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:n[ichigan geological and biological survey.

Publication 20.
Biological Series 4.

MISCELLANEOUS PAPERS

OX THE

ZOOLOGY OF MICHIGAN.

PREPARED UNDER THE DIRECTION OF

ALEXANDER G. RUTHVEX

CHIEF -VATURALIST

PUBLISHED AS A PART OF THE ANNUAL REPORT OF THE HOARD OF
GEOLOGICAL SURVEY FOR 1915

LANSING, MICHIGAN
WYNKOOP IIAI,LEXBECK CRAWFORD CO., STATE PRINTERS

1916

BOARD OF GEOLOGICAL AND BIOLOGICAL SURVEY, 1915.

EX OFFICIO :

The Governor of the State,
HON. WOODBRIDGE N. FERRIS.

The Superintendent of Public Instruction,
HON. FRED L. KEELER.

The President of the State Board of Education,
HON. THOMAS W. NADAL.

DIRECTOR,
R. C. ALLEN.

scientific advisors.

Geologists. — Dr. L. L. Hubbard, Houghton; Prof. W. H. Hobbs, Ann
Arbor; Prof. W. H. Sherzer, Ypsilanti.

Botanists. — Prof. E. A. Bessey, East Lansing; Prof. F. C. Newcombe,
Ann Arlior.

Zoologists. — Prof. W. B. BarroAvs, East Lansing; Prof. J. Reighard,
Ann Arbor; Dr. Bryant Walker, Detroit.

LETTERS OF TRANSMITTAL.

To the Honorahh the Board of Geological and Biological Survey of the
State of Michigan:

Gov. Woodbridge N. Ferris.
Hon. Fred L. Keeler.
Hon. Thomas W. Nadal.

Gentlemen: — I have the honor to transmit here^\ath some mis-
cellaneous papers on the zoology of Michigan, prepared under the
direction of Dr. Alexander G. Ruthven, Chief Naturalist, with the
recommendation that they be printed and bound as Publication 20,
Biological Series 4.

Very respectfully,

R. C. ALLEN,

Director.

Sir: — I present herewith for publication six papers on the zoology
of Michigan, by Thomas Hankinson, Roy J. Colbert, Arthur T. Evans,
Crystal Thompson, and Arthur W. Andrews. The investigations
upon which these papers are based are a part of or supplement the
biological work of the Survey, and the data which they contain material-
ly increases our knowledge of the fauna of the State.

Respectfully,

ALEXANDER G. RUTHVEN,
R. C. Allex, Director, Chief Naturalist.

Michigan Geological and Biological Survey.

CONTENTS.

Page

Observations on the Fishes of Houghton County, Michigan, by Thomas L. Hankinson 11

Local Distribution of Fish 13

Stonington Lalce 13

.South Twin Lake 14

Xorth Twin Lake 19

Kratt Lake 20

Bear Lake 20

Conclusion „ 21

List of Species 22

An Ecological Study of the Fish Fauna of the Douglas Lake Region, Michigan, with

Special Reference to the Mortality of the Species, by Roy J. Colbert .... 2.5

Dragonfiies ot the Douglas Lake Region, Michigan, by Arthur T. Evans 37

Topography of the Region .- 39

Taxonomy 41

Discussion and Summary 5.5

Bibliography .57

The Reptiles and Amphibians of Monroe County, Michigan, by Crystal Thompson. . 59

List of Species 62

Results of the Mershon Expedition to Charity Lslands, Lake Huron: Coleoptera, by

A. W. Andrews 65

Habitat Distribution of Coleoptera 67

List of Species 71

Results of the Shiras Expeditions to Whitefish Point, Michigan: Fishes, by T. L.

Hankinson 109

General Description of Whitefish Point Region 112

Topography 112

Vegetation ; 114

Invertebrates 116

Vertebrates other than Fish 118

Climatic Features 119

Methods and Acknowledgements 121

Fish Habitats 122

Lake Superior Shoal 1 23

Beach Ponds 1 24

Marsh Lakes and Streams 127

Shelldrake Lake 136

Shelldrake River 137

List of Species 139

Hypothetical List ol .Species ". 152

Summary and Conclusions 15R

BiDiiography 1 59

LIST OF ILLUSTRATIONS.

Plate f.
Plate ir.
Plate III.
Plate IV.

Plate V.
Plate vr.

Plate VII.
Plate VIII.

fiate TX.

Plate X.

Plate Xr.
Plate XII.

Plate XIII.

B.

Plate XIV.

A.

B.

Plate XV.

A.

B.

Plate XVI.

A.

B.

Plate XVII.

A.

Plate XVIII.
Plate XIX.

Page
General vievv of ea.st shore of South Twin Lake, looking south

from Station 1 32

South Twin Lake, looking northwest, showing broad shoal with

a scant rush growth and the zones of shore vegetation. ... 32

South Twin Lake, Station 3, looking northwest, showing the

region fished as far as the rushes extend 32

South Twin Lake, looking north, showing an unusually broad
beach but with many encroachments of the small shrub

zone 32

South Twin Lake, Station 13, looking north 32

South Twin Lake, Station 7, looking east. Floating Sparganium

leaves not shown on account of waves 32

South Twi.i Laice, Station 46, looking northwest 32

South Twin Lake, Station 40, looking west. Mouth of Misery

Creek 32

Figure A, adult ot Helaerina americana (Faoricius) 58

Figure B, adult of Ayrion aequabile (Say) 58

Figu-re C, nymph of Mncromii illinoiensis WaiSh 58

Figure D, aduit of Agrion maculalum Beauvais 58

Figure E, adult ot Anax Junius (Drury) 58

Figure F, nymph of Hagerius brevistylus Selys 58

Figure A, labium of a nymph of Macromia illinoiensis Walsh. . 58

Figure B, figure of Hagenius hreiistylus Selys 58

Figure C, figure of the labium of Agrion aequabile (Say) 58

Figure D, side view of the abdomen of Hagenius breiistylus Selys 58

Figures E and F, fore and hind wings of Ana.r Junius (Drury) . . 58

Map of the Whitefish Poiat region, Chippewa Cou.ity, Michigan 160

Lake Superior beach at Vermilion. Upper and lower beach
shown; the latter with Ammophila arenaria zone, shown

chiefly in the foreground 160

Lake Superior beach with sand ridge crossed by Cranberry

Creek, just east of Vermilion 160

Lake Superior beach, looking east toward Vermilion during a

storm. Showing formation of temporary pools hy waves. . 160

Small portion of Lake Superior b'each showing pebble zone and

small temporary pond 160

Lake Superior beach with dunes of the first sand ridge 160

Cranberry Creek (Station 30), looking north and down stream,

showing a part of the beach pool formed by it (Station 31) . . 160

Pond on Lake Superior beach (Station 31) formed by Cranberry

Creek 160

Beaver dam and pond on MaSon's Creek (Station 171) 160

Beach pond in the course of Mason's Creek 160

Marsh bordering Mason's Creek (Station 172) on Lake Superior

beach 160

Looking southwest from high sand dune near Station 101, show-
ing marsh and sand ridges with upland in distant back-
ground 160

Marsh Lakes, looking southeast Irom the high dune near Station

101 160

Channel east from Beaver Lake (Station 90) 160

Channel of Vermilion Lake (.Station 25) 160

Marsh bay of Beaver Lake (Station 55), looking southwest (lake-
ward) 160

The same, looking south 160

10

LI8T OF ILLUSTRATIONS.

