is compound, also with some obturator innervation.

greater trochanter, and this may be defined as a sharp ridge continued
from the greater trochanter or as a separate process, the so-called
third trochanter, at a greater or lesser distance but always proximal
to the center of the shaft. A well-defined third trochanter is charac-
teristic of menotyphlous insectivores, some edentates, the aardvark,
many rodents in varying degree, hyraces, and perissodactyls. The
superficial gluteal seems solely responsible for its definition and it
may be called the superficial gluteal process. Where undefined
the potentiality may be present, either united with or separate
from the greater trochanter.

It is not generally recognized that there is a small but well-
marked process approximately midway of the linea aspera in

284 OSGOOD TESTIMONIAL VOLUME

kangaroos and bandicoots, and the situation is marked by a scar
in some other marsupials (as some of the Didelphidae). Its position
suggests a fourth trochanter, but it is distinct from that, for the
caudofemoralis is inserted more proximally in kangaroos and this
muscle is absent in Didelphis. It is caused by a part of the adductor
muscle, and a desirable name would be the adductor process, in
spite of its distinctness from the adductor tubercle.

In Iguana, the single large trochanter is located mediocaudally,
in almost exactly the same position as, but more proximally than,
the lesser trochanter of mammals. It has a proximal projection or
tip, and, extending distal from this, a pronounced crest. Upon the
tip of this process is inserted the main mass of the puboischiofemoral
flexor musculature (obturator and tibial nerves, chiefly the latter),
although small slips of this insert in two other situations, both laterally
(superiorly). In mammals, the slips of this muscle group like-
wise are inserted in three situations. The sum of the three is equiva-
lent in each class but it is likely that the individual units are not.
If a decision must be made, however, then choice falls upon the
reptilian slips inserting upon the tip of the trochanter as the equiva-
lent of gemelli and obturator internus, the one inserted laterally
most proximally (the ischiotrochantericus, with tibial innervation),
as the quadratus femoris, and the other, inserted laterally and
slightly more distally, as the representative of obturator externus,
or in other words the shortest of the adductor muscles. I repeat,
however, that the attempt at such exact homologies is rash.

Along the anterior face of the crest extending from the trochanter
of Iguana inserts the extensor iliofemoralis (peroneal nerve), or the
equivalent of the mammalian deep gluteal group of muscles. It
pulls anteromedially, so as to rotate the femur inward, while the
flexor puboischiofemoralis, with insertion upon the tip of the tro-
chanter, depresses and retracts the thigh.

In Iguana, the extensor iliotibialis (homologue of the superficial
gluteals) is inserted distal to the femur, so that the potential of the
third trochanter is lacking.

It is difficult in the literature to ascertain just what the various
authors had in mind when they referred to the external trochanter
of reptiles, particularly as this is always poorly defined and other-
wise variable. In Iguana, for instance, there is a pronounced
roughness laterally (dorsally) just below the articular surface mark-
ing the insertion of the flexor ischiotrochantericus most proximally,
a strong ligament of the joint next, and slightly more distally a

1941 FEMORAL TROCHANTERS— HOWELL 285

slip of the coxofemoral flexor group that in position is rather com-
parable to the quadratus femoris but in innervation (chiefly obtu-
rator, possibly with some tibial fibers) is closest to the mammalian
obturator externus (the one of this group that is inserted separate
from both quadratus femoris, gemelli, and obturator internus).
This can be homologous to no part of the mammalian trochanters,
but probably at least in part to the scar in many mammals marking
the insertion of m. quadratus femoris.

The real "external" trochanter in lacertilians should undoubtedly
be considered as occurring upon the caudolateral border of the
shaft a short distance below the head, where is inserted a part of
the following muscle. In Iguana the coxofemoral extensor pubo-
ischiofemoralis, or group equivalent to the mammalian iliopsoas, is
extensive and complex and the origins are very different in the classes
of tetrapods, reflecting dissimilar postures. In Iguana the most
anterior slip does not reach the femur and may well represent
m. psoas minor. The most extensive part is inserted upon the
anterior border of the femur and slightly medially, where there is
no process. It is separated laterally by the lateral vastus1 from
insertion upon the laterocaudal border of the femur of another slip
of this division, and this is marked by a slight but definite process.
Now if the two parts of this muscle division inserting separately
represent the mammalian iliacus and psoas major, then the one
attached more anteriorly should be the latter and the more posterior
the iliacus. In this case the slip that in the reptile causes no process
would be the one that in mammals is chiefly responsible for the
definition of the lesser trochanter, a circumstance by no means
unexpectable as a result of very dissimilar postures. But there is no
way of making sure that the posterior slip in Iguana is represented in
mammals — the anterior units of the former might possibly represent
both iliacus and psoas major. So in reptiles the external trochanter
is also a femoral process (like the lesser trochanter of mammals), but
caused chiefly by the muscle that appears to represent the iliacus.

In Gallus there is a single large and powerful trochanter situated
laterally. In old individuals one can sometimes distinguish a more
anterior or extensor area, and a more posterior or flexor area, the

1 More extensive work on Iguana than that previously reported by me (Howell,
1938b) has indicated that the lateral vastus can be the homologue of the division
of the same name in mammals. The extensor iliofibularis is perfectly double in
some individuals. The "extensor pubotibialis medius" in a later specimen proved
to have only ventral innervation, so instead of being the possible homologue of
an accessory sartorius of mammals it seems to be an adductor element, possibly
representing the adductor longus of mammals.

286 OSGOOD TESTIMONIAL VOLUME

two separated by a slight groove, subtended by the origin of the
vastus lateralis. Accordingly if this muscle extended upward it
would separate the two areas. The insertions of these extensor
muscles are narrowly tendinous and do not cover the whole area.
Above is the deep gluteal (peroneal nerve) element, with a more
inferior slip comparable in some respects to a piriformis, and below
the femoral nerve element, or psoas and iliacus. Upon the posterior
portion of the trochanter is inserted the obturator (obturator nerve)
above, next the short tibial nerve muscle (flexor ischiofemoralis),
and finally the caudo- and iliofemoralis slips.

In the fowl, there is no other trochanter and no hip muscles
are inserted upon the medial aspect of the proximal femur, except
that the attachment of the adductor mass, on the "linea aspera,"
occurs some distance below the head. Accordingly in Gallus the
single trochanter to some extent represents the combined elements
of the greater and lesser trochanter of mammals and the fourth
trochanter of Sauropsida as well.

The fourth trochanter is a process of variable definition located
mediocaudally on the femur and usually well down the shaft,
assertedly (by many authors) in crocodilians, dinosaurs, and birds.
Most agree that it marks the insertion of the caudofemoralis. In
the case of birds, the statement is usually made that the process
occurs in the extinct moas Dinornis and Apatornis. Dollo (1888)
mentioned its presence in the black swan. It is detectable, with
considerable variation, in a number of genera of moas that I have
examined through the kindness of those in charge of the collections
of the United States National Museum. It can also be discerned
in most old swans, and usually to a lesser degree in a number of
geese and ducks. I have sought for it without success in a large
number of other avian groups, both Recent and fossil. In the
domestic duck, at least, the caudofemoralis is associated with this
process, but I am unable to say that the former is solely responsible.

In crocodilians and apparently in sauropods the process usually
termed fourth trochanter (Gregory, 1918; Romer, 1923a, b) is really
nothing but the internal trochanter situated more distally than in
some other reptiles and with the caudofemoralis in closer relation
to it than in lacertilians. In the alligator no muscle is inserted
upon the medial femur proximal to this process. In Iguana the
caudofemoralis is inserted upon the medial base of the trochanteric
crest and causes no process. The condition in dinosaurs can, of
course, never be analyzed with assurance, but some of the Ornith-

1941

FEMORAL TROCHANTERS— HOWELL

287

ischia have a strong process medially and well down the shaft
which occasionally (Camptosaurus) may be long and falciform.
This is in the position that one would expect to find the insertion
of a caudofemoralis powerfully developed for retracting the limb
and thus elevating the body to a bipedal position.

In mammals the insertion of the caudofemoral element is ex-
tremely variable. The muscle is absent in not a few mammals.

•OBT INT * GEMEL
-•QUAD FEM.

-PSOAS-...
-ILJACUS--'"

CAUDOFEM.^.

ADDUCT. - OBT. G.

- FEMORAL GROUP

- PERONEAL GROUP

£l - OBTURATOR GROUP
ill - TIBIAL GROUP

- GAUDOFEMORALIS

FIG. 55. The proximal right femur of man (H) from the medial aspect, and
of Iguana (I) from the cranioventral aspect.

When present in placental mammals it is inserted well down the femur,
then being known as the presemimembranosus, or in man the part
of the adductor magnus innervated by n. tibialis. Where it leaves
evidence of its insertion this is known as the adductor tubercle,
just above the medial condyle. In marsupials and monotremes,
however, the muscle usually is inserted higher. In these groups it
causes no process, so far as I am aware, but a caudofemoral process
(which would be a better name than adductor tubercle) may well
be discovered in some of them.

Unquestionably the hind limb of both a lizard and a bird is very
highly specialized, the former especially in regard to a particular
posture very different from that of mammals, and the latter in all

288 OSGOOD TESTIMONIAL VOLUME

respects. I have no hesitancy in saying that the muscle insertions
of the lizard hip do not reflect the conditions that obtained in the
stem reptiles. Accordingly, the "elements" stimulating the forma-
tion of the trochanters are different, and the trochanters themselves
must be different. A posteriorly located chief trochanter probably
was basic for reptiles. From this position it must have migrated
caudomedially to attain its position in modern lizards and latero-
cranially in the case of mammals and in birds with their largely
similar limb posture. The position of the "lesser" trochanter in
the Iguana appears to be exaggerated. The basic situation of this
probably was anteriorly or essentially so. From here it has migrated
laterocaudally in Iguana, slightly laterally in the fowl, and medio-
caudally in mammals. In some mammals, as man, the two tro-
chanters are in such close relation that they are separated merely
by a ridge. A relatively small movement by the lesser would merge
the two and there would then be a condition similar to that in
birds, but in reverse — the lesser upon the caudal rather than the
cranial part of the greater trochanter. The stimulus of increased
outer rotation of the limb might eventually effect this.

In summary, the mammalian lesser trochanter is a femoral group
or iliopsoas process. The greater trochanter is a deep gluteal or
partly peroneal group process with associated short flexor, chiefly
tibial, elements around its margin and either a superficial gluteal
element included or separate, in the latter case sometimes causing
a third trochanter. The adductor tubercle is the fourth trochanter
of mammals. An adductor process also occurs in some marsupials.

The internal trochanter of Iguana is essentially a short flexor,
largely tibial, and a deep gluteal or peroneal process. The faint
process more laterally (dorsally), or external trochanter, is a femoral
or probably iliacus process. The fourth trochanter of some fossil
reptiles is probably a caudofemoral process.

In modern birds, the large lateral trochanter represents a fusion
of the elements of the mammalian greater and lesser trochanters,
but without the element (superficial gluteal) of the mammalian third
trochanter and with, in the fowl, the element of the fourth trochanter.
Where the last is defined it is a caudofemoral process.

A condensed list of these processes, but too short for the inclusion
of all qualifications, may be desirable.

Lesser trochanter of mammals (= femoral or psoas process). Psoas
major (chiefly) and iliacus.

1941 FEMORAL TROCHANTERS— HOWELL 289

Greater trochanter of mammals (= deep gluteal process). Deep glu-
teal (chiefly), with tibial (and sometimes other) elements associated.

Third trochanter of mammals (= superficial gluteal process).
Superficial gluteal element.

Adductor process of marsupials. Middle adductor fibers.

Internal trochanter of reptiles. Tibial (chiefly) and obturator,
with deep gluteal element associated.

External trochanter of reptiles. A femoral process, caused by a
femoral (probably= iliacus) unit.

Lateral trochanter of birds. Chiefly deep gluteal and obturator,
but also tibial and femoral elements.

Caudofemoral process (= fourth trochanter or adductor tubercle).
Caudofemoral or presemimembranosus muscle.

To facilitate comparisons there is presented on page 290 a table
of homologies of the coxofemoral muscles in the three animals under
consideration.

ti

Q ^D M K t^ •»-«

Sill .1

O

pb

gc«

^5

*Sll*i

_ S S-?3 a)

1 I'lfe
§ g g^

"^ 03 M 3

c« c4 o
0 0 eS

QQ BO *^

,—v^ PL^

g g.2""*.

II .2 i

3 ^ *C ^

Pectineus (0)
Adductors (O)
Obturator extern.

, Gemelli (T)
Obturator intern. (
Quadratus femoris

T part adductor
(=presemimem

:le slips (indicated f
theses. Muscles are
ches; prozonal and ;
ntral prozonal and i
i cated by underscor
thway followed (n. f

M

£^J

M
M

>

>

35 c « gTJ a

hH

£ t-i I* "-*

^-i ^ Q>'S"'4'S

|.g t rf| g

6

;Sfc^||'5

AMORAL MUSCLES

Fh ' C0

rt c
Sc«
••"•j

I. Gluteus prof. (P)
Piriformis (P)

I. Adductor superf. (0)
Adductor prof. (O)
Obturator (0)

V. Flex, ischiofemoralis

^. Caudofemoralis
Iliofemoralis

exact comparison of in(
indicated by capital let
iral (F) and peroneal (I
iofemoral group. In If
curs the main nerve in
intral) of its fibers rathe

HH

O

i— i

H- 1

H- 1

"S S g rt °-t-

0

JS cSg 0 QJ"^

0

-^

JJ-O §."g g

o

"s

t-> C **

2 >.2 S-e ®

"S

o cs g

5 fc'o< > rt^

HOMOLOGIES

/^wana
. puboischiofemoralis (F):
(=psoas minor?)
c (=psoas major?)
(=iliacus?)

0.

Jfi

"rt
O

«2

1
|

x. puboischiofemoralis (OT)
deep adductor:
, b, c, d (=obtur. intern,
gemelli?) (OT)
(=obtur. extern.?) (O)
ischiotrochantericus (=quad
femoris?) (T)

adofemoralis

an interrogation mark) to
ly of a general nature. Inm
1 and metazonal dorsal, sup
rator (O) and tibial (T) nei
gtely separated; where this
tineus is given according to

H

"K
H

1

0) & V4—.

03

O

eoglfs,

-

I-H
(— 1

h-?
t-t
HH

HH

^

*OJ3 g ° O C

P

III

§

0

llg-s^-J

13

i

i sfi 1 {!

S

-g

1—1 *c "S ** **

i

i

^.s 111

290

REFERENCES

APPLETON, A. B.

1925. Influence of Mechanical Factors on Epiphyseal Ossification. Proc.
Anat. Soc., Journ. Anat., 60, pp. 30-32.

1928. The Muscles and Nerves of the Post-Axial Region of the Tetrapod
Thigh. Journ. Anat., 62, pp. 364-438.

DOLLO, L.

1888. Sur la signification du "trochanter pendant" des dinosauriens. Bull.
Sci. France et Belgique, 4-8, pp. 215-224 (not seen).

GREGORY, W. K.

1918. Note on the Morphology and Evolution of the Femoral Trochanters
in Reptiles and Mammals. Bull. Amer. Mus. Nat. Hist., 38, pp. 528-538.

HOWELL, A. B.

1938a. Muscles of the Avian Hip and Thigh. Auk, 55, pp. 71-81.
1938b. Morphogenesis of the Architecture of Hip and Thigh. Journ. Morph.,
62, pp. 177-218.

PARSONS, F. G.

1904. Observations on Traction Epiphyses. Journ. Anat., 38, pp. 248-258.

ROMER, A. S.

1922. The Locomotor Apparatus of Certain Primitive and Mammal-like

Reptiles. Bull. Amer. Mus. Nat. Hist., 46, pp. 517-606.
1923a. Crocodilian Pelvic Muscles and Their Avian and Reptilian Homologues.

Bull. Amer. Mus. Nat. Hist., 48, pp. 533-552.
1923b. The Pelvic Musculature of Saurischian Dinosaurs. Bull. Amer. Mus.

Nat. Hist., 48, pp. 605-617.
1924. The Lesser Trochanter of the Mammalian Femur. Anat. Rec., 28,

pp. 96-102.

291

ON THE IDENTITY OF THE PORPOISE
SAGMATIAS AMBLODON

REMINGTON KELLOGG

Curator of Mammals, United States National Museum

Species and even genera of porpoises have been based repeatedly
on the more or less complete skull and mandibles of one individual.
In many instances the external form, the color pattern, and the
skeleton of the supposed new form of porpoise were unknown to
the original describer. Furthermore, the literature relating to the
porpoises, and particularly the accounts published by naturalists
accompanying the early nineteenth century cruises of exploration,
contain specific names based on external features alone and in
many instances the descriptions and illustrations are based on
porpoises seen at a distance from the ship. Duplication of names
for some of these porpoises would therefore seem inevitable, but the
correlation of names based on external form with those based on
osteological characters has proved troublesome chiefly because of
the difficulty of observing and capturing porpoises in remote oceans
and seas.

Among the specimens collected by the United States Exploring
Expedition, 1838-42, under the command of Charles Wilkes, U.S.N.,
were two porpoises. The description for one of these, Phocaena
australis, is based solely on external form and color. Our knowledge
of the other, Sagmatias amblodon, has been restricted hitherto to
the skull and jaws described by Cope in 1866. During the hundred
years since the termination of this exploratory cruise no additional
specimens allocated to either of the above specific names have
been recorded in the literature. Examination of the cetacean collec-
tions in the principal museums of Europe by the writer in 1930,
1937, and 1938 failed to reveal the existence of unrecorded specimens.
It was, therefore, an agreeable surprise to have the skull, mandibles,
measurements, and photographs of a porpoise from Chile submitted
for identification by Colin Campbell Sanborn. In the fall of 1922,
Dr. Wilfred H. Osgood, Mr. Boardman Conover, and Mr. Sanborn
arrived in Chile and commenced extensive field work, in the course
of which the above-mentioned porpoise was found on January 12,
1923, on the beach near the mouth of the Rio Inio, Chilce" Island,
Chile. It is a matter of some satisfaction that the Chiloe" Island por-

293

294 OSGOOD TESTIMONIAL VOLUME

poise has cleared up the relationship between Phocaena australis
and Sagmatias amblodon.

The clarification of the status of the two porpoises collected by
the United States Exploring Expedition is complicated somewhat
by the absence of precise information as regards the collectors of
the specimens on which these names are based. Four of Peale's
diaries have been acquired by the Library of Congress, but unfortu-
nately the one containing his observations during the period between
August 19, 1838, and April, 1839, is missing. It is a matter of record
that the collections made by this expedition were shipped to Wash-
ington, D.C. In accordance with orders, the boxes containing the
collections were transferred to the National Institution of Washington
where the covers were removed and the contents scattered before
arrangements had been completed to have competent naturalists
prepare reports on the results of the cruise. Hence it is quite possible
that whatever data originally accompanied some of the specimens
got misplaced or lost. Furthermore, the collections stored on the
U.S.S. Peacock were destroyed when that ship was lost July 18,
1841, at the mouth of the Columbia River, Oregon. Peale (1848,
p. 305) in his list of specimens collected by the expedition makes
no mention either of a skull for Phocaena australis or of the skull
which Cope subsequently made the basis for Sagmatias amblodon.

On February 12, 1839, while off the coast of Patagonia one day's
sail north of the Straits of Le Maire between Staten Island and Cape
San Diego, Tierra del Fuego, a porpoise was harpooned by someone
on one of the ships of the United States Exploring Expedition. This
porpoise was considered by Peale (1848, p. 33) to represent an
undescribed species to which he gave the name Phocaena australis.
Peale lists an illustration for this porpoise (pi. 6, fig. 2) which was
not published at the time. Since this volume was subsequently with-
drawn from circulation, Peale's brief description will be repeated here.

"Snout, back, and all the fins, dark slate-colour; sides paler,
or gray; a white lateral line commences opposite the posterior edge
of the dorsal fin and reaches the tail; beneath white, which joins
the gray of the sides by an undulated line.

"Total length, 7 feet [2,133 mm.]; greater diameter, opposite the
dorsal fin, 18 inches [457 mm.]; pectoral fin, 16 inches [406 mm.]; dor-
sal fin, 17 inches [432 mm.]; across the tail 20 inches [508 mm.].

"Dental formula: f|Ei§ = 120."

Cassin (1858, p. 27), however, when he republished Peale's
description identified this porpoise with Gray's Delphinus obscurus;

1941 SAGMATIAS AMBLODON— KELLOGG 295

the illustration listed by Peale appears in the atlas for volume 8
(pl. 5, fig. 1).

When the expedition ships sailed from the mouth of the Rio
Negro for Cape Horn on February 2, 1839, Titian R. Peale was
on board the U.S.S. Peacock, commanded by William L. Hudson,
U.S.N. Charles Pickering, naturalist, and Joseph Drayton, artist,
were assigned to the U.S.S. Vincennes, commanded by Charles
Wilkes, U.S.N. It is probable that the illustration of the external
form of this porpoise was made shortly after the animal had been
hauled on board, but Peale does not indicate whether the drawing
was made by himself or by Drayton.

No explanation is given by Peale for the measurements of the
dorsal fin and the pectoral flipper, and consequently some allowance
must be made when these measurements are compared with those
of the porpoise from Chiloe' Island. It is also very probable that
teeth hidden in the gums are not included in the dental formula.
The illustration for australis, however, agrees in all essential details
with the photographs of the Chilce* Island porpoise. Since the skull
of the Chiloe* Island porpoise is indistinguishable from that of
Sagmatias amblodon, there exists the possibility that the skull of
the latter may have actually belonged to the porpoise which was
taken off the coast of Patagonia and described by Peale.

The skull and mandibles of a porpoise "caught at sea" by some-
one on board the U.S.S. Vincennes were made the basis of a new
genus and species, Sagmatias amblodon, in 1866 by E. D. Cope.
Dr. Charles Pickering, naturalist assigned to that ship, informed
Cope that he had no record or recollection of the capture of this
porpoise and that it was therefore probably procured while he was
absent from the ship during the voyage from Cape Horn to Lima,
Peru, or afterwards during his stay in Australia and New Zealand
(Cope, 1866, p. 295). On the left mandible of the type of Sagmatias
amblodon the original inscription in ink is in part illegible. It has
been possible, however, to restore temporarily the inscription, which
reads as follows: "No. 2; lower jaw of a porpoise, caught at sea,
U.S. Ship Vincennes." The entry under No. 3887 in the catalogue
of the Division of Mammals, United States National Museum,
reads as follows: "Original No. 2; porpoise; caught at sea; Vincennes;
Ex. Ex." The handwriting on the mandible has not been identified
with that of anyone employed by the National Museum. Whether
or not this inscription was placed on the mandible during the cruise
or after it arrived at the National Institution of Washington can

296 OSGOOD TESTIMONIAL VOLUME

not be determined from available information. On the skulls of
other specimens received from this expedition, the data are recorded
in ink.

Lagenorhynchus australis Peale. PEALE'S PORPOISE.

Phocaena australis Peale, U. S. Explor. Exped. 1838-42, 8, Mammalogy and
Ornithology, p. 33, 1848.

Delphinus obscurus Cassin, U. S. Explor. Exped. 1838-42, 8, Mammalogy
and Ornithology, p. 27; atlas, pi. 5, fig. 1, 1858 (not of Gray, 1828).

Sagmatias amblodon Cope, Proc. Acad. Nat. Sci. Phila., 18, No. 4, p. 294,
1866.

Sagmatias amblodon True, Bull. U. S. Nat. Mus., 36, pp. 106, 175, pi. 30,
fig. 1, 1889.

Type. — Nothing is known about this specimen. Off coast of
Patagonia, one day's sail north of the Straits of Le Maire between
Staten Island and Cape San Diego, Tierra del Fuego. Collected
February 12, 1839, by someone on one of the ships of the United
States Exploring Expedition, 1838-42.

Referred specimens. — (1) Skull of old adult, the type of Sagmatias
amblodon, No. 3887 United States National Museum. Locality
unknown, "caught at sea." Collected by someone on U.S.S.
Vincennes, United States Exploring Expedition, 1838-42. (2) Skull
of adult male, No. 22248 Field Museum of Natural History. Rio
Inio, Chilo£ Island, Chile. Collected January 12, 1923, by Colin C.
Sanborn and Wilfred H. Osgood. Original No. 60 (C.C.S.).

Diagnostic characters. — Size medium in adults, total length greater
than 2,100 mm.; height of dorsal fin greater than 200; greatest spread
of caudal flukes greater than 500; anterior lateral area light gray;
entire head black, including snout, upper and lower lips, chin and
throat; eye located within black of head; narrow dark streak extend-
ing from side of black throat (and not from eye or angle of mouth
as in obscurus) to base of pectoral flipper; white under parts separated
from anterior lateral light gray area by an undulating narrow dark
streak; skull with premaxillaries distinctly swollen and elevated
above orbital plates of maxillaries between choanae and premaxillary
foramina; premaxillaries not depressed in front of premaxillary
foramina to form a distinct triangular prenarial depression, which
is replaced by a rugose area; exposed portions of f rentals on vertex
separating nasals from the prominent knob-like anterior quadrangular
process of supraoccipital; tooth formula 32 to 33 on each side of
rostrum and 29 to 33 in each mandible.

1941 SAGMATIAS AMBLODON— KELLOGG 297

Color. — Since no color notes were recorded at the time the Chilo£
Island porpoise was collected, comments are necessarily restricted
to the details shown on the five available photographs. The dark
areas on the upper parts were presumably black or dark slate color,
the light lateral areas light gray or white, and the under parts between
the throat and the caudal peduncle pure white. The dark color
extends over the whole head from the tip of the snout and the
upper lips to at least 35 mm. behind the eye. The lower lips, chin,
and throat to behind the level of the eyes are likewise dark. A narrow
curved dark stripe extends forward from base of the dark pectoral
flipper to the side of the dark throat. The dark-colored area on
the upper parts is constricted between the level of the eye and the
pectoral flippers, but increases in width up to the level of the center
of the dorsal fin, and then continues as an attenuated dorsal band
toward the caudal flukes. Falcate dorsal fin, pectoral flippers, and
both surfaces of caudal flukes are black. Under parts from vent
to throat pure white, separated by a thin dusky streak from the
anterior lateral light gray area. The light gray anterior lateral
area commences on this thin dusky streak at about the level of the
hinder margin of the dorsal fin and increases in width anteriorly,
extending forward above base of pectoral flipper to behind the eye
and possibly below the latter as a narrow streak to the angle of the
mouth. A posterior white lateral band, attenuated at both ends
and separated from the anterior light gray lateral area by an oblique
prong-like backward extension of the dark color of the upper parts,
extends from the peduncle forward to about the level of the center of
the dorsal fin. The white under parts are distinctly separated from
the anterior lateral lighter area by an undulating dusky streak, but
the dark areas on the upper parts seem to shade to some extent
into the light-colored lateral areas.

The possibility is not excluded that Delphinus albigena (Quoy
and Gaimard, 1824-26, p. 87, pi. 11, fig. 2), which was based on a
porpoise observed in January, 1820, near 49° S. Lat. somewhere
between New Holland [= Australia] and Cape Horn, may have been
the first name given to the species here designated as Lagenorhynchus
australis. The illustration and description are, however, not based
on a harpooned porpoise. Accurate description of porpoises is
uncertain under the most favorable conditions of observation and
consequently the status of the name albigena is questionable. The
entire body of albigena, with the exception of the anterior lateral
elliptical white area which extends forward from about the level of the
middle of the dorsal fin to beyond the eye, is represented as being

298 OSGOOD TESTIMONIAL VOLUME

black. So far as known, no species of Lagenorhynchus has entirely
black under parts.

Externally, australis seems to be distinguishable readily from the
North Pacific obliquidens. The under parts of obliquidens are pure
white from behind the vent forward to the dark chin, the white
extending upward on the throat to the lower lips. A sharply defined
dark streak, extending from the angle of the mouth to the pectoral
flipper and from the hinder basal angle of the latter to behind the
vent, separates the white under parts from the anterior lateral light
gray area. Further, the anterior lateral light gray area of obliquidens
is more elliptical in outline, terminating posteriorly at about the level
of the center of the dorsal fin, shading along its dorsal border into
the dark color of the upper parts and the top of the head, and ex-
tending forward across the side of the head through the eye and
above the black upper lip to the base of the black snout. This ante-
rior lateral light-colored area does not extend upward on the neck as
high as on australis and is separated from the posterior lateral light-
colored area by a broader downward continuation of the dark upper
parts.

The synonymy of Lagenorhynchus obscurus, which seems to be
closely related to australis, is involved in complications which
center around inferences that may be drawn from the external form
and the color patterns depicted in the published illustrations of the
type specimens of obscurus, fitzroyi, breviceps, and posidonia, and
the lack of precise information as regards the structural peculiarities
of the skulls and mandibles removed from these same specimens.

The status of Lagenorhynchus obscurus from the seas south of the
Cape of Good Hope is still unsatisfactory although more than a
hundred years have elapsed since the original specimens were brought
back to England by Captain Heaviside. The original description of
Delphinus (Grampus) obscurus (Gray, 1828, p. 2, pi. 2, figs. 2-5) is
based on stuffed skins of a young and of an adult, and crania. These
specimens should thus be considered cotypes. Attention is directed
particularly to Gray's illustrations which show no distinct beak on
either the young or the adult.

The lower lips and chin of the stuffed skin of the young porpoise,
according to the illustration published by Gray (1828, pi. 2, fig. 2),
are black and the under parts from chin to vent are white. A broad
light band, continuous ventrally with the white under parts, com-
mences at about the level of the vent and extends obliquely forward
almost to the head above the fairly wide dark band extending from
the base of the pectoral flipper to the eye. The posterior lateral light

1941 SAGMATIAS AMBLODON— KELLOGG 299

band is somewhat narrower and about half the length of the anterior
one. It commences near level of hinder end of caudal peduncle
and extends obliquely forward to level of hinder edge of dorsal fin.
Under surface of caudal peduncle dark, continuous anteriorly with
broad oblique dark band which separates posterior lateral light band
from anterior one. Pectoral flippers, dorsal fin, caudal flukes, and
upper parts, with exception of lateral light bands, from tip of snout
to caudal flukes are dark, presumably black.

Furthermore, Gray (1828, p. 2) states that "even in the older
specimens the white lateral streaks are to be seen in certain positions,
—a fact which is not shown in the drawing" (i.e., the stuffed skin
of the adult, 1828, pi. 2, fig. 3) . Unfortunately, Gray did not state that
these white lateral streaks corresponded in position to those on the
stuffed skin of the young porpoise. Lateral light streaks in some-
what different positions are present in some species of Stenella, but
all show a distinct demarcation between the moderately long snout
and the forehead. Flower (1885, p. 28) made the stuffed skin of
the adult the lectotype and allocated obscurus to Prodelphinus
[= Stenella], presumably because of characters revealed by the skull
which had been removed from this stuffed skin in 1884. The skull
of the lectotype, however, has not been described, and the crania
mentioned by Gray are not recorded in subsequent British Museum
(Natural History) catalogues.

If one accepts Flower's allocation of the lectotype of obscurus
to Stenella as accurate, two alternative assumptions should be con-
sidered. The first is that the skull removed from the lectotype stuffed
skin was substituted for the original one by the taxidermist who
prepared the skin, and the second that Gray's comments on the
presence of lateral white streaks on the adult stuffed skin are not
to be interpreted as indicating a color pattern of the same general
type as that exhibited by the stuffed skin of the young porpoise.
In this connection, it should be noted that Gray later (1866, p. 265)
stated that "the Delphinus obscurus var. (Quoy and Gaimard, 1830,
vol. 1, p. 151, pi. 28) is described from a specimen prepared by
M. Jules Verreaux belonging to the Museum of Cape Town. He
prepared the specimen I described [1828, p. 2, pi. 2, fig. 3]; indeed
it is probably the same example." The external coloration of the
stuffed skin described and figured by Quoy and Gaimard differs
from that of Gray's young individual in several respects. The
most obvious dissimilarity is the deep anterior bifurcation of the
posterior lateral grayish white band. Secondly, the anterior lateral
grayish white band, which commences at about the level of the

300 OSGOOD TESTIMONIAL VOLUME

vent, extends forward above the pectoral flipper, across the side of
the head through the eye and around the forehead to the base of the
snout. The tip of the snout, according to the description, is more
or less grayish white, but is not so depicted in the illustration.

Although doubt may always be raised, it seems advisable to
base the determination of obscurus on Gray's original description in
which the diagnostic color pattern of this porpoise is described as
follows: "collo ventreque albidis, fascia nigra ab angulo oris usque
ad pinnas pectorales; striga obliqua laterali alba postica; caeterum
totus niger." It should also be noted that Gray's original descrip-
tion of obscurus is limited to the external form, coloration, external
measurements, and dentition, no cranial characters being listed.