Plate XX. A. Marsh bay of Beaver Lake (.Station 52), looking northeast. . . .

B. Northwest sliore of Beaver Lake (Station 59), looking northeast

Plate XXI. A. Spruce Lake, looking northwest (Station 71)

B. Station 84, Spruce Lake, looking east. Floating mats of stone-
wort on the surface

Plate XXIL A. Station 85, Spruce Lake, looking south across the east end of the

lake

B. Marshy north shore of Vermilion Lake

Plate XXIII. A. Small lake and wooded sand ridge about a half mile east ox Ver-
milion (Station 106), lOOKing northeast

B. AVest end ot the small lake shown in A. St a I ion 101, lookmg

east

Plate XXIV. A. Mitten Lake, Station 116, looking east

B. Vermilion Creek at Vermilion. Great Blue Heron feeding

Plate XXV. A. Shelldrake Lake, lookmg southwest

B. Northwest shore oi Shelldrake Lake, looking northeast (Station

142)

Plate XXVI. A. Shelldrake Kiver and portion of wooded swamp, looking down-
stream from a high, north stream bank

B. Portion of Shelldrake River just south of Vermilion

Plate XXVII. A. Shelldrake River just sou.,h of Shelldrake Lake, looking south. .

B. Long-nosed Dace, Rhinichthys cataractae

Plate XXVIII. A. Manitoulia Tullibee, Leucichthys tvllibee (?) caught at Station

2, Lake Superior

B. Young Whitefish, Coregonus clupeaformis (possibly alhus), length
of largest about three inches, caught at Station 1, on Lake
Superior shoal

FIGURES.

Figure 1. Outline map of South Tv.in Lake, Houghtoa county, Michigan

Figure 2. Sketch map of Dougia? Lake, Michigan

Figure 3. Sketch map ot the Marsh Lake region near Vermilion

Page
160
160
160

160

160
160

160

160
160
160
160

160

160
160
160
160

160

160

15

.31

113

OBSERVATIONS ON THE FISHES OF HOUGHTON COUNTY,

:\IICHIGAN.

THOMAS L. HANKINSON,
STATE NORMAL SCHOOL, CHARLESTON, ILLINOIS.

OBSERVATIONS ON THE FISHES OF HOUGHTON COUNTY,

MICHIGAN.

THOMAS L. HANKINSON.

During the latter half of August, 1905, the writer made a study of
the fish in a number of small lakes in Houghton County, Michigan, for
the Michigan Geological and Biological Survey. Most of the work
was done on lakes lying along the Copper Range Railroad between
Stonington and Winona, two small stations nearh^ ten miles apart and
in general between seventeen and one-half and twenty-seven and one-
half miles southwest of Hough^ton by rail. Only two lakes at any
distance from this ten-mile stretch of railroad were examined — Kratt
Lake, about two miles southeast of Winona, and Bear Lake, about
seven and one-half miles north of Houghton in the sand dune region
of Lake Superior.

As it was impossible in the time devoted to the work to make a
detailed study of all of the fish environments in each lake, attention
was principally confined to one kind of habitat — the shallow water,
three feet or less in depth, about the shores and islands. Each habitat
was seined with a six foot "common sense" seine, and in addition to
observations on abundance, notes were made on the ecological dis-
tribution. A complete series of the fish taken in each place has been
deposited in the Museum of Zoology, University of Michigan.

The writer is indebted to A. C. Lane, former State Geologist, for
helpful suggestions in the course of the work, to A. G. Ruthven for
assistance in the preparation of this paper for publication, and to the
following persons for aid in identifying material: C. A. Davis, seed
plants: A. G. Ruthven, reptiles and amphibians; S. E. Meek, three
species of minnows; Edwn Linton and H. B. Ward, fish parasites; F.
"S. Collins, algae; J. P. Moore, leeches; N. A. Harvey, sponges.

LOCAIi DISTRIBUTION OF FISH.

Stonington Lakes. Three small lakes close to the station of Stoning-
ton on the Copper Range Railroad are called the Stonington Lakes in
this paper. Each of these lakes is surrounded by thick forest except
where they come close to tlie railroad eml)ankment. They are in
general oblong in shape, and the largest is perhaps a quarter of a mile

14 PAPERS ON ZOOLOGY OF MICHIGAN.

in length. As in all of the lakes of this densely forested region south
of Houghton, the water has an umber color, and the bottom material
of the shoals is similar to that found in the shallow water of the other
lakes — a firm sand tinged with the color of the water.

The lakes were examined and a number of collections made on August
25. No detailed study of the vegetation was attempted, but the fol-
lowing plants of special interest were noted:

Marchantia polymorpha L. — Growing in abundance on beaches.

Drosera rohindifolia L. — Abundant on the shore and extending out
on parti}' floating logs.

Equisetum fiuviatale L.— Growing in patches, and in places forming
distinct zones along the water's edge.

Ericaulon articulatwn (Huds). — Forming patches on the bottom in
shallow water.

Myriophyllwn Farwellii Morong. — On submerged portions of logs.

Potomogeton sp.? — In patches in deeper water.

Brasenia Shreberi Gmel. — In patches.

Gloiotrichia Pisum (Ag.) Thuret. — An alga forming gelatinous
colonies in shallow water.

Conspicuous aquatic invertebrates noted were:

Spongilla lacustris (Linn.). — On brush and other submerged objects
near shore.

Macrohdella decora (Say). — Apparently the common leech of the
northern lakes about Houghton.

Caddice worms. — Common on the bottom of shoals. Their cases
were made of sticks.

Two amphibians occurred in some numbers around the shores, Rana
seplentrionalis Baird and Rana pipiens Schreber.

The fish observed were :

Chrosomus erythrogaster. — Abundant in schools in both lakes.

Pimephales promelas. — Abundant in large schools in both lakes.

Couesius plumbeus. — One taken in the south lake.

Catostomus commersonii. — One caught in the south lake.

Pygosteus pungitus. — Eight taken in the middle lake.

Eucalia inconstans. — Two found in the middle lake.

South Twin Lake. This lake is located about three miles northeast
of Winona, on the Copper Range Railroad. It is somewhat over a
mile long and a half mile wide, and receives several small streams.
The outlet (Plate VIII) is Misery Creek, which flows to the west into
Lake Superiot (Fig. 1). The lake is completely surrounded by the forest
except for a small clearing about the single building on its shore (Plq-te
II). A well-marked beach, continuous with a broad shoal of compact

FISHES OF HOUGHTON COUNTY

15

Outline Kap of
South Twin Lake

Sec. 32, T 53 K.R. 36 W.

Scale 1 in. 800 ft.

Reduced frora C.R.R.R. JJap .

Nar.ber3 locate stations where
observations »ere -ace.

Figure 1.

sand or gravel, is present in most places. The water and bottom
are tinged with umber.

South T's\'in lake received the most attention cf the two. Stations
were located in typical habitats and rather detailed studies were
made at these places. Here again, the work was principally con-
fined to the shallow water. Upon the beaches were sedges, rushes,
and many other plants, forming in most places a thin growth of veg-
etation. A distinct zone of low shrubs, chiefly Myrica Gale (L.) and
Chamaedaphne calycidata (L.) Moench, almost completely surrounds
the lake just outside the beach region. Outside this is a zone of high
bushes, and then comes the timber region, which is mainly composed of
hardwoods but also includes many conifers, conspicuous among which
are some large white pines.

The plants noted on the shoal were:

Bulrushes. — Formed a scant growth over many shoals. Thick
patches were unusual.

16 PAPERS OX ZOOLOGY OF MICHIGAN.

Sparganium sp? — Often formed a thick growth in shallow water.

Ericaulon articulatum (Huds). — A rather conspicuous growth in
places where there were but a few inches of water.

Lobelia Dortmanna L. — Found growing with the Ericaulon.

Potomogeton. — Several species grew on the shoal, principally on the
outer part.

Brasenia purpurea Casp.-^Patches were often present on deeper
shoals.

Habitat Distribution of Fish in South Twin Lake.

Station 1. This is the shoal and adjacent shore at the extreme
north end of the lake. The shallow water area is comparatively ex-
tensive with a bottom of hard sand. Over this is a scant growth of
rushes, which form the only conspicuous vegetation. The shore zones
of plants are distinct, but the low bush or heath zone practically covers
the beach (Plate II).

Fishing Avith the hand seine was done on the morning of August 28
in water that was mostly between one and two feet in depth. The
water temperature was 70° F. Fish were few and were not moving on
the shoal: those taken were found resting beneath objects such as
overhanging bushes, an old row boat and pieces of water-logged bark.
The following species were collected:

Rhinichthys atronasus limatus. — Several taken.

Semotilus atromaculatus. — Several small specimens taken.

Microptents salmoides. — One small specimen 4.2 cm. long Avas caught.

Stalioji 3. This is a shoal which differs from that of Station 1 in
being much narrower, a depth of three feet being reached about thirty
or forty feet out from the shore. The shore features are similar to
those of Station 1, and this is also true of the bottom w^hich is composed
of a similar hard, reddish sand with little vegetation (a few rushes and
other plants). Manj^ logs (Plate III) wTre floating near the shore.
Collecting was done Avith the six-foot minnow seine in w'ater three feet
or more in depth and there was no difficulty in getting a representative
collection of fishes for they showed little fear of the net.

The invertebrates found Avere:

Macrohdella decora. — This large leech Avas common.

Dragon-fly nymphs and eggs of Tetragoneuria sp. — The latter were
in long strings of jelly-like substance.

Caddice AA'orms.

The fish taken were :

Semotilus atromaculatus. — Small specimens found in Avater less than a
foot deep.

FISHES OF HOUGHTON COUNTY. 17

Chrosomus erythrogaster. — Many in shallow water near shore. A
large, compact school was seen in three feet of water.

Rhinichthy.s atronasus lunaius. — Chiefly in the shallow water near
shore.

Couesius plumheus. — Three small specimens.

Leuciscus neogeus. — One taken.

Catostomus catostomus. — About a dozen small ones were taken and
one comparatively large specimen, nearly a foot long, was found sucking
on the submerged part of a floating log en the wood freshly bared by the
stripping off of a portion of the bark.

Eucalia inconstans. — One taken.

Micropterus salmoides. — Small specimens under four inches in length
were common in a few inches of water near shore.

Perca flavescens. — Small specimens under three inches in length were
common. They were confined to the deeper part of the shoal in two or
three feet of water and were found in compact schools.

The first three species of fish mentioned in this list were closely
associated and tended to school together.

Station 16. A stretch of shore different from that of any other part
of the lake is found at this station (Plate IV). The beach is unusually
broad with low bushes scattered over it, and the shoal is also peculiar in
that the bottom is covered with large pebbles over which no fish were
found. The only place where fish were seen was in a shallow beach
pool which was connected wdth the lake by a short, narrow channel.
This little bay is scarcely more than a square yard in area and only an
inch or so in depth. Many small fish were observed, and as the writer
approached, they began to hasten through the little channel to the lake.
A collection of these fish contained representatives of Semotilus at-
romaculatus, Rhinichthys atronasus lunatus, Couesius plumheus, Eucalia
inconstans and Lepomis cyanellus. All were small individuals of their
species, and the Semotilus was most abundant, only one of each of
the last four species being taken.

Station 13. As shown on the map, this station is at the end of a
little bay. There is a diversity of conditions, but the whole region
is a shoal with more aquatic vegetation than any of the stations yet
described. In places the water reaches a depth of about four feet.
The bottom is mostly hard and sandy, but close to the south end of the
bay there is a thin layer of humus over the sand. Plate V shows a
part of the eastern portion of the bay.

Rushes were abundant, and there was a good sized patcli of Brasenia
Shreberi.

The following invertebrates were found in this liabitat:

Spongilla lacustris (Linn.) and Spongilla fragili.s, Leidy. — These two
3

18 PAPERS ON ZOOLOGY OF MICHIGAN.

formed a conspicuous green growth on the submerged branches of a
tree that had fallen into the water. This tree can be seen in Plate V.

MacrohdeUa decora. — A few were seen and collected.

Two species of fish were found, Catostomus catostomus (one small
specimen) and Micropterus sdlmoides (small specimens, less than two
inches long), the latter being common.

Station 7. Sparganium (Plate VI), growing in patches in one to two
feet of water, covered much of the bottom of the shoal called Station
7. Except for many long slender leaves floating on the surface, the
plants were submerged at the time studied. Beyond this growth, to-
ward deep water, was a zone of pond weeds {Potomogeto7i NuttaUii
and perhaps other species of the genus), followed by a zone of
water lilies, which occupied the deepest part of the shoal and extended
out to the beginning of deep water. A small, sandy delta at the mouth
of a little creek entering the lake at this point broke the Sparganium
zone.

The following fish were caught on the shoal, but a representative
collection could not be made on account of the denseness of the vegeta-
tion: Semotilus atromaculatus, Rkinichthys atronasus lunatus, Lepomis
cyanellus, Micropterus salmoides. Only a few small specimens of each of
the listed species were taken. Ten of the small Semotilus caught were
infested %vith a protozoan parasite, Myxobolus. Many small fishes were
seen.

, Station, 46- The shoal with the greatest amount of plant life of any
visited is on the west side of the lake and just north of a small point of
land. This is called Station 46. No attempt will be made to describe
the complex association of plants found in this habitat, but an idea of
its general character may be had from Plate VII. The water is mostly
three, or four feet deep and the sand is covered, by several inches of
humus. ,

As at Station 7, the abundance of vegetation did not permit careful
seining. Many fish, including some large Semotilus atromaculatus 100-
.120 mm. long, were seen, showing that this was ^ favorite fish habitat,
and even from the small amount of data obtained it was evidently the
type most favored by shoal fish. A noteworthy feature was the great
abimdance of red-beUied leeches, MacrohdeUa (iecora, , which, while
found ,at other stations in some numbers, were nowhere so abundant
as on this shoal.

The following fish were found at this station:

Semotilus atromaculatus. — Many seen, none taken.

Leuciscus neogeus. — Three small specimens collected.

Micropterus salmoides. — Many small bass were seen but none were

FISHES OF HOUGHTON COUNTY. 19

captured. The habitat undoubtedly represented an important feeding
ground for them.