Further confirmation of the external color pattern of this porpoise
is given in the following description of another individual (1,651
mm. in length), which was captured in Hout Bay near Cape Town
(Sclater, 1901, p. 204) : "General color of upper parts black, shading
on head and at base of pectoral flippers to slaty gray; upper lips
black shading to slaty gray above; lower lips black shading to white
below; throat and under parts backward to vent white; under surface
of caudal peduncle slate-colored; from near level of vent there extends
obliquely forward into the black of the sides two slate-colored bands;
caudal flukes and pectoral flippers dark slate."

This embarrassing confusion in the nomenclature of southern
porpoises has arisen evidently from the confounding of the short-
beaked Lagenorhynchus obscurus with another longer-beaked porpoise
of approximately the same size.

During the cruise of the "Terra Nova," Wilson prepared illustra-
tions for porpoises (Lillie, 1915, pi. 8, figs. 2-5) seen near Cape
Town, south of Australia, between Australia and Tasmania, and
off New Zealand. These illustrations depict a porpoise that has the
dark upper parts separated from the lighter-colored sides and the
white under parts by a lateral black streak of variable conformation
which encircles the forehead at the base of the white-tipped snout
and extends backward through or above the eye almost to the caudal
flukes and in some individuals is interrupted at the level of the vent by
an oblique light streak that extends forward toward the level of the
anterior edge of the dorsal fin. They were considered by Lillie (1915,
pp. 122-123) to represent Lagenorhynchus obscurus, although the
porpoise clearly belongs to the long-beaked group. The conclusion
seems inescapable that a porpoise with a moderately long and narrow
snout has been erroneously identified as Lagenorhynchus obscurus.

1941 SAGMATIAS AMBLODON— KELLOGG 301

For this porpoise Gray's name Clymenia [=Stenella] similis may be
available and to this species should be referred a number of skulls
listed under Prodelphinus obscurus by Flower (1885, p. 28).

Gray (1850, p. 108; 1866, pp. 265, 400) seems to have been the
first to suggest that Delphinus fitzroyi of Waterhouse (1838) is
specifically identical with Lagenorhynchus obscurus. This porpoise
has been captured at St. Joseph's Bay, Golfo de San Matias, and
Mar del Plata, Argentina.

With the exception of the chin and normally the under surface
of the caudal peduncle as far forward as the vent, the under parts
of Fitz-Roy's porpoise are white. The caudal flukes, dorsal fin,
pectoral flippers, upper parts, and sides (with exception of the light
oblique lateral bands), top of head, snout, and lower lips are usually
black. The lateral light bands vary from white to deep gray. The
broad band extending from the pectoral flipper to the angle of the
mouth varies from black to gray. According to Gallardo (1912, p. 395,
figs. 1, 2) the eye of the female from Mar del Plata is in the dark area of
the head. On the specimen from Golfo de San Matias described by
Lahille (1901), the eye is located in the gray band that extends
from the base of the snout and the angle of the mouth across the
side of the head and then curves downward to the base of the pectoral
flipper.

Lahille (1901, pp. 4-5) noted that even the oblique lateral light
bands vary in width, length, and number on porpoises seen in Golfo
de San Matias. One of these variants was harpooned at Joseph's
Bay during the voyage of the Beagle. The colored drawing of this
female made by Captain Fitz-Roy was reproduced by Waterhouse
(1839, pi. 10). This porpoise has a deep gray lateral band about
midway between the base of the caudal flukes and the dorsal fin, and a
second longer oblique deep gray band below the former which extends
forward beyond the level of the dorsal fin. The third or anterior
lateral band is white and is continuous ventrally with the white
under parts behind the pectoral flipper. It extends forward above
the pectoral flipper through the eye to the angle of the mouth,
blending with gray above the eye. A broad gray band extends from
the pectoral flipper to the angle of the mouth. The porpoise captured
at Golfo de San Matias (Lahille, 1901, pi.) has much wider white
lateral bands than either the type (Waterhouse, 1839, pi. 10) or
the specimen taken at Mar del Plata (Gallardo, 1912, figs. 1, 2).

A short-beaked porpoise captured during the cruise of the
Astrolabe and the Zelee in the Rio de La Plata is figured under the

302 OSGOOD TESTIMONIAL VOLUME

name of "Dauphin a museau court" by Hombron and Jacquinot
(1842-53, pi. 22, fig. 1). This illustration became the basis of
Wagner's Delphinus breviceps (1847, Theil 7, p. 427, pi. 368, fig. 1),
but it should be noted that the figure published by Wagner is a crude
copy of the original one. Jacquinot and Pucheran (1853, pp. 39, 40)
have accepted Wagner's name Delphinus breviceps for this porpoise.
They state, however, that they have only fragments of the skull
and that the tooth formula is g. True (1889, pp. 89-90) has
commented on the two figured skulls that have been identified as
breviceps. Hombron and Jacquinot's illustration represents a short-
beaked porpoise that has the external form and coloration of a
Lagenorhynchus and should be regarded as one of the color variants
of the porpoise hitherto known as Lagenorhynchus fitzroyi. The
original of Hombron and Jacquinot's illustration of breviceps was
painted by Werner from a field sketch made by Lebreton. The
lateral oblique light bands are indistinctly indicated in this illustra-
tion, but are discernible in essentially the same positions as on the
porpoise figured by Gallardo (1912, fig. 1).

Philippi's Phocaena posidonia (1893, p. 9), which was based on
a short-beaked porpoise harpooned off the coast of Chile in 48° 10'
S. Lat., 77° 0' W. Long., is closely related to and doubtfully distinct
from obscurus. The illustration of posidonia (Philippi, 1893, pi. 2,
fig. 1), if correctly drawn, represents a porpoise that has a slate
gray dorsal area extending from the base of the short snout to the
caudal flukes. The snout, upper and lower lips, pectoral flippers,
dorsal fin, and caudal flukes are black. The anterior lateral light gray
area originates behind the level of the dorsal fin and extends forward
above the pectoral flipper through the eye and above the black upper
lip to the base of the snout. The posterior lateral light gray band
originates near the caudal flukes and is bifurcated anteriorly, the lower
fork extending forward beyond the level of the anterior edge of the
dorsal fin. Two slate-gray prongs from the dark upper parts are di-
rected backward and downward, the anterior or lower prong reaching
almost to the level of the vent and separating the anterior lateral light
gray area from the lower fork of the posterior light gray band, the
upper prong, shorter than the lower one, separating the two forks of
the posterior lateral light gray band. This porpoise is represented as
having entirely white under parts from chin to caudal flukes. Philippi
concluded that posidonia was distinct from Lagenorhynchus fitzroyi
because of the absence of the dark streak extending from the angle
of the mouth to the base of the pectoral flipper and because of sup-
posed differences in the shape of the head.

1941 SAGMATIAS AMBLODON— KELLOGG 303

Lesson and Garnet's Delphinus superciliosus (1827, p. 181, pi. 9,
fig. 2) was based on a short-beaked porpoise measuring 50 French
inches (1,353 mm.) in length. This porpoise was harpooned at
the side of the Castle-Forbes in 44° S. Lat., off Cape Die"men
[= South Cape], Tasmania. The external color pattern is described
by Lesson and Garnot as follows: "All of back, head and conical
rostrum black; dorsal fin, pectoral flippers and caudal flukes brown
[brunes]; sides and under parts satiny white; a white band passes
above eye to forehead; a lateral white streak in dark upper parts
in front of caudal flukes." The illustration shows that the rostrum
and the upper lip were likewise black. Curiously enough, super-
ciliosus resembles posidonia in having the under parts entirely white
from the tip of the lower jaw to the caudal flukes. The under surface
of the caudal peduncle of porpoises previously identified as obscurus,
fitzroyi, and breviceps is, however, slate gray or black. Furthermore,
both superciliosus and posidonia are depicted as lacking entirely
the dusky streak that extends forward from the base of the pectoral
flipper in the general direction of the angle of the mouth or the eye
in the above-mentioned porpoises, and as having an entirely white
lower lip and chin. The Chilean posidonia has light gray lateral
bands in contrast to the satiny white sides and white posterior streak
of the Tasmanian superciliosus. The short-beaked Delphinus super-
ciliosus has the external form and coloration of a Lagenorhynchus
and should be regarded as a species distinct from obscurus.

Within the limitations of the data furnished by published descrip-
tions and illustrations, it seems reasonable to conclude that the
range of variation in the external color pattern of Lagenorhynchus
obscurus is greater than that exhibited by any other species in this
genus. Sufficient material is not available at present to determine
whether or not some of the names now placed in the synonymy of
obscurus may eventually be employed to designate geographic races.
The external color patterns of all of the above-mentioned porpoises,
previously allocated to obscurus, fitzroyi, breviceps, posidonia, and
superciliosus, resemble that of australis in some details. The two
known specimens of australis are, however, somewhat larger than
any of the above and have a black chin and throat. Furthermore,
the eye is located within the black which covers the entire head,
including the snout and upper lip. The narrow dark streak extends
from the side of the black throat and not from the eye or the angle
of the mouth to the base of the pectoral flipper, and the white under
parts are separated from the anterior lateral light area by an
undulating dusky streak.

304 OSGOOD TESTIMONIAL VOLUME

Peale's porpoise is not likely to be confused with Lagenorhynchus
cruciger (D'Orbigny and Gervais, 1847), which has a black and white
color pattern and has been reported off the coast of Patagonia, south
of Cape Horn, and off the coast of southern Chile. On the latter
(Nichols, 1908, fig. 3), the black areas cover chin and fore part
of throat, lower and upper jaws to angle of mouth, snout, top of
head, dorsal fin, median portion of upper parts from head to caudal
flukes, caudal flukes, lower half of caudal peduncle, and the lateral
stripe extending from caudal peduncle to eye, which is expanded
dorso-ventrally below dorsal fin and is connected with pectoral
flipper by band of corresponding width. The lateral white band
extends from in front of level of base of caudal peduncle to about
level of center of dorsal fin where it is pinched off by median expansion
of black lateral band, and from in front of level of base of anterior
edge of dorsal fin forward over eye to base of snout. The under
parts with the exception of chin, throat, and caudal peduncle
are white. Liouville (1913, pp. 90-93) contends that marked
polymorphism exists in the color pattern of this porpoise.

External form. — The head of the porpoise from Chilo£ Island
has a very short beak, which is distinctly outlined. The flattened
forehead slopes obliquely downward from in front of the "blow-
holes" to the shallow groove which marks off the short beak. The
falcate dorsal fin is relatively shorter than in obliquidens and is
less strongly recurved; it has an elongated base and its backwardly
curved tip is bluntly rounded. The pectoral flippers are of moderate
length, falcate in shape, pointed at the distal end, and relatively
broad near the base, the hinder edge being concave and the anterior
edge convex.

External measurements (taken by collectors in millimeters).—
Field Museum No. 22248: total length 2,159; length from tip of
snout to anterior edge of eye 260; length from tip of snout to
anterior edge of dorsal fin 990; vertical height of dorsal fin 210;
length of pectoral flipper, proximal end to tip, 350; greatest spread
of caudal flukes 530.

Skull. — Cope (1866, p. 294) stressed the importance of the thin
and shelving edges of the supraorbital plates of the maxillaries on
the type skull of Sagmatias amblodon. This modification, however,
is not constant, since the Chilo4 Island skull has the orbital plates
of each maxillary noticeably thickened above the lacrimal. The
rostrum is attenuated and rather broad at the base, but lacks the
pronounced basal swelling or enlargement that is characteristic of

1941 SAGMATIAS AMBLODON— KELLOGG 305

Lagenorhynchus cruciger. The rostrum of the type and of the
referred skull are equal, respectively, to 49.2 and 48.1 per cent of
the condylo-basal length. No lateral longitudinal groove is present
on the palatal surface of the maxillary. On the anterior half of
the rostrum, the maxillaries are not decurved to the alveolar margin,
but slope obliquely. The maxillaries are closely in contact on most
of the palate, revealing only a short section of the distal portion of
the vomer and the terminal 10 mm. or so of the premaxillaries. On
the type skull of Sagmatias amblodon, the supraorbital plates of the
maxillaries are in contact with the crest of the supraoccipital, but
terminate 6 to 10 mm. from the latter on the referred skull from
Chilo£ Island.

Between the choanae and the premaxillary foramina, the pre-
maxillaries are conspicuously swollen and elevated above the orbital
plates of the maxillaries. In this detail, the skull of this species
differs from those of obliquidens, cruciger, and obscurus. The groove
extending forward and backward from each premaxillary foramen
is delimited externally for only a short distance by an elevated
ridge on the outer edge of the premaxillary. Furthermore, the
premaxillaries are not depressed in front of the premaxillary foramina
to form a distinct triangular depression as in L. obliquidens. The
rugose area, which replaces the triangular prenarial depression,
occupies two-fifths of the length of the rostrum from the notch.
The dorsal profile of the rostrum is nearly straight, the premaxillaries
being distinctly flattened. The hinder end of the right premaxillary
is separated by an interval of 10 mm. from the right nasal on the type
skull of Sagmatias amblodon, but is in contact with this bone on the
referred skull. The left premaxillary terminates about 16 mm. in
front of the left nasal on both of these skulls.

The nasal bones are irregular in shape, flattened against the
frontals on the vertex and slightly over-ridden ventrally by the
mesethmoid. The exposed portions of the frontals on the vertex,
measuring 8 to 19 mm. antero-posteriorly, separate the nasals from
an anterior quadrangular apical process of the supraoccipital and
rise slightly above the level of both of these elements. The supra-
occipital crest is quite prominent and is curved forward on the
type skull, but is less strongly developed on the referred skull.
Strong lambdoid crests bound the occipital swelling of the braincase.

The pterygoids are in contact on the median line on the type
skull of Sagmatias amblodon, but are separated by a gap of 2.5 to
5.5 mm. on the referred skull from Chilo£ Island, although the inner
edges of the hamular portions of these bones on both skulls are

306 OSGOOD TESTIMONIAL VOLUME

widely divergent. The common suture of the palatines is equivalent
to about half the length of the longitudinal ridge on the ventral
surface of each pterygoid.

Mandible. — The coronoid process of the mandible is everted, the
symphysis is short, and the ramus is thickened internally on the
distal half. The outer alveolar edge is lower than the inner edge,
the teeth being progressively deflected outward anteriorly up to
about the middle of the symphysis.

Teeth. — The teeth of the Chilce* Island porpoise progressively
increase in length from the posterior to near the anterior end of
the toothrow. The enamel crowns of these teeth are imperceptibly
compressed in an antero-posterior direction, the height of the un-
worn crown ranging from 3 to 7 mm. All of the crowns are covered
with smooth enamel. The maximum transverse diameter of the
crowns of the largest teeth in the upper jaws ranges from 2.9 to 3 mm.
and the antero-posterior diameter from 2.8 to 3 mm. In the man-
dible, the diameter of the crowns of the teeth ranges from 2.7 to
3.2 mm.

The tooth formulae of the southern porpoises discussed on the
preceding pages are given in the table on page 308.

Detailed measurements of the skull of the Field Museum speci-
men and of the type of Sagmatias amblodon follow.

MEASUREMENTS OF SKULL

U.S.N.M. F.M.N.H.

No. 3887* No. 22248t

Maximum condylo-basal length 371.0 370.0

Maximum length of rostrum 182 .8 178.0

Width of rostrum at base (maxillary

notches) 95.4 105.0

Width of rostrum, 60 mm. anterior to

maxillary notches 71.0 77 . 5

Breadth across preorbital angles of supra-
orbital processes 163 . 7 184 . 2

Breadth across postorbital angles of

supraorbital processes 189.0 204.8

Zygomatic width 193.7 207.2

Width of braincase across parietals 170.5 171 .8

Maximum distance between outside mar-
gins of premaxillaries 74.0 76.2

Rostrum equals per cent of condylo-basal

length 49.2% 48.1%

R L R L

Total number of teeth in upper tooth-
row 32 33 33 33

Length of upper toothrow 153.4 153.0 157.0 158.8

Hinder end of upper toothrow to anterior

end of premaxillary 154.8 155.5 159.8 160.5

Total number of teeth in lower toothrow 30 29 31 33

Length of lower toothrow 135.3 135.0 154.8 156.6

Hinder end of lower toothrow to anterior

end of mandible 143.7 142.0 157.5 160.5

Maximum length of mandible 300 . 0 302 . 0 306.0 308.0

Maximum height of mandible through

coronoid process 68.3 67.4 74.0 73.0

Length of symphysis 35.0 34.8 42.5 41.5

*Type, Sagmatias amblodon. U. S. Explor. Exped., 1838-42. Locality
unknown.

fRio Inio, Chiloe Island, Chile, January 12, 1923.

307

TOOTH FORMULAE OF SOUTHERN PORPOISES

32—33

Sagmatias amblodon ............. 30-29

. Peale« 1848> P- 33)
Lagenorhynchus australis ....... ) 2!

f?=fS (Field Museum No. 22248)

^ ol— oo

Delphinus breviceps . .§1 (type, Jacquinot and Pucheran, 1853,

29 p. 40)

Lagenorhynchus fitzroyi .

I? (type, Waterhouse, 1838, p. 23)
P (Lahille, 1901, p. 4)
( || (Gallardo, 1912, p. 395)

24-26 (cotype, Gray, 1828, p. 2)

Lagenorhynchus obscurus.

24-26

^ (Quoy and Gaimard, 1830-33, p. 152)
|| (Sclater, 1901, p. 204)

Phocaena posidonia |J^ (type, Philippi, 1893, p. 10)

OA

Delphinus superciliosus ^ (type, Lesson and Garnot, 1827, p. 181)

308

REFERENCES

CASSIN, J.

1858. United States Exploring Expedition, during the Years 1838-1842,
under the Command of Charles Wilkes, U.S.N. Philadelphia, 8, Mammalogy
and Ornithology, viii+466 pp., figs.; Atlas, 11+42 pis. (Phocaena australis,
p. 27, pi. 5, fig. 1; Phocaena pectoralis, p. 28, pi. 5, fig. 2).

COPE, E. D.

1866. Third Contribution to the History of the Balaenidae and Delphinidae.
Proc. Acad. Nat. Sci. Phila., 18, No. 4, pp. 293-300 (Sagmatias amblodon,
p. 294).

FLOWER, W. H.

1884. On the Characters and Divisions of the Family Delphinidae. Proc.
Zool. Soc. Lond., (1883), pt. 4, pp. 466-513, 9 figs.

1885. List of the Specimens of Cetacea in the Zoological Department of the
British Museum. London, vi+36 pp.

GALLARDO, A.

1912. El Delfin Lagenorhynchus Fitzroyi (Waterhouse) Flower. Anal. Mus.
Nac. Hist. Nat., Buenos Aires, 23, pp. 391-397, 2 figs.

GILL, T.

1865. On Two Species of Delphinidae, from California, in the Smithsonian
Institution. Proc. Acad. Nat. Sci. Phila., 17, No. 4, pp. 177-178 (Lageno-
rhynchus obliquidens, p. 177).

GRAY, J. E.

1828-30. Spicilegia Zoologica; or Original Figures and Short Systematic
Descriptions of New and Unfigured Animals. London, pt. 1, pp. 1-8, 1828;
pt. 2, pp. 9-12, 11 pis., 1830 (Delphinus obscurus, p. 2, pi. 2, figs. 2-5;
Delphinus acutus, p. 2).

1850. Catalogue of the Specimens of Mammalia in the Collection of the
British Museum. London, xii+153 pp., 8 pis.

1866. Catalogue of Seals and Whales in the British Museum. London, 2nd
ed., vii+402 pp., 101 figs.

HOMBRON, J. B., and JACQUINOT, C. H. See JACQUINOT, C. H., and PUCHERAN, J.

JACQUINOT, C. H., and PUCHERAN, J.

1853. Voyage au p61e sud et dans I'oc6anie sur les corvettes 1'Astrolabe et
la Zelee, execute par order du roi, pendant les annees 1837-40, sous le com-
mandement de M. J. Dumont d'Urville, capitaine de vaisseau; public" . . .
sous la direction superieure de M. [C. H.] Jacquinot, capitaine de vaisseau,
commandant de la Zelee. Paris, Zoologie, 3, Mammiferes et Oiseaux, 166 pp.;
Atlas (J. B. Hombron and C. H. Jacquinot, 1842-53), Mammiferes, 29 pis.
(Delphinus breviceps, p. 39, pi. 22, fig. 1).

LAHILLE, F.

1901. El Delfin de Fitz-Roy Lagenorhynchus fitzroyi (Wather.) Flow. Bol.
Agr. y Gan. Argentina, Buenos Aires, Ano 1, No. 4, pp. 3-6, pi.

LESSON, R. P.

1826. Indication de quelques cetace's nouveaux observes dans le voyage autour
du monde de la corvette la Coquille. Ferussac's Bull. Sci. Nat. et G&>1., Paris,
7, pp. 573-574 (Delphinus bivittatus, p. 573; Delphinus super ciliosus, p. 573).

309

310 OSGOOD TESTIMONIAL VOLUME

LESSON, R. P., and GARNOT, P.

1827. Voyage autour du monde, execute par order du roi, sur la corvette
de Sa Majeste, La Coquille, pendant les annees 1822, 1823, 1824 et 1825,
— par M. L. I. Duperrey — commandant de 1'expedition. Paris, Zoologie,
1, pt. 1, iv+360 pp.; Atlas, Zoologie, 50 pis. (Delphinus superciliosus, p. 181,
pi. 9, fig. 2; Delphinus bivittala, p. 178, pi. 9, fig. 3).

LILLIE, D. G.

1915. Cetacea. British Antarctic ("Terra Nova") Expedition, 1910. Natural
History Report, London, Zoology, 1, No. 3, pp. 85-124, 14 figs., 8 pis. (Lage-
norhynchus obscurus, p. 122, pi. 8, figs. 2-5).

LIOUVILLE, J.

1913. Sur le polymorphisme d'un Delphinide des mers australes: Delphinus
cruciger, Quoy et Gaymard. Compt. Rend. Acad. Sci. Paris, 156, No. 1,
pp. 90-93, fig.

NICHOLS, J. T.

1908. Notes on Two Porpoises Captured on a Voyage into the Pacific Ocean.
Bull. Amer. Mus. Nat. Hist., 24, pp. 217-219, 3 figs., pi. 14.

ORBIGNY, A. D', and GERVAIS, P.

1847. Voyage dans 1'Amerique meiidionale (le Br6sil, la Republique orientale
de 1'Uruguay, la Republique Argentine, la Patagonie, la Republique du
Chili, la Republique de Bolivia, la R6publique du Pe>ou), execute pendant
les annees 1826-33 par Alcide d'Orbigny. Paris, 4, pt. 2, Mammiferes, 32 pp.;
9, Atlas, Zoologique, Mammiferes, 22 pis. (Delphinus cruciger, p. 32, pi. 21,
figs. 1-4).

PEALE, T. R.

1848. United States Exploring Expedition, during the Years 1838-1842,
under the Command of Charles Wilkes, U.S.N. Philadelphia, 8, Mammalia
and Ornithology, xxv+ 17-338 pp. (Phocaena pectoralis, p. 32; Phocaena
australis, p. 33).

PHILIPPI, R. A.

1893. Los Delfines de la Punta Austral de la America del Sur. Anal. Mus.
Nac. Chile, Sec. 1, Zool., entr. 6, pp. 1-18, pis. 1-5 (Phocaena posidonia,
p. 9, pi. 2, fig. 1; Phocaena d'orbignyi, p. 10).

1896. Los Craneos de los Delfines Chilenos. Anal. Mus. Nac. Chile, Sec. 1,
Zool., entr. 12, pp. 1-20, pis. 1-6.

QUOY, J. R. C., and GAIMARD, J. P.

1824-26. Voyage autour du monde — execute sur les corvettes de S. M. 1'Uranie
et la Physicienne, pendant les annees 1817-20 — par M. Louis de Freycinet.
Paris, Zoologie, iv+712 pp.; Atlas, 96 pis. (Delphinus cruciger, p. 87, pi. 11,
figs. 3-4; Delphinus albigena, p. 87, pi. 11, fig. 2).

1830-33. Voyage de decouvertes de 1'Astrolabe — pendant les annees 1826-29i
sous le comman dement de M. J. Dumont d'Urville. Paris, Zoologie, 1,
Mammiferes-Oiseaux, 1+268 pp., 59 pis. (Delphinus obscurus, var., p. 151,
pi. 28, fig. 3).

SCHLEGEL, H.

1841-42. Abhandlungen aus dem Gebiete der Zoologie und vergleichenden
Anatomie. Leiden, Heft 1, pp. 1-44, 1841; Heft 2, pp. 1-12, 1842, 15 pis.
(Delphinus superciliosus, p. 22, pi. 1, fig. 3; pi. 2, fig. 3; pi. 4, fig. 4; Delphinus
eschrichtii, p. 23, pi. 1, fig. 4; pi. 2, fig. 4; pi. 4, fig. 5).

SCLATER, W. L.

1900-1901. The Fauna of South Africa. The Mammals of South Africa, 1,
xxx+324 pp., 80 figs., 1900; 2, xii+241 pp., figs. 81-150, 1901.

1941 SAGMATIAS AMBLODON— KELLOGG 311

TRUE, F. W.

1889. A Review of the Family Delphinidae. Bull. U. S. Nat. Mus., 36,

191 pp., 47 pis.
1903. On Species of South American Delphinidae Described by Dr. R. A.

Philippi in 1893 and 1896. Proc. Biol. Soc. Wash., 16, pp. 133-143.

WAGNER, J. A.

1846-47. Die Saugthiere in Abbildungen nach der Natur mit Beschreibungen
von Dr. Johann Christian Daniel von Schreber. Erlangen, Theil 7, viii+427
pp., 27 pis. (Delphinus breviceps, pi. 368, fig. 1).

WATERHOUSE, G. R.

1838. [A New Species of Delphinus.} Proc. Zool. Soc. Lond., pt. 6, pp. 23-24
(Delphinus fitzroyi, p. 23).

1839. Mammalia, with a Notice of Their Habits and Ranges, by Charles
Darwin. The zoology of the voyage of H.M.S. Beagle, under the command
of Captain Fitzroy, during the years 1832 to 1836. London, pt. 2, Nos. 1-4,
xi+v+1-97 pp., 35 pis. (Delphinus fitzroyi, p. 25, pi. 10).

EXPLANATION OF PLATES

PLATE 6

FIG. 1. Delphinus obscurus. Cotype, young individual; total length not
stated. Cape of Good Hope, South Africa. After Gray, 1828, pi. 2, fig. 2.

FIG. 2. Lagenorhynchus fitzroyi. Female; total length 1,650 mm. Golfo de
San Matias, Argentina. After Lahille, 1901, pi., reversed.

FIG. 3. Delphinus fitzroyi. Type, female; total length 1,625mm. St. Joseph's
Bay, Argentina. After Waterhouse, 1839, pi. 10.

FIG. 4. Lagenorhynchus fitzroyi. Female; total length 1,830 mm. Mar del
Plata, Argentina. After Gallardo, 1912, fig. 1.

Field Museum of Natural History

Zoology, Vol. 27, Plate 6

PLATE 7

FIG. 1. Delphinus breviceps. Type; sex and total length not stated. Rio de
La Plata, Argentina. After Hombron and Jacquinot, 1842-53, pi. 22, fig. 1,
reversed.

FIG. 2. Delphinus obscurus var. Sex not stated; total length 1,651 mm.
Cape of Good Hope, South Africa. After Quoy and Gaimard, 1830-33, pi. 28,
fig. 2.

FIG. 3. Phocaena posidonia. Type, female; total length 1,850 mm. Lat. 48°
10' S., Long. 77° 0' W., off coast of Chile. After Philippi, 1893, pi. 2, fig. 1,
reversed.

FIG. 4. Delphinus superciliosus. Type, sex not stated; total length 1,353 mm.
Lat. 44° S., off Cape Diemen [= South Cape], Tasmania. After Lesson and
Garnot, 1827, pi. 9, fig. 2.

Field Museum of Natural History

Zoology. Vol. 27, Plate 7

PLATE 8

FIG. 1. Phocaena australis. Type, sex not stated; total length 2,133 mm.
Off coast of Patagonia, one day's sail north of Straits of Le Maire. After Cassin,
1858, pi. 5, fig. 1.

FIG. 2. Lagenorhynchus australis. Male; total length 2,159 mm. Rio Inio,
Chiloe Island, Chile. No. 22248 Field Museum of Natural History.

Field Museum of Natural History

Zoology, Vol. 27, Plate 8

PLATE 9

Lagenorhynchus australis. Lateral, posterior, and ventral views of carcass.
Rio Inio, Chiloe Island, Chile. No. 22248 Field Museum of Natural History.
Photographs by Wilfred H. Osgood and Colin C. Sanborn.

Field Museum of Natural History

Zoology, Vol. 27, Plate 9

PLATE 10

Lagenorhynchus australis. Dorsal view of skull.
Chile. No. 22248 Field Museum of Natural History.

Rio Inio, Chiloe Island,

Field Museum of Natural History

Zoology, Vol. 27, Plate 10

PLATE 11

Lagenorhynchus australis. Ventral view of skull. Rio Inio, Chiloe Island,
Chile. No. 22248 Field Museum of Natural History.

Field Museum of Natural History

Zoology, Vol. 27, Plate 11

INCISOR TIPS OF YOUNG RODENTS

BARBARA LAWRENCE

Assistant Curator of Mammals, Museum of Comparative Zoology

The modification of the incisors of the Simplicidentata into
chisel-shaped cutting organs is one of the most characteristic features
of this group. It now appears that in three genera at least, and very
likely in more, the tips of these teeth have been further modified
to perform an entirely different function during the early postnatal
life of the animal. As the teeth are permanently growing, these tips
wear off when they are no longer of use, and the tooth assumes the
normal adult appearance. In some other groups of mammals, as
in certain bats, the two sets of incisors bear no resemblance to each
other as they are specialized for entirely different functions, the
milk set by its hook-like tips being especially adapted to enable the
young animal to cling more securely to the fur of the mother. The
rodents under discussion lack deciduous milk incisors and in their
absence the permanent set has assumed such a double function,
the young stage being adapted to clinging to the nipples of the
mother. As the teeth are rootless the transition to the typical adult
stage is gradual.

This specialization of the incisors was first noticed during the
examination of some Aethomys kaiseri hindei collected by Mr. Arthur
Loveridge in East Africa in 1939. The series includes adults and a
litter of three young, two in formalin, one skin and skull. In the
young specimens each of the incisors of both the upper and the
lower jaw has a deeply notched, broadly flaring tip so that in front
view it appears roughly Y-shaped (fig. 56). In the teeth of the
upper jaw this shape is further emphasized by a shallow V-shaped
depression proximal to the notch. Seen in profile the incisors of
both jaws have a strong backward curve giving the teeth a hooked
appearance that, in the upper incisor particularly, is in striking
contrast to the adult form of the tooth. As the shape of the adult
incisor is directly related to the way in which the teeth wear against
each other, it is interesting to see that in the young animals the
point of wear is entirely at the tip of the tooth. Adults of this
species have the anterior enamel surface of the incisors deep orange,
in the young specimens at hand it is white; in one of them, when the
bony socket was cut away and the tooth exposed all the way to

313

314

OSGOOD TESTIMONIAL VOLUME

the base, no trace of any color was found in either the upper or the
lower jaw. The animals are evidently very young. The one skinned
out, a male, measured (field measurements) : total length 70, tail 50,
hind foot 15, ear 8, and none of the molar teeth is in place. Of the
first molar, a single longitudinal row of cusps is beginning to appear
between the narrowly separated alveolar margins. Of the second
molar, only one such cusp appears. The mother shows no trace
of bifurcation of the incisors and measured: total length 155, tail
141, hind foot 28, ear 20.

FIG. 56. Young Aethomys kaiseri hindei, M.C.Z. 39056: upper incisors, a, front
view, 6, side view; lower incisors, e, front view, /, side view; all X 12. Nursing
mother of the above, M.C.Z. 39136: upper incisors, c, front view, d, side view;
lower incisors, g, front view, h, side view; all X 3.

Mr. Loveridge states in his field notes that the female, when
her nest was exposed in the process of clearing debris, "ran from the
tractor dragging along three large young attached to her nipples ....
I am told that this is a common occurrence." This suggests that the
curious development of the incisors actually has survival value in
that it helps the young cling securely to the mother and thus enables
her, if necessary, to transport the whole litter at once. No trace of
a second pair of incisors was found. Milk incisors have not been
reported in the Muridae except as minute, calcified rudiments near
the base of the permanent tooth in the upper jaw (M. J. Woodward,
On the Milk Dentition of the Rodents, Anat. Anz., 9, p. 622, 1894).
Altogether, even in the absence of material showing other stages

1941

INCISOR TIPS OF RODENTS— LAWRENCE

315

of development in Aethomys, it seems clear that we are dealing with
the early stages of the permanent tooth.

A modification, similar in function although slightly different in
form, occurs in some, possibly all, species of Neotoma. Material
kindly lent by Dr. E. Raymond Hall is interesting in that a number
of different growth stages are represented in a race of one species, N.
fuscipes annectens, and slightly different stages in two other forms,

A

FIG. 57. Young Neotoma fuscipes annectens, M.V.Z. 84312: upper incisors, a,
front view, b, side view; lower incisors, e, front view, /, side view; all X 12.
Adult male of same, M.C.Z. B9264: upper incisors, c, front view, d, side view;
lower incisors, g, front view, h, side view; all X 3.

N. fuscipes macrotis and N. lepida lepida. In all three, the incisors
instead of being bifurcated are grooved and curve sharply outward
at the tips, leaving a wide V-shaped space between the pair of teeth
in each jaw (fig. 57). In the upper incisor, the groove is wide and
shallow and does not extend all the way to the end of the tooth;
instead, as shown in the unworn teeth of the youngest specimens of
annectens, the scimitar-shaped tips as well as the sides have a sharp,
raised margin. This is most acute along the inner border of the tooth.
The back of the tooth is triangular rather than rounded in cross
section, with the sides sloping to an ill-defined ridge which follows

316 OSGOOD TESTIMONIAL VOLUME

the curve of the tooth medially. As in Aethomys, the anterior enamel
surface is white, not orange as in the adult. The tooth wears first
at the extreme tip where a transverse edge is soon formed at right
angles to the axis of the tooth, and hence sloping slightly outward;
at the end of the groove a notch appears, slight in annectens, more
pronounced in lepida. Then, as the outward curving tip wears off,
the groove disappears, the enamel becomes pale orange proximally,
and, as the dentine on the posterior surface of the tooth begins to
wear more rapidly than the anterior enamel layer, we have the begin-
ning formation of the chisel-shaped edge characteristic of the adult
tooth. The specimens examined show different transitional stages
in the three forms. The ages are not quite comparable and the
material is certainly not extensive enough to permit the making of
any conclusive comparisons; nevertheless it is interesting to note
that in lepida and macrotis the somewhat deeper groove is more
persistent than in annectens, and the partially worn tooth of macrotis,
instead of being notched, has the outer half of the tip projected well
below the inner. Probably in all of them the juvenile tips of the
incisors disappear early. In a skull of annectens which has the third
molars beginning to show between the bony alveolar margins, the
incisors, although small, are fully adult in character with the anterior
surface orange and slightly convex, the tooth is deeper antero-
posteriorly than it is wide, and the posterior surface is notched by
the lower incisors.

The lower incisors in the specimens of Neotoma examined are
also grooved in their earlier stages and curved backward and out-
ward from the mid-line to a pointed tip. This is flattened antero-
posteriorly and the inner edge is almost knife-like. The sharp outer
edge continues in a ridge down the outer side of the tooth. Here,
as in the upper incisors, the point of wear is first at the tip of the
tooth, which, when worn, appears slightly notched. As the tooth
gets older, wear becomes more apparent on the posterior surface
and the characteristic beveled edge begins to appear, gradually
lengthening in proportion to the exposed area of the tooth. The
adult character is assumed earlier in the lower than in the upper
incisors.

The following observations indicate that here, as in Aethomys,
the modification is functional. Frank F. Gander (Journ. Mamm.,
10, No. 1, p. 57, 1929), referring to N. fuscipes macrotis, states:
"The young, when small, cling tightly to the nipples of the mother
and bump along behind her even when she is fleeing for her life."

1941 INCISOR TIPS OF RODENTS— LAWRENCE 317

Fae Donat Wood (Journ. Mamm., 14, No. 1, p. 21, 1933), in reference
to a female N. fuscipes annectens, states: "She scampers and climbs
about with the young protruding between her hind legs, and though
I have seen a mother squeeze through small cracks and run over
piles of sticks so as to jolt the young violently, they have never
become dislodged. That there are times when the young either let
go voluntarily or are disengaged by the mother is shown by the
fact that she frequently comes out at dusk without them. I
attempted to remove two young ones from their mother at the age of
23 days but they held on so tightly that, for fear of tearing the flesh
of the mother, I let them remain."

The third example, a very young specimen of Hylomyscus aeta
weileri, also has the incisors modified, presumably for the same
purpose, although I have found no description of any correlated
habits in this genus. The degree of specialization is less than in
either Aethomys or Neotoma, the incisors being neither grooved nor
bifurcated. The upper pair differs from that of an adult in that the
teeth flare slightly at the tips, leaving a V-shaped space between
them; and the lower incisors, although they do not flare, are hooked
backward, somewhat as in Aethomys. In both, the point of wear
is, in the first instance, at the tip.

SUMMARY

Three different genera of rodents have been found to have the
tips of the incisors in very young animals highly specialized, pre-
sumably for the purpose of giving the young a more secure hold on
the mother's nipple. The parallel development of such a modifica-
tion in two genera as unrelated as Neotoma and Aethomys is interest-
ing. Further study may show that other genera having this same
habit are similarly modified. However, the author found no such
specialization in the equally young skulls of twenty-five other
genera examined, possibly because the early life habits of the animal
do not call for any such adaptation.

THE RACES OF THE OCELOT AND THE !Cf ARGAY

R. I. POCOCK

Zoological Department, British Mitseum (Natural History)

This paper is an effort to disentangle some of the knots of
difficulties in the determination and distribution of the described
local races of two American tiger cats, the last attempt of the kind
having been made in 1919 by J. A. Allen, who was the first to assign all
the known forms of each to a single species. The paper is based prima-
rily on the skins and skulls in the British Museum, and incidentally,
from examination of the types, I have been able to settle, at all
events to my own satisfaction, the position of the three forms
of ocelot called griseus and pictus by Gray and melanura by Ball
which my predecessors of this century set aside as indeterminable.
It is regrettable that apparently the least known of all the races
of ocelot is the typical form Leopardus pardalis pardalis Linnaeus.
From lack of material I have been unable to add anything of im-
portance to our knowledge of this race, and in the account of it
I have been compelled to rely on the meager, sometimes conflicting
information supplied by American authors.

SPECIFIC AND GENERIC CHARACTERS

In a paper on the classification of existing Felidae (Ann. Mag.
Nat. Hist., (8), 20, p. 344, 1917) I assigned the ocelots (pardalis)
and the so-called margays (wiedii) to the genus Leopardus Gray
1842, of which Oncoides Severtzow 1858 and Pardalis Gray 1867
are synonyms. Leopardus wiedii, it was pointed out, might be
described "as a small, long- tailed, smooth-skulled representative of
the Ocelot." Living examples of the two species, with which I
was well acquainted at the London Zoological Gardens, were so
strikingly alike that wiedii could only be distinguished by its smaller
size and longer tail. As further evidence of the similarity in external
characters, it may be added that Lonnberg, until he examined the
skull, mistook for an ocelot the skin of a wiedii which he subse-
quently made the type of a race ludovici; and that Thomas marked
as a topotype of L. pardalis aequatorialis Mearns (an undoubted
ocelot) a specimen from Paramba, Ecuador, equally unmistakably
a margay, which I assign to Leopardus wiedii pirrensis Goldman.
In extreme cases there is a well-marked difference between the two

319

320 OSGOOD TESTIMONIAL VOLUME

species in the muscular molding of the skull by the masticatory
muscles, which profoundly affects its shape; but both show con-
siderable variations in this respect and there is a decided approach
to intergradation between the two extremes.

In most adult male skulls of pardalis the zygomata are salient,
the temporal muscles constrict the cranium, particularly its post-
orbital area, and are supplemented by a prominent occipital and a
complete sagittal crest; and these features as a rule, perhaps always,
increase as age advances. Variations in these respects may be
illustrated by two skulls. In an old male of L. p. mearnsi, from
Costa Rica, the total length of the skull exceeds the condylo-basal
length by about 14 mm. owing to the prominence of the occipital
crest, the sagittal crest is about 13 mm. high at the fronto-parietal
suture, and the postorbital area is so constricted that it is 2 or 3 mm.
narrower than the interorbital area and only one-fourth the zygo-
matic width, which is about five-sevenths of the condylo-basal
length. Sharply contrasted with this is the fully adult, but younger,
male skull of the type of L. p. pusaeus from west Ecuador in which
the sagittal crest is represented on the fore part of the cranium
by the two temporal ridges which are about 5 mm. apart at the
suture; the postorbital area is actually about 7 mm. wider than in
the skull from Costa Rica, although the total length of the skull
is some 20 mm. less, and it is 7 mm. wider than the interorbital area
and about two-fifths of the zygomatic width, which is only about
two-thirds of the condylo-basal length.

In female skulls of pardalis the postorbital is always wider than
the interorbital area and about the same width as the muzzle; the
sagittal crest, if complete, is always low. In an old female of L. p.
mearnsi from Panama the temporal ridges are 12 mm. apart at the
suture. This is a very different-looking skull from that of the old
male of the same race from Costa Rica.

In L. wiedii, as a rule, the crown is noticeably more rounded, the
postorbital area is considerably wider than the interorbital and maxil-
lary areas, the sagittal crest is, at most, present, but low on the
occiput, and the temporal ridges are over 20 mm. apart at the
suture. But there is a good deal of individual variation in these
particulars. Two skulls, racially unidentifiable because they have
no skins and no localities beyond "Tropical America," are of special
interest in having the temporal ridges 17 and 8 mm. apart at the
suture and the postorbital area about as wide as the maxillary.
These skulls are practically only distinguishable from some adult
skulls of L. pardalis by their smaller size and smaller teeth.

1941 RACES OF OCELOT AND MARGAY— POCOCK 321

In view of these facts I see no reason to abandon the opinion
that pardalis and wiedii belong to the same genus and that the
characters of wiedii do not deserve the generic importance attached
to them by J. A. Allen, who in 1916 (Bull. Amer. Mus. Nat. Hist.,
35, p. 580) selected wiedii as the type of Margay Gray and three
years later (idem, 41, p. 354) attempted to distinguish that genus
from Leopardus by cranial characters. His material, however, was
clearly inadequate for the purpose, since his diagnoses apply to skulls
of the two species in which the differences reach the maximum.
But even so the differences are not much greater than those known
to exist between large, strongly molded and small, weakly molded
skulls of different races of leopards (Panthera pardus).

In external characters the species pardalis and wiedii resemble
each other not only in the structure of the feet, as I pointed out in
1917 (Ann. Mag. Nat. Hist., (8), 19, p. 131), but in the color pattern,
which on the flanks at least consists of rosettes usually confluent
to a greater or less extent in chains or long bands; and typically in
the reversal of the hair-growth on the nape, although in both species
the degree of reversal is individually variable and the feature may
be altogether absent.

THE RACES OF THE OCELOT (Leopardus pardalis)

The following alleged race of ocelot may be briefly considered
before the others are dealt with: Felis sanctae-martae J. A. Allen
(Bull. Amer. Mus. Nat. Hist., 20, p. 332, 1904; idem, 41, p. 347,
1919, as Leopardus pardalis sanctae-martae). The locality of the
type, an adult male, was Bonda, Santa Marta, Colombia; and on
the evidence of an additional immature specimen the distribution
was said to be the coastal region of northern Colombia and the
adjoining district of northern Venezuela.

From the described color and pattern and the reversed nape-
hair the type belongs either to pardalis or wiedii, but the flesh-
dimensions (head and body 20.8, tail 14.2, foot 5.6 inches) are those
of a smallish, long-footed wiedii. The length of the head and body,
however, is irreconcilable with that of the total length of the skull,
117 mm. The skull is 10 mm. longer than the longest skull of
wiedii recorded, namely, the adult male called nicaraguae by J. A.
Allen, whereas the head and body are 10 inches shorter. This
suggests that the skull did not belong to the skin. Allen also cited
a difference of only 9 mm., impossible in an adult male skull of
an ocelot, between the total and basal lengths, the latter being
108 mm. In one of the smallest adult male skulls of an ocelot

322 OSGOOD TESTIMONIAL VOLUME

known to me, namely, the type of L. p. pusaeus Thomas, the two
lengths are 131 and 110 mm., respectively. This suggests that the
cited total length of the skull of sanctae-martae may be a misprint
for 127. There the question must rest until the type be re-examined.

Leopardus pardalis brasiliensis Oken.

Lynx brasiliensis Oken, Lehrb. Naturg. Zool., 3, p. 1050, 1816— based on
Azara's mbaracaya and chibigouazou; cf. Osgood, Journ. Mamm., 1, p. 89,
1920.

Felis chibigouazou Gray1 in Griffith's Anim. Kingd., 5, p. 167, 1827 — based
on Felis ocelot No. 1, Hamilton Smith in Griffith's Anim. Kingd., 2, p. 475,
pi., 1827; Fischer, Syn. Mamm., Addenda, p. 568, 1830 (chibigouazou);
Mearns, Proc. U. S. Nat. Mus., 25, pp. 237, 239, 246, 249, 1902 (in part,
not specimen from Surinam).

Oncoides pardalis chibigouazou J. A. Allen, Bull. Amer. Mus. Nat. Hist., 35,
p. 580, 1916.

Leopardus pardalis chibigouazou J. A. Allen, Bull. Amer. Mus. Nat. Hist.,
41, p. 348, figs. 14-18, 1919.

Felis hamiltoni Fischer, Syn. Mamm., Addenda, p. 568, 1830 — based on
Felis ocelot No. 2, Hamilton Smith (see next reference).

Felis smithii Swainson, Anim. in Menag., p. 120, 1838 — based on Felis ocelot
No. 2, Hamilton Smith in Griffith's Anim. Kingd., 2, p. 476, pi., 1827
and Felis ocelot /3 J. E. Gray in Griffith's Anim. Kingd., 5, p. 168, 1827.

Felis maracaya Wagner, Schreb. Saug., Suppl., 2, p. 492, 1841 — based on
Azara's mbaracaya.

Leopardus pictus Gray, Ann. Mag. Nat. Hist., 10, p. 260, 1842; Proc. Zool.
Soc. Lond., 1867, p. 403 (Felis); Cat. Carn., etc., Brit. Mus., 1869, p. 19
(Felis).

Type locality. — St. Ignace, Paraguay (here selected from Azara).
L. chibigouazou2 and maracaya are regarded as having this same
type locality; hamiltoni and smithii are from "South America."

Distribution. — According to the characters of therace here adopted,
Paraguay and Brazil from Rio Grande do Sul to the Amazons.

A comparatively pale, rather dull-tinted race, the ground color
above and inside the flank-bands varying from dullish ochreous

1 Gray, not Hamilton Smith as usually cited, was the author of Volume 5
of Griffith's "Animal Kingdom," apart from the Ruminantia which Smith wrote
(see Gray's List of Memoirs, etc., p. 7, 1875, by Saunders).

2 The specimen figured by Hamilton Smith, Felis ocelot No. 1, was believed
to have come from "South America." He suggested that it represented the
chibigouazou of Azara from Paraguay and Gray's acceptance of that name in a
specific sense justifies, in my opinion, the adoption of Paraguay as the type
locality. The names hamiltoni and smithii given to Ocelot No. 2 of Smith,
differing from chibigouazou in having the back and thighs more extensively red,
are doubtful for the synonymy, but since they cannot be definitely assigned else-
where, they may be thus disposed of.

1941 RACES OF OCELOT AND MARGAY— POCOCK 323

tawny to brighter ochreous, with the interspaces on the flanks and
on the thighs sometimes grayish white; the pattern also variable,
ranging on the flanks from isolated rounded or elongate rosettes,
set lineally, to complete broad and long, narrowly black-rimmed
bands. The skull, which is large and strongly molded muscularly,
has broad, wedge-shaped nasals, at most slightly constricted.

Allen published photographs of flat skins, all from Descalvados
in Matto Grosso, showing the variation in the pattern above de-
scribed. The skins I have seen from scattered localities in Brazil
fit in with these.

Individual variation is shown by the following skins in the
British Museum which I refer to this race. A young adult male
(Lord Derby. No. 1852.8.27.15) from Rio Janeiro has the ground
color of the head, nape, and back to the root of the tail dullish
ochreous tawny, of the flanks and thighs gray with faint dusky
speckling; forelegs washed with buff in front; hind legs nearly the
same, slightly paler; pattern on the back consisting of solid, mostly
elongated spots or short bands, on the sides mostly of irregular,
sinuous, partly looped, black stripes, with patches of ochreous tawny
in the hollows above or below. The pattern of this skin is abnor-
mal in the disruption of the black rims of the lateral bands and the
absence of definite rosettes. Another skin, without skull, from Rio
Janeiro (Zool. Soc.) is like the last in ground color but has the
pattern of the back and flanks consisting of rosettes, with black
rims and ochreous tawny centers, running in lines or here and there
forming definite chains or bands. A female from Manaos on the
Amazon (A. Raymond. No. 1915.2.15.1) closely resembles the
last in color and pattern, but the ground color is a trifle brighter.
A male from Santa Maria on the Amazon (H. W. Bates. No.
1856.1.12.2) is like the female from Manaos in color and pattern.
A male from the Rio Purus, a tributary of the Amazon (R. Ward.
No. 1933.6.12.1), has the color of the upper side and within the bands
rather paler and brighter ochreous than in the preceding and the
bands are more complete and longer. The type of pictus, an adult
male (Warwick. No. 1839.12.20.1), is like the skin from Rio Purus
in its brighter ochreous tint, but the lateral bands are more broken
up into rosettes.

I am acquainted with the measurements of only two examples
of this race. In English inches they are as follows:

Head Hind

and body Tail foot

Chapada, Brazil (skin; Mearns) adult d" 32.4 13.4 6.4

Manaos, Brazil (flesh) adult 9 27.2 11.4 5.8

324 OSGOOD TESTIMONIAL VOLUME

The skin from Chapada, although not a big ocelot, was probably
stretched rather than otherwise, at least in the head and body.

The largest male skull, unrepresented by a skin, came from Rio
Grande do Sul (Von Ihering. No. 1884.2.8.2) and may therefore
be regarded as certainly assignable to brasiliensis. It is an old
skull with salient occipital crest, making its total length one of the
largest recorded amongst ocelots, a high sagittal crest, 4.5 mm. at
the suture and 10 mm. on the occiput; the teeth are a good deal
worn and, partly in consequence, rather small, but the mesopterygoid
fossa is wide. The second largest, from Rio Purus (R. Ward. No.
1933.6.12.1), is younger and although its condylo-basal length is
the same, the total length is shorter owing to the less salient occipital
crest; the sagittal crest also is lower, 3 and 9 mm. at the places
stated, the zygomata are narrower, as also is the mastoid width,
58 as against 63 mm., and the postorbital area is less constricted,
probably all age-differences. More noticeable differences are the
considerably narrower mesopterygoid fossa and larger upper teeth.
The shortness of P- in the Rio Grande skull is due in a measure to
the wear of its posterior point; but the smaller size of the alveolus
of the canine cannot presumably be assigned to age any more than
can the considerably greater width of the mesopterygoid fossa.
In view of the wide geographical separation of the two specimens
these differences might be assumed, without further evidence, to
be of subspecific value, but Bates' skull from Santa Maria on the
Amazon, of which the Rio Purus is a tributary, so closely resembles
the skull from Rio Grande do Sul in all particulars, except that it
is a trifle shorter in its condylo-basal length, that it supplies cogent
evidence of the extension of brasiliensis as far north as that river.
On the other hand, Lord Derby's young adult male skull from Rio
Janeiro has the mesopterygoid fossa and P- practically the same
as in the skull from Rio Purus from which it only differs in propor-
tions due to its immaturity. The closeness of the likeness of the
skull of the type pictus in all its available dimensions and in other
respects to the foregoing, calls for no comment. The only available
female skull, from Manaos on the Amazon, is a good deal smaller
than the male skulls; but its dorsal profile is less evenly arched owing
to the inflation with air-cells of the frontal bones just behind the
level of the postorbital processes, which makes the profile from that
point to the end of the muzzle straighter and more evenly sloped.
The greater width of the postorbital area than in the male skulls
is a well-known female character. The sagittal crest is only com-
plete from the salient occipital crest, in front of which it is 8 mm.

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326 OSGOOD TESTIMONIAL VOLUME

high, to the middle of the parietals where it expands into a lyrate
area, 11 mm. wide at the suture. The teeth agree with those of
the males, although the canine, as is usual in the female, is thinner.

As stated above under the diagnosis of the race, the nasals in
these skulls have for the most part straight, posteriorly convergent
sides, showing no marked constriction. In the type of pictus and
the male from Rio Janeiro they are 8 mm. wide at the frontal points;
in the Rio Purus, Rio Grande do Sul, and Santa Maria skulls they
are respectively 10, 11, and 12, the average in the five being about
10 mm. In the female from Manaos they are 7 mm.

Leopardus pardalis steinbachi subsp. nov.

Type from Buenavista, Santa Cruz, Bolivia. No. 1928.2.9.15,
British Museum. Adult male, skin and skull. Collected by Jose*
Steinbach.

Distribution. — Central Bolivia, as far as known.

Distinguished on the average from brasiliensis by its brighter
color and less massive, finer pattern and from melanurus and the
Andean race aequatorialis by its pattern, which is narrower on the
back and sides of the body, being noticeably less extensive than
the paler interspaces, and by the small size of the black bands and
the tendency to the suppression of the bright color on the upper
side of the tail, which is more extensively white at the sides. The
skull is distinguished by the narrowness of the posterior half of the
nasals, which are on the average only half the width of those of
brasiliensis and melanurus.

The type has the ground color of the upper side and of the
central area of the rosettes and bands darkish, rich coppery ochreous,
passing into grayish buff on the lateral interspaces; the upper side
of the tail is like the back, the black stripes being dominant only
at the distal end; the foreleg is buff in front, the hind paler and
grayer; the pattern on the nape and back consists of thin stripes
and spots on the sides of narrow-rimmed, often imperfect rosettes
lineally arranged, sometimes forming complete bands. An adult
female skin of a topotype (No. 1934.9.2.34) has the color and pattern
very similar to those of the type, but the tint is a little brighter and
the upper side of the tail is less well colored, the ground tint being
narrower and fainter and the sides whiter. Another topotype, the
flat skin of an adult male, with no skull (No. 1940.863), has the same
narrow pattern as the last and the tail is similarly colored but
duller in tint than the previous two, closely matching the skin of

1941 RACES OF OCELOT AND MARGAY— POCOCK 327

brasiliensis from the Rio Purus. In a young female topotype (No.
1934.9.2.35), which has no skull, the bright color gradually fades
away on the back and the lateral interspaces are grayish white, the
upper side of the tail being narrowly buffy gray. An apparently
adult male, from the Sara Province, central Bolivia (Steinbach,
No. 1907.8.2.14), is duller-tinted than the three adults from Buena-
vista, Santa Cruz, not quite so bright as the skin of brasiliensis
from Rio Purus, and the lateral rosettes are rounder. It links this
race with brasiliensis, although its tail is as defectively tinted above
as in the typical forms of steinbachi.

Only two of the above-described specimens have trustworthy
flesh measurements, both being conventionally made-up skins.1

Their dimensions in English inches are as follows:

Head Hind

and body Tail foot

Santa Cruz adult d> (type) 31.2 14.2 5.2

SantaCruz young 9 22.4 10.8 4.0

The skull of the type is adult, but not old, as shown by the still
open frontal suture. It has a condylo-basal length of 136 mm., about
the same as in adult males of brasiliensis, and the dorsal profile is
evenly convex, without frontal inflation, but the sagittal crest is
exceptionally high, 7.5 mm. at the suture and 10 mm. on the occiput,
higher at the suture than in older skulls of brasiliensis; the bullae
are also considerably larger, 28 by 17 mm., and the nasals are
narrower posteriorly, 4.5 mm. wide at the frontal points. The
postorbital and interorbital widths are alike 30 mm., less than the
maxillary width, which is 39 mm. The comparatively narrow
interorbital and zygomatic widths, 97 mm., show that muscular
molding had not reached its maximum. P-, C-, and MT are
respectively 16, 10, and 11 mm.

The skull of the adult female, with a condylo-basal length of
127 mm., is considerably smaller, only the postorbital width of

1 The skins of the adult female and of the male without skull are "flat" and
were apparently measured after being stripped. For instance, the head and body
measurement of the adult male is given as nearly one-half inch longer than that
of the type, although the total length of the skull is 15 mm. shorter, and the
head and body of the flat male skin are entered as 1,000 mm. (=40 inches), larger
than in any ocelot hitherto recorded. It is also as well to record that Steinbach
was hopelessly wrong about the sexes of his specimens. The type and the flat
skin of the male were alike marked female, although the scrotum and penis on
the skins clearly show that they are male, and the skull of the type is manifestly
male. Conversely, the skin and skull of the adult female are marked male, al-
though the skin has a couple of large teats, a vulva but no scrotum, and the
skull has all the characters of a female. These mistakes show how zoologists
may be misled by accepting, without verification, the data supplied by collectors.

328 OSGOOD TESTIMONIAL VOLUME

29 mm. being approximately the same. It has a complete but
low sagittal crest; the nasals are 5 mm. at the frontal points, the
bulla is 25 by 17 mm., and P-, C-, and MT are respectively 15, 8,
and 10 mm. A rather younger female (No. 1926.12.4.28) has no
sagittal crest except on the occiput, the temporal ridges being 14 mm.
apart at the suture; its condylo-basal length is 120 mm. and its other
dimensions are a little smaller except the nasals, which are 5.5 mm.
at the frontal points; the three teeth are 15, 7, and 11 mm. In the
youngest female (No. 1926.12.4.27), with a condylo-basal length of
118 mm., the temporal area is about the same width as in the last,
the nasals are 5 mm., the bulla 24 by 15 mm., and the teeth 14, 7,
and 10 mm., respectively.

Leopardus pardalis melanurus Ball.

Felis melanura Ball, Proc. Zool. Soc. Lond., p. 128, 1844.
Felis (Pardalis) melanura Gray, Proc. Zool. Soc. Lond., p. 271, 1867.
Felis maripensis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 20, p. 331, 1904.
Leopardus pardalis maripensis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,

p. 347, 1919.
Oncoides pardalis tumatumari J. A. Allen, Bull. Amer. Mus. Nat. Hist., 34,

p. 632, 1915.
Leopardus pardalis tumatumari J. A. Allen, Bull. Amer. Mus. Nat. Hist.,

41, p. 347, 1919.

Type locality. — Unrecorded, but perhaps more likely than not
British Guiana. Type locality of maripensis, Maripa, Caura Dis-
trict of Venezuela; of tumatumari, Tumatumari, British Guiana.

Distribution. — Venezuela and British Guiana; also Dutch Guiana
(Surinam) and possibly Trinidad.

Intergrading in color and pattern with brasiliensis but distin-
guished noticeably on the average by the darker, richer ochreous
ground color of the head, nape, back, and within the black-rimmed
bands or rosettes which are set off on the flanks by paler interspaces;
the pattern forming more definite bands, the black more extensive
and encroaching to a greater degree over the paler interspaces and
markedly dominant in some cases. The skull also has the dorsal
profile more dome-shaped, owing to inflation of the frontals with
air-cells, and in adult males it is not so strongly molded, the sagittal
crest being low on the crown, the zygomatic width a little narrower,
the average being 98 mm. in six as against 102.5 in four skulls of
brasiliensis, and the postorbital area less constricted, the average
width in the same specimens being 33 as against 27 mm.; the nasals
also are on the average narrower, being from 7 to 9 mm. wide at

1941 RACES OF OCELOT AND MARGAY— POCOCK 329

the frontal points, instead of from 8 to 12 mm. in brasiliensis, and
the bullae are a trifle longer, ranging from 25 to 27 mm. long and
from 17 to 19 mm. wide as against an average of just over 24 mm.
long and 16 mm. wide in brasiliensis. The condylo-basal length
of the skulls is the same in the two races.

The type of melanurus, an adult, apparently female specimen,
is exceptional in two respects. The hairs of the nape are not reversed
in growth direction1 and it is a color-mutant recalling in many
respects some skins of leopards I have described, the black pigmen-
tation, or pattern, being excessively developed at the expense of
the pale interspaces. The ground color of the interspaces is rich
ochreous on the upper side from the head backwards, where traceable,
and in the central areas of the lateral bands, but on the sides between
these bands it forms narrow whitish lines. On the nape the normal
pale central area with its median black stripe is almost obliterated
by the great expansion of the inner of the two lateral stripes, which
in the middle of its length fuses with the equally expanded outer
stripe, the two again joining to form a big black patch behind the
shoulders; on the back there is a median broad spinal stripe separated
on each side by a narrow ochreous stripe from a very wide black
dorsal stripe, the three meeting behind to form a black shield on
the rump; the tail is black except for a little white at the base below;
the spots on the limbs are large.2

The type of maripensis, an adult male from the Caura District
of central Venezuela south of the Orinoco, was described as having the
black of the upper side greatly predominating over the inter-spaces,
which were tawny, "like a jaguar," 3 above and a little paler on the
flanks; the pattern consisted of heavy blotches and stripes, mostly
solid, only a few forming rosettes; the outer lateral stripes on the
neck were from 10 to 15 mm. thick and extended to the shoulders;
the upper side of the tail was mostly black, the interspaces being
reduced to half -rings on the sides and below. From this description

1 This character seems to be subject to the same degree of variation in pardalis
as in the related species wiedii. The hairs, for example, are not reversed in a
specimen identified as L. pardalis albescens, from Coahuila, Mexico. In the
female of brasiliensis, from Manaos, described above, they are also directed
backwards, apart from a few local irregularities; in the type of pictus they are
reversed only on the fore part of the nape from two whorls situated a short distance
behind the ears and in the skin from the Rio Purus the two whorls are set about
halfway along the nape; as a general rule the reversal starts at the shoulders.

2 There is a colored figure of the specimen in Elliot's "Monograph of the
Felidae."

3 The tint of a jaguar is not at all my conception of tawny. I should apply
that term to the tint of an average lion; "jaguar-like" exactly expresses the color
of the type of melanurus.

330 OSGOOD TESTIMONIAL VOLUME

it seems that the specimen merely differs from the type of melanurus
in being less extensively black and in the lateral interspaces being
yellower, not so white.

The description of the color and pattern of the type of tumalumari,
from British Guiana, with the black pattern "greatly predominating"
and the ground color tawny on the back is the same as that of
maripensis, although Allen made no comparison between these two
forms. About the only color differences seem to be the whiteness
of the interspaces on the flanks of tumatumari and the less extensive
suppression of the pale interspaces on the tail. In the whiteness
of the interspaces on the flanks, this type resembles that of melanurus.

A series of skins in the British Museum from British Guiana
sent by F. V. McConnell, mostly from the Rio Supinaam, shows
that the characters in which the types of tumatumari and maripensis
differ from each other are individually variable in the same locality.
Some of the skins distinctly approach brasiliensis in color. None
of them appears to have the black pattern so markedly dominant
as in the type of tumatumari.

Five skins from the Rio Supinaam (Nos. 1910.9.29.12, 13, 14;
1911.12.15.9; 1913.12.12.1) have the ground color of the head,
nape, back, and within the bands varying from dark ochreous
tawny or pale brown to a little brighter or to a duller more olivaceous
tawny, the pattern forming long bands, sometimes with contained
spots, and the interspaces varying from white to buffy white; the
front of the legs is tinted with buff, sometimes only faintly and is
paler than the back in all the skins; the upper side of the tail has
the pale interspaces visible to the end, but the black is always
dominant, though to a varying extent. A female skin from Tiger
Creek, Essequibo River (No. 1914.6.25.3) has the ground color above
as dark as in the darkest of the Rio Supinaam series, the pattern
is similar, the lateral interspaces are white, the legs are buff -tinted
and the black on the tail is noticeably dominant. A female skin
from Takutu River, Rio Branco, on the Brazilian border of Guiana,
has the ground color more sandy ochreous than the preceding and
the legs are better-colored, the same tint as the back. In general
this skin hardly differs from some of the skins assigned to brasiliensis.
It may here be noted that Allen identified as tumatumari a skin
recorded by Osgood from Santarem which, from its locality, should
belong to the same race as my skins from Manaos and Santa Maria
on the Amazon, assigned to brasiliensis; but since the skin looks
like melanurus, the possibility of its having come from Guiana must
be remembered.