Perca flavescens. — One small specimen taken.

Deep Water Region. — As previously stated, the deep water region,
by which is meant all of that extensive portion of the lake sur-
rounded by the relatively narrow shoals, was scarcely examined in
any of the lakes, but in this lake, a little hook and line fishing, done
just off the shoal called Station 1, yielded seven Perca flavescens (130-
160 mm. long) ; and just off the lily zone of Station 7, in deep water,
two rather large Lepoynis cyanellus (150-180 mm. long) and a Micropter-
ns salmoides (265 mm. long) were taken.

Stream at Station 7. The stream already referred to as entering
the lake at this station is a very small one, and fish were found only
close to its mouth, in a deep pool (as deep as four feet in places). Sat-
isfactory collecting could not be done with a net, but a. number of good
sized Se?notilus atromaculatus (10-15 cm. long) were caught there with a
hook and line baited with worms.

Station 1^0. This is the area about the head of Misery Creek, the
principal and perhaps the only outlet of the lake. The general character
of the region is shown in Plate VIII. The water is very deep at the
source of the creek, but about a bridge and for a considerable distance
below it, the stream is shallow enough to permit fishing with the small
seine. In the center of the stream the depth averages perhaps three
feet. The bottom is of hard sand covered in places with considerable
brush and other forest debris. Fish tended to keep under the bridge,
where they were abundant ; few were found in the other part of the creek
visited. The following species were noted and collected:

Chrosomus erythrogaster. — Abundant; many large specimens, 60-70
mm. long were taken.

Semotilus atromaculatus. — Abundant; many large specimens, 120 or
more mm. long, were taken. As many as two dozen of these large
chubs were caught at a haul with the six-foot seine.

Rhinichthys atronasus lunatus. — Abundant; man}'" large specimens,
some 100 mm. long, were collected.

Leiiciscus neogeus. — Two were taken, each about 70 mm. long.

Couesius plumbeus. — Common. They were mostly about 50 nun.
long.

Perca flavescens.— Fix a were taken, 50-70 mm. in length.

Micropterus salmoides. — One taken, about 40 mm. long.

North Twin Lake. This lake lies to the north and east of Hoiith Twin
Lake and is ('(nisideial)ly the larger of the two. \'erv little work was

20 PAPERS ON ZOOLOGY OF MICHIGAN.

done there, only about an hour being spent in collecting along the
south end. It appeared to be surrounded by unbroken forest except
at the south end where lumbering was going on. The bottom and
vegetation seemed to be like those of South Lake. Many fish were
observed in the shallow water area, and the following five species were
taken: Chrosomus erythrogaster, Semotilus atromaculatus, Rhinichthys
atronasus lunatus, Catostomus catostomus, Lepomis cyanellus. With
the exception of Rhinichthys atronasus lunatus, which was very com-
mon, only a few specimens of each species were caught.

Krait Lake. Kratt Lake is located about two miles southeast of
Winona, mostly south of Sections 33 and 34, Township 52. It is sur-
rounded by dense forest except for the clearing about an inhabited
house. It is smaller but similar to South Twin Lake in the character
of the bottom and vegetation; and the shoal, as far as observed, is
narrower. The same brown-stained water and bottom sand was
found as in the other forest lakes visited. The sand beach is more or
less obscured by the zone of low bushes, outside of which is a zone of
high bushes and beyond this the timber region. The small shrubs
bordering the beach, and in places covering it, seemed to be entirely
of two species — Myrica Gale and Chamaedaphne calyculata.

The following strictly aquatic plants were found: Sparganium sp?
(forming large, dense, submerged patches in places), Potamogeton
natans L., Fontinalis antipyretica L., Myriophyllum Farwellii, Utri-
cularia vulgaris L., Tolypothrix tenuis Kutz, Batrachospermum sp?

Sponges were abundant but none were collected.

Only the following two species of fish were found:

Lepomis cyanellus. — This species was very abundant, and took a
baited hook greedily. In fact, the great abundance and voracity of
this sunfish was a prominent characteristic of this lake. In a short
time, seventy individuals around 15 cm. in length were caught. They
seemed to be most abundant in the deep water just off the shoal. In
the shallow water a few small specimens (20-30 mm. in length) were
taken, but no other species were found in this shoal region.

Perca flavescens. — One small specimen, about 100 mm. long, was
taken by hook.

All of the fish taken in Kratt Lake were very dark in color with a
decided umber tinge like that of the water.

Bear Lake. Bear Lake is out of the region of the other lakes studied
and already considered. It is in the brush-covered sand dune area

FISHES OF HOUGHTON COUNTY. 21

about a half mile from Lake Superior and about seven and a half miles
directly north of Houghton. The lake is nearly a mile long with an
average width of perhaps a quarter of a mile and presents conditions
very different from those in the lakes in the forest south of Houghton.
The water is clear and the sand unstained. The shoal is variable in
extent; in some places it is narrow and in others one can wade out a
hundred feet or so from shore.

Bulrushes were more or less abundant in different parts of the shallow
water region, and formed dense and extensive patches. There was also
a growth of stoneworts on the bottom, associated with some gelatin-
ous and filamentous green algae which appeared to be chiefly Zyg-
nema and Spirogj-ra.

Two small crayfish, CamharUs sp?, were taken here, the only place
in the county where they were found.

Only the shoal was fished, on August 23, but an attempt was made
to get a representative collection. The following species were obtained:

Pimephales notatus. — Rather common.

Ahramis chrysoleucas. — One small specimen (30 mm. long) taken.

Notropis cayuga. — This species was common and occurred in large
schools. The specimens were mostly from 60-70 mm. long.

Perca fiavescens. — Small specimens about 40 mm. long were common
in shallow water.

Etheostoma iowae. — A number were found on the sandy bottom.

The fish found in Bear Lake were of normal coloration and not
umber-tinged as were all of those found in the umber-colored water of
the forest lakes. •

CONCLUSION.

As has alreadj' been stated, the work upon which this paper is based
was only a reconnaissance made for the purpose of obtaining a general
knowledge of the fishes and fish environments in the lakes of the region.
Study was centered on the shoals since in that habitat more species,
and thus a better representation of the fauna, could be obtained in the
time that could be given to the work. The main value of the report
must then be the additional data on the distribution of the species in
the state and the general information on the fish faunas of the lakes cf
this region which it contains.

Five general conclusions may be drawn from the ecological data
given above and that contained in the list of species which follows.

(1). The forest lakes examined, which have apparently very similar
conditions, have quite different fish faunas.

(2). All of the fishes from the stained waters of the forest lakes are
very dark in color, their bodies Ijeing tinged with the same color as the
water.

^2 PAPERS ON ZOOLOGY OF MICHIGAN.

(3). In August the shoal fishes are generally most abundant where
there is most aquatic vegetation.

(4). Fish enemies in the form of parasites appear to be verj- frequent
in the lakes examined.

.(5). South Twin Lake is one of the northern lakes that may be
advantageously studied to determine its suitability as an environment
for the black bass. The young evidently thrive there, and one of size
was caught which was in very good condition. The many minnows
in the lake might furnish a large quantity of available food for the bass.

LIST OF SPECIES.