1941 RACES OF OCELOT AND MARGAY— POCOCK 331

Two skins from Dutch Guiana (Ivan Sanderson) differ individ-
ually. One (collector's No. 529M) has the same rich dark color above
and within the bands as the best-colored skins from British Guiana,
with the pattern forming long bands set off by whitish interspaces,
slightly tinted close to the rich-tinted spinal area. The other skin
has the ground color paler, with a narrower pigmented spinal area
and the lateral pattern not forming definite long bands but consisting
mainly of elongated lineally arranged rosettes.

A skin from Trinidad (F. Urich. No. 1932.11.11.15) is provision-
ally assigned to this race. It is not so bright or dark as the typically
colored British Guiana skins, being grayer or more olivaceous, less
ochreous tawny, with the limbs gray; but the lateral pattern is in
bands and the black on the tail is dominant. It hardly differs from
the dullest Rio Supinaam skins.

A moderately good series of skulls from British Guiana shows
that although individually variable in all respects they differ on
the average from those assigned to brasiliensis in some particulars.
The dorsal profile is more dome-shaped, less evenly convex, more
steeply sloped from the highest point to the occiput backwards and
to the nasals forward, owing to inflation of the frontal bones with
air-cells; and in adult males by the much lower sagittal crest. The
frontal inflation varies in position. In an adult male from . the
Supinaam River (McConnell. No. 1913.12.12.1) it is well marked
and situated just behind the position of the postorbital processes,
the forehead and the muzzle being steeply sloped forwards and the
cranium backwards from that position. In an adult male from
the Moon Mountains, south British Guiana (McConnell. No. 1911.
6.7.37), the inflation is similar. In an adult female from the Takutu
River on the Brazilian frontier (McConnell. No. 1908.12.15.7) the
inflation is equally prominent, but situated well in front of the
postorbital processes, the muzzle being steeply sloped from that
point. In other skulls the inflation is less marked. In two adult
male skulls from the Supinaam River (Nos. 1913.12.12.1 and 1910.
9.29.12) the sagittal crest is low, 3 mm. at the fronto-parietal suture
and about 7 mm. on the occiput; and, in accordance with the low
crest, the postorbital area is from 3 to 9 mm. wider than the inter-
orbital area and the same as the maxillary width or a little less.
Two adult female skulls differ a good deal in muscular development.
The one from the Takutu River, above referred to, has a complete
but small sagittal crest and the postorbital and interorbital areas
29 and 25 mm., respectively. Another younger skull from the
Supinaam River (No. 1910.9.29.14) has scarcely any frontal inflation,

332 OSGOOD TESTIMONIAL VOLUME

the temporal ridges are 7 mm. apart at the suture, and the two
areas in question 34 and 26 mm., respectively.

The teeth vary individually, P- in the male from 16 to 18 mm.
long, in the female from 14 to 16 mm., the upper canine in the
male from over 8 to 9 mm., in the female from 7 to 8 and MT in
the male from 12 to 13 mm., in the female from 11 to 12 mm.

The skull of the type of melanurus, apparently female, agrees
very closely in size, shape, and proportions with McConnell's series.
Its condylo-basal and basal lengths are 132 and 120 mm., respectively,
those of the female from the Takutu River being 129 and 120 mm.
The nasals are 9 mm. wide at the frontal points, the bulla is 24 by
18 mm., P- is 14.5 and the canine 7 mm. The skull of the adult
male type of tumatumari is apparently older than the British Guiana
skulls described above. Its condylo-basal length in the original
description is 139 mm.,1 the same as in the male skull from the
Supinaam River (No. 1910.9.29.12), but its total length is 151 mm.
as against 145, indicating a bigger occipital crest, its postorbital
area is narrower, 32 mm. as against 36, and its interorbital area
wider, 32 mm. as against 27 mm., the dimensions in question in-
creasing with age after the total length is attained; P- is 16.5 by
8.5, not so large as the largest in the Supinaam skulls. Allen's
measurements of the skull of the adult male type of maripensis
from Venezuela with the total, basal, and basilar lengths 144, 130,
and 121 mm. agree closely with those of my skull from the Supinaam
River, British Guiana (No. 1910.9.29.12), in which the same dimen-
sions are 145, 129, and 125 mm. He laid special stress on the large
size of P-, which was 17.5 mm. long and 9.5 mm. wide in front.
The same tooth in my skull from the Supinaam (No. 1913.12.12.1)
is 18 mm. long and 9 mm. wide.

These skulls have been considered in some detail because the
evidence they supply confirms that of the skins — that the names
melanura, maripensis, and tumatumari were given to the same race
of ocelot.

The adult unsexed but apparently male skull of Sanderson's
skin (collector's No. 529M) from Dutch Guiana is a little smaller
than the two adult male skulls from the Supinaam (Nos. 1910.9.29.12
and 1913.12.12.1), its condylo-basal and basilar lengths being 133
and 121 mm. as against 139, 137, and 125 mm. ; but it has the same
low sagittal crest and its dorsal profile is about the average in shape

1 In 1919 this was said by Allen to be the "basilar" length, involving a condylo-
basal length of about 150 mm., much bigger than in any known ocelot skull.

1941 RACES OF OCELOT AND MARGAY— POCOCK 333

of the British Guiana skulls, the frontals being a little inflated
both at the base of the nasals and behind the level of the post-
orbital processes. But under the name chibigouazou, Mearns (Proc.
U. S. Nat. Mus., 25, p. 249, 1902) gave the skull measurements of
an alleged female from Dutch Guiana, which I strongly suspect
was a male. At all events its basilar length of 125 mm. and zygo-
matic width of 100 mm. are the same as in the adult male from the
Supinaam (No. 1910.9.29.12). In my two adult female skulls from
British Guiana those dimensions are 117, 114 and 87, 91 mm., respec-
tively. The skull of the skin from Trinidad (No. 1932.11.11.15),
provisionally assigned to this race, is apparently female and a
young adult. It is a smallish skull with the condylo-basal only
119 mm., but the postorbital area is narrow, 29 mm., and the temporal
ridges form a narrow lanceolate area, 6 mm. at the parietals and
3 at the suture. The condylo-basal is the same length as in a much
younger female skull of melanurus from Tiger Creek (1914.6.28.3),
but in this the postorbital area is 36 mm. and the temporal ridges
are 19 mm. apart at the suture.

None of the skins in the British Museum was measured in the
flesh, but Allen recorded those of his types of maripensis and tuma-
tumari, which, converted into English inches, are as follows:

Head Hind

and body Tail foot

Venezuela (maripensis) adult cf 37.4 14

British Guiana (tumatumari) adult d"1 36.2 13 5.2

The dimensions of the type of maripensis were taken from a
soft skin which was almost certainly stretched in the head and
body. The type of tumatumari was measured in the flesh. The
lengths of both suggest a larger ocelot than brasiliensis or steinbachi,
a suggestion not borne out by the skulls.

Leopardus pardalis aequatorialis Mearns.

Felis aequatorialis Mearns, Proc. U. S. Nat. Mus., 25, p. 246, 1902.
Oncoides pardalis aequatorialis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 35,

pp. 123 and 223, 1916.
Leopardus pardalis aequatorialis J. A. Allen, Bull. Amer. Mus. Nat. Hist.,

41, p. 347, 1919.

Type locality. — Paramba, northern Ecuador.
Distribution. — Peru; Ecuador; Colombia.

Closely resembling both brasiliensis and melanurus. Color and
pattern individually variable in the same locality, but the ground
color above and in the pattern more ochreous on the average than

334 OSGOOD TESTIMONIAL VOLUME

in brasiliensis, that tint varying from brighter and yellower to
darker and browner or more rusty ochreous; pattern on the flanks
varying from complete long bands to separate lineally arranged
rosettes, the banded pattern being prevalent; typically the black
on the tail is noticeably dominant over the pale interspaces, which
in the posterior half or two-thirds of the organ are reduced to narrow,
widely separated stripes. In the darkest specimen the ground color
is not distinguishable from that of the darkest skins of melanurus
from British Guiana, but on the whole it is a little paler and brighter
ochreous, although none of the skins shows the marked dominance
of the pattern over the interspaces recorded in the types of melanurus,
maripensis, and tumatumari. In the skull the nasals are on the
average noticeably narrower posteriorly than in brasiliensis and
the frontals are not inflated as they are typically in melanurus.

Mearns described the type of this race, an adult female, the only
specimen he had, as very large1 with the ground color of the upper
side nearly uniformly tawny rufous, the pattern of the back con-
sisting of solid black spots, without pale centers, of the flanks of
"jaguar-like" rosettes, apparently not confluent in bands, the tail
above as reddish tawny, irregularly spotted with black on its basal
three-fifths, and with five black rings in the terminal two-fifths.

The British Museum has only one adult skin from Ecuador,
a male from Gualaquiza, altitude 2,500 feet (Hammond. No.
1914.4.25.42). The ground color of the back and of the centers of
the lateral bands is dark ochreous brown, the spaces between these
bands being bufly gray; there is a continuous black spinal stripe
and on each side of it a series of elongated mostly solid blotches
and lines, very much as in the type, but on the flanks the rosettes
are not isolated, but form broad bands with smaller spots in the
ochreous central areas; the tail is dominantly black above, but the
pale interspaces are traceable nearly to the end; the legs are washed
with buff. A kitten with the same history (No. 1914.4.25.47) has
the ground color pale above, white laterally, the black on the tail
being greatly dominant. Allen recorded a specimen from Daule
in Guayas, altitude 2,000 feet.

A few Peruvian skins show a good deal of variation both in the
ground color and the pattern. An adult male from Marcapata
(Kalinowski. No. 1904.12.4.5) closely matches the skin from Guala-
quiza, its ground color being rich dark ochreous tawny above, with

1 His standard for size is not apparent. The type was not a big ocelot by the
measurements recorded.

1941 RACES OF OCELOT AND MARGAY— POCOCK 335

whitish streaks on the flanks; the pattern on the back consists of
three continuous black stripes and of coalescent rosettes on the sides,
but these do not form such broad bands as in the Gualaquiza speci-
men. A female with the same history (No. 1904.12.4.6) has the
ground color a good deal paler, more sandy ochreous than in the
male and the spots or rosettes forming the pattern do not form such
complete bands. A youngish male from Yurac Yacu, San Martin
(Hendee. No. 1927.1.1.66), closely resembles the female from Marca-
pata in color. An adult female from Pozuzo (Hoffman. No.
1903.12.5.1) is also paler than the male from Marcapata but is
rather darker and duller than the other two. Still paler than any
of the foregoing is a female skin from Santa Ana, Cuzco (Kalinowski.
No. 1897.10.3.9), which is pale sandy buff above with the lateral
interspaces nearly white; the pattern is not so coarse and the black
bands on the tail are not so wide as in the other Peruvian skins.

Allen in 1916 described a male from Caqueta District, Colombia,
as closely resembling L. p. mearnsi, which ranges from Panama to
Nicaragua, in color, but having the tawny of the upper parts deeper
and more rufous and extending much lower on the sides. Specimens
from western Colombia, he added, agree closely with those from
Ecuador. This description applies very well to the darker-tinted
skins in the British Museum from Ecuador and Peru, but does not
agree by any means with the Colombian skins in the British Museum.
A skin, apparently male, from Bogota (Niceforo Maria. No. 1924.
6.3.1), is peculiar in having the nape hairs disturbed by two whorls,
one a little behind the occiput, the other farther back to the left
of the middle line; the ground color is brighter ochreous than in the
male skins from Gualaquiza and Marcapata; the spots in the row on
each side of the middle line mostly have pale centers, the rosettes
on the sides are thin-rimmed, some isolated, others confluent in
bands, and on the tail the black pattern is not noticeably dominant.
Two skins from Bogota (Welby. Nos. 1940.864 and 865), June, are
not so bright as the last, both closely matching the dull skin from
Pozuzo. An adult female skin from Medellin (Salmon. No. 1878.
8.31.4) similarly closely matches the female skin from Marcapata,
Peru, in the ground color, but the interspaces on the flanks are
buff and this tint invades the sides of the abdomen and the throat
below; the legs are well tinted, matching the back; the black on the
tail is not dominant; there are no complete stripes on the dorsal
area, even the normal spinal stripe being broken up into solid
spots. The peculiarities of this skin make its reference to aequa-
torialis a little doubtful; but the disruption of the dorsal pattern is

336 OSGOOD TESTIMONIAL VOLUME

foreshadowed in the female Peruvian skins from Marcapata and
Santa Ana.

The following are the flesh measurements in English inches of
some of the above-described specimens:

Head Hind

and body Tail foot

Gualaquiza, Ecuador adult d* 39.4 14.4 6.4

Caqueta, Colombia (Allen) adult d" 34.0 14.0 6.4

San Martin, Peru young d1 29.2 14.6 6.2

Guayas, Ecuador (Allen) adult 9 30.8 16.8 6.8

Paramba, Ecuador (type) adult 9 29.0 14.6 6.0

Santa Ana, Cuzco, Peru young 9 23.6 11.6

The male from Gualaquiza appears to be the record ocelot for
size and the skull, as stated below, is in keeping with the flesh measure-
ments. The female from Guayas, Ecuador, has an exceptionally long
tail for the species, well over half the length of the head and body.
There is probably some error in the figure. But it is interesting to
note that in the young male from San Martin and the young female
from Santa Ana, Peru, the tail is as nearly as may be half the length
of the head and body as it is in the type of the race from Paramba.

There are only a few adult skulls of this race in the British
Museum and they do not differ in any important respects from those
of brasiliensis, although the nasals are on the average narrower in
their posterior portion. The skull from Gualaquiza (No. 1914.4.25.
42), an oldish male, with the total and condylo-basal lengths 157
and 142 mm., respectively, is a little longer than any recorded skull
of the previous three races. It is strongly molded, the zygomatic
width being 101 mm. and the constricted postorbital and the inter-
orbital widths 27 mm.; the sagittal crest is high, 4.5 mm. at the
suture, 9 on the occiput; the nasals are 8 mm. wide at the frontal
points; the bullae are low and narrow, 25 by 15 mm., and exhibit
a feature not observed in any other skull, namely, a low, sharp
crest extending forwards along the posterior half of the outer surface
from the paroccipital process; the teeth are normal in size, P-
17 mm., C^ 9.5 mm., and MT 12 mm. long. The adult male skull
from Marcapata, Peru (No. 1904.12.4.5), is a little shorter than the
last, its total and condylo-basal lengths being 151 and 133 mm.,
respectively; but its zygomatic width, 107 mm., is a little greater
and its sagittal crest, 7 and 10 mm. at the places indicated, is higher;
the nasals, 6 mm. wide at the frontal points, are narrower; the bullae
are not so flat and have no crest; the postorbital and interorbital
areas are the same width and the three teeth are the same length
as in the Ecuador skull. The skull of an adult male from Caqueta

1941 RACES OF OCELOT AND MARGAY— POCOCK 337

District of Colombia, measured by Allen in 1916, had practically
the same condylo-basal length, 132 mm., as the male from Marca-
pata, Peru, but its much shorter total length, 142 mm., narrower
zygomata, 94 mm., and postorbital width, 32 mm., considerably
exceeding the interorbital, 26.5 mm., show that its muscular molding
was on a very inferior scale. Probably it was a much younger skull
and not fully developed. Its upper carnassial P-, 15 mm., is also
noticeably shorter, 1 mm. shorter than the alveolus of that tooth
in the Marcapata and Gualaquiza skulls.1 I have seen no female
skull from Ecuador, but that of the type from Paramba, measured
by Mearns, had a basilar length of 113 mm., indicating a condylo-
basal length of about 126 mm.; the cranial, zygomatic, postorbital,
and interorbital widths were 57, 95, 39, and 27 mm., respectively,
and P- was 17.5 mm., longer if anything than in my male skulls
from Ecuador and Peru and decidedly longer than in Allen's male
from Colombia. Possibly the skull was that of an undeveloped male
with the postorbital area unconstricted. The largest female skull
in the British Museum, from Pozuzo (No. 1903.12.5.1), with a total
length of 140 mm. and an estimated basilar length of 118 mm.,
is longer than the skull of the type; the zygomatic width is the same,
but the postorbital area is more constricted, 30 mm., and only a
few mm. wider than the interorbital, 26 mm.; the sagittal crest is
complete, 1 mm. at the suture, 8 mm. on the occiput; the nasals
are 6 mm. wide at the frontal points; the bullae are large, 27 by 18
mm., and P- is 15.5 mm. The skull of the female from Marcapata,
Peru (No. 1904.12.4.6), is much smaller than the one from Pozuzo and
than the type, its total and condylo-basal lengths being 124 and
116 mm. and its basilar length 103, and is quite a dwarf compared
with the male from Marcapata. It is just adult and not so muscu-
larly molded as the female from Pozuzo, the sagittal crest being
complete only posteriorly and represented in front by a ridge 5 mm.
wide at the suture; the nasals are broader, 7 mm. wide at the points;
the bulla is 2£ by 15 mm., and P- is 14 mm. The adult female
skull from Medellin, Colombia (No. 1878.8.31.4), has its back cut
away, but its estimated condylo-basal length is about the same
as in the female from Marcapata, which it further resembles in the
presence of a temporal area 6 mm. wide and in the length of P-;
but it differs in the narrower facial portion of the skull, the inter-
orbital and maxillary widths being 19 and 29 mm. instead of 23
and 32; and the nasals are compressed behind, only 4 mm. wide at

1 In the immature male skull (No. 1927.1.1.66) from San Martin, Peru, the
alveolus is 15 mm., which indicates about 16 mm. for the crown.

338 OSGOOD TESTIMONIAL VOLUME

the points. An adult female skull from Daule in Guayas, Ecuador,
measured by Allen, was nearly intermediate in size between the
females from Marcapata and Pozuzo, and a little shorter than the
type of aequatorialis, its total and condylo-basal lengths being 131
and 121.5 mm., respectively; its PA, 16 mm., was about the same
length as in the female from Marcapata.

Possibly the specimens recorded above may prove to be referable
to more than one race; but the material is quite inadequate to
justify the introduction of new names.

Leopardus pardalis pusaeus Thomas.

Felis pardalis pusaeus Thomas, Ann. Mag. Nat. Hist., (8), 13, p. 347, 1914.

Leopardus pardalis pusaeus J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,
p. 348, 1919.

Type locality. — Changon, fifteen miles west of Guayaquil, coastal
region of Ecuador. Altitude 60 meters. Collected by P. 0. Simons
(No. 1899.8.1.29).

Distribution. — Western Ecuador, at comparatively low levels.

Distinguished from the above-described races by its small size,
rather pale dullish color and weakly developed skull, that of the
adult male resembling in dimensions and muscular molding the
female skull of the other South American races.

The type, an adult male, November, has noticeably paler ground
color than typical aequatorialis, duller ochreous, more sandy tawny,
gradually fading laterally and especially paler on the sides behind
the shoulders; the pattern is not so massive, more spotty, with the
lateral rosettes less confluent in bands, at least on the average;
the pale interspaces on the tail are better developed; the legs are
grayer. A young adult male with the same history (No. 1899.8.1.28)
is very similar to the type in color and pattern, but has the flanks
whiter and the pale interspaces on the tail broader. A younger
female from western Ecuador (Zool. Soc. No. 1915.11.3.1) is colored
like the last, but the rosettes are more confluent in bands than in
the other two.

The flesh measurements in English inches are as follows:

Head Hind

and body Tail foot

Changon (type) adult rf 29.0 12.0 6.0

Changon young adult d" 28.6 13.2 6.4

Western Ecuador young 9 23.0 14.0 6.4

The adult male (type) is exactly the same in the length of the
head and body as the adult female of L. p. aequatorialis from Paramba.

1941 RACES OF OCELOT AND MARGAY— POCOCK 339

The skull of the type, which is just adult, has the condylo-basal
and basilar lengths 121 and 108 mm.; the postorbital and maxillary
widths are 32 mm., wider than the interorbital, which is 25 mm.
The temporal ridges do not meet on the crown, where they form a
lanceolate area 7.5 mm. wide at the suture, but they coalesce on
the posterior part of the parietals, forming a short sagittal crest
5 mm. high on the occiput; the zygomatic width of 82 mm. is narrow;
the nasals are not compressed, being 8 mm. wide at the frontal
points; the bulla is 24 by 17 mm.; P- is 16 mm., the upper canine
8 mm., and MT 12 mm. The young adult male has the condylo-
basal and basilar lengths 119 and 108 mm. and, in accordance with
its age, the temporal ridges are 14 mm. apart at the suture, the
sagittal crest is restricted to the occiput, where it is 2.5 mm. high,
and the postorbital, interorbital, and maxillary widths are 33, 23,
and 30 mm., respectively. The measurements of the nasals, bulla,
and teeth are the same, or very nearly so, as in the type. The
young female skull does not call for detailed description; the un-
developed bulla is 19 by 19 mm. and PA, O, and MT are 14, 7, and
10 mm.

Leopardus pardalis mearnsi Allen.

Felis costaricensis Mearns, Proc. U. S. Nat. Mus., 25, p. 245, 1902 (name
preocc. by Merriam for a race of puma).

Felis mearnsi J. A. Allen, Bull. Amer. Mus. Nat. Hist., 20, p. 71, 1904 (sub-
stituted for costaricensis).

Felis pardalis mearnsi J. A. Allen, Bull. Amer. Mus. Nat. Hist., 28, p. 108,
1910.

Leopardus pardalis mearnsi J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,
p. 346, figs, of skull, 1919.

Type locality. — Talamanca, Costa Rica.

Distribution. — "From the eastern slopes of Nicaragua to Panama,"
according to Allen.

Ground color individually variable from "tawny" to "buffy
gray," on the average at least noticeably paler, not so rich in hue
as aequatorialis, melanurus, and brasiliensis and with the pattern
consisting more of isolated rosettes, less "catenate" or coalescent
in lateral bands.

Mearns described this ocelot on page 237 of his paper as having
the ground color above tawny in front and becoming grayish or
paler posteriorly. This description was probably taken from a
series of skins; but the longer description on page 245 seems to have
been derived from the type alone. Here he says: "size very large;

340 OSGOOD TESTIMONIAL VOLUME

upper parts with ground color russet becoming tawny olive within
the spots and cream-buff between the chains of spots on the sides;
pattern consisting of a heavy black spinal stripe, of elliptical solid
spots on each side of it, and of lateral dorsal spots including tawny-
olive areas, these spots about twice as long as wide; the tail, more
black than white, with eleven black stripes." Most of his specimens,
including the type, were from Talamanca in Costa Rica, one from
the Pacific coast of that state; but two came from Panama. In
1910 Allen described a male from Rio Choco, eastern Nicaragua,
as having the ground color of the dorsal surface tawny and a female
from Pena Blanca as exhibiting the "gray phase," the ground color of
the dorsal surface being dull buffy gray. In spite of this record
of the pale specimen, he diagnosed the race in 1919 as "a large
dark form."

None of the skins in the British Museum can be described as
"dark." An old male represented by skin and skull, from Costa
Rica, with the rest of its history obliterated, has the upper surface
and the rosettes pale buffy ochreous, gradually fading laterally and
passing into white on the lower flanks; the pattern consists mainly
of "jaguarine" rosettes with thick black rims and contained spots,
mostly isolated but coalescent in bands on the sides behind the
fore limbs. A skin (0. Salvin. No. 1865.5.18.16) without locality
but assignable to this race, closely resembles the last except that the
rosettes are a little more elongated. Two skins from Boquete,
Chiriqui, Panama, 4,000-4,500 feet (H. J. Watson) are paler and
altogether less brightly colored than the foregoing. A male (No.
1905.5.4.3) has the head, nape, and shoulders sandy, the spinal
area quite light buffy gray passing high up on the flanks and thighs
into white, which throws into bold relief the pattern consisting of
solid spots or very thick-rimmed rosettes with sandy centers, but
not "catenate" or coalescent in bands; the tail has the black
dominant in its distal half, where it forms broad, narrowly separated
stripes; the hind leg is grayish white, the foreleg faintly buffy at
the base. A female (No. 1903.3.3.17) differs from the male in being
grayer, less buffy above and in the pattern, with the white setting
in lower down on the flanks, and the rosettes of the pattern thinner-
rimmed and more coalescent in bands on the flanks; the black on
the tail, as in the skin from Costa Rica, is hardly dominant over
the pale interspaces. This Chiriqui female appears to resemble
Allen's female from Pena Blanca in Nicaragua in exhibiting the
"gray phase," attesting the occurrence of this phase in both the
eastern and the western parts of the known geographical range of

1941 RACES OF OCELOT AND MARGAY— POCOCK 341

the race. The general tint of the Chiriqui female very closely matches
that of the female specimen of griseus from Mazatlan referred to
under that heading.

The following, given in English inches, are the only flesh
measurements of mearnsi known to me:

Head Hind

and body Tail foot

Chiriqui, Panama young adult cf 30. 0 11.6 5.6

Chiriqui, Panama old 9 30.8 12.0 6.0

Talamanca (type) adult 9 30.8 11.2 6.5

Pena Blanca, Nicaragua adult 9 32.4 14.4 6.4

Mearns gave some measurements of five presumably adult male
skulls, three from the type locality, Talamanca, with the basilar
length ranging from 134 mm. in the type to 127 mm., one from the
Pacific coast of Costa Rica and one from the Isthmus of Darien
with that dimension 124 mm., the average being about 127 mm.,
a length slightly surpassed by only three adult male ocelot skulls
I have seen, namely, those of brasiliensis from Rio Grande do Sul,
and aequatorialis from Marcapata, Peru, and Gualaquiza, Ecuador.
But the skull of the type of mearnsi is the biggest ocelot skull re-
corded, the other two males from Talamanca having the basilar length
128 and 127 mm. It is singular that in all Mearns's male skulls of
this race the postorbital exceeds the interorbital width by from 2 to
4 mm., their widths in the type being 33 and 29 mm., suggesting
that, despite its size, it was not an old animal. The upper carnassial
(P-) in these skulls is from 16 to 17 mm., and the lower (MT) from
12 to 13 mm. In 1910 Allen recorded the skull of a very old male
from Rio Choco, Nicaragua, with a condylo-basal length of 137
and a basilar length of 126 mm., the latter measurement being about
the average of Mearns's series; but in accordance with its age the
postorbital area is narrower than the interorbital, their widths being
28.5 and 30 mm.; the length of P^ is 15.5 mm. In 1919 he published
admirable figures, natural size, of an adult male skull from Matagalpa
in Nicaragua. This is smaller, the condylo-basal and basilar lengths
being 132 and 120 mm. Since the postorbital and interorbital
widths are 29 and 26 mm., it is clearly a younger skull; its P- is
17 mm. and CA 10 mm.

The skull of the skin in the British Museum from Costa Rica
is very old and with the condylo-basal and basilar lengths and zygo-
matic width of 136, 124, and 103 mm. agrees very closely with Allen's
old male skull from Rio Choco; the postorbital and interorbital
areas are narrower, 25 and 27 mm., and P- is 16 mm. Its prominent
occipital crest makes the total length 149 mm., 13 mm. in excess

342 OSGOOD TESTIMONIAL VOLUME

of the condylo-basal length, as against only 5 mm. in Allen's skull
from Matagalpa. It differs noticeably from the latter in some other
respects. The sagittal crest is higher, 4 mm. at the suture and 13
on the occiput, as against 2 and 7 mm.; the widths across the zygo-
mata and postorbital processes are 103 and 63 as against 95 and 56
mm., all age characters; but the nasals are the same width in both
at the frontal points, 7 mm., and the bullae are nearly the same,
27 by 18 as against 25 by 17 and 15. A further difference is in the
shape of the upper profile of the muzzle, which in my skull is flat
from the postorbital processes to the distal end of the nasals, whereas
in the Matagalpa skull it is markedly convex owing to the expansion
with air cells of the area near the hinder end of the nasals. The
young undeveloped male skull in the British Museum from Chiriqui,
Panama, has the upper facial profile nearly as in the skull from
Matagalpa, but a little more curved; the temporal ridges are 10 mm.
apart at the suture and 16 on the parietals behind. It would cer-
tainly have grown to be a larger skull seeing that its condylo-basal
and basal lengths of 130 and 119 mm. are only 2 and 13 mm., respec-
tively, shorter than in Allen's skull, whereas the total length of 141
mm. is 4 mm. longer; the zygomatic, postorbital, interorbital widths
and across the postorbital processes are respectively 90, 33, 25, and
51 mm. as against 95, 29, 26, and 56 mm. in the Matagalpa skull-
all age differences; P- and MT are 17 and 13 mm. These three male
skulls — the old from Costa Rica, the adult from Nicaragua, and the
young from Chiriqui — are good illustrations of the changes ocelot
skulls pass through with increase in age.

The old female skull from Chiriqui has the upper facial profile
more strongly convex and the muzzle more steeply sloped than in
the Matagalpa skull, owing to greater inflation with air-cells; the
sagittal crest is restricted to the occiput, where it is 4.5 mm. high,
the temporal ridges being very strong and 12.5 mm. apart at the
suture. Mearns's two adult female skulls from Talamanca have
basilar lengths of 117 and 112 mm. In the Chiriqui skull that
dimension is 118 and the condylo-basal and total lengths are 129
and 136. In all the other dimensions recorded by Mearns it is a
few mm. bigger. In Mearns's skulls P- is 15 and 15.5 mm. and in
the Chiriqui skull 16; and MT is 11, 12.2, and 11 mm. in the same
three skulls, respectively.

Leopardus pardalis pardalis Linnaeus.

Felis pardalis Linnaeus, Syst. Nat., ed. 10, 1, p. 42, 1758.

1941 RACES OF OCELOT AND MARGAY— POCOCK 343

Felis ocelot Link, Beytr. ZooL, 2, p. 90, 1795.1

Felis ocelot No. 3, Hamilton Smith in Griffith's Anim. Kingd., Mamm., 2, p.

476, pi., 1827.
Felis ocelot y (ocelot y of Hamilton Smith) J. E. Gray in Griffith's Anim.

Kingd., 5, p. 168, 1827.

Felis griffithii Fischer, Syn. Mamm., Addenda, p. 369, 1829.
Felis canescens Swainson, Anim. in Menag., p. 118, 1838.
Felis pardalis Mearns, Proc. U. S. Nat. Mus., 25, p. 244, 1902.

Felis pardalis pardalis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 22, p. 221,

1906.

Felis buffoni and mexicana Brass, Aus der Reiche der Pelze, p. 412, 1911.
Leopardus pardalis pardalis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,

p. 345, 1919.

(l)Felis pardalis nelsoni Goldman, Journ. Mamm., 6, p. 122, 1925.

Type locality. — Mexico (Vera Cruz according to Allen). Type
locality of ocelot Link, also based on Hernandez's "Catopardus," the
same; of ocelot 7, griffithii, canescens, buffoni and mexicana, Mexico.

Distribution. — Vera Cruz, also apparently Guatemala, and along
the southwestern coast of Mexico from Oaxaca to Colima.

Distinguished from mearnsi at least by its smaller skull, the aver-
age basal length of which in the male is about 122 mm., in the female
109 mm., as compared with about 128 and 118 mm. in mearnsi.
In flesh measurements the male seems to be about the size of the
female of mearnsi.

The published information about this race is meager and unsatis-
factory. There are no specimens in the British Museum, apart
perhaps from a skin, without skull, doubtfully assigned to it, from
Duenas, Guatemala (0. Salvin. No. 1865.5.18.17). This skin is
not a "gray" ocelot like the Mexican skins in the British Museum,
the ground color above and in the centers of the rosettes and bands
being darker and duskier, owing to dark speckling of the hair-tips,
and showing a dull buffy-ochreous tint, the interspaces lower down
on the flanks being whitish; the rosettes on the sides form for the
most part long continuous bands, very few being isolated, with many
contained small spots; the tail is blotched and striped to the end.
The pattern generally is closer set, not so open, and more definitely

1 1 have followed Osgood (Journ. Mamm., 1, pp. 89-90, 1920) in citing ocelot
Link, ocelot y Gray, griffithii Fischer, and canescens Swainson as synonyms of
pardalis, and Miller (North Amer. Recent Mamm., p. 156, 1924) in adding the
two names proposed by Brass. Miller did not accept Osgood's allocation of
griffithii to this race; but from the evidence supplied by Hamilton Smith's figure
and description of the type I think Osgood's opinion was justified.

344 OSGOOD TESTIMONIAL VOLUME

catenate than in my examples of mearnsi from Costa Rica and
Panama and differs similarly from my examples of griseus, described
below, from Sinaloa in western Mexico. The catenate pattern sug-
gests its likeness to that of a skin from Oaxaca, assigned by Allen
in 1906, without description, to catenata Hamilton Smith.