The following list comprises only the species actually secured or ob-
served by the writer, and, as has been said, is principally confined to
the shoal species. It is of course incomplete, but it contains additional
data on the distribution of the species. The nomenclature and the
order of consideration are, with a few modifications, those used in
Jordan and Evermann's Fishes of North and Middle America. The
millimeter numbers given refer to the length of the fish, which was
taken from the tip of the snout to the posterior end of the caudal fin.

1. Catostomus catostomus (Forster). Long-nosed Sucker. — Found
onh' in Twin Lakes, where it appeared to be common.

2. Catostomus commersonii (Lacepede). Common Sucker. — A single
small specimen (36 mm.) taken from South Stonington Lake.

3. ' Chrosonius erythrogaster Rafinesque. Red-bellied Dace. — -Com-
mon in both Twin Lakes and in each of the two Stonington Lakes ex-
amined. In the latter, it was found schooling with Pimephales promelas.
The specimens collected measured 21-63 mm. One fish with bright
red under-parts was found.

4:. Pimephales promelas Rafinesque. Fat-head Minnow. — Taken
only at Stonington, where it was abundant in both of the lakes studied.
Two hundred and four specimens (22-60 mm.) were collected. Three
werie found with cestodes (probably Ligula) filling their bodj^-cavitifis
'aiid greatly distending their abdomens.

5. ' P'bnephales 7iotatus (Rafinesque). Blunt-nosed Minnow. — Found
only at Bear Lake, where thirteen were taken (24-35 mm.).

6. Sernotilus atromaculatus (Mitchill). Horned Dace. — The horned
dace was only observed in Twin Lakes where it was abundant. Only
small specimens, 60-70 mm. long. Were fouiid on shoals, but large on^s
(100-155 mm.) were in streams close to the lake. The fish were much
infested with a protozoan parasite, Myxobolus, which produced whitish
swellings of the skin and often made the fish conspicuous. Of the two
hundred arid thirteen specimens preserved, thirty-five were diseased

FISHES OF HOUGHTON COUNTY. 23

with this parasite. They are parasitized internally as well as ex-
ternally, for fourteen parasitic worms, Echinorynchus, were found' in
their alimentarj'- canals. A superficial examination was made of the
digestive tracts of ten large dace (103-143 mm.) and the contents ob-
served were as follows : elytra and other parts of beetles, pieces of
dragon-fly and May-fly nymphs, small spiders, winged ants, la small
amphipod, !*ome pieces of wood, and the vertebral columns of two frogs.
The two hundred and thirteen specimens preserved measured 27-155
mm .

7. Leuciscus neogeus (Cope). — Eight (44-70 mm.) were taken from
South Twin Lake.

8. Abramis chrysoleucas (Mitchill). Golden Shiner. — Only one very
sniall specimen (31 mm.) was' observed. This was found in Bear Lake.

' 9. Notropis cayuga, Meek. — Common at Bear Lake but none were
found elsewhere in the region. Twenty-four specimens (61-66 tnm.)
were taken.

10. Rhinichthys atronasus lunatus (Cope). Black-nosed Dace.^
Noted only in Twin Lakes, where it was present in considerable numbers.
The fifty-five specimens preserved measured 25-98 mm.

11. Couesius plumheus (Agassiz). — Found in some numbers in South
Twin Lake. Forty-two were taken, the measurements of which were
40-50 mm.

12. Salvelinus fontinalis (Mitchill). Brook Trout. — A common fish
in the streams. None were found in lakes, but the writer was told that
they frequent the shoals in the spring, retiring into the deep water in
summer, when they rarely take a hook.

A few small specimens were taken l^y hook in a small branch of
Sleepy Creek, at Winona. On three small specimens (46-84 mm.) four
large copepod parasites (probably Lernaepoda) were found.

13. Esox lucius L. Common Pike. — The writer saw fish of this
species that had been taken in a small lake located some seven miles
southeast of Winona. This lake is said to contain so many of these fish
that it is called "Pike Lake."

14. Eucalia inconsians (Kirtland). Brook Stickleback. — Six speci-
mens of this stickleback were collected at Stonington and South Twin
Lake. They measured from 32-53 mm.

15. Pygosteus pungitus (Linnaeus). Nine-spined Stickleback. —
Found only at Middle Stonington Lake where eight were taken from a
single school. They measured 42-49 mm.

16. Lepomis cyanellus Rafinesque. Blue-spotted Sunfish. — Found
in small numbers at Twin Lakes and very abundant at Kratt Lake.
Those collected measured 20-166 mm. An examination of the digestive
tracts of ten specimens, averaging about 120 mm. in length, showed

24 PAPERS ON ZOOLOGY OP MICHIGAN.

the fish in Kratt Lake to be feeding on animal and plant material. The
stomach contents were as follows: insect fragments (heads of hemip-
terous insects and parts of beetles), pieces of wood, alga fragments,
leaves of Sparganium or Ericaulon, and water lily seeds.

17. Micropterus salmoides (Lacepede). Large-mouth Black Bass. —
Small specimens were very abundant on shoals of South Twin Lake,
l)ut none were noticed elsewhere. Those caught measured 34-78 mm.
in length. In the stomachs examined were fish bones, teeth of a minnow,
entomostracans, and Chironomus larvae. One comparatively large
specimen (265 mm.) was caught with hook and line in South Twin
Lake.

18. Perca flavescens (Mitchill). Yellow Perch. — Found at South
Twin Lake, Bear Lake and Kratt Lake. Small specimens were generally
distributed on shoals in South Twin Lake. Some of those taken w^re
43-70 mm. long. None were found on the shoals of Kratt Lake or
Stonington Lakes. Larger perch (133-185 mm.) were taken from deep
water off the shoals in South Twin Lake, Bear Lake and Kratt Lake.

19. Etheostoma iowae, Jordan and Meek. — Found only in Bear Lake,
where four w^re taken in shallow water on a sandy bottom. These
were 37-45 mm. in length.

AN ECOLOGICAL STUDY OF THE FISH FAUNA OF THE

DOUGLAS LAKE REGION (MICHIGAN) WITH SPECIAL

REFERENCE TO THE MORTALITY OF THE SPECIES.

ROY J. COLBERT
THE UNIVERSITY OF TOLEDO.

AN ECOLOGICAL STUDY OF THE FISH FAUNA OF THE

DOUGLAS LAKE REGION (MICHIGAN) WITH SPECIAL

REFERENCE TO THE MORTALITY OF THE SPECIES.

ROY J. COLBERT.

In this study of the fish fauna of the Douglas Lake (Michigan) region
special attention was given to the mortality of the various species
found and it is thought that the data collected in this connection have
a direct bearing on the general ecology of the species involved. In
order that the data on the mortality might be more easily understood,
records of species frequency were taken for several typical habitats and
a general survey of the intra-lake distribution . of the species made.
The collection of fishes from which the data were gathered includes
several hundred specimens taken during the summer sessions of 1913
and 1914 at the University of Michigan Biological Station at Douglas
Lake.

Opportunities for procuring data on these particular problems were
especially favorable. Douglas Lake affords an ample variety of aquatic
habitats which are easily accessible for study. The shores of the lake
are covered with their natural growth of vegetation and timber, and as
yet neither the inlets nor the outlet, Maple River, have been dredged
or changed to any large extent. The lake and its adjacent waters
may be divided into the following units for the purpose of this study:
North Lake, that part of Douglas Lake west of Fairy Island and Robert's
Point; North Fishtail Bay; Bessey Creek region together with the
other small inlets of the lake; and Maple River (See map. Fig. 2).
Each of these regions has a condition or set of conditions distinguishing
it from the others and encouraging the predominance of certain species
of fish.