Mearns described pardalis as larger than his Texan ocelot limitis
(=albescens) and with its color on the whole more intense, the general
ground tint being pale grayish buff, dark "clay" between the rings.
In 1919 Allen referred to pardalis as paler and smaller than mearnsi,
which he described as a large dark form, although none of the
British Museum specimens is a dark ocelot and Allen himself had
recorded one from Nicaragua as "gray." In the same paper he
briefly dismissed pardalis as the large, strongly colored ocelot of
southeastern Mexico.

Goldman's alleged new race, Felis pardalis nelsoni, ranges from
Oaxaca to Colima in western Mexico, the type locality being Man-
zanillo in Colima. It was diagnosed as similar to pardalis, the color
averaging much the same, but distinguished by being smaller, the
skull considerably smaller throughout and the teeth decidedly
smaller. The color of the type of nelsoni, and inferentially of his
specimen or specimens of pardalis, was said to vary from cinnamon
buff to light pinkish buff, the former tint being richer on the head
and neck, lighter on the back and within the rosettes.

The source of Goldman's information about pardalis is unstated,
but the flesh measurements he gave of the type of nelsoni, an adult
male, namely, head and body 31.2 inches (778 mm.) is a little greater,
not less than that dimension in a presumably adult male of pardalis
from Achotal, Vera Cruz, recorded by Allen as 30.4 inches (760 mm.).
There is clearly nothing to choose between the two on that score.

The skull of the type of nelsoni, the only one measured, was
said to have a total length of 144 mm. and a condylo-basal length
of 141.5 mm. One of these measurements is clearly wrong. No
adult male ocelot skull has such a small difference between those
lengths, which is seldom less than 10 mm. and usually more. Since,
moreover, the largest ocelot skulls I have measured are barely 140
mm. in condylo-basal length, I conclude that Goldman's figure of
141.5 mm. was a mistake, possibly for 131.5. The view that the total
length of 144 mm. was probably correct is borne out by Allen's
record of 145 mm. as the total length of the male skull he identified
as "catenata," as mentioned above, from Oaxaca, where nelsoni,
according to Goldman, is found. This skull from Oaxaca had a

1941 RACES OF OCELOT AND MARGAY— POCOCK 345

basal length of 124 mm. involving a condylo-basal length of about
132 mm., the same as nearly as may be as the suggested length in
the type of nelsoni; and incidentally the zygomatic widths of the
two skulls, namely, 96 mm. in nelsoni and 98 in the other, are prac-
tically the same.

The largest recorded skull assigned to pardalis known to me is
that of a male from Mirador, which, according to Mearns, had a
basilar length of 122 mm., involving basal and condylo-basal lengths
of about 125 and 133 mm., thus agreeing very closely with the skull
from Oaxaca and the type of nelsoni; its zygomatic width was 91
mm., less than in the type of nelsoni, and its interorbital width of
25 mm. is the same. Hence, on the evidence known to me, Goldman's
claim that the skull of nelsoni is considerably smaller in all its
dimensions than that of pardalis is contradicted by the recorded facts.

As regards the teeth the alveolar length of PA in the type of
nelsoni was given as just over 12 mm. The total length, i.e. of
the crown, in Mearns's skull of pardalis from Mirador was just
over 16.5 mm. The difference between the alveolar and crown lengths
in this tooth in ocelots is not infrequently 3 mm. when the posterior
cusp is prominent — a very variable feature. This would make the
tooth in nelsoni 1.5 mm. shorter in the crown than in the pardalis
from Mirador, a difference which may be purely individual as attested
by two male skulls of melanurus from Rio Supinaam, the crown of
P4 being 16.5 mm. in one, 18.5 in the other. Goldman also said
that the alveolar width of the upper incisors in the type of nelsoni
was 13.5 mm., the same dimension in the Mirador skull being 17 mm.,
according to Mearns. This character is also individually variable.
In the two skulls of melanurus, mentioned above, the incisive width
is 14 mm. in one and just under 18 mm. in the other. This disposes
of the last of the differences claimed by Goldman as distinguishing
nelsoni from pardalis. The former may prove to be different, but
the data supplied fail to show it.

Additional skulls identified as pardalis that have been measured
are as follows: A male recorded by Allen from Achotal, Vera Cruz,
was considerably smaller than Mearns's male from Mirador, its
basal length being only 118 mm.; but its zygomatic width of 91.5
suggests that it was adult. In both its dimensions given this skull
is smaller than the type of nelsoni, instead of larger, still further
disproving Goldman's statement regarding nelsoni. The total length
of the male skull from Achotal was said to be only 130 mm., an
impossible figure for an adult male skull, if the basal length was
correct. Probably 130 mm. was a mistake for 138 or 140.

346 OSGOOD TESTIMONIAL VOLUME

Of female skulls, one from Tehuantepec measured by Mearns
had a basilar length of 102 mm., implying basal and condylo-basal
lengths of about 105 and 112 mm.; the zygomatic, postorbital, and
interorbital widths were 87, 30, and 22 mm., respectively, the post-
orbital, as usual, being wider than in the male from Mirador; and
P- and MT were respectively just over 15 and just under 12 mm.
A female from Achotal, measured by Allen, was larger than the one
from Tehuantepec. With a total length of 133 mm. it had a basal
length of 113 as against the estimated 105 for Mearns's skull; its
condylo-basal length was probably about 120 mm. and its zygomatic
width was 86.

Leopardus pardalis griseus Gray.

Leopardus griseus1 Gray, Ann. Mag. Nat. Hist., 10, p. 260, 1842; Proc. Zool.

Soc. Lond., 1867, pp. 270, 403 (Felis}; Cat. Cam., etc., p. 19, 1869 (Felis).
Felis pardalis albescens J. A. Allen, Bull. Amer. Mus. Nat. Hist., 22, p. 219,

1906 (in part, specimens from Sinaloa, perhaps not albescens Pucheran).
Leopardus pardalis griffithii J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,

p. 345, 1919.
Felis pardalis sonoriensis Goldman, Journ. Mamm., 6, p. 123, 1925.

Type locality. — Central America. Type locality of sonoriensis,
Camoa, Rio Mayo, Sonora.

Distribution. — Western coast of Mexico from Sinaloa north-
wards, formerly at all events, to Arizona.

Distinguished from pardalis and the alleged race nelsoni by its
more uniformly gray tint on the average and by its smaller skull,
the average basal length of which in the largest known males is
about 111 mm. and in females about 100 mm., as compared with
about 122 and 109 in pardalis.

The British Museum has three specimens I assign to this race,
two from the state of Sinaloa and the type. The two from known
localities so closely resemble the type in skins and skulls that there
is no escape from calling them griseus; and since their localities are
very nearly the same as those of the series that Allen in 1906 de-
scribed from Sinaloa as albescens, it is practically certain that the
latter are also griseus.

The type of griseus, an adult female (No. 1839.7.25.5) has
gray ground color with a sandy wash on the head, nape, and back
and in the centers of the rosettes and bands; the stripes on the

1 The name griseus was set aside by Mearns and Allen as connoting an unidenti-
fiable ocelot. Gray recorded it in 1842 from Central America. I can find no
justification for his statement in 1867 that the type came from Guatemala.

1941 RACES OF OCELOT AND MARGAY— POCOCK 347

nape are not solid but divided by a central paler streak and the
spots on each side of the spinal stripe are mostly elongated, with pale
centers, but do not fuse to form a stripe; on the sides the rosettes
are large, thin-rimmed, and to a great extent irregularly arranged
and separated, but lower down especially in front they fuse into wide
thin-rimmed bands, with a few small spots in the central areas;
the pale hue of the skin is mostly noticeably dominant over the
pattern except on the distal third of the tail where the black stripes
are broader. This skin, although in good condition, is a century old
and was formerly exhibited as a mounted specimen. Hence it is
certainly faded; when fresh it was probably very like the following
in color. An adult female from Presidio, near Mazatlan in Sinaloa
(Ferrer. No. 1882.10.26.9) has the ground color a little darker and
richer than in the type of griseus, the sandy hue of the upper side
and inside the rosettes and bands having a decidedly more buffy
tone and that of the interspaces on the flanks a sandy wash, not so
gray; the legs also, especially the fore pair, which are creamy buff,
are a little brighter; the general style of the pattern is the same
except that the small spots enclosed in the rosettes and bands are
less numerous. The tail has more white at its distal end. This
skin was collected in May. A very nearly adult male from Mazatlan
(Simons. No. 1898.3.2.15), collected in December, appears strikingly
different, being the grayest of all the Central American skins in the
British Museum. The lateral interspaces are clear, whitish gray,
and the head, nape, shoulders, back, and the centers of the pattern
have only a faint, dull sandy wash; the pattern is similar to that of
the female, but the black stands out more boldly against the paler
ground color and the end of the tail is a good deal blacker, more as
in the type of griseus. The difference of seven months between these
two skins suggests that the difference in color may be seasonal.

Allen's description of a large series from Esquinapa, close to
Mazatlan, completely bears out the individual variation in skins
attested by my two from Mazatlan. He said that the ground color
varies from pale fulvous gray to quite strong fulvous, not, however,
approaching the rich bright fulvous tint of Vera Cruz specimens
[pardalis] ; the pattern, he adds, may be small and sparse, consisting
mainly of half rings and spots, without any marked tendency to
form lines, or be coarser and more prominent over the mid-dorsal
area, where they may be arranged in interrupted black lines. The
pattern of the two Mazatlan specimens and of the type of griseus,
in the British Museum, is more uniform and evidently of the bolder
style mentioned by Allen.

348 OSGOOD TESTIMONIAL VOLUME

Of my three specimens no flesh measurements were taken; but
Allen recorded those of thirteen males and two females from Sinaloa.
The dimensions of the largest and smallest males, showing great
variation in size if both were full grown and correctly sexed, and of
the two females were approximately as follows in English inches:

Head
and body

31.0

Tail
15.0

Hind
foot

6.0

J,

24.4

13.0

5.5

9

27.5

12.4

5.25

9..

. 27.0

13.0

5.25

The average length of the head and body in the thirteen male speci-
mens was approximately 27.5 inches. Possibly some of them were
not quite fully grown; but the average of the largest five was just
over 29 inches and of the smallest eight, some at least of which were
probably full sized, was 26 inches. On the available evidence there
is clearly no marked difference in size between the two sexes. The
largest males are about the same size as the type of nelsoni and as
the male of pardalis from Achotal, Vera Cruz; but the males may
prove to be smaller on the average than those of that race.

In the smaller of the two males of which the full measurements
are quoted above, the tail is over half the length of the head and
body. In three additional males the same holds good, the specimen
with relatively longest tail measuring: head and body 26.4 inches, tail
14.8. From this extreme there is every gradation to a specimen
which has relatively the shortest tail, the head and body being 29.8
and the tail 12.8.

The closeness of the likeness in shape and dimensions between
the adult female skulls of the type griseus and of the example from
Mazatlan is quite unusual even in skulls of the same sex, race, and
locality. The skull of griseus is a little younger and has lost its
basioccipital and the condyles. Its total length is 126 mm., as
against 128 in the other; the sagittal crest, complete but low in
both skulls, is lower at the occiput, 4 mm. as against 7.5, and the
width across the postorbital processes is 53 instead of 59 mm.,
the last two being age-variations. The chief difference is that the
nasals of griseus are narrow and pointed behind the frontal processes,
expanded and rounded in the Mazatlan skull, although their width
between those points is almost the same, 7 and 8 mm. In the
following dimensions the two skulls are as nearly as may be identical:
the zygomatic, cranial, postorbital, interorbital, and maxillary
widths, which are 88, 50, 32, 26, and 32 mm., respectively; the

1941 RACES OF OCELOT AND MARGAY— POCOCK 349

bullae, which are alike 23 by 16; and P-, C-, and MT, which are
14, 7, and 10 mm. The few measurements given by Allen for four
presumably adult female skulls show them to be smaller than the
foregoing, their basal lengths being 102, 98, 97, 97 mm., giving
an average of 98.5 mm. as against 114 mm. in my female skull
from Mazatlan and 109 (estimated) in the type of griseus. The
young adult male skull from Mazatlan is a trifle shorter than the
adult female skull from the same place, its total and condylo-basal
lengths being 127 and 117 mm. as against 128 and 121 mm. in the
female, the occipital crest being relatively better developed; it is
also mostly narrower, its zygomatic, postorbital, and interorbital
widths being 84, 27, and 21 mm., but the maxillary width, 32 mm.,
is the same in the two; the bullae are smaller, 21 by 14 mm., but
the teeth are larger, P-, C^, and MT being respectively 15, 18,
and 11 mm. Allen gave a few dimensions of fourteen presumably
adult males from Esquinapa, in which the basal length varies from
118 to 97 mm.— a remarkable difference — the average in the fourteen
being 106 mm. Probably some of them were not full-sized; but
the average of that dimension in the largest seven is 111 mm., the
same approximately as in my two skulls, male and female, from
Mazatlan.

Goldman diagnosed sonoriensis as most closely allied to nelsoni,
but averaging smaller, with the color somewhat paler, the pattern
on the back more widely spaced and the neck stripes mostly narrower,
the skull being shorter and more rounded, with the nasals narrower,
but the teeth the same. There is nothing in the description of the
color and pattern to distinguish this alleged race from griseus. The
flesh measurements of the head and body of the two adult males
were about 27.6 and 26.4 inches, the latter being those of the type.
The larger of the two is the same size as the average of Allen's
fourteen males from Sinaloa and the type is only a little smaller.
There is clearly nothing in the external characters to justify the
admission of sonoriensis as distinct. The skull of the type,
the only one measured, had a condylo-basal length of 115.5 mm., the
basal length being inferentially about 108 mm., the s'ame as in
three of Allen's Sinaloa series, smaller than in four of them but
decidedly larger than in the remaining seven and exceeding the
average of the fourteen. The total length, 125.8 mm., is about the
same as in two of the Sinaloa males, greater than in five, less than
in seven, and the zygomatic width is almost the same as in three,
greater than in seven, less than in five. But these two dimensions,
which often increase with age after the skull has reached its full

350 OSGOOD TESTIMONIAL VOLUME

length, have little systematic value. The alveoli of the upper
incisors and of P- in the type of sonoriensis, 13.5 and 12 mm., respec-
tively, are almost exactly the same as in the type of griseus and in
the female from Mazatlan; but smaller than in the male from
Mazatlan in which they are 14 and 14, respectively. That such a
difference may be purely individual was shown in the description
of pardalis.1

Leopardus pardalis albescens Pucheran.

Felis albescens Pucheran in Geoffrey St. Hilaire, Voy. Venus, Zool., Mamm.,

p. 149, Atlas, pi. 8, 1855.
Felis pardalis Baird, Mamm. U. S. and Mexican Boundary, p. 8, pi. 13 (skull),

1859.
Felis limitis Mearns, Proc. Biol. Soc. Wash., 14, p. 145, 1901; Proc. U. S.

Nat. Mus., 25, pp. 237 and 241-244, 1902.
Felis pardalis limitis Bailey, N. Amer. Fauna, 25, p. 66, 1905.
Felis pardalis albescens J. A. Allen, Bull. Amer. Mus. Nat. Hist., 22, p. 219,

1906 (at least in part, perhaps not the examples from Sinaloa).
Leopardus pardalis griffithii J. A. Allen, Bull. Amer. Mus. Nat. Hist., p. 345,

1919 (not griffithii Fischer, now referred to typical pardalis).

Type locality. — Arkansas. Type locality of limitis, Brownsville
on the Rio Grande, South Texas.

Distribution. — From Arkansas (at least formerly) as far south
as the Rio Grande, Texas, and the adjoining districts of eastern
Mexico to Tamaulipas.

Of this race there is not sufficient material in the British Museum
enabling me to contribute anything to establish its status, by showing
how it may be distinguished from griseus. When Allen in 1906
identified his series of specimens from Sinaloa as albescens he gave
as his reason his inability to distinguish them from specimens from
Texas, Arizona, and Chihuahua. So far as I am aware his verdict
has not been shown to be wrong. In Pucheran's figure of the type
the head, nape, shoulders, back, tail, and central areas of the pattern
are darkish sandy, the pattern on the sides consisting mostly of
long, wide, narrow-rimmed bands, with contained small spots, and
thrown into relief by the clear gray tint of the interspaces.

The name limitis was proposed by Mearns as a substitute for
albescens, which he considered inadmissible. His specimens came

1 Although Sinaloa separates the two geographical areas where nelsoni and
sonoriensis are respectively found, Goldman did not refer in his descriptions of
these two alleged races to Allen's account of his large series of specimens from
Sinaloa, despite the stress Allen laid on the great individual variations in color,
pattern, flesh measurements, and cranial dimensions shown by the ocelots of
that district.

1941 RACES OF OCELOT AND MARGAY— POCOCK 351

from various parts of Texas, the type being from Brownsville, and
he wrote of it as the Rio Grande ocelot. His descriptions of the
color and pattern are puzzling. In the first account the tint of
the unenclosed areas above was said to be whitish drab gray, of the
enclosed areas pale broccoli brown; but the pattern on the sides con-
sisted of series of elongate, partially or completely enclosed spots
or irregular bands of drab gray separated by grayish white areas.
In his later diagnosis limitis was said to differ from pardalis by its
grayer hue, its less intense pattern, and the absence of strong con-
trast between the ground color inside and outside the dark rings.
In Pucheran's figure the contrast is noticeable. A specimen in the
British Museum, represented by the skin and skull, which I assign
to this provisionally admitted race, is labelled Coahuila (Mexican
Museum. No. 1894.12.18.3). * The head, nape, shoulders, a narrow
spinal area, and the centers of the rosettes and bands are dull tawny,
this tint being sharply contrasted with the whitish gray interspaces
extending up to the spinal area which is less extensively darkened
than in Pucheran's type, although in other respects the two are
much alike. The pattern of rosettes and bands is on a smaller
scale than in my three specimens of griseus and is thrown into
bolder relief by the pale interspaces; but the tawny tint of the
pattern is nearly intermediate between those of the male and the
female from Mazatlan, being less gray than in the male and less
buffy or yellowish than in the female; but the three, as well as the
type of griseus, very likely fall within the range of color and pattern
variation described by Allen in his series from Sinaloa.

The flesh measurements in English inches given by Mearns of
two of his specimens of limitis, his largest male and female, were

aS follows: Head Hind

and body Tail foot

Brownsville (type) adult d" 30 13 .2 6.4

Tamaulipas adult 9 26 12.0 5.8

These dimensions closely agree with those of Allen's skins of
griseus from Sinaloa.

Baird published what appears to be on the whole an accurately
drawn figure of an adult skull of a specimen from Matamoros, close

1 The skin is labelled merely "Coahuila" on the original label received from
the Mexican Museum; but the skull was marked "Orizaba, Coahuila" apparently
by some official in the British Museum; and, for some reason that I cannot divine,
Thomas registered the skin and skull as coming from Orizaba, Vera Cruz, which
would bring the specimen within the geographical area of typical pardalis. But,
since the skin and skull agree much better with the description of albescens (limitis)
than with that of pardalis, I accept Coahuila, where albescens is likely enough to
occur, as the locality.

352 OSGOOD TESTIMONIAL VOLUME

to Brownsville, the type locality of limitis. Although unsexed, it
looks like a male and has a complete sagittal crest. It is smaller
than the type of limitis, its total and basilar lengths being 129
and 111 mm. as against 140 and 114 mm.; but the basilar length is
the same as in the second largest male skull measured by Mearns —
from Tamaulipas — and in all the other dimensions given by Mearns
there is close agreement between the two. They are as follows,
those of Baird's specimen being set in brackets: zygomatic width
90 (88); postorbital width 30 (31); interorbital width 24 (24);
cranium 52 (51); bulla 23.5 by 15 (23 by 18); alveoli of cheek-teeth
36.5 (37) j1 P± 15 (15) ; MT 11 (11.5). The bullae are noticeably wider
in Baird's specimen, but in a male from Fort Rodney, Texas,
measured by Mearns, they are larger than in the Tamaulipas skull,
namely, 26 by 18 mm. In this skull, the smallest definitely stated
by Mearns to be male, the basilar length is only 107 mm., the
average of that dimension in his three male skulls and in Baird's
being 111 mm. The average basal length of these same skulls would
have been 113 or 114 mm., two or three mm. longer than the average
of Allen's longest seven male skulls of griseus from Sinaloa. But
Baird's skull has its main length-measurements very nearly the
same as in my female skull of griseus from Mazatlan, its total,
condylo-basal, basal, and basilar lengths being 129, 122, 113, and
111 mm., as against 128, 121, 112, and 109 mm., and Mearns's
largest female skull from Tamaulipas had its total and basilar lengths
126 and 108, very nearly the same as in the Mazatlan female.
Another skull, supposed to be female, from Tehuantepec had a
basilar length of 103 mm.; and in my young adult, supposedly
female skull from Coahuila that dimension is estimated as 100,
the total length being 119 mm. It has strong temporal ridges,
25 mm. apart at the suture. The facts stated supply no trust-
worthy data for setting aside J. A. Allen's opinion that the Texan
and western Mexican ocelots are racially identical.

THE RACES OF THE MARGAY (Leopardus wiedii)

Tail over half, generally about two-thirds the length of the
head and body and three or four times as long as the hind foot.
Pattern consisting of longitudinal stripes on the head, nape, and back,
on the sides of the body of rosettes with black or brown rims and
centers darker than the ground color, which generally coalesce to

1 The size of the teeth in Baird's skull are taken from his figure of the lower
view of the skull. In the side view of the skull P* is 16.5 mm. long. Since it is
set obliquely in the jaw it should have been represented as a little shorter, not
longer than in the inferior view.

1941 RACES OF OCELOT AND MARGAY— POCOCK 353

a greater or less extent to form longer or shorter bands. The hair
on the nape is usually reversed from a whorl situated behind the
shoulders, sometimes only partly reversed from two whorls, some-
times not reversed, the variations having apparently no systematic
significance, since the reversal may be complete or entirely absent
in specimens from the same locality. The principal characters of the
skull are mentioned in the first part of this paper.

Leopardus wiedii wiedii Schinz.

Felis wiedii Schinz, Das Thierreich, 1, p. 235, 1821.

Felis macroura Wied, Beitr. Nat. Brasil., 2, p. 371, 1826; Schinz, Syn. Mamm.,
1, p. 437, 1844; and of many subsequent authors mostly in its emended
form macrura.

Felis wiedii Thomas, Ann. Mag. Nat. Hist., (7), 12, p. 234, 1903.

Margay tigrina wiedi J. A. Allen, Bull. Amer. Mus. Nat. Hist., 35, p. 223,
1916 (in part, specimen from Matto Grosso); idem, p. 350.

Felis weidii Pocock, Ann. Mag. Nat. Hist., (8), 19, p. 131, fig. 10A, B, 1917;
idem, 20, p. 46, 1917.

Leopardus wiedii Pocock, Ann. Mag. Nat. Hist., (8), 20, p. 345, 1917.

(l)Margay wiedii wiedii J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41, p. 356,
figs, of skull from Matto Grosso, 1919.

Type locality. — Espirito Santo, Brazil, as pointed out by Allen.
Type locality of macroura, based on the same material, the same.

Distribution. — Southeastern Brazil, roughly, as at present known,
between 20 and 30° S. Lat.; Paraguay; northeastern Argentina.

Coat soft and full, with an average length on the back and
nape in eight skins of 22 and 14 mm., respectively. Color exceedingly
variable individually, ranging from very pale sandy buff on the
back and creamy or soiled white on the flanks to intensely rich
ochreous on the back and bright buff on the flanks; front of legs
like the flanks; upper side of tail mostly like the back; the whole
of the under side, the inner sides of the legs and the lower side of
the tail white. Pattern also individually variable, consisting on the
sides of larger or smaller irregularly shaped rosettes with thick or
thin, black or brown rims and correspondingly larger or smaller
paler buffy or ochreous centers; on the tail the black stripes are about
the same width as the pale interspaces.

In 1821 Schinz described the color as whitish fawn or reddish
gray and later, when he adopted the name macroura, as grayish
fawn or tawny, the first description indicating variation from a
pale to a darker richer hue.

354 OSGOOD TESTIMONIAL VOLUME

This variation is borne out by the skins in the British Museum
from which the above-given description was taken. A male topo-
type from Engenheiro Reeve, Espirito Santo, altitude 400 to 600
meters (Robert. 1903.9.4.38), March, seems to resemble very closely
in color Schinz's pale phase. It is a pallid, dull-tinted skin, the
dorsal surface having a sandy buff wash, passing into creamy or
soiled white on the sides; the pattern on the flanks consists of mostly
isolated rosettes with thick black rims and small obscure buffy
gray centers. The hairs on the back and nape are 20 and 16 mm.,
respectively. A female skin from Alumbary, Sao Paulo, altitude
500 to 600 meters (Robert. No. 1903.7.1.199), January, is an almost
exact match of the last, but is exceptional in having the hairs only
on the fore part of the nape reversed from a pair of whorls, one of
which is situated farther forward than the other; the hairs on the
back and nape are 20 and 14 mm., respectively.

A male skin from Rio Janeiro (No. 1876.12.8.1) is better-colored
than the last two, the back and flanks being decidedly richer, yellower
buff; the pattern, too, is very different, consisting on the flanks of
isolated, elongated rosettes, with very narrow, dark brown rims and
large, richer-tinted centers. A male from Roca Nova, Parana,
altitude 930 to 1,150 meters (Robert. No. 1901.7.3.9), October, is
a darker, richer-colored skin than the one from Rio Janeiro, the dorsal
ground color being ochreous and the flanks buff, the pattern of the
flanks consisting of rosettes with thick black rims and almost rusty-
ochreous centers. The hairs on the back and nape are 25 and 15
mm., respectively. A male from Joinville, Santa Catherina (Spetter.
No. 1922.5.29.3) has the ochreous hue of the back a little brighter
and richer than in the skin from Roca Nova and the flanks richer
buff; but a female with the same history (No. 1922.5.29.4) is still
brighter, an intense vivid ochreous on the back and brighter buff
on the flanks, but the lateral pattern is rather different, consisting
of spots less obviously rosette-like, the paler central hairs being more
diffused and spreading on to the darker rims. This skin is abnormal
in having all the hairs of the nape directed backwards. A young
male from El Dorado, Misiones, in northeastern Argentina (Shipton.
No. 1926.9.13.1), November, is also a very bright skin, closely match-
ing the male from Joinville; the hairs on the back and on the nape
are 27 and 18 mm., respectively. A female skin from Paraguay
(Brandt. No. 1846.2.13.6) is a little darker and not so bright as
the skin from Roca Nova, Parana, and the rosettes have rather
thinner rims; the hairs on the back and nape are 18 and 12 mm.,
respectively.

1941 RACES OF OCELOT AND MARGAY— POCOCK 355

The flesh measurements in English inches of a few of the above-
described skins are as follows:

Head Hind

and body Tail foot

Roca Nova, Parana adult d" 23 13.8 4.4

Espirito Santo young adult d* 20 14.4 4.0

Alumbary, Sao Paulo adult 9 20 13.0 4.2

What may possibly prove to be a Brazilian race distinct from
typical wiedii is represented by the type of Leopardus tigrinoides
Gray (Cat. Carn., etc., Brit. Mus., p. 22, 1869) which was named
without description, in 1843 (List Mamm. Brit. Mus., p. 42). It
was purchased at Liverpool and is labelled Brazil (No. 1842.4.10.2).
It is dull-tinted, buffy olivaceous gray, considerably darker than the
pale phase exhibited in the skins from Espirito Santo and Sao
Paulo, not nearly so yellow as the skin from Rio Janeiro, nor so
bright as the one from Parana, but only a little duller than the
skin from Paraguay; the pattern on the flanks consists of large
irregular rosettes, with thick dark brown rims and yellowish brown
centers. The color almost exactly matches that of a skin from
Chapada, Matto Grosso. There is unfortunately no skull available.
This skin is referred to below, under the Bolivian race.

From the evidence of available skulls there seems to be no appreci-
able difference between those of the male and female. They are
smaller on the average than those of the other South American
races. The skull of the male from Roca Nova, Parana, which is
just adult, has the condylo-basal 87 mm.; in two adult males from
Joinville, Santa Catharina, it is 87 and 84 mm., respectively; in
an adult female from Sao Paulo it is 84 mm., and in three unsexed
skulls, without skins, from Rio Grande do Sul (Ihering) it is 87,
88, and 89 mm., respectively. Its average length in eight adult
skulls is 87 mm. The total length ranges from 89 to 94 mm., its
average in eight skulls being 92 mm. The length of PA ranges from
10 to 12 mm., its average in thirteen skulls being 10.5 mm.

Leopardus wiedii boliviae subsp. nov.

Type from Buenavista, Santa Cruz, Bolivia. Altitude 300 meters.
No. 1926.1.5.4 British Museum (Natural History). Adult male.
Collected by Jose' Steinbach.

Distribution. — Bolivia and perhaps Matto Grosso, Brazil.

Distinguished from typical wiedii by its larger size as indicated
by the skull and head and body measurements and, on the rather
unsatisfactory evidence of two specimens, by a shorter coat and a

356 OSGOOD TESTIMONIAL VOLUME

difference in color and pattern, the pattern being finer and more
lineate and neither of the skins matching any of the skins of wiedii
in tint; similarly differing from vigens in these last two particulars,
but less markedly in the size of the skulls, although noticeably bigger,
on the scanty evidence, in bodily size; matching the Andean race
pirrensis in dimensions, but not in color or pattern, there being on
the average at least less dark pigment in the pelage, the tail, for
example, having the pale and dark bands about equal in width.
From the type locality the British Museum has two skins with the
same history. The type, an adult male, has the coat short and sleek,
15 and 9 mm. on the back and nape; the color above is bright ochre-
ous buff, brighter and lighter than the brightest and lightest of the
typical race, there being only very faint fuscous speckling in the
contour hairs; the pattern on the back and even on the shoulders
consists of narrow, mostly streaky spots, on the left side of small,
irregular, separated rosettes, with brownish ochreous centers, and
on the right side of narrow sinuous black stripes with some grayish
ochreous patches above and below them, unlike the normal bands
resulting from the fusion of rosettes. The paratype, an adult
female (No. 1926.1.12.5), collected at 450 meters altitude in August,
from the same locality as the type, has the coat equally short but
the color is very different, much darker and duller, buffy, almost
olivaceous, gray above, creamy low down on the flanks; the dorsal
pattern consists of narrow stripes, not so broken up as in the male,
and on the flanks it is more normal, consisting of narrow, sometimes
double, black-rimmed bands completely or incompletely surrounding
gray brown areas.

The flesh measurements in English inches are as follows, those
of the female being set in parentheses: head and body 31.2 (26); tail
20 (14.5); hind foot 4 (3.5); ear 1.8 (1.6). The male is actually a
little longer than any skin of the species known to me, of which the
flesh measurements have been recorded. Even the much smaller
female is larger than the majority of other flesh-measured skins.1

The skull of the male is noticeably larger than that of the female,
having a total and condylo-basal length of 102 and 98 mm., respec-
tively, those dimensions in the female being 98 and 93 mm. They
are a little larger sex for sex than the skulls of vigens and considerably
larger than those of typical wiedii, being about the same size as
in the race pirrensis. The bulla in the male skull is much more
inflated than in the female, the length and width in the male being

1 1 have other evidence that Steinbach's measurements were exaggerated,
possibly taken over the curves.

1941 RACES OF OCELOT AND MARGAY— POCOCK 357

23 and 13 mm., in the female 19 and 11.5 mm. In both male and
female P- is 11 mm.

I should have assigned to this race an unmeasured native skin,
without skull, from Chapada, Matto Grosso (Robert, not registered
by Thomas), on account of its being a very close match in its dull
olivaceous buffy gray color with the female from Santa Cruz, Bolivia,
although its pattern is on a somewhat larger scale, were it not that
J. A. Allen (Bull. Amer. Mus. Nat. Hist., 35, p. 580, 1916) recorded
as Margay tigrina wiedii an old male from Urucum, Matto Grosso,
which with the head and body 22.5 inches long and the condylo-
basal length 88 mm., is much smaller than the male type of boliviae,
smaller even in all its dimensions, except the braincase, which is
about the same as the female of that race. As suggested above,
these Matto Grosso specimens may represent a distinct race tigri-
noides, intermediate perhaps between typical wiedii and wiedii
boliviae.

Leopardus wiedii pardictis subsp. nov.

Type from San Laurence, Pernambuco. Altitude 28 to 60
meters. No. 1903.10.1.20 British Museum (Natural History).
Immature male. Collected by A. Robert.

Distribution. — Known only from the type specimen.

Distinguished from the other races of wiedii by its very pale color,
paler than the palest examples of typical wiedii and of vigens, and
by the pattern, consisting on the flanks of numerous, small rosettes
of which at most a few are confluent to form short bands.