The prevailing winds of the region blow from the west and north-
west, hence North Lake, the part of Douglas Lake west of Fairy Island
and Robert's Point, is seldom disturbed by heavy winds and waves^
and the aquatic vegetation, especially Myriophyllum and Potomogeton,
has a better chance to grow. This is particularly true immediately
west of Fairy Island. In this region the pike-pickerel, Esox lucius,
and the rock l)ass, Ainbloplites rupestris, are very common, and along
the marshy shallows of the west shore the cat fish, Amicurus melas, nest
and are found in great al)undance.

North Fishtail Bay affords two somewhat different habitats. The
north portion is a quiet bay surrounded by a thick pine and cedar

28

PAPERS ON ZOOLOGY OF MICHIGAN.

forest. The water increases in depth very gradually from the shoals
along the shore. The bottom here is covered with a thin layer of de-
cayed vegetation and the yellow water lilies, Nymphaea americana,
Potomogeton, and Myrioyhyllum are very abundant. This particular
habitat was studied from two standpoints: (1) to ascertain the relative
frequency of the various species belonging in this habitat, breeding and
feeding there, and (2) to learn what fishes come into the habitat to
feed. Several nests of the catfish, Amieurus melas, and the pumpkin
seed, Eupomotis gibhosus, were found both summers early in July with
the adults still guarding them. Several schools of small catfish were
seen all through the summer in the very shallow water near the bank.

The frequency study of this habitat was made by placing a fyke net
in the bay, about 100 feet from the shore, with the wings extending
almost to the shore on either side and. with the open mouth of the trap
toward the shore. The trap in this position collected the fishes belong-
ing to the habitat, and breeding and feeding there. The following
table gives the results of six days typical collecting.

TABLE NO. 1.

Species.

Number. Average size. Frequency.

1. Pumpkin seed, Eupomotis gibbosus

2. Blue gill, Lepomis pallidus

3. Sucker, Catostomus commersonii. . .

4. Cat fish, Amieurus melas

63

100 m.m.

.583

24

108 m.m.

.223

14

276 mm. j

.130

7

177 m.m.

.064

During the two summer's work, in addition to the species listed in
the table, two specimens of the yellow perch, Perca flavescens, and one
trout perch. Percopsis giittatus, were taken in the net. Both of these
species are from deeper water and were in this habitat presumably by
accident.

To determine what species enter the habitat to feed, a gill net was
set across the bay just outside the fyke net. Particular care was taken
to note in what direction each fish entered the net, i. e., whether it was
coming in from the lake or going out into deep water. The following
table gives the results of six days collecting with the gill net:

TABLE NO. 2.

Species.

Number of
individuals.

Direction.

Average size.

In. Out.

1. Sun fish, Eupomotis gibbosus

18

14

6

3

0 18
4 9
6 0
0 3

121 m.m.

294 m.m.

3. Pickerel pike, Esox lucius. . .

360 m.m.

126 m.m.

FISH FAUNA OF DOUGLAS LAKE REGION.

2&

It will l)e seen from Table No. 2 that all Eupomotis gibbosus and
Lepomis paUidus were inside the enclosed area and were caught going
out. Catostomus commersonii, however, were taken on both sides of
the net and near the bottom where they feed. The frequeiicy of this
particular species all ov.er the lake, except in very deep water, is prac-
tically the same, and as expected it occurs in both shallow and deep
water. Esox hicius, however, belongs in a different habitat in deeper
water. Since none were taken in either the fyke net or on the inside
of the gill net, it is quite evident they visit the habitat for feeding. The
nets were emptied every morning and evening, and about as many of
the various species were taken at one time as another, except Esox
lucius, which in every instance was gilled at night during the usual
time of feeding.

The combined frequency of all species collected in this habitat, in-
cluding visitors, as shown bj- the combined collections, is as follows:

TABLE NO. 3.

Species.

Average size. Frequency.

Pumpkin seed, Eupomotis gibbosus

Blue gill, Lepomis pallidus

Sucker, Catostomus commersonii . . .

Catfish, Ameiurus melas

Trout perch, Percopsis guttatus. . . .

Yellow perch, Perca flavescens

Pickerel-pike, Esox lucius

Bowfin, .-lOTio calva

Ill m.m.
117 m.m.
285 m.m.
177 m.m.
110 m.m.
120 m.m.
360 m.m.
700 m.m.

.534
.180
.180
.047
.006
.007
.039
.007

The south bay of North Fishtail Bay presents a situation more
nearly like that of the lake proper. It gets about the same amount of
wind and wave action; its bottom is sandy and drops abruptlj^ from a
narrow, shallow shoal to a depth of 40 feet. It has, however, along the
edge of the step-off and in the shallows of the south side, where the
wind and waves have less sweep, a considerable patch of yellow water
lilies, Nijmphaea americana and Potomogeton. The fyke net was
placed in this situation for a period of ten days vdih. the open mouth
of the trap toward the shore. The catch, therefore, while it represents
the relative frequency of the species in the habitat, was not large. The
result of the collections is as follows:

TABLE NO

4.

Spffie.-i.

Number.

Average size.

Frequency.

1. Pumpkin seed. Eupomoti» g'bbosus

5
3
1
4
2
3
3
2

148 m.m.
173 mm.
210 m.m.
332 m.m.
200 m.m.
116 m.m.
131 m.m.
145 m.m.

217

2. Large-mouthed black bass, Micropterus salmoides

3. Small-mouthed black bass, Micropterus dolomieu.

.131

.043

173

087

6. Blue gill, Lepomis pallidus

131

7. Rock bass, Ambloplites rupestris

131

8. Yellow perch, Perca flavescens

087

30

PAPERS ON ZOOLOGY OF MICHIGAN.

The fish taken from this habitat were larger than those of the same
species taken from the north bay. The presence of both the large-
mouth black bass, Micropterus salmoides, and the small-mouth black
bass, Micropterus dolomieu, in the ratio of three to one, is a character-
istic feature of this habitat.

The lake proper has four types of habitats, each of which must be
dealt with separately: (1) the shallows and shoals; (2) the deep water
near the step-off; (3) the mid-lake portion not exceeding 20 feet in
depth; and (4) the deep cold water below the 20 foot line which includes
most of South Fishtail Bay. (See map, Fig. 2).

In the shoals and shallows of South Fishtail Bay schools of j^oung
perch, Perca flavescens, shiners, Notropis hudsonius, N. cayuga, and A''.
cornutus, young suckers, Catostomus commersonii, blunt-nosed minnows,
Pimephales notatus, and an occasional individual of the Johnny darter,
Boleosoma nigrum . are ioimd. Each of these species, however, is very
-abundant on the more rocky shoals between Grapevine and Bogardus
Points, on the east side of Fairy Island, and along the northeast side
of the lake (See map, Fig. 2). The relative frequency of these various
species is seen in the following table, the combined results of seven
different long-shore seinings made at various times during the sessions
of 1913 and 1914:

TABLE NO. 5.

Species.

Number.

Average size.

Frequency.

1. Yellow perch, Perca flavescens

642

360

344

285

34

11

.5

1

40-60 m.m.

30 m.m.
20-60 m.m.
20-40 m.m.
20-60 m.m.

30 m.m.

30 mm.

10 m.m.

381

214

3. Hudson's shiner, Notropis hudsonius

.204

4. Johnny darter, Boleosoma nigrum

.169

020

6. Blunt-nosed minnow, Pimephales notatus

7. Cayuga shiner, Notropis cayuga

.008
.003
.0006

Practically all of the records included in Table 5 were adults of the
species, excepting the perch, suckers, and pumpkin seeds. The adults
of these three species frequent the deeper water of the lake, but lay
their eggs in the shallows where the young remain until they are large
enough to avoid the 'enemies commonly found in the deeper waters.
Since the young suckers and perch are so abundant they form a very
important part of the life of this habitat.

Just over the step-off, in water ranging from 10 to 20 feet deep in
situations where the aquatic vegetation is more or less abundant, the
trout perch, Percopsis guttatus, and yellow perch, Perca flavescens, are
very abundant. Here also the schools of the log perch, Percina
caprodes, are found, but the last species is by no means as abundant
as the other two. The largest schools of the log perch were found

FISH FAUNA OF DOUGLAS LAKE REGION.

31

Figure 2.

near the east shore of South Fishtail Bay, where during the first two
weeks of July they were seen spa\^^ling in the shallow water. Adult
minnows are also fairly frequent in this habitat. As will be seen later,
the great majority of adult yellow perch thro^\al upon the beach by the
■waves were stranded while feeding on the trout perch in this habitat,
practically every individual having a half -swallowed trout perch in its
mouth.

Over the submerged sand bar and on either side of it, where the
reeds, Scirpus spp., grow, also between Grapevine Point and Fairy
Island, where the various water plants grow to within four to six feet
of the surface, the habitat is slight)}' different. Here the bass, both
M. dolomieu and M. salmoides, the pickerel-pike, Esox lucius, and the
rock bass, AmhIopUtes rupesiris, are abundant. A trammel net placed
with one end barely on the sand-bar, i. e. in about 10 feet of water, and
the other end extending into water forty feet deep gave the folloAving
results during both sessions :

TABLE NO. 6.

species.

Average size.

Depth
of water.

Xuml)er.

Freq

lenoy.

r,2

.30.5

.38

.222

28

.164

21

.123

17

.099

10

.058
. .017

•i

.012

1. 'Rcic\<i'bdSS, Amhlopliles rupestris. . 13.5 mm.

2. Sucker, Catoslomus commersonii . . 310 ill in.

5. Vumpkin seed, Eupomatisf/ibboisus UOm.iii.

4. Pickerel-pike, Esox lucius 440 iii.m.

.5. Catfish, Amieurus melas 320 iii.m

6. Small-mouthed black bass, Mic-

raptiTun Kiilmoides 380 m.ni.

7. Yellow perch, Pcrca flaiescetis. . . . 100 m.iii.

8. harge-moutlied black bass, Mic-

ro pterus nalmuiites 390 III. III.

lO-Io ft.

.\1 all depths

7-10 ft.

20-40 ft.
Al all depths

20-40 ft.
10-20 ft.

20-40 ft.

32

PAPERS ON ZOOLOGY OF MICHIGAN.

Aside from the fishes taken in the trammel net at a depth exceeding-
20 feet, and hsted in Table No. 6, the lake whitefish, Argyrosomus
artedi cisco and the ling, Lota maculosa, are known to occur in very
deep water. During the summers of 1913 and 1914, dead lake whitefish
were found. Each had an injury on the ventral side of the body, near
the caudal fin. This injury resembled the scar made by the lake
lampre5\ Many other species of fish were taken, as will be seen later,
with the same type of injury. At the close of the 1914 session of the
Biological Station a large specimen of the ling, Lota maculosa, was
found almost dead under a beached boat near the Station dock after
a heavy wind storm. This species belongs to the deep water near the
thermocline, at a depth varying from 35 to 40 feet or more.

In addition to the lake itself, Bessey Creek, the other smaller inlets
and the outlet. Maple River, are important habitats for fishes. Bessey
Creek is a sluggish stream varying from one to eight feet in depth.
The bottom is covered with a deep layer of loose decayed vegetable
matter and ooze. A considerable amount of high grass, rushes, Scirpus
americanus, and white water lilies, Castalia odoratum, grow in the shallow^
water near the bank, and in many places in mid-stream. The banks
are well wooded and shady. By frequent observations and seining
it was found that the mud minnow. Umbra limi, is the dominant species
of this habitat. The creek was seined several times and the combined-
data of the seinings are given below:

TABLE NO.

Species.

Number

Average
size.

Fre-
quency.

Place in stream.

1.

Mud minnow, Umbra limi. . . .

190

8.5 m.m.
(adults)

.626

Distributed over bottom.

2.

Yellow perch, Perca flavescens.

30

100 m.m.
(young)

.099

Near surface, mid-stream.

.3.

Blue gill, Lepomis pallidus. . . .

18

60 mm.
(young)

.060

Mid-stream.

4.

Pumpkin seed, Eupomotis gib-

bosus

17
13

62 m.m.
25 m,m.

.057
.043

Mid-stream.

.5.

Cayuga shiner, Notropis cayuga

Mid-stream.

6.

Rock bass, Ambloplites rupes-

triSj

12

102 m.

.040

Mid-stream.

7.

Catfish, Amierus melas

8

142 m.m.

.026

At bottom of mid-stream.

8.

Pickerel-pike, Esox lucius ....

8

14.5 m.m.
(young)

,026

Under grass along bank.

9.

Large-mouthed black bass,

Micropterus salmoides

4

30 m.m.
(young)

.014

Mid-stream.

10.

Sculpin, Cottus ictalops

1

48 m.m.

.004

Mid-stream.

11.

Iowa darter, Eiheostoma iowae .

1

14 m.m.

.004

Mid-stream.

As shown by the table Umbra limi is by far the most frequent
species in this habitat.

Maple River and the small streams coming into the lake, other than
Bessey Creek, have been placed in the same group as regards type of
habitat because they are more or less swift and clear, and offer about

Michigan Geologrical and
Biological Survey.

Publication 20: Biology 4.
Plate I.

c;exp:rai. \ ikw of east shore of south twin i.akk. looking
south from station" 1.

Michigan Geological and
Biological Survey.

I'liblication 20; Biology 4.
Plate II.

SOl'TH 'iWIX L.'kK?:, LOOKIXC; NORTH WEST, SH()\VI\(! HHO.M) SHOAL "WITH
A SCAXT RUSH fiROWTH AXl) PHK Z()Xi:s ()!■' SHOIil': \' IMIKIWITOX.

Michigan Geologifal aii'i
Biologiral Survey.

Ptiljlicatioii 20: Hiology 4.
Plate III.

-Ol i II 1 WIN LAKE, .STATION' 3, LOOKINl, Ni )i; 1 11 U K.-^ 1 , .--11( j\\ I N( i THE
REGION FIHHEO AS I- AH AS THE RUSHES EXTEND.

Michigan Geological am!
BioloRical Survey.

Publication 20; Biology 4.
Plate I\'.