The hair on the nape is not reversed but is nearly erect, about
14 mm. long, and just in front of the shoulders forms a pair of
radiating whorls; coat on the back, August, about 18 mm. The
color of the midline of the back is pale, dull, grayish sandy, passing
into grayish white on the flanks, pale buff on the shoulders, nape,
and head, and clean white below; the forelegs are gray with a
faint tinge of sandy, the hind legs nearly white; the tail is like the
back in its basal half but the interspaces become white towards
the end where they form very narrow bands between broad black
stripes, the stripes and interspaces about equal in width on the
fore part. The pattern of the body above consists mainly of black
spots on the back, and a few short stripes on the shoulders, the stripes
on the nape and head being normal but irregular on the nape owing
to the untidiness of the hairs; the numerous rosettes on the flanks
have black interrupted rims with dull, sandy buff centers and they

358 OSGOOD TESTIMONIAL VOLUME

stand out boldly against the grayish white ground color. The flesh
measurements in English inches are: head and body 17.8; tail 9.6;
hind foot 4.2; ear 2.

The only external characters showing that this specimen belongs
to the wiedii and not to the tigrina or pardinoides group of smaller
American cats is the presence of the two whorls of hair on the
nape, the pattern being more as in pardinoides. But the size of the
skull, which has the milk teeth in place and none of the permanent
set even erupting, proves conclusively its kinship with wiedii. The
condylo-basal length is 84 mm., slightly larger than in the majority
of adult skulls of the tigrina-pardinoides group and the width of the
cranium is 45 mm., a little wider than in any of the latter. It is
also larger in both these dimensions than the immature skull of the
example of wiedii salvinia from Duenas, Guatemala, referred to below,
in which they are respectively 79 and 42 mm., although this is an
older skull with all the permanent teeth in place. The facts suggest
that this skull of pardictis would have been large, when adult, at
least as large as in vigens. P-, cut out of the maxilla, is 11 mm.
long, about the average size for wiedii.

The pale color of this cat, recalling that of the small Somaliland
leopard (Panthera pardus nanopardus), suggests a dry rocky habitat,
resembling perhaps that of the related species described by Thomas
as Felis emiliae from Ceara, just north of Pernambuco.

Leopardus wiedii vigens Thomas,

Felis wiedii vigens Thomas, Ann. Mag. Nat. Hist., (7), 14, p. 192, 1904.

Type locality. — Igarape Assu, Para, Brazil. Adult male (Robert.
No. 1904.7.4.43).

Distribution. — Valley of the lower Amazon from Para westward
at least to the Yamunda River; British and French Guiana.

Resembling typical wiedii in its color phases, but distinguished
on the evidence of a few specimens by its shorter coat, which in
five skins averages 13 mm. and 8 mm. on the back and nape, respec-
tively, and by its slightly larger skull, the condylo-basal length in
four adult skulls, two males and two females, averaging 91 mm.,
4 mm. longer than the average of the skulls of typical wiedii. Also,
male skulls are bigger than female, the average of the two males
being 94, of the two females 88 mm.

Several skins from the region of the lower Amazon and its
tributaries agree in coloration with those from southeastern Brazil.

1941 RACES OF OCELOT AND MARGAY— POCOCK 359

An adult male, the type of vigens Thomas (Robert. No. 1904.7.4.
43), is an almost exact match with the skin of weidii from Parana,
collected six months earlier in the year. A female from the Zoological
Gardens, Para (No. 1913.12.18.2), probably locally captured, agrees
with the type of vigens. A male from Obidos (Hoffman. No.
1908.5.9.16) is vivid ochreous, as bright above as the female of
typical wiedii from Joinville, Santa Catharina, but the flanks are
a little paler buff and the pattern, partly on account of the short
coat, is sharply denned, but the rosettes are also bold and well
spaced and mainly black, with the pale centers very little in evidence.
A male from Faro, Rio Yamunda, a little to the west of Obidos
(Goeldi Mus., Para. No. 1913.12.18.1) very closely matches the pale
topotype of wiedii from Espirito Santo, but the buff on the back is
a trifle richer. A female from Bonasica on the Essequibo River,
a tributary of the Amazon, in British Guiana (McConnell. No.
1903.5.23.4) is the same vivid ochreous as the skin from Obidos, but
has the pattern different, consisting to a great extent on the flanks
of elongated stripes with narrow black rims and dusky ochreous
centers.

The flesh measurements in English inches of four of the above
described specimens are as follows:

Head Hind

and body Tail foot

Obidos adult cT1 23.2 17.4

Para adult d" (type) 22.4 16.2 5.0

Rio Yamunda young cP 20+ 16.2 4.5

(?)Para (Goeldi Mus.) adult 9 20.0 15.6

For the validity of this race, to which he only admitted the
type, Thomas relied on the unusual inflation of the bullae, 22 mm.
long and 15 wide, the prominence of the occipital crest and the
width across the mastoids, 45 mm., which exceeds the width of the
rather narrow cranium, 42 mm. That the bulla has not the value
he attached to it is shown by its great variation in size in the
two skulls from Santa Cruz, Bolivia, described above (see p. 356),
and in the two from Peon. The other peculiarities, with which is
associated a low sagittal crest, about 10 mm. long, behind the
point of junction of the posteriorly abruptly convergent temporal
ridges, which are 25 mm. apart at the suture, are due to abnormal
muscular molding and are, I consider, purely individual. That the
skull is not old, as Thomas claimed, is shown by the open sutures
of the upper cranial bones. The skull of the female, probably from
Para and about the same age as the type, with a condylo-basal length
of 87 mm., is normal in form, the bullae are 19 by 13 mm., the

360 OSGOOD TESTIMONIAL VOLUME

mastoid width is 41 mm. and less than the cranial width, which is
45 mm. In the type, P- is 11 mm., in the female 10. The male skull
from Obidos, almost certainly racially the same as the one from
Para, is also normal in form, the bullae are 21 by 13 mm., the mastoid
is 43, the cranial width 46. The occiput is incomplete, but since the
length from the premaxillae to the hinder end of the bullae is 86
mm., the same as in the type of vigens, it may be inferred that the
condylo-basal length would have been the same, namely, 94 mm.
P- is 11.5 mm. The female skull from Bonasica, Essequibo River,
is a little older than the one believed to be from Para, but agrees
very closely with it in dimensions; it has P- 11.5 mm. as in the male
from Obidos. Evidence for the occurrence of this race in French
Guiana is supplied by Allen's record in 1919 of a skull from Cayenne
closely agreeing in measurements with the type of vigens, even in
the large size of the bullae. The average length of P- in the four
skulls I assign to this race is a fraction over 11 mm.

Leopardus wiedii pirrensis Goldman.

Felis pirrensis Goldman, Smiths. Misc. Coll., 63, No. 5, p. 4, 1914; idem, 69,

p. 169, fig., 1920.
Margay tigrina wiedii J. A. Allen, Bull. Amer. Mus. Nat. Hist., 35, p. 223,

1916.
Margay glaucula nicaraguae J. A. Allen, Bull. Amer. Mus. Nat. Hist., 41,

p. 357, 1919.
Felis (Margay) glaucula ludovici Lonnberg, Journ. Mamm., 6, p. 272, 1925.

Type locality. — Cana, eastern Panama, altitude 2,000 feet. Type
locality of nicaraguae, Volcan de Chinandega, Nicaragua; of ludovici,
Pichincha, Ecuador, 4,000 feet.

Distribution. — Nicaragua; Panama; Colombia; Ecuador; Peru.

Resembling wiedii and vigens in the individual variability of its
color, but distinguished by the presence of more dark pigment in
the pelage, the lightest-tinted specimens being not quite so pale and
the darkest darker than in those two races; the coat varies individ-
ually in luxuriance, as in wiedii; but the most noticeable difference
lies in the size of the skull which is on the average considerably
larger than in wiedii and a little larger than in vigens.

The type of pirrensis, an adult female, was described as having
the pelage rather long and soft, with the hairs on the nape not
reversed; the color above was ochraceous tawny and laterally cin-
namon buff to pinkish buff; the upper side was heavily spotted
and lined with black, with rosettes on the flanks, and the tail had
broad black rings and narrow interspaces. The flesh measurements

1941 RACES OF OCELOT AND MARGAY— POCOCK 361

in English inches were: head and body 21; tail 17.5; hind foot 5.2.
The total and condylo-basal lengths of the skull were 99.5 and 95.5
mm., respectively.

An adult female in the British Museum from Calcobevora, eastern
Veragua, Panama (O. Salvin. No. 1867.8.31.2) differs from the type in
having the nape hairs reversed and the coat short, 12 mm. on the back
and 8 on the nape, but seems to agree in other respects. The
dorsal coloring is deep ochreous tawny, passing into dull buff on the
flanks and white below, with hair gray at the base; the rosettes on
the sides are mostly coalesced into irregular bands with moderately
wide, black rims and grayish brown ochreous centers, darker nearer
the spine than below, and the black bands on the tail are dominant,
wider than the pale interspaces, as in the type. The skull has the
back missing, but its palatal length and its width dimensions and
the length of PA agree closely with the corresponding dimensions
of the type.

The type of nicaraguae, an adult male, was distinguished by Allen
from glaucula, the only other Central American cat of this kind
admitted in 1919, by its tawny (fulvous) color and its larger size,
the head and body measuring 30, the tail 20.5 inches, and the skull
having the total and condylo-basal lengths 107 and 101 mm., respec-
tively, a trifle longer than the largest skull in the British Museum
assigned to pirrensis, namely, that of an adult female from Paramba,
Ecuador. But Allen also referred to nicaraguae, and no doubt
correctly, a much smaller, slightly paler adult female from Mata-
galpa, Nicaragua, in which the head and body were 23, the tail
15.5 inches, and the condylo-basal length of the skull 89 mm. Allen
gave no information about the pattern of the tail of either of these
specimens. They may prove to differ from the types of pirrensis
and ludovici and from the other skins here identified as pirrensis
in the narrow black stripes on that organ.

The British Museum has no specimens from Nicaragua, but I
provisionally assign to the same form an adult male labelled Central
America (No. 1842.11.39.2) which in its color and the size of the
skull closely resembles the type of nicaraguae. The color is ochreous
tawny on the back, pale buff on the flanks, the pattern on the sides
consisting of large, mostly isolated rosettes, with dark brown rims1
and rather paler brown centers. The skull has lost its occipital
region, including the greater part of the bullae, but comparison

1 These rims were probably originally black. The specimen was exhibited
in the gallery and the pattern on the side that was exposed to the light is paler
than on the other.

362 OSGOOD TESTIMONIAL VOLUME

between it and the skull from Paramba shows that its condylo-basal
length was about 97 mm., only 4 mm. shorter than that of the type
of nicaraguae, although it is slightly larger in its cranial, postorbital,
and interorbital widths and between tips of the postorbital processes.

The skin differs from typical pirrensis and the others I assign
to that race in having the pale areas of the tail approximately as
wide as the stripes. It possibly represents a form intermediate
between pirrensis and salvinia.

The type of ludovici1 was described as having the coat sleek
and short, 14 mm. on the back and 7 on the nape, the color dull,
grayish buff, the pattern sharply defined and consisting on the
flanks of "ocelot" bands, the tail being black all along the upper
side, with the pale interspaces reduced to lateral spots narrower
than the black stripe. The tail pattern is an exaggeration of the
condition described in pirrensis. The skull, with a total length of
at least 104 mm., is large, a little larger than the female type of
pirrensis and a little shorter than that of nicaraguae.

The evidence for the extension of pirrensis southwards from
Panama to Peru is attested by the almost precise resemblance in
color between the skin from Veragua and skins from Sarayacu,
Ecuador, and Pozuzo and Chanchamayo, Peru; and also by the
close agreement between the two known female skulls of pirrensis
from Panama and some of the skulls from the more southern coun-
tries; the condylo-basal length, for instance, of an adult female
skull from Sarayacu, Ecuador, is 95 mm. and of a male skull from
Pozuzo, Peru, 96 mm., both to all intents and purposes the same
as in the type of pirrensis; and since the mandible of the skull from
Veragua is only 2 mm. shorter than those of the same two skulls,
it may be inferred that its condylo-basal length would have been
correspondingly shorter by about that amount only.

The British Museum has the following skins from Ecuador: A
male topotype of ludovici from near Mindo on the west of Pichincha,
altitude 5,000 feet (Soderstrom. No. 1934.9.10.70), October, has the
color dull and pale, very like the skins of typical wiedii from
Espirito Santo and the skin from Faro in the Amazon Valley, but
has the buff on the back a little brighter and a more perceptible
tinge of buff on the flanks; the pattern is bold and well spaced,
consisting of solid black blotches and lines with scarcely a trace of

1 Lonnberg had but one specimen, and from his account it is quite clear that
he had no material of the species to show the extreme variability of the color
and pattern within subspecific limits, as in typical wiedii, for example. He ad-
mitted, however, his doubts about the distinctness of ludovici from nicaraguae.

1941 RACES OF OCELOT AND MARGAY— POCOCK 363

paler centers; on the tail the pale areas form complete rings. The
general color seems to be like that of the type of ludovici, but the
lateral rosettes appear to be more solidly black and the pale inter-
spaces on the tail are not reduced to lateral patches. These are
no doubt merely individual differences.

Two skins from Andoas (Buckley) are widely different in color.
One (No. 1880.5.6.31) has the coat 22 and 15 mm. on the back and
nape and the pale color closely matching that of the topotype from
Pichincha, but the pattern is very different, consisting of shorter
or longer bands, with black rims and large ochreous brown centers.
The other (No. 1880.5.6.32), an immature specimen, has the coat
nearly the same length but the color is bright ochreous, about as
vivid as in the brighter of the two skins of typical wiedii from
Santa Catharina; the pattern also is quite different from that of
the first from Andoas and more like that of the skin from Pichincha,
in consisting of nearly solid black rosettes with small faint brown
centers.

A female skin from Sarayacu, 1° 40' S. Lat., 77° 20' W. Long.
(Buckley. No. 1880.5.6.29), with the coat very short, 10 and 7 mm.
on the back and nape, is much darker than any of the above described,
and than any of the Amazonian or southeastern Brazilian skins, the
tint being brownish ochreous on the back; the pattern consists of
large black-rimmed rosettes, with ochreous brown centers, larger
and not so confluent in lines as in the first described specimen from
Andoas. A second skin (No. 1880.5.6.30), a male with the same
history, is still darker, browner ochreous and the pattern is similar
but the rosettes are more coalescent in lines. A male skin from
Gualaquiza, altitude 2,500 meters, 3° 21' S. Lat., 78° 27' W. Long.
(Hammond. No. 1914.4.25.46), December, has the coat 23 and 16
mm. on the back and nape, is rich ochreous above, almost as vivid
as the bright skin from Santa Catharina and the one from Andoas;
the rosettes have rather narrow black rims and large brownish
ochreous centers.

A female skin from Paramba, northern Ecuador (Miketta. No.
1901.1.6.2), February, has the coat very short, 14 and 6 mm. on the
back and nape, and the color dark ochreous, nearly as dark as the
Sarayacu skins, and the rosettes on the sides are mostly coalescent,
forming black-edged stripes with ochreous brown centers.

Two skins from Peru are inseparable from the Ecuador series.
An adult male from Pozuzo, altitude 800 meters (L. Egg. No.
1908.6.17.9), February, has the coat short and sleek on the back and

364 OSGOOD TESTIMONIAL VOLUME

nape and the color dark brownish ochreous, closely resembling the
two skins from Sarayacu, Ecuador; the lateral pattern consists
mostly of confluent rosettes, forming longer or shorter bands with
black rims and brownish ochreous centers. An adult female from
Chanchamayo, altitude 1,200 meters (C. 0. Schunke. No. 1905.
11.2.5), August, also has the coat short and sleek, 17 and 10 mm.
on the back and nape, but the color is a little lighter and brighter
than in the skin from Pozuzo and the pattern consists of large,
isolated, irregular rosettes with blackish brown rims and ochreous
brown centers.

Three skins from Colombia are as variable as those from Ecuador,
and two at least are obviously inseparable from them. A young
female from Mariquita, altitude 2,000 feet (H. H. Crease. No.
1912.4.2.2), is exceptional in having the nape hairs not reversed,
but on the center of the occiput there is a whorl where the hairs
turn forward for a short way on the crown. The coat is longish,
20 and 14 mm. on the back and nape; the color is pale, very closely
matching the skin of the topotype of ludovici from Pichincha, but
a little brighter buff on the back; the pattern is bold, the rosettes
having black rims and ochreous brown centers, but they vary on
the two sides in the degree of confluence into bands. An undated,
unsexed skin, from Condoto, Choco (Spurrell. No. 1914.5.28.9), has
the coat very short, 12 and 7 mm. on the back and nape; the color
is rich darkish ochreous, almost exactly matching the skin from
Paramba, Ecuador; the pattern also is very like, but the centers
of the rosettes or bands are on the whole darker brown and there-
fore not so conspicuous. The color is a little brighter than in the
Sarayacu, Ecuador, skins and a shade darker ochreous than the
skin from Obidos. The third Colombian skin from Itoco, near
Bogota (G. D. Child. No. 1895.8.1.9), has the coat 15 and 7 mm.
on the back and nape and the color paler, yellower ochreous than
the one from Condoto, Choco, but the pattern is unusually well
developed, the inner nape-stripes being about 25 mm. wide and
indistinctly doubled by some median, brown hairs; the rosettes on
the sides are exceptionally large, to a varying extent coalescent into
bands, and have black rims and extensive ochreous brown central
areas. No other skin in the British Museum has the pattern so
massive, but no doubt the feature is merely an individual variation
of no systematic importance.

The only available flesh measurements in English inches known
to me are as follows:

1941 RACES OF OCELOT AND MARGAY— POCOCK 365

Head Hind

and body Tail foot

Nicaragua (type of nicaraguae) adult d" 30.0 20.4 4.6

Florencia, Colombia (Allen) . . • adult c? 24. 4 16.8 4.8

Gualaquiza, Ecuador young d" 21.6 14.4 4.6

Pozuzo, Peru adult d1 22.0 15.4

Paramba, Ecuador adult 9 24.4 16.2 5.2

Panama (type of pirrensis) adult 9 21.0 17.6 5.2

Andalucia, Colombia (Allen) adult (?) d1 20.0 12.0 4.0

The great superiority in size of the type of nicaraguae, as recorded
by Allen, lays the accuracy of its dimensions under suspicion. The
length of the head and body and tail are not in keeping with that
of the hind foot; and since the condylo-base of the skull is only 1 mm.
longer than that of the female Paramba specimen, it is not likely
that the head and body were nearly six inches longer. The length of
the tail in Allen's skin from Andalucia is also perhaps wrong.

The largest skull in the British Museum assigned to this race
is that of the adult female from Paramba, northern Ecuador, in
which the condylo-base is 100 mm., 4.5 mm. longer than in the
female type of pirrensis, 1 mm. shorter than in the type of nicaraguae,
and its total length, 105 mm., is the same as in the male type of
ludovici. But an adult female from Sarayacu, Ecuador, has the
total and condylo-basal lengths 99 and 95 mm., respectively, the
same as in the type of pirrensis. The only other adult female skull,
one from Chanchamayo, Peru, is exceptionally small, having the
total and condylo-basal lengths 89 and 83 mm. Provisionally, how-
ever, I regard this as belonging to pirrensis because the skin in color
and pattern, except for having the feet grayer and less tawny, is
indistinguishable from that of an adult male from Pozuzo, Peru,
in which the skull has the total and condylo-basal lengths 100 and
96 mm., respectively, almost exactly the same as in the female type
of pirrensis, in the female from Sarayacu, and in an adult male
from Florencia, Colombia, recorded by Allen, but a few mm. shorter
than a young adult male from Condoto, Choco, Colombia, in which
the total and condylo-basal lengths are 103 and 100 mm., respectively.
In a younger male from Andoas, Ecuador, the lengths are 96 and
94 mm.

When the cats of this species, ranging from Nicaragua to Peru,
are better known it may prove that I have included under pirrensis
more than one subspecies. But the material of adult skulls is at
present quite inadequate to settle the point. At all events it seems
clear that there is no evidence that the types of nicaraguae, pirrensis,
and ludovici represent distinct subspecies.

366 OSGOOD TESTIMONIAL VOLUME

Leopardus wiedii salvinia subsp. nov.

Type from Vera Paz, Guatemala. No. 1875.2.27.1 British
Museum (Natural History). Adult male, skin and skull. Collected
by 0. Salvin.

Distribution. — Guatemala and perhaps British Honduras.

Intermediate between nicaraguae and the western Mexican race
glaucula, resembling the former very closely in color, but with a
much smaller skull, about the same size as in glaucula.

The type has the coat 16 mm. long on the back, 9 mm. on the
nape. The color of the back is pale ochreous tawny, matching almost
exactly that of the specimen from Central America assigned to
nicaraguae; the flanks are buff and the pattern on the sides consists
mostly of isolated, irregular rosettes with narrowish dark brown
rims and dull ochreous centers, very much as in that specimen,
but the rosettes are smaller and the centers paler and the black
markings on the tail are not dominant over the pale interspaces.
The skin of a young specimen from Duenas, Guatemala (0. Salvin. No.
1865.8.18.1), has the coat 25 and 14 mm. on the back and nape and
the color paler, the back being paler ochreous with this tint restricted
to a comparatively narrow spinal area, but becoming brighter and
more extensive on the nape; the upper and lower flanks are whitish,
throwing into bold relief the pattern of the rosettes, which have
black rims, ochreous centers and are more or less confluent in bands.
Considering the difference between this specimen and the type in
the length of the coat, it is possible that the difference in tint is sea-
sonal, but neither skin is dated and no flesh measurements were taken.

The skull of the type, judging from its upper sutures, is fully
adult. It has lost its lower occipital area, but its total length is 95
mm . and I infer from comparison with other skulls that its condylo-basal
length was 88 or 89 mm., both this dimension and the total length
being 12 mm. less than in the type of nicaraguae. Its width dimen-
sions are also mostly less; but the cranium is unusually broad, nearly
equaling half the length, namely, 46 mm.1 as against 43 in the type
of nicaraguae. The teeth too are evidently smaller, PA being 11 mm.
as against 12.5 in the type of nicaraguae and 12 in the example
identified above as that race. The skull of the skin from Duenas
is too young to be worth measuring, but P- is 11 mm. as in the type
of salvinia, and in both M- is 7.5 mm.

1 This measurement is 1.5 mm. less than in Allen's female of nicaraguae
from Matagalpa, which also has the condylo-basal length 89 mm. But no error
has been made over the sex of the type of salvinia.

1941 RACES OF OCELOT AND MARGAY— POCOCK 367

Two skulls, without skins, from Belize, British Honduras,
both received from the Zoological Society's Museum and marked
"menagerie," probably belong to this race. One of them, entered
as male (D. Dyson. No. 1858.5.4.71), has the condylo-basal length
91 mm., a little larger than in the type of salvinia, but the rest of
the measurements are in close agreement except that the cranium
is narrower, 43 mm., but the temporal area is much wider, 30 mm.
as against 21. The teeth are the same size. The second skull, no
doubt male (No. 1858.5.4.70), is longer and mostly narrower than
the other, its condylo-base being 96 mm. and the cranium 41, with
the temporal area 21. Most noticeable is the difference in the
width of the posterior half of the nasals, which between the frontal
points is 5 mm. in this skull, as in the type of salvinia, but only 2.5
mm. in Dyson's Belize skull.

Leopardus wiedii glaucula Thomas.

Felis glaucula Thomas, Ann. Mag. Nat. Hist., (7), 12, p. 235, 1903. x

Felis glaucula glaucula Nelson and Goldman, Journ. Mamm., 12, p. 303, 1931.

Felis glaucula oaxacensis Nelson and Goldman, Journ. Mamm., 12, p. 303, 1931.

Type locality. — Beltran, Jalisco. Type locality of oaxacensis,
Cerro San Felipe, altitude 10,000 feet, Oaxaca.

Distribution. — Southwestern Mexico from Sinaloa to Oaxaca.

The type of glaucula, an adult male (W. Lloyd. No. 1890.1.4.1),
April, is dusky gray above on the back and paler gray on the upper
flanks, passing into cream below towards the belly and there is
just a faint buffy cast on the head and nape; the pattern consists
of large rosettes mainly coalesced into irregular bands with narrow
black rims and dusky gray centers. An adult male from Tatemales,
Sinaloa (Simons. No. 1898.3.2.16), May, is a little paler clearer gray
above than the type and has white flanks; the pattern differs in
the rosettes being less confluent, with thicker black rims and con-
sequently much smaller darkish gray centers. Since this skin
differs much less from the type of glaucula than individual skins
of the South American races differ from each other, I follow Thomas
in adopting that name for it. The same applies to a third skin,
probably female, labelled "Mexico" (Bullock's Museum. No.
1842.4.10.2), which is not so gray as the type, having a faint buff
cast over the dorsal surface and in the centers of the rosettes, which
have thick, blackish brown rims, coalescent into bands or isolated.

1 It is not quite clear why Thomas gave specific rank to this cat, nor why
Allen, Lonnberg, and Nelson and Goldman followed him in that respect. It
differs from South American forms only in trivial characters.

368 OSGOOD TESTIMONIAL VOLUME

JP

The type and only known example of oaxacensis, an adult male,
was described as representing a small subspecies related to typical
glaucula and similar in color, but larger, with quite different pattern,
said to be "beautifully marbled" and with distinctive skull characters.
The specimens in the British Museum fail to substantiate the
validity of oaxacensis. "Marbled" is an apt epithet for the pattern
of the type of glaucula and the "distinctive" cranial characters,
namely, the nasals being narrower behind, the mesopterygoid fossa
broader and the bullae smaller are individual variations without
systematic significance. As regards size, the type of glaucula was
not measured in the flesh; but the male from Sinaloa, as the following
dimensions show, was so much larger than the male type of oaxacensis
that it is permissible to suspect a mistake in the case of the former,
the head and body being entered as 659 mm. (= 26.5 inches) . Assum-
ing that 659 was an error for 559, the dimensions in English inches
are as follows:

Head Hind

and body Tail foot

Sinaloa adult d" 22.4 13.33 4.4

Oaxaca adult d" 21.6 14.75 5.2

The suggested measurement of the head and body of the speci-
men from Sinaloa is much more in keeping with the length of the
tail and hind foot than 26.5 inches.

The superiority in size indicated by the latter dimension, more-
over, is not borne out by the skulls, which have practically the
same condylo-basal length, namely, 90 mm. in the male from Sinaloa
and 89.7 in the male from Oaxaca, the same dimension in the female
type of glaucula being 88, just over 1.5 mm. shorter than in oaxa-
censis, a difference clearly of no systematic significance, especially
in view of the sexes of the skulls. In the other cranial dimensions
of the type of oaxacensis given by Nelson and Goldman I can find
nothing supporting their claim that they are of systematic moment.

Leopardus wiedii yucatanica Nelson and Goldman.

Felis glaucula yucatanica Nelson and Goldman, Journ. Mamm., 12, p. 304,
1931.

Type locality. — Merida, northern Yucatan.

Distribution. — Yucatan and Chiapas, Mexico.

Very closely allied to glaucula but apparently distinguishable by
a difference in tint and a shorter skull.

The type of this race, a skin with no skull, was described as
distinguished by its very pale buffy grayish ground color, decidedly

1941 RACES OF OCELOT AND MARGAY— POCOCK 369

paler than in oaxacensis, with less dusky admixture especially along
the median dorsal line. A skin from Chiapas was declared to be
similar. The skin of an adult female in the British Museum from
northern Yucatan (G. F. Gaumer. No. 1894.2.5.12) has the ground
color tolerably similar to the type of glaucula, but the back is duller,
without the "pepper and salt" speckle of that skin and the flanks
are whiter; the pattern also is tolerably similar but the edges of the
rosettes or bands are brown instead of black. It might be described
as a faded edition of typical glaucula.

The skull of Nelson and Goldman's specimen, a young adult
female from Chiapas, has a condylo-basal length of 84 mm., a
zygomatic width of 55 mm., and a cranial width of 44. The female
skull in the British Museum is much older and consequently has
much wider zygomata, with a span of 62 mm. In other respects
its dimensions agree very closely with those of the Chiapas skull,
the cranium being 45 mm. wide and the estimated condylo-basal
length 83 mm.1 It is a short, wide skull compared with that of the
adult female type of glaucula. Although 5 mm. shorter, the actual
length from the premaxilla to the hinder end of the bulla being 76
and 81 mm. in the two, the zygomatic width is the same, and the
cranial width 45 as against 42 mm. The teeth are smaller than in
the female from Chiapas, P- being 10.5 and the alveolar length of
the upper cheek-teeth 25 mm., as against 11.8 and 26.7 mm. in the
Chiapas skull, the difference being probably due in part to wear
with age.

1 The occiput is missing, but since the skull is complete to the hinder end of
the bulla, the estimated length cannot be very far wrong.

DESCRIPTIONS AND RECORDS
OF NEOTROPICAL BATS

COLIN CAMPBELL SANBORN

Curator of Mammals, Field Museum of Natural History

The bats recorded below are from various collections that have
come to Field Museum during the past five years. Two of these col-
lections were made by Mr. Ivan T. Sanderson. The first was turned
over to us for study by the British Museum (Natural History) and
contained material from Dutch Guiana, Haiti, Jamaica, and Trini-
dad, many of the Trinidad specimens having been collected by the
Medical Department of Trinidad. The second was made in Haiti,
Jamaica, British Honduras, and Yucatan, and is now on deposit
in Field Museum. Specimens from these collections are followed
by the initials I.T.S.

The Colombian records represent material sent for identification
by Brother Niceforo Maria of the Institute de La Salle at Bogota,
Colombia, and specimens in his collection are marked N.M. Two
records from British Honduras are based on material in the Carnegie
Museum, Pittsburgh, Pennsylvania. My thanks are due to these
institutions and individuals. The following species are mentioned:

Amorphochilus schnablii Peters Lonchophylla mordax Thomas

Brachyphylla pumila Miller Lonchophylla robusta Miller

Centronycteris maximiliani centralis Micronycteris schmidtorum Sanborn

Thomas Mimon bennettii Gray

Chiroderma salvini Dobson Molossops temminckii griseiventer subsp.

Cormura brevirostris Wagner nov.

Cynomops planirostris paranus Thomas Myotis nigricans nicholsoni subsp. nov.

Diclidurus virgo Thomas Natalus major Miller

Eptesicus hispaniolae Miller Natalus stramineus Gray

Eptesicus melanopterus Jentink Phyllops haitiensis J. A. Allen

Furipterus horrens Cuvier Sphaeronycteris toxophyllum Peters

Glossophaga longirostris longirostris Tadarida similis sp. nov.

Miller Thyroptera tricolor albigula G. M. Allen

Histiotus macrotus Poeppig Tonatia amblyotis Wagner

Leptonycteris nivalis Saussure Tonatia venezuelae Robinson and Lyon

Lionycteris spurrelli Thomas Trachops coffini Goldman
Lonchoglossa caudifera aequatoris Lonn- Vampyrodes caraccioli Thomas

berg Vampyrops fumosus Miller

Lonchoglossa caudifera caudifera Vampyrus spectrum Linnaeus

Geoffrey

Cormura brevirostris Wagner.

Emballonura brevirostris Wagner, Wiegmann's Arch. Naturg., 9, pt. 1, p. 367,
1843 — Marabitanas, Amazonas, Brazil.

371

372 OSGOOD TESTIMONIAL VOLUME

Dutch Guiana: Camp One on Coppename River above Kaai-
manston, 2 males, 2 females, July 2, 8, 1938 (I.T.S.).

This is the first time this genus has been recorded from Dutch
Guiana. The type of Myropteryx (pullus Miller) came from Dutch
Guiana but these specimens do not agree with the characters given
for that genus. In fact, they seem to provide further evidence that
Myropteryx is probably synonymous with Cormura.

Measurements. — Forearm, males 46.3-46.5, females 48-48.

Collector's notes. — "Sleeping in hollow fallen tree," and "sleeping
in light under eave (projecting end) of fallen tree."

Centronycteris maximiliani centralis Thomas.

Centronycteris centralis Thomas, Ann. Mag. Nat. Hist., (8), 10, p. 638, 1912 —
Bogava, Chiriqui, Panama.

British Honduras: Double Falls, 1 female, December, 1939
(I.T.S.). "Bole of tree in daylight."

This extends the range of this rare bat northward from Guatemala
to British Honduras. The forearm measures 45.2 mm.

Diclidurus virgo Thomas.

Diclidurus virgo Thomas, Ann. Mag. Nat. Hist., (7), 11, p. 377, 1903—
Escazu, Costa Rica.

Honduras: Three miles north of Gracias on Rio Grande, 1 male
(ale.), December 22, 1937, P. 0. McGrew (F.M.).

This is the first record for Honduras of this rare bat, known
previously from Guatemala, Costa Rica, and Panama. The forearm
measures 64 mm.

Micronycteris schmidtorum Sanborn.

Micronycteris schmidtorum Sanborn, Field Mus. Nat. Hist., Zool. Ser., 20,
p. 81, 1935 — Bobos, Izabal, Guatemala.

Honduras: Copan, 1 male (ale.), March, 1938, Margaret Ennis
(F.M.).

Slightly smaller than the type and topotype from Guatemala,
heretofore the only known specimens.

Tonatia amblyotis Wagner.

Phyllostoma amblyotis (Natt., MS.) Wagner, Arch. Naturg., p. 365, 1843—
Matto Grosso, Brazil.

British Honduras: Freetown, Sittee River, 1 male, May 15, 1935,
Blake and Agostini, Carnegie Mus. No. 10578.

1941 NEOTROPICAL BATS— SANBORN 373

No topotypes of this species are available. Four specimens from
Santa Cruz and Sara, Bolivia (recorded as Chrotopterus auritus by
Sanborn, Ann. Carnegie Mus., 21, p. 175, 1932) have forearms
measuring 54.5-55.7; the total length of the skulls is 26.5-27.5.

One female from Tingo Maria, Huanuco, Peru, measures: forearm
54.3, total length of skull 27.8. In a series from Ecuador the maxi-
mum and minimum measurements are: forearm 51.9-54; total length
of skulls is 26.8-27.2.

The species occurs in Panama, but no Panamanian specimens
have been examined. The specimen from British Honduras meas-
ures: forearm 50.2, total length of skull 25.7. This is small for the
species but only slightly smaller than the minimum for the series
examined. Many South American species tend to become smaller
in the Central American part of their range.

Tonatia venezuelae Robinson and Lyon.

Lophostoma venezuelae Robinson and Lyon, Proc. U. S. Nat. Mus., 24, p. 154 —
Macuto, Venezuela.

Trinidad: Aripo, 1 juv., August 24, 1937 (I.T.S.).

This is the first record of this species since the description of
the type. It is unfortunate that the specimen is juvenile. The
outer upper incisors and the middle lower premolars are still below
the gums but can be seen to be present. The forearm measures
34.2, while in the adults of the type series it is 38-40.

Collector's notes. — "Home among cacao."
Mimon bennettii Gray.

Phyllostoma bennettii Gray, Mag. Zool. Bot., 2, p. 488, 1838 — South America.

Mexico: Buenavista, Yucatan, 1 male, March, 1898, G. F.
Gaumer (F.M.); Tekom, Yucatan, 1 male (ale.), 1 female (ale.),
April 15, 28, 1940 (I.T.S.).

There are few recent records of this rare bat, known from
Ypanema, Sao Paulo, Brazil, and from El Hacha, Venezuela. A
related species, M. cozumelae, occurs on Cozumel Island off the
coast of Yucatan. The specimen from Buenavista is figured in
Elliot's "Mammals of Middle America and the West Indies," pt. 2,
p. 657, 1904, as "Chrotopterus auritus."

The external measurements for the two specimens in alcohol are:
forearm 55.5-56.8; third finger metacarpal 48.1-50, first phalanx
19.6-19.9, second phalanx 26.3-27.9, third phalanx 12.6-13.2; fourth
finger metacarpal 45.9-48.3, first phalanx 15.8-16.8, second phalanx

374 OSGOOD TESTIMONIAL VOLUME

16.8-18.8; fifth finger metacarpal 50.6-52.2, first phalanx 15.6-15.9,
second phalanx 15.2-16.7. Ear from meatus 34.6-35.7. Height of
noseleaf 18.4. Tail 21.5-22.8; tibia 23-24.9; foot 14.5-14.6.

Trachops coffini Goldman.

Trachops coffini Goldman, Proc. Biol. Soc. Wash., 38, p. 23, 1925 — Guyo,
Peten, Guatemala.

British Honduras: Belize, 2 females (1 ale., 1 skull only), Octo-
ber 7, 1939 (I.T.S.).

This is the first record of this bat from British Honduras, and
the first time it has been recorded since the original description.
The measurements of these specimens are so near those of the type
that they do not need to be given.

Vampyrus spectrum Linnaeus.

Vespertilio spectrum Linnaeus, Syst. Nat., ed. 12, p. 46, 1766.

Trinidad: Port of Spain, 1 female, March 10, 1937, 1 skull only,
April 7, 1937 (I.T.S.).

Among the many references to this bat, there are no adequate
measurements of the wings or the skull.

Measurements.— Forearm 113.3; third finger metacarpal 80.5,
first phalanx 45.9, second phalanx 51.5, third phalanx 33.6, tip
9.7; second finger metacarpal 88.2, first phalanx 37, second phalanx
38.6; fifth finger metacarpal 97.3, first phalanx 35.6, second phalanx
35.6. Ear 44. Foot 30.7; tibia 60.5. Skull: greatest length 52.8;
condylo-basal length 43.9, interorbital width 7.5, zygomatic width 24,
mastoid width 21.5, width of braincase 15.5, upper toothrow 20.8,
width across canines 9.5, across last molars 14.7.

Collector's notes. — "Palm tree;" "among high trees."
Glossophaga longirostris longirostris Miller.

Glossophaga longirostris Miller, Proc. Acad. Nat. Sci. Phila., p. 330, 1898 —
near Santa Marta, Colombia.

Patos Island: In channel west of Trinidad, 1 male (ale.), 1 female
(ale.), 1916, Trinidad Medical Department (F.M.).

This is a further extension of range of this species. The specimens
agree with others from western Venezuela.

Lonchophylla mordax Thomas.

Lonchophylla mordax Thomas, Ann. Mag. Nat. Hist., (7), 12, p. 459, 1903 —
Lamarao, northwest of Bahia, Brazil.

1941 NEOTROPICAL BATS— SANBORN 375

Brazil: Barra, Bahia, 18 males (ale.), February 24, 1914, Robert
H. Becker (F.M.).

This species was described by Thomas from eight specimens and
has not been recorded since. The specimens here noted might be
considered as topotypes; they agree closely with the original descrip-
tion. The forearms measure 33.8-36.7.

Lonchophylla robusta Miller.

Lonchophylla robusta Miller, Proc. U. S. Nat. Mus., 42, p. 23, 1912— Chilibrillo
Caves, Panama; Goldman, Smiths. Misc. Coll., 69, No. 5, p. 192, 1920—
Panama; G. M. Allen, Journ. Mamm., 16, p. 227, 1935 — Panama; Enders,
Bull. Mus. Comp. Zool., 78, p. 418, 1935— Panama.

Colombia: San Gil, 1, no sex, June, 1934, Niceforo Maria (N.M.);
Sasaima, 1 female (ale.), July 9, 1940, Niceforo Maria (F.M.).

All previously known specimens of this bat have been recorded
from Panama, one taken at Cana and others from the Chilibrillo
Caves. The specimen from San Gil is smaller, the skull especially,
than two from Panama, but the other Colombian specimen does not
differ from typical robusta.

Lonchoglossa caudifera caudifera Geoffroy.

Glossophaga caudifer Geoffroy, Mem. du Mus., 4, p. 418, 1818 — Rio de Janeiro,
Brazil.

Venezuela: Cucuta, Santander del Norte, 2 males (ale.), April,
1940— Niceforo Maria (F.M.).

Brazil: Lagoa Santa, Minas Geraes, 4 females (ale.), 1 male
(ale.), January 4, 5, 1914— R. H. Becker (F.M.).

Since the review of this genus (Sanborn, Field Mus. Nat. Hist.,
Zool. Ser., 20, p. 27, 1933), based on eleven specimens from eastern
and central Brazil, two specimens have been recorded (Sanborn,
Occ. Pap. Mus. Zool. Univ. Mich., 323, p. 3, 1938) from Venezuela.
The above series almost doubles the number of specimens formerly
available for study. The forearms of those from Venezuela and
Brazil measure from 35.5-38.1, a slight increase in size from measure-
ments given before.

Lonchoglossa caudifera aequatoris Lonnberg.

Lonchoglossa wiedi aequatoris Lonnberg, Arkiv Zool., 14, No. 4, p. 65, 1921.

Peru: Vitoc Valley, Prov. Tarma, Dept. Junin, 1 male (ale.),
July, 1940— Felix Wytkowski (F.M.).

The forearm of this specimen is 34.2, which is short for typical
caudifera but about the minimum for aequatoris, which heretofore
has been recorded only from Ecuador.

376 OSGOOD TESTIMONIAL VOLUME

Lionycteris spurrelli Thomas.

Lionycteris spurrelli Thomas, Ann. Mag. Nat. Hist., (8), 12, p. 271, 1913—
Condoto, Choco, Colombia.

British Guiana: Itabu Creek Head, Corentyne River, Boundary
Camp, 1 male (ale.), 1 female (ale.), September-October, 1938 —
E. R. Blake (F.M.).

These specimens are the first to be recorded since the original
description of the genus and the species based on an immature
specimen. They were taken a great distance east of the type locality
but agree with the original description; the skull agrees with a
photograph of that of the type.

Measurements (type in parentheses). — Forearm 34.9-36 (33).
Skull: greatest length 19.6 (18.7), condylo-basal length 18 (17.5),
palatal length 9.2 (8.4), interorbital width 4.1 (3.7), mastoid width
8.2, width of braincase 8.1 (8), upper toothrow 6.2 (6.1), width
across canines 3.4, across molars 5 (4.8). External measurements:
third finger, metacarpal 35.8-36.2, first phalanx 9.8-9.9, second
phalanx 17.4-17.7, third phalanx 7.7-7.8; fourth finger, metacarpal
32.2-32.6, first phalanx 7.6-7.2, second phalanx 12.4-11.6; fifth
finger, metacarpal 29.8-29.8, first phalanx 7.5-6.7, second phalanx
9.8-9.6. Ear 12; tail 9.8; tibia 14.1-14.3; calcar 3.6-3.9; height of
lancet 6.1-5.6.

Leptonycteris nivalis Saussure.

Ischnoglossa nivalis Saussure, Rev. Mag. Zool., p. 492, pi. 20, figs. 2-2c (animal,
noseleaf, skull and teeth), 1860 — near snow-line on Mount Orizaba, Vera
Cruz, Mexico.

Texas: Mount Emory, Chisos Mountains, Brewster County,
14 males (8 ale.), 44 females (33 ale., 2 skeletons), July 26, 1937,
D. D. Davis (F.M.).

Mexico: Cerro Potosi, near La Jolla, Galeana, Nuevo Leon, 17
males (ale.), 64 females (ale.), August 17, 1938, E. J. Koestner
(F.M.).

These are the first records for Texas and for this part of Mexico.
The bat is known from Arizona south through western and central
Mexico to Guatemala. An examination of all available material
shows that the above series have much longer wings than those from
farther west. Intermediate specimens were found in Jalisco and
Michoacan. The type has been lost but, if the figure is accurate,
it also had long wings.

1941 NEOTROPICAL BATS— SANBORN 377

Brachyphylla pumila Miller.

Brachyphylla pumila Miller, Proc. Biol. Soc. Wash., 31, p. 39, 1918; Miller,
Smiths. Misc. Coll., 81, No. 9, p. 9, 1929; Goodwin, Journ. Mamm., 14,
p. 154, 1933.

Haiti : Diquini, December 12, 14, 1937 — 3 females (one skin with
skull), (I.T.S.).

Besides the three subfossil skulls recorded by Miller from Haiti,
there have been five male alcoholic specimens described by Goodwin
from the Dominican Republic.

In the present specimens the brown tips to the hairs are either
very short or absent so that there is a white patch on the nape and
one on each side, leaving a brown Y on the back and shoulders.
The under parts are gray.

Measurements. — Forearm 55.1-59; third finger, metacarpal 50.3-
51.1, first phalanx 15.2-16.4, second phalanx 21.1-22.6, third phalanx
15.6-16.9; fourth finger, metacarpal 47.3-48.2, first phalanx 13.5-
15.1, second phalanx 18.1-19; fifth finger, metacarpal 50-51.7, first
phalanx 12.1-13.9, second phalanx 13.6-14.6. Ear 19-20; tibia
23.5-24; foot 17.4-17.6. Skull: greatest length 29.3, condylo-basal
length 25.3, rostral width 9, interorbital width 6.5, zygomatic width
15.5, mastoid width 13.6, braincase 12.2, upper toothrow 9.9, width
across canines 6.4, maxillary width 10.3.

Collector's note. — "Sleeping in limestone cave."

Vampyrops fumosus Miller.

Vampyrops fumosus Miller, Proc. Acad. Nat. Sci. Phila., p. 405, 1902 —
Purus River, Brazil; Sanborn, Field Mus. Nat. Hist., Zool. Ser., 20, p. 101,
1936— Ecuador.

Peru: Vitoc Valley, Prov. Tarma, Dept. Junin, 1 male, 2 females,
October 11, 1940, F. Wytkowski (F.M.).

This is the first record of the species in Peru. The collector
records them as being taken "in the ruins of an abandoned huge
farm in the forest, Hacienda Santa Ana."

Vampyrodes caraccioli Thomas.

Vampyrops caracciolae Thomas, Ann. Mag. Nat. Hist., (6), 4, p. 167, 1889 —
Trinidad.

Vampyrops caraccioli Thomas, Ann. Mag. Nat. Hist., (6), 11, p. 186, 1893
(change of ending of specific name); Journ. Trinidad Field Nat. Club, 1,
p. 6 (reprint), 1893 (mention of second specimen).

Vampyrops (Vampyrodes) caraccioli Thomas, Ann. Mag. Nat. Hist., (7), 5,
p. 269, 1900.

Vampyrodes caracciolae Miller, Bull. U. S. Nat. Mus., 57, p. 156, 1907.

378 OSGOOD TESTIMONIAL VOLUME

Vampyrodes caraccioli Thomas, Ann. Mag. Nat. Hist., (9), 6, p. 274, 1920 —
Para, Brazil.

Trinidad: Mount Aripo, 2 males, March 18, 1937 (I.T.S.).

These appear to be the fourth and fifth specimens to be recorded.
Unfortunately, one was so badly shot that the front of the face is
blown off and the wings are shattered.

Measurements. — Forearm 49.8; third finger, metacarpal 48.8,
first phalanx 17.8, second phalanx 27.3, tip 15.5; fourth finger,
metacarpal 46.6, first phalanx 14.1, second phalanx 17.2; fifth finger,
metacarpal 47.6, first phalanx 11.2, second phalanx 11.8. Tibia
18.9; ear 19. Skull: greatest length 26.8, condylo-basal length
22.6, palatal length from in front of incisors 13.6, rostral width
10.3, interorbital width 6.3, zygomatic width 16.4, mastoid width 13,
width of braincase 11.6, upper toothrow 9.4, width across canines
6.6, across molars 11.5, lower toothrow 10.6.

Collector's note. — "Sleeping under palm frond."
Chiroderma salvini Dobson.

Chiroderma salvini Dobson, Cat. Chiropt., p. 532, pi. xxiv, figs. 3-3b (skull
and teeth), 1878 — Costa Rica; Alston, Biol. Cent. Amer. Mamm., p. 49,
pi. iv (animal), 1879 — Costa Rica; Dobson, Proc. Zool. Soc. Lond., p. 465,
1880— Colombia; Thomas, Ann. Mus. Civ. Stor. Nat. Geneva, p. 883,
1891— key; Miller, Proc. U. S. Nat. Mus., 42, p. 26, 1912— Costa Rica
(skull meas.); Goldman, Smiths. Misc. Coll., 69, No. 5, p. 203, 1920—
Panama.

Honduras: Tapasuna, 10 males (ale.), 12 females (ale.), Decem-
ber 31, 1937-January 1, 1938, P. 0. McGrew (F.M.).

In the years since the description of this bat only three speci-
mens have been recorded. Dobson reported one from Colombia in
the collection of the Gottingen Museum in 1880; Miller gave skull
measurements for a specimen from Costa Rica in 1912; and Goldman
listed one record for Panama in 1920. H. Allen's reference appears
to have been based on a specimen from Mexico that is probably
isthmicum.

There is great variation in size in this series from Honduras,
some being almost as small as isthmicum, which differs by its smaller
teeth, proportionately broader skull, and absence of white markings.
In a Field Museum specimen of isthmicum from Mexico the upper
middle incisors are small and light, and their tips diverge, a condition
similar to that described for jesupi from Colombia, except that the
teeth are parallel. The photograph of the type skull of isthmicum,
however, shows that the tips of the middle incisors converge as in
salvini.

1941 NEOTROPICAL BATS— SANBORN 379

Chiroderma salvini appears to have the widest range, having been
taken from Honduras to Colombia; C. isthmicum is known from
southern Mexico, Costa Rica, and Panama; and C. jesupi from
Colombia.

Measurements. — Forearm 46-52.3. Three skulls: greatest length
25.2-27.6, condylo-basal length 24.1-24.9, palatal length 12.8-14.6,
interorbital width 5.6-6.3, zygomatic width 15.9-16.8, mastoid
width 12.3-13.1, width of braincase 10.4-12.4, upper toothrow
9.3-9.8, width across canines 6-6.2, across molars 11.5-11.8, lower
toothrow 10.2-10.7.

Phyllops haitiensis J. A. Allen.

Ardops haitiensis J. A. Allen, Bull. Amer. Mus. Nat. Hist., 24, p. 581, 1908;
G. M. Allen, Bull. Mus. Comp. Zool., 54, p. 237, 1911.

Phyllops haitiensis Anthony, Bull. Amer. Mus. Nat. Hist., 37, p. 337, pi.
34, fig. 2 (type skull), 1917; Miller, Proc. Biol. Soc. Wash., 31, p. 39,
1918; Miller, Smiths. Misc. Coll., 81, No. 9, p. 9, 1929; idem, 82, No. 15,
p. 6, 1930.

Haiti: Petionville, 2 females, May 25, 1937; Port au Prince,
1 female, December 10, 1937 (I.T.S.).

This species was described from one skin with skull taken at
Cana Honda, Dominican Republic. Miller has recorded skulls
found in owl pellets, from Port de Paix and Diquini; from cave
deposits at St. Michel and the Atalaye plantation, Haiti; and from
owl pellets from Monte Culo de Maco, near Constanza, Dominican
Republic. There are no records of the bat's being found alive since
the description of the species.

The specimens are a little larger than the type but otherwise
agree with the short description.

Measurements. — Two adult females and one skull. Forearm
40.6-41.6, pollex 13.6-13.7; third finger, metacarpal 39.3-39.6, first
phalanx 15.2-15.6, second phalanx 19.5-19.8, third phalanx with
cartilage 13.7-13.8; fourth finger, metacarpal 39.3-39.6, first phalanx
12.4-12.8, second phalanx 12.8-13.7; fifth finger, metacarpal 40.1-40,
first phalanx 9.9-10.2, second phalanx 11.8-12.3. Tibia 16.3-17,
tibia with foot 26.6-27; ear from meatus 16-17.5; length of tragus
5.3-5.6; width of noseleaf 5.8-6.1; height from base of horseshoe
9.5-9.8. Skull: greatest length 20.5, condylo-basal length 17.6,
palatal length 4.8, interorbital width 5.3, intertemporal width 13.7,
mastoid width 11.8, braincase 9.8, upper toothrow 5.8, width across
canines 5.9, maxillary width (M—M^) 8.4, lower toothrow 6.2.

Collector's notes. — "Sleeping in mango trees;" "house in town."

380 OSGOOD TESTIMONIAL VOLUME

Sphaeronycteris toxophyllum Peters.

Sphaeronycteris toxophyllum Peters, Sitzungsber. Akad. Wiss. Berlin, p. 989,
1882— South America.

Colombia: Cucuta, 1 male, February, 1940, Niceforo Maria
(N.M.).

Briceno Gabaldon y Hijos collected many of these bats near
Merida, Venezuela, between 1904 and 1909, and Rehn (Proc. Acad.
Nat. Sci. Phila., p. 259, 1900) recorded a specimen from Pebas,
Peru. This is the first record for Colombia but it might be termed
a "political" record as Cucuta is very near the border of Venezuela.
It is interesting to have another specimen come to light after so
many years.

Natalus major Miller.

Natalus major Miller, Proc. Acad. Nat. Sci. Phila., p. 398, 1902 — Savaneta,

Dominican Republic.
Natalus stramineus major G. M. Allen, Bull. Mus. Comp. Zool., 54, p. 240,

1911.

Haiti: Port au Prince, 1 male, August 1, 1937 (I.T.S.).

This appears to be the first published record of the capture of
this bat since the description of the type and paratype. The speci-
men is slightly larger than the measurements given for the type.

Measurements. — Head and body 44.7; tail 61.8; tibia 25.1. Fore-
arm 43.8; third finger, metacarpal 42.3, first phalanx 18.3, second
phalanx 23.9; fourth finger, metacarpal 40.6, first phalanx 10.9,
second phalanx 11.8; fifth finger, metacarpal 40.8, first phalanx
10.6, second phalanx 12.6. Ear 17.

Collector's note. — "Flying around house."

Natalus stramineus Gray.

Natalus stramineus Gray, Mag. Zool. Bot., 2, p. 496, 1838; Dobson, Cat.
Chiropt., p. 342, pi. 17, fig. 8 (head), 1878 — Brazil spec, only; Winge,
Mus. Lundii, p. 13, pi. 2, fig. 2 (skull)— 1892; Jentink, Notes Leyden
Mus., 15, p. 279, 1893— British Guiana; Young, Timehri, (2\ 10, p. 44,
1896— British Guiana; Beebe, Zoologica, 2, p. 219, 1919— British Guiana;
Shamel, Proc. Biol. Soc. Wash., 41, p. 67, 1928— Brazil (Natal); Hayman,
Proc. Agr. Soc. Trinidad and Tobago, 32, p. 313, 1932— Trinidad; Vesey-
Fitzgerald, Trop. Agr., 13, p. 161, 1936— Trinidad.

Trinidad: 2 females, Trinidad Medical Department (I.T.S.).

This species was described from a specimen without locality and
published references to specimens are still rare. Dobson, Winge,
and Shamel have each recorded specimens from Brazil; Jentink's,
Young's, and Beebe's references are all to the same specimen from

1941 NEOTROPICAL BATS— SANBORN 381

British Guiana; and Hayman and Vesey-Fitzgerald do not mention
any specimens from Trinidad but the text gives the idea that the
lists were based in part on the collections of Dr. Urich. Mr. Morrison-
Scott and Mr. R. W. Hayman have been kind enough to send the
measurements on the type in the British Museum. The specimens
from Trinidad agree so closely that they may be confidently referred
to stmmineus. The difference in some of the external measurements
is due to the methods used.

The next nearest form is Natalus dominicensis Shamel from
Dominica, described as larger than N. stramineus. A comparison
of the measurements shows it to have a longer condylo-basal length,
a narrower zygomatic width, and a slightly longer forearm and ear.

Measurements (type in parentheses). — Forearm 39-40.1 (38);
third finger, metacarpal 33.7-38.9, first phalanx 15.5-16.1 (15),
second phalanx 21-22.6 (16 without cartilage) ; fourth finger, meta-
carpal 36.4-38 (33), first phalanx 9.5-9.8 (10), second phalanx
10-10.7 (11); fifth finger, metacarpal 35.7-37.8 (32), first phalanx
9.3-9.7 (10), second phalanx 10.6-11.3 (9). Tibia 20.1-20.8 (19.5);
ear 14.5-15.5 (14). Skull: greatest length 16.8 (16.6), condylo-
basal length 14.7 (15), interorbital width 3.5 (3.3), zygomatic width

8.5 (8.6), mastoid width 7.4 (7.6), width of braincase 7.9 (8.29),
upper toothrow 7.2 (7.15), width across canines 3.9 (4), across molars

5.6 (5.8), lower toothrow 7.6 (7.6), mandibular length 12.5 (12.35).

Furipterus horrens Cuvier.

Furia horrens F. Cuvier, Mem. du Mus., 16, p. 150, 1828 — Mana River, French
Guiana.

Dutch Guiana: Camp One, Coppename River, above Kaai-
manston, 1 male, July 8, 1938 (I.T.S.).

This bat is known from Brazil, British and French Guiana, Trini-
dad, and Colombia.

Measurements. — Forearm 35.7; third finger, metacarpal 33.4, first
phalanx 5, second phalanx 19.9; fourth finger, metacarpal 29.4,
first phalanx 6, second phalanx 8.3; fifth finger, metacarpal 29, first
phalanx 10.3, second phalanx 4.6. Ear 10; tail 35.8; tibia 15.

Collector's notes. — "Flying in tent at 10:30 A.M. Color — smooth
bluish gray fur just tipped paler gray, slightly ochreous. Membranes
dark gray. Chin and just above nose reddish brown."

Amorphochilus schnablii Peters.

Amorphochilus schnablii Peters, Monatsber. Akad. Wiss. Berlin, p. 185, pi.,
figs. 1-10, 1877— Tumbez, Peru.

382 OSGOOD TESTIMONIAL VOLUME

Peru: Hacienda de la Fuenta, Vitor Valley, Arequipa, 12 females
(ale.), October 10, 1939; Hacienda Chucarapi, Tambo Valley,
Arequipa, 1 female, October 17, 1939, 1 male (ale.), 5 females (ale.),
May 17, 1940; Hacienda Santa Maria, Tambo Valley, Arequipa, 23
males (21 ale.), 24 females (20 ale.), May 18, 1940.

Heretofore this bat was known from northern and central Peru,
the type being from Tumbez, and it has been recorded from Puna
Island, Ecuador, by J. A. Allen. The United States National
Museum has three specimens from Piura, Peru, and one from Lima.
The Museum of Comparative Zoology also has one from Lima and
there is a specimen from there in the museum in Lima.

These specimens from two valleys in the southernmost part of
Peru lead one to the conclusion that probably all the cultivated
valleys of the arid coast are inhabited by it and possibly it may
range farther south into northern Chile.

A few of the specimens were taken in dark wine-storehouses
and an irrigation tunnel, but most of them came from an unused
sugar-mill.

Measurements. — Forearms 34.2-37.
Thyroptera tricolor albigula G. M. Allen.

Thyroptera tricolor albigula G. M. Allen, Proc. New England Zool. Club, 9,
p. 1, 1923 — Gutierrez, in mountains about 25 miles inland from Chiriquito,
western Panama.

British Honduras: South Stann Creek, 15 miles west of All Pines,
1 male, March 6, 1935 (C.M.).

The forearm of the type, a female, measures 36.6. The specimen
from Honduras is smaller, with a forearm of 35. Field Museum
has a male and female from Esparta, Costa Rica, with forearms of
34.6 and 32, respectively.

Myotis nigricans nicholsoni subsp. nov.

Type from Hacienda Chucarapi, Tambo Valley, Department
of Arequipa, Peru. No. 50783 Field Museum of Natural History.
Adult male. Collected October 17, 1939, by C. C. Sanborn. Original
No. 2237.

Characters. — A very small, pale race of the arid region of southern
Peru. Above, distal third of hairs slightly lighter than the Buffy
Brown of Ridgway (1912); below, distal third grayish white, all
hairs dark, almost black, for the basal two-thirds. In other characters
like nigricans. Skull smaller than in nigricans, from measurements

1941 NEOTROPICAL BATS— SANBORN 383

about the size of extremus; narrower across rostrum and canines
proportionately shorter.

Measurements. — Forearm of type 31.6 (others in alcohol 31.1-
32.6). Skull of type, greatest length 13.1, condylo-basal length
11.9, rostral width over molars 4.4, interorbital width 3, zygomatic
width (about) 6.8, mastoid width 6.5, width of braincase 6.3, upper
toothrow 4.6, across canines 2.9, across last molars 4.8, lower tooth-
row 4.8.

External measurements of female paratype. — Forearm 32.5; third
finger, metacarpal 29.4, first phalanx 9.7, second phalanx 8.6, tip
5.9; fourth finger, metacarpal 29, first phalanx 8.1, second phalanx
6.6; fifth finger, metacarpal 27.8, first phalanx 7.1, second phalanx 6.9.
Tail 34.8; tibia 14.7; ear 12.

Specimens examined. — Type and one paratype. Two males and
one female from Patasagua, a suburb of Arequipa, Dept. of Arequipa,
Peru.

Remarks. — This is a pale race living in the semi-arid region of
southern Peru from the coast to at least 7,500 feet altitude. It
might have been given a geographic name, but almost the same
result is obtained by naming it for Dr. Carlos Nicholson of the
University of Arequipa, whose name is synonymous with the study
of the natural history and geography of the region. Without the
help of Dr. Nicholson these bats would not have been secured.

Eptesicus hispaniolae Miller.

Eptesicus hispaniolae Miller, Proc. Biol. Soc. Wash., 31, p. 39, 1918— Con-
stanza, Dominican Republic.

Haiti: Port au Prince, 1 female, August 1, 1937 (I.T.S.).

Jamaica: Chincona, altitude 6,000 feet, 1 male (ale.), 1 female
(ale.), August 19, 1939; Sherwood Forest, 1 (ale.), August 29, 1939
(I.T.S.).

This bat has been reported from five localities in Haiti and the
Dominican Republic on skulls from owl pellets and fossil remains,
but no live specimens have been taken besides the type. This is
the first record of it from Jamaica. The forearm of the specimen from
Haiti measures 49.7 and in those from Jamaica it is 45.9, 47.8,
and 47.9.

Eptesicus melanopterus Jentink.

Vesperus melanopterus Jentink, Notes Leyden Mus., 24, p. 176, 1904 —

Paramaribo, Dutch Guiana.
E.[ptesicus] melanopterus Thomas, Ann. Mag. Nat. Hist., (9), 5, p. 361, 1920.

384 OSGOOD TESTIMONIAL VOLUME

Dutch Guiana: Zander! j, adult male and female, 2 juv. males
(1 mummy), (I.T.S.).

These appear to be the first specimens recorded since the descrip-
tion of the type, and agree with the description and external measure-
ments. Measurements of the skull have never been published.

Measurements. — Forearm 40.2-41.6; third finger, metacarpal
36.6-37.9, first phalanx 13.5-14, second phalanx 9.6-12.7, tip 7.6-
7.2; fourth finger, metacarpal 35.6-37.2, first phalanx 11.5-12.1,
second phalanx 9.3-8.9; fifth finger, metacarpal 34.2-34.7, first
phalanx 8.8-8.8, second phalanx 6.6-7.6. Ear 14; tail 42.6-38.2;
tibia 16.7-16.8. Skull of female: greatest length 16.4, condylo-
basal length 14.4, rostral width 6.6, interorbital width 4.1, zygomatic
width 11.1, mastoid width 8.5, braincase 7, upper toothrow 5.9,
across canines 4.9, maxillary width 7.1.

Histiotus macrotus Poeppig.

Nycticeius macrotus Poeppig, Reise in Chile, Peru and Amazonstrome, 1,
p. 451, footnote, 1835 — Antuco, Province of Bio-Bio, Chile.

Histiotus macrotus Peters, Monatsber. Akad. Wiss. Berlin, p. 788, pi. opp.
p. 792, figs. 2-2e (head, skull, teeth), (1875) 1876— Chile.

Chile: Probably near Santiago, 1 male (ale.), C. S. Reed (F.M.).

Peru: Yunguyo, south end of Lake Titicaca, 1 male, 1 female,
March 15, 1940, C. C. Sanborn (P.M.); Hacienda Chucarapi, Tambo
Valley, Dept. Arequipa, 5 females (3 ale.), October 15-19, 1939,
C. C. Sanborn (F.M.).

These specimens have been referred to macrotus although the
majority were taken a long way from the type locality. There have
been but two specimens of macrotus recorded, so little is known about
its characters. This series agrees in general with the main character,
which is very long ears connected by a low band of skin. This
separates these specimens from both montanus and velatus, and a
much shorter palate also distinguishes them from velatus.

In 1916 (Ann. Mag. Nat. Hist., (8), 17, p. 225) Thomas described
Histiotus laephotis from Caiza, southern Bolivia. Its characters are
those of macrotus which Thomas did not have but he was influenced
by the great distance from the type locality of macrotus and the
difference in the fauna of the two regions. From what is known now
of the distribution of the species it is clear that if laephotis can be
recognized it will be as a subspecies of macrotus.

The specimen from Chile is darker than those from Peru but
until topotypical macrotus from southern Chile is available it seems

1941 NEOTROPICAL BATS— SANBORN 385

best to let all specimens rest under the specific name. The Andes
of central and southern Chile are becoming more accessible every
year as roads are built in them towards summer resorts, ski
shelters, and fishing grounds, so it is probable that typical macrotus
may be taken at a not too distant time.

The Peruvian specimens from the Tambo Valley were taken on
one of the lower floors of an observatory and in a room of the main
house of the Hacienda in October. None were seen in May. The
two from Lake Titicaca were purchased from an Indian who said
he had caught them in his house.

Measurements. — Forearm 47-51.5. Skull: greatest length 17.9-
18.9, condylo-basal length 17.6, palatal length 7.8-8.1, interorbital
width 43-45, zygomatic width 10.6-10.8, mastoid width 9.2-9.4,
width of braincase 8.1-8.4, upper toothrow 5.8-6.4, width across
canines 4.3-4.9, across molars 6.3-6.9. Ears from meatus 31-37;
height of tragus 14-16.

Molossops temminckii griseiventer subsp. nov.

Type from Espinal, west of Magdalena River on plains of Tolima,
Colombia. No. 51727 Field Museum of Natural History. Adult
female in alcohol, skull removed. Collected September 21, 1940,
by Brother Niceforo Maria.

Characters. — In general like temminckii but white patch on throat
larger and rest of under parts gray. Skull longer and slightly broader.

The color above is the same dark brown as in temminckii from
Brazil and Paraguay, but the white patch on the throat is larger
and the hairs are pure white to the roots. The rest of the under
parts are gray instead of brown; the hairs have white bases, followed
by a gray band, and the tips are again white.

The skull is longer and slightly broader, in comparison appearing
larger than the measurements indicate.

Measurements. — Forearm, type and topotype, 31.9, 30.9, 30.7.
Skull: greatest length 15.3, 15; condylo-basal length 13.8, 13.5;
palatal length 7, 6.7; greatest rostral width 6.6, 6; interorbital
width 4.3, 4.9; zygomatic width 9.6, 8.8; mastoid width 8.9, 8.3;
width of braincase 7.4, 7.1; upper toothrow 5.7, 5.5; width across
canines 3.9, 3.6; width across molars 6.8, 6.3.

Specimens examined. — Type and male topotype in alcohol in
Field Museum collection, and one male, skin and skull, from Honda,
collected February, 1932, in collection of Brother Niceforo Maria.

386 OSGOOD TESTIMONIAL VOLUME

Remarks. — Molossops temminckii temminckii is known from
northern and central Brazil, Paraguay, and Jujuy and Misiones,
Argentina. M. t. sylvia Thomas was described from Goya, Corrientes,
Argentina, as a paler subspecies. Cabrera described M. aequalorianus
from Ecuador but it has a much longer forearm (36) and a slightly
shorter skull (14.5) than M. t. griseiventer.

Cynomops planirostris paranus Thomas.

Molossus planirostris paranus Thomas, Ann. Mag. Nat. Hist., (7), 8, p. 190,
1901— Para, Brazil.

Colombia: Cucuta, 2 males, February, 1939, 1 female, May, 1936,
Niceforo Maria.

These bats are referred to this subspecies until topotypical
material is available for comparison. Externally they agree with
the original description. The skulls are slightly longer, however,
and the distance "across the angular anteorbital ridges" is more
than half the basal length as in planirostris and not less as in paranus.
This is a difficult measurement to take accurately and the ridges
probably increase with age so that this may prove to be a rather
unstable character.

Tadarida similis sp. nov.

Type from Bogota, Colombia. No. 48560 Field Museum of
Natural History. Adult male. Collected August, 1938, by Brother
Niceforo Maria. Original No. 4.

Characters. — A member of the macrotis group, intermediate
in size between macrotis and laticaudata. Externally similar to
aurispinosa but slightly smaller and grayish brown instead of red.
The hairs are brown and the extreme bases are almost white.

The skull is much as in laticaudata and femorosacca, but is
larger, especially broader, and has heavier teeth.

Measurements. — Forearm 49.5; tibia 15. Skull: greatest length
20.7, condylo-basal length 18.8, palatal length 8.5, interorbital
width 3.9, zygomatic width 11.6, mastoid width 10.4, width of
braincase 9.3, upper toothrow 7.8, width across canines 4.7, across
molars 8.5, lower toothrow 8.5.

Specimens examined. — One, the type.

Remarks. — This is the west coast representative of Tadarida
aurispinosa, known from one specimen without a skull. Shamel
(Proc. U. S. Nat. Mus., 78, p. 12, 1931) listed aurispinosa but said
he considered it synonymous with laticaudata whose range is Brazil

1941 NEOTROPICAL BATS— SANBORN 387

and Paraguay. The discovery of similis adds further evidence that
there are species intermediate in size between macrotis and laticaudata.
It is unusual that a bat with colonial habits as in most of the free-
tailed species should be so rare, but it is only very recently that
any colonies of T. europs have been discovered.

The macrotis group is divided into seven species separated from
each other mainly by size, and six of these may be divided into three
pairs. Tadarida europs of Brazil and Venezuela is about the size
of T. yucatanica of Yucatan and Guatemala; T. laticaudata of southern
Brazil and Paraguay is very similar to T. femorosacca of Arizona,
California, and Mexico; next in size are T. aurispinosa and T. similis
from opposite sides of northern South America, and largest of all is
T. macrotis, ranging from California and Iowa to south-central
Brazil.

INDEX

Current names in roman type, synonyms and secondary references in italic
type, new names in bold-faced type.

Acinonychinae, arteries of forearm, 224

Acinonyx, arteries of forearm, 217, 226

jubata, arteries of forearm, 217-218

Aeluroidea, arteries of forearm, 142,

218, 224, 226

aequatorialis, Leopardus, 319, 326, 333,
335, 338-339, 341

aequatorianus, Molossops, 386

aequatoris, Lonchoglossa, 375

Aethomys, 315-317
hindei, 313-314

affinis, Pipistrellus, 81
Scaptonyx, 63-64

Ailuridae, arteries of forearm, 171-178,
223, 226

Ailuropoda, arteries of forearm, 143
melanoleuca, arteries of forearm, 174-
178

Ailurus, arteries of forearm, 143

fulgens, arteries of forearm, 171-174
styani, 85

albescens, Leopardus, 344, 346, 350

albigena, Delphinus, 297

albigula, Thyroptera, 382

albiventer, Microdipodops, 233, 252,
258, 260, 263-265

albus, Echinosorex, 150

Allen, Glover M. Pygmy sperm whale
in the Atlantic, 17-36

ambiguus, Microdipodops, 246, 248,
250 252—257

amblodon, Sagmatias, 293-296, 304-305

amblyotis, Tonatia, 372-373

americanus, Euarctos, arteries of fore-
arm, 178-181

ammophilus, Microdipodops, 272-274

Amorphochilus schnablii, 381-382

andersoni, Rattus, 106-107
Rhynchonax, 62-63

annectens, Lutra, 229-231
Neotoma, 315-317

Anourosorex, 75, 77
squamipes, 70, 74

Anthony, H. E. Mammals collected by
the Vernay-Cutting Burma Expe-
dition, 37-123

antisensis, Hippocamelus, 129-130, 133-
134

Apodemus, 63-64, 103, 116
orestes, 103

aquilonius, Dipodomys, 249

Arctictis binturong, arteries of forearm,
196-197

Arctoidea, arteries of forearm, 149, 218-

219, 222-223, 226
Asellia stoliczkana, 80

astutus, Bassariscus, arteries of forearm,

161-164

atronates, Rhynchonax, 62-63
aurispinosa, Tadarida, 386-387
australis, Lagenorhynchus, 296-298,

303
Phocaena, 293-296, 298

baileyi, Soriculus, 68

barbara, Tayra, arteries of forearm,

188-192

barbei, Tamiops, 93
Bassariscus, arteries of forearm, 222-
223

astutus, arteries of forearm, 161-164
beebei, Callosciurus, 90
Belomys, 96-97

blandus, 96

kaleensis, 96

pearsoni, 95-96

trichotis, 96

villosus, 96
bengalensis, Felis, 89
bennettii, Mimon, 373-374
bezoarticus, Ozotoceros, 126, 134
bhotia, Dremomys, 91-92
binotata, Nandinia, arteries of forearm,

201-202
binturong, Arctictis, arteries of forearm,

196-197
bisulcus, Hippocamelus, 126-127, 129-

130, 132-133
blandus, Belomys, 96
Blarinella wardi, 72-73
Blastocerus, 126-134

dichotomus, 126, 129-130, 134

paludosus, 126

boliviae, Leopardus, 355, 357
bowersii, Rattus, 108-109
Brachyphylla pumila, 377
brasiliensis, Leopardus, 322, 324, 326-

331, 333-334, 336, 339, 341
breviceps, Delphinus, 302

Kogia, 17-18

Lagenorhynchus, 298, 303

Physeter, 17

brevirostris, Cormura, 371-372
Budorcas taxicolor, 120
buffoni, Leopardus, 343

Cabrera, Angel. Cranial and dental
characters of some South American
Cervidae, 125-135

cachinus, Eothenomys, 98

californicus, Microdipodops, 233, 246,
248-251, 253-255

389

390

OSGOOD TESTIMONIAL VOLUME

Callosciurus, 92-93

beebei, 90

imarius, 90

quinquestriatus, 89-90

vittatus, 90

campestris, Odocoileus, 127
canadensis, Lutra, 231
canescens, Leopardus, 343
Canidae, arteries of forearm, 142, 144,
146-147, 154-161, 217-219, 222-
223, 226

Canis, 85-86, arteries of forearm, 159,
172

familiaris, arteries of forearm, 154-
158

nubilis, arteries of forearm, 158

occidentalis, arteries of forearm, 158
Capri cornis milne-edwardsi, 120

montinus, 120
caraccioli, Vampyrodes, 377
catenate, Leopardus, 344
caudatus, Soriculus, 67-71
caudifer, Lonchoglossa, 375
caudifera, Lonchoglossa, 375
centralis, Centronycteris, 372
Centronycteris centralis, 372
cephalophus, Elaphodus, 118
chaus, Felis, arteries of forearm, 212
chibigouazou, Leopardus, 322, 333
Chimarrogale, 77

himalayica, 75-76

styani, 76
chinensis, Miniopterus, 82

Tupaia, 61
Chiroderma isthmicum, 378-379

jesupi, 378-379

salvini, 378-379
Chiropodomys, 110-111

fulvus, 111
Chodsigoa, 71

furva, 71-72

parca, 71-72

smithii, 71-72

circumdatus, Pipistrellus, 81-82
clarkei, Petaurista, 97
Clymenia similis, 301
coffini, Trachops, 374
columbianus, Odocoileus, 131
confucianus, Rattus, 106-107
Cormura brevirostris, 371-372
costaricensis, Leopardus, 339
crassicauda, Salpingotus, 242
crinifrons, Muntiacus, 118
Crocidura, 74

dracula, 73

fuliginosa, 74

indochinensis, 73-74

rapax, 73

vorax, 73-74

cruciger, Lagenorhynchus, 304-305
cutting!, Neptetracus, 58-59
cyclotis, Murina, 83
cylindricauda, Sorex, 65-66

Cynomops paranus, 386
planirostris, 386

Dasyurus, femoral trochanters, 282
Davis, D. Dwight. The arteries of the

forearm in carnivores, 137-227
dauurica, Ochptona, 115
Delphinus albigena, 297

breviceps, 302

fitzroyi, 301

obscurus, 294, 298-300

superciliosus, 303
deserti, Dipodomys, 237, 269
dichotomus, Blastocerus, 126, 129-130,

134

dickeyi, Microdipodops, 233, 269, 271
Diclidurus virgo, 372
Didelphis, femoral trochanters, 284
Dipodomys, 241-242

aquilonius, 249

deserti, 237, 269

merriami, 237, 269

micrpps, 249
domestica, Felis, arteries of forearm,

210-212

dominicensis, Natalus, 381
dracula, Crocidura, 73
Dremomys, 91-93

bhotia, 91-92

garonum, 91

howelli, 92

imus, 92
dubius, Hippocamelus, 126

Echinosorex, arteries of forearm, 150-
154

albus, 150

edwardsi, Rattus, 108
Elaphodus cephalophus, 118

michianus, 118
Eothenomys, 63, 64, 98

cachinus, 98

libonotus, 99-100
Eptesicus hispaniolae, 383

melanppterus, 383-384
erythrotis, Micromys, 103-104
Euarctos americanus, arteries of fore-
arm, 178-181

thibetanus, 85
Euphysetes grayii, 18, 31-33

macleayii, 17-18

pottsii, 18, 31
europs, Tadarida, 387
extremus, Myotis, 383

familiaris, Canis, arteries of forearm,

154-158
Felidae, arteries of forearm, 144-145,

210-218, 224-225, 226
Felinae, arteries of forearm, 224-225,

226
Felis bengalensis, 89

chaus, arteries of forearm, 212

INDEX

391

Felis domestica, arteries of forearm,
210-212

tigris, 89

femorosacca, Tadarida, 386-387
fitzroyi, Delphinus, 301

Lagenorhynchus, 298, 302-303
flavus, Potos, arteries of forearm, 168-

171

floweri, Kogia, 19
formosus, Perognathus, 237
forresti, Ochotona, 113-114
fulgens, Ailurus, arteries of forearm,

171-174

fuliginosa, Crocidura, 74
fuliginosus, Miniopterus, 82-83
fulva, Vernaya, 110, 112-113

Vulpes, arteries of forearm, 159-161
fulvescens, Neotetracus, 59

Rattus, 105-107
fumosus, Vampyrops, 377
Furipterus horrens, 381
furva, Chodsigoa, 71-72
fusicaudatus, Scaptonyx, 63

Gallus, femoral trochanters, 279, 281,

285-290
garonum, Dremomys, 91

Rattus, 108

Gennetta, arteries of forearm, 202-203
gibbsii, Neurotrichus, 63
gigas, Rattus, 108
glaucula, Leopardus, 361, 366-369
Glossophaga longirostris, 374
Goldman, Edward A. A Pleistocene

otter from Iowa, 229-231
gomphus, Sprex, 65-66
goodei, Kogia, 20
grayii, Euphysetes, 18, 31, 32, 33
griffithii, Leopardus, 343, 346, 350
griseiventer, Molossops, 385-386
griseus, Leopardus, 319, 341, 344, 346-

352
gymnotis, Odocoileus, 127

haitiensis, Phyllops, 379
Hall, E. Raymond. Revision of the
rodent genus Microdipodops, 233-
277

hamiltoni, Leopardus, 322
hamptoni, Mustela, 87
hermaphroditis, Paradoxurus, arteries

of forearm, 198-201
Herpestes, arteries of forearm, 144, 224
ichneumon, arteries of forearm, 203-

206
Herpestidae, arteries of forearm, 203-

206, 224, 226

himalayica, Chimarrogale, 75-76
hindei, Aethomys, 313-314
Hippocamelus, 126-132, 134
antisensis, 129-130, 133-134
bisulcus, 126-127, 129-130, 132-133
dubius, 126

Hipposideros, 80

armiger, 79

grandis, 79-80

larvatus, 79

leptophylla, 80
hispaniolae, Eptesicus, 383
Histiotus laephotis, 384

macrotus, 384-385

montanus, 384

velatus, 384
hoolock, Hylobates, 84
horrens, Furipterus, 381
Howell, A. Brazier. The femoral tro-
chanters, 279-291
howelli, Dremomys, 92
Hyaena, arteries of forearm, 144, 217

striata, arteries of forearm, 206-210
Hyaenidae, arteries of forearm, 145,

206-210, 222, 224, 226
Hylobates hoolock, 84
Hylomyscus weileri, 317
Hystrix subcristata, 113

ichneumon, Herpestes, arteries of fore-
arm, 203-206

Iguana, femoral trochanters, 279, 281,
284-290

imarius, Callosciurus, 90

imus, Dremomys, 92

indochinensis, Crocidura, 73-74

intrudens, Paguma, 88

iowa, Lutra, 229-231

irene, Soriculus, 67

isthmicum, Chiroderma, 378-379

jesupi, Chiroderma, 378-379
jubata, Acinonyx, arteries of forearm,
217-218

kaleensis, Belomys, 96
kathiah, Mustela, 86
Kellogg, Remington. On the identity
of the porpoise Sagmatias amblo-
don, 293-311

Kogia, 19, 22-24, 31-33; breeding and
young, 25-26; exterior and skeleton,
26-33; food, 33; measurements, 25;
occurrence in Atlantic Ocean, 19-
24, in Indian and Pacific oceans,
17-18; parasites, 33
breviceps, 17-18
floweri, 19
goodei, 20

laephotis, Histiotus, 384
Lagenorhynchus, 298

australis, 296-298, 303

breviceps, 298, 303

cruciger, 304-305

fitzroyi, 298, 302-303

obliquidens, 298, 304-305

obscurus, 298, 300-303, 305

posidonia, 298, 303

superciliosus, 303

392

OSGOOD TESTIMONIAL VOLUME

lataxina, Lutra, 231

laticaudata, Tadarida, 386-387

latouchei, Rattus, 109

Lawrence, Barbara. Incisor tips of

young rodents, 303-317
Leggada meator, 104
lemhi, Ochotona, 115
leo, Panthera, arteries of forearm, 214-

217
Leopardus, 319

aequatorialis, 319, 326, 333, 335, 338-
339 341

albescens, 344, 346, 350

boliviae, 355, 357

brasiliensis, 322, 324, 326-331, 333-
334, 336, 339, 341

buffoni, 343

canescens, 343

catenata, 344

chibigouazou, 322, 333

costaricensis, 339

glaucula, 361, 366-369

griffithii, 343, 346, 350

griseus, 319, 341, 344, 346-352

hamiltoni, 322

limitis, 344, 350-352

ludovid, 319, 360-365

macroura, 353

maracaya, 322

maripensis, 328-330, 332-334

mearnsi, 320, 335, 339, 341, 343-344

melanura, 319, 328-330, 332-333

melanurus, 326, 328, 330, 332-334,
339, 345

mexicana, 343

nelsoni, 343-346, 349

nicaraguae, 321, 360-362, 365

oaxacensis, 367-369

ocelot, 343

pardalis, 319-321, 342, 344-348, 350-
351

pardictis, 357-358

pictus, 319, 322, 324, 326

pirrensis, 319, 356, 360-362, 365

pusaeus, 320, 322, 338

salvinia, 358, 362, 366-367

sanctae-martae, 321-322

smithii, 322

sonoriensis, 346, 349, 350

steinbachi, 326-327, 333

tigrinoides, 355, 357

tumatumari, 328, 330, 332-334

vigens, 356-360

wiedii, 319-321, 352-353, 355-360,
362-363

yucatanica, 368
lepida, Neotoma, 315-316
Leptonycteris nivalis, 376
leucops, Soriculus, 66-68, 70, 72
leucotis, Microdipodops, 233, 252, 258,

265-266

leucurus, Parascaptor, 64
libonotus, Eothenomys, 99

limitis, Leopardus, 344, 350-352
Lionycteris spurrelli, 376
Lonchoglossa aequatoris, 375

caudifer, 375

caudifera, 375
Lonchophylla mordax, 374-375

robusta, 375

longirostris, Glossophaga, 374
lotor, Procyon, arteries of forearm, 165-

168

luddus, Microdipodops, 233, 269, 271
ludovid, Leopardus, 319, 360-365
Lutra, 88

annectens, 229-231

canadensis, 231

iowa, 229-231

lataxina, 231

parvicuspis, 231

rhoadsii, 231

Lynx lynx, arteries of forearm, 213
lynx, Lynx, arteries of forearm, 213

Macaca mulatta, 83

macclellandi, Tamiops, 93

macleayii, Euphysetes, 17-18

macrotis, Histiotus, 384-385
Neotoma, 315-316
Tadarida, 386-387

macroura, Leopardus, 353

macrurus, Soriculus, 66-67

major, Natalus, 380

maniculatus, Peromyscus, 255

maracaya, Leopardus, 322

maripensis, Leopardus, 328-330, 332-334

mearnsi, Leopardus, 320, 335, 339, 341,
343-344

meator, Leggada, 104

medius, Microdipodops, 246, 253, 256

megacephalus, Microdipodops, 233,235-
242, 244-246, 252-254, 257-259,
262, 264-267, 269

melanoleuca, Ailuropoda, arteries of
forearm, 174-178

melanopterus, Eptesicus, 383-384

melanura, Leopardus, 319, 328-330,
332—333

melanurus, Leopardus, 326, 328, 330,
332-334, 339, 345

Mephitis mesomelas, arteries of fore-
arm, 194-196

merriami, Dipodomys, 237, 269

mesomelas, Mephitis, arteries of fore-
arm, 194-196

mexicana, Leopardus, 343

michianus, Elaphodus, 118

Microdipodops, 233-235, 238-239, 241-
242, 246, 249, 253, 255, 257, 264, 272
albiventer, 233, 252, 258, 260, 263-265
ambiguus, 246, 248, 250, 252-257
ammophilus, 272-274
californicus, 233, 246, 248-251, 253-

255
dickeyi, 233, 269, 271

INDEX

393

Microdipodops leucotis, 233, 252, 258,
265-266

lucidus, 233, 269, 271

medius, 246, 253, 256

megacephalus, 233, 235-242, 244-
246, 252-254, 257-259, 262, 264-
267, 269

nasutus, 246, 250-252

nexus, 246, 253-254, 257-259

oregonus, 233, 246, 248, 250, 253-254,
256

pallidus, 233, 235-242, 244-246, 252,
254, 256-257, 262, 266-267, 269,
271-274

paululus, 233, 252, 258-260, 264-266

polionotus, 233, 246, 251-252

purus, 266, 272-274

ruficollaris, 233, 262, 269-274

sabulonis, 233, 235, 244, 258-260,

262, 264, 272
Micromys, 103, 112

erythrotis, 103-104

pygmaeus, 103

Micronycteris schmidtorum, 372
microps, Dipodomys, 249
Microtus oregoni, 100
middendorffi, Ursus, arteries of forearm,

181-183

milne-edwardsi, Capricornis, 120
Mimon bennettii, 373-374
Miniopterus chinensis, 82

fuliginosus, 82-83

parvipes, 82-83

schreibersii, 82-83
Molossops aequatorianus, 386

griseiventer, 385-386

sylvia, 386

temminckii, 385-386
montanus, Histiotus, 384
montinus, Capricornis, 120
mordax, Lonchophylla, 374-375
moupinensis, Mustela, 87
mulatta, Macaca, 83
Muntiacus, 118

crinifrons, 118

vaginalis, 119
Murina cyclotis, 83
Mustela hamptoni, 87

kathiah, 86 <

moupinensis, 87

noveboracensis, arteries of forearm,
187-188

putorius, arteries of forearm, 183-187

subhemachalana, 87
Mustelidae, arteries of forearm, 142,

144, 145, 183-196, 222-223, 226
Musteloidea, arteries of forearm, 218, 223
Myotis extremus, 383

nicholsoni, 382-383

nigricans, 382

Nandinia binotata, arteries of forearm,
201-202

narica, Nasua, arteries of forearm, 164-

165
Nasua, arteries of forearm, 223

narica, arteries of forearm, 164-165
nasutus, Microdipodops, 246, 250-252
Natalus dominicensis, 381

major, 380

stramineus, 380-381
Nectogale, 65, 77-78

elegans, 77

nelsoni, Leopardus, 343-346, 349
Neotetracus, 60, 103

cuttingi, 58, 59

fulvescens, 59

sinensis, 59
Neotoma, 315-317

annectens, 315-317

lepida, 315-316

macro tis, 315-316
Neurotrichus gibbsii, 63
nexus, Microdipodops, 246, 253-254,

257-259

nicaraguae, Leopardus, 321, 360-362, 365
nicholsoni, Myotis, 382-383
nigrescens, Soriculus, 70
nigricans, Myotis, 382
ninus, Rattus, 106-108
nitidus, Rattus, 105
nivalis, Leptonycteris, 376
noveboracensis, Mustela, arteries of

forearm, 187-188

nubilis, Canis, arteries of forearm, 158
Nyctereutes procyonoides, arteries of
forearm, 158-159

oaxacensis, Leopardus, 367-369
obliquidens, Lagenorhynchus, 298, 304-

305
obscurus, Delphinus, 294, 298-300

Lagenorhynchus, 298, 300-303, 305

Prodelphinus, 301
obsoletus, Rattus, 105
occidentalis, Canis, arteries of forearm,

158

ocelot, Leopardus, 343
Ochotona, 115-117

dauurica, 115

forresti, 113-114

lemhi, 115

osgoodi, 113-115

pallasii, 115

roylei, 114

thibetana, 114-115
Odocoileus, 125-132, 134

campestris, 127

columbianus, 131

gymnotis, 127

virginianus, 127, 134

spelaeus, 126
Oncoides, 319
oregoni, Microtus, 100
oregonus, Microdipodops, 233, 246, 248,
250, 253-254, 256

394

OSGOOD TESTIMONIAL VOLUME

osgoodi, Ochotona, 113-115
Ozotoceros, 125-134

bezoarticus, 126, 134

campestris, 126

Paguma intrudens, 88
pahari, Soriculus, 70
pallasii, Ochotona, 115
pallidus, Microdipodops, 233, 235-242,
244-246, 252, 254, 256-257, 262,
266-267, 269, 271-274
Panthera leo, arteries of forearm, 214-

217
Pantherinae, arteries of forearm, 224-

225, 226
Paradoxurus hermaphroditus, arteries

of forearm, 198-201
paranus, Cynomops, 386
Parascaptor leucurus, 64
parca, Chodsigoa, 71-72
Pardalis, 319
pardalis, Leopardus, 319-321, 342, 344-

348, 350-351

pardicolor, Prionodon, 88
pardicotor, Prionodon, 88
pardictis, Leopardus, 357-358
parvicuspis, Lutra, 231
parvipes, Miniopterus, 82-83
paululus, Microdipodops, 233, 252, 258-

260, 264-266
pearsoni, Belomys, 95-96
Perognathus, 241-242

formosus, 237

Peromyscus maniculatus, 255
Petaurista, 97

clarkei, 97

yunanensis, 97
Phocaena australis, 293-296, 298

posidonia, 302-303
Phyllops haitiensis, 379
Phyllorhina stoliczkana, 80

trifida, 80
Physeter, 28, 32

breviceps, 17

simus, 18

pictus, Leopardus, 319, 322, 324, 326
Pipistrellus affinis, 81

circumdatus, 81-82

raptor, 81

tramatus, 82
pirrensis, Leopardus, 319, 356, 360-362,

365

planirostris, Cynomops, 386
Pocock, R. I. The races of the ocelot

and the margay, 319-369
polionotus, Microdipodops, 233, 246,

251, 252
posidonia, Lagenorhynchus, 298, 303

Phocaena, 302-303
Potos, arteries of forearm, 223, 226

flayus, arteries of forearm, 168-171
pottsii, Euphysetes, 18, 31
Prionodon pardicolor, 88

Prionodon pardicotor, 88

Procyon, arteries of forearm, 143, 147,

222-223, 226

lotor, arteries of forearm, 165-168
Procyonidae, arteries of forearm, 161-

171, 223, 226
procyonoides, Nyctereutes, arteries of

forearm, 158-159
Prodelphimis, 299

obscurus, 301
Pteromys, 95, 97

orinus, 95
Pteromyscus, 96
pumila, Brachyphylla, 377
purus, Microdipodops, 266, 272-274
pusaeus, Leopardus, 320, 322, 338
putorius, Mustela, arteries of forearm,

183-187
pygmaeus, Micromys, 103

quinquestriatus, Callosciurus, 89-90

radulus, Soriculus, 70
rapax, Crocidura, 73
raptor, Pipistrellus, 81
Rattus, 105, 107-108

andersoni, 106-107

bowersii, 108-109

confucianus, 106-107

edwardsi, 108

fulvescens, 105-107

garonum, 108

gigas, 108

latouchei, 109

ninus, 106-108

nitidus, 105

obsoletus, 105

sladeni, 104

Rhinolophus sinicus, 79
Rhizomys wardi, 100
rhoadsii, Lutra, 231
Rhynchonax, 63

andersoni, 62-63

atronates, 62-63
robusta, Lonchophylla, 375
roylei, Ochotona, 114
ruficollaris, Microdipodops, 233, 262,

269-274
Rusa unicolor, 119

sabulonis, Microdipodops, 233, 235, 244,

258-260, 262, 264, 272
sacratus, Soriculus, 69-70
Sagmatias amblodon, 293-296, 304-305
Salpingptus, 242

crassicauda, 242
salvini, Chiroderma, 378-379
salvinia, Leopardus, 358, 362, 366-367
Sanborn, Colin C. Descriptions and

records of neotropical bats, 371-387
sanctae-martae, Leopardus, 321-322
Scaptonyx affinis, 63-64
fusicaudatus, 63

INDEX

395

schmidtorum, Micronycteris, 372
schnablii, Amorphochilus, 381-382
schreibersii, Miniopterus, 82-83
scrofa, Sus, 117
similis, Clymenia, 301

Tadarida, 386-387
simus, Physeter, 18
sinensis, Neotetracus, 59
sinicus, Rhinolophus, 79
sladeni, Rattus, 104
smithii, Chodsigoa, 71-72

Leopardus, 322

sonoriensis, Leopardus, 346, 349-350
Sorex cylindricauda, 65-66

gomphus, 65-66
Soriculus, 68, 70-71

baileyi, 68

caudatus, 67-71

Irene, 67

leucops, 66-68, 70, 72

macrurus, 66-67

nigrescens, 70

pahari, 70

radulus, 70

sacratus, 69-70

umbrinus, 68-70
spectrum, Vampyrus, 374
spencei, Tamiops, 94
Sphaeronycteris toxophyllum, 380
spurrelli, Lionycteris, 376
squamipes, Anourosorex, 70, 74
steinbachi, Leopardus, 326-327, 333
Stenella, 299
stoliczkana, Asellia, 80

Phyllorhina, 80
stramineus, Natalus, 380-381
striata, Hyaena, arteries of forearm,

201-210
styani, Ailurus, 85

Chimarrogale, 76
subcristata, Hystrix, 113
subhemachalana, Mustela, 87
superciliosus, Delphinus, 303

Lagenorhynchus, 303
Sus scrofa, 117
swinhoei, Tamiops, 94
sylvia, Molossops, 386

Tadarida aurispinosa, 386-387

europs, 387

femorosacca, 386-387

laticaudata, 386-387

macrotis, 386-387

similis, 386-387

yucatanica, 387
Tamiops, 93-95

barbei, 93

macclellandi, 93

spencei, 94

swinhoei, 94
taxicolor, Budorcas, 120
Taxidea, arteries of forearm. 144, 146,
217

Taxidea taxus, arteries of forearm, 192-

194
taxus, Taxidea, arteries of forearm, 192-

194
Tayra, arteries of forearm, 223

barbara, arteries of forearm, 188-192
temminckii, Molossops, 385-386
thibetanus, Euarctos, 85

Ochotona, 114-115
Thyroptera albigula, 382
tigrinoides, Leopardus, 355, 357
tigris, Felis, 89
Tonatia amblyotis, 372-373

venezuelae, 373

toxophyllus, Sphaeronycteris, 380
Trachops coffini, 374
tramatus, Pipistrellus, 82
Triaenops, 80-81

persicus, 80-81

wheeleri, 80-81
trichotis, Belomys, 96
trifida, Phyllorhina, 80
tumatumari, Leopardus, 328, 330, 332-

334
Tupaia, 87

chinensis, 61

umbrinus, Soriculus, 68-70

uni color, Rusa, 119

Ursidae, arteries of forearm, 144-145,

178-183, 223, 226
Ursus middendorffi, arteries of forearm,

181-183

vaginalis, Muntiacus, 119
Vampyrodes caraccioli, 377
Vampyrops fumosus, 377
Vampyrus spectrum, 374
Vandeleuria, 110-112

dumeticola, 111

scandens, 111
velatus, Histiotus, 384
venezuelae, Tonatia, 373
Vernaya, 110-111

fulva, 110, 112-113
vigens, Leopardus, 356-360
villosus, Belomys, 96
virginianus, Odocoileus, 127, 134
virgo, Diclidurus, 372
vittatus, Callosciurus, 90
Viverridae, arteries of forearm, 196-203,

223, 226

vorax, Crocidura, 73-74
Vulpes fulva, arteries of forearm, 159-
161

wardi, Blarinella, 72-73

Rhizomys, 100
weileri, Hylomyscus, 317
wiedii, Leopardus, 319-321, 352-353,
355-360, 362-363

yucatanica, Leopardus, 368

Tadarida, 387
yunanensis, Petaurista, 97

THE LJBKMY OF THE

DEC 301941

UNIVERSITY OF ILLINOIS

UNIVERSITY OF ILLINOIS-URBANA