SOI'TH TWIN LAKE, LOOKING NORTH. SHOWING AN liNUSlALLV BROAD
BKACH BUT WITH MANY ENCROAC^HMKNTS OF THE SMALL SHRUB ZONE.

Michigan Geological and
Biological Survey.

Publirution 20; Biology 4.
Plate V.

•OriH IWIX LAKE. STAIION \.i. L(J(JKI.\G XoKTH.

Michigan Geological and
Biological Survey.

J'lihlicatioii 20; Biology 4.
Plate VI.

SOI' Til IWIX

LAKE, STATION 7. LOOKING EAST. FLOATING SPAHGANIIM
LEAVES NOT SHOWN ON ACCOUNT OF WAVES.

MichiKuii Geological and
Hiolog^iral Survey.

I'ulilic-iUioti 20: Biolopy 4.
Plate \ li.

SOUTH TWIN LAKK, STATION 4»i. LOOKINC NOHTll WKST.

Michigan Geological and
Biological Survey.

Publication 20; liiology 4,
Plate VIII.

.SOUTH 'I WIN L.M\i:. .-^'l ATlON 4(1. LOOKIXC \VKST. MOl I'll OF MISERY

CKKKK.

FISH FAUNA OF DOUGLAS LAKE REGION. 33

the same sort of conditions. These stream beds are gravel or clear
sand, and if a mucky bottom exists at all, it is near the banks or in holes
and bayous along the stream. In these places the Umbra limi and small
Amieurus melas are abundant. Aside from these situations, however,
Maple River and the small clear streams afford a group of species
different from those found in any other habitat of the region. The
brook trout. SalveUnni< fontinalis, is abundant along the small inlets
and in Maple River five miles down stream from the lake. Besides
Salvelinus fontinalis, several other species, which did not occur in the
other habitats, were found in Maple River in abundance. Eiheostoma
ioivae, Xotropis ichipplii, Se7notilus atromaculatus, and Rhinichthys
atronasus were taken in numbers. Cottus ictalops is also more abundant
in Maple River than in Bessey Creek.

From the foregoing stucUes of the several habitats the fish fauna of
Douglas Lake and connecting streams may be seen to include the
following 26 species, of which 23 (marked *) occur in the lake proper:

TABLE XO. 8.

1. Bowfin, Amia caUa*

2. Common sucker, Catostomus commersonii.*

3. Catfish, Amieurus melas.*

4. Hudson River shiner, Xotropis hudsonius*
o. Common shiner, Xotropis cornutus.*

6. Cayuga shiner, Xotropis cayuga.*

7. Blue shiner, Xotropis whipplii.

8. Horned dace, Semoiilus atromaculatus.

9. Black-nosed dace, Rhinichthys atronasus.

10. Blunt-nosed minnow, Pimephales noiatus.*

11. Pickerel-pike, Esox lucius.*

12. Mud minnow, Umbra limi.*

13. Brook trout. Salvelinus fontinalis.*

14. Lake whitefish, Argyrosomus artedi cisco.*

15. Trout perch, Percopsis guttatus.*

16. Log perch, Percina caprodes.*

17. Iowa darter, Etheostoma iowae.*

18. Johnny darter, Boleosoma nigrum.*

19. Yellow perch, Perca flatescens.* •

20. Rock hass, AmblopUtes rupestris.*

21. Large-mouthed black bass, Microplerus salmoides.*

22. Small-mouthed black bass, yiicropterus dolomieu.*

23. Pumpkin seed, Eupomotis gibbosus.*

24. Blue gill, Lepomis pallidus.*

25. Ling, Lota maculosa.*

26. Sculpin, Cottus ictalops.*

With this determination of the fish fauna of the Douglas Lake Region
and the general distribution of the species in mind, the study of the
mortality of the species was begun. To this end one mile of beach was
laid off along the east side of South Fishtail Bay (See map, Fig. 2).
This section of beach was chosen because it receives the full sweep of
the wind from across the entire lake, hence most floating fish, even on
the far side of the lake, are eventually beached somewhere within this
mile. This strip of beach was gone over each evening and all of the
beached fish collected, identified, measured, examined, and buried.
The study of the beached fish was continued for a period of 40 con-
secutive days (July 10 to August 19, 1913), and was supi)lemented l\v
a study of the beached fish on all shores of the hike The following
table gives the results of the 10 days collecting on the mile of beach:

34

PAPERS ON ZOOLOGY OF MICHIGAN.

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FISH FAUNA OF DOUGLAS LAKE REGION. 35

In looking for the causes of death of the fish Usted in Table 9,
the following are at least to be considered: (1) mechanical injury,
(2) injury through attacks of other species, (3) the beaching of in-
dividuals while pursuing or swallowing prey, (4) accidental beaching
while attempting to escape enemies, (5) disease and parasites.

The total number of individuals of all species showing definite ex-
ternal injuries was low, something less than one-tenth of one per cent,
and as may be seen in Table 9 these were distributed rather evenly
among the several species in proportion to the total number beached.
Many apparently normal fish, free from parasites and without any
sign of injury, were beached which may have been killed by wave
action either well out in the lake or at the edge of the shoal water where
the high waves break.

Few if any specimens showed unmistakable injuries due to the at-
tacks of other species. A few suckers bore circular wounds resembling
lamprey marks but these wounds were of such a nature that they
might have been due to any of several other causes.

In the "beached while feeding" column only those individuals were
listed which were found with prey in the mouth. Perca flavescens was
the heaviest loser in this way. Seventy-one beached specimens of this
species had half-swallowed individuals of Percopsis guttatus in their
mouths, and the Percopsidae in almost every case were adults. In
addition to the specimens taken with prey in the mouth undoubtedly
other individuals are beached while pursuing prey. Catostomus com-
mersonii. a bottom feeder, is known to come into shallow water at night
while feeding and individuals of this species might easily be beached by
a sudden storm.

The beaching of small fishes while attempting to escape larger pur-
suing fishes was on more than one occasion observed. The young
suckers, Notropi, and other young fishes are constantly preyed upon by
the larger carnivorous species and schools of the small fish are often
forced to the shore line by the pursuers. Here an incoming wave
completes the beaching.

Parasites certainly play an important part in' the death of a large
numi;er of the individuals reaching the l)ea('h. With very few ex-
ceptions all of the Centrarchidae beached, i. e. Amhloplites rupestn's,
Lepotnis pallidum and Eupomotis (jihho.s)is were infected in the gill
chambers with parasitic Copepods. Often this infection was very
heavy although some specimens bore but a few of the gill parasites.
Many suckers and Cyprinids contained worm cysts in the l)ody wall
and in the skin. The parasitic worms were not examined, but Dr.
La Rue (see report of the Director of the Biological Station for 1912)
reports a variety of forms and a heavy infection of several sjiecies of f'sh.

36

PAPERS ON ZOOLOGY OF MICHIGAN.

It is understood that Table No. 9 does not give complete data on the
death rate of the species of the lake but it is considered suggestive. In
spite of the fact that many dead fish are eaten by water birds before
reaching shore and that the fish successfully caught and eaten by other
species can not be estimated, the data in Table 9 indicate a critical size
in the life of several species of fishes. Those fishes about two-thirds
grown (see table for length of majority of individuals) were most often
beached. Again, as might be expected, the species most abundant in
the lake proper were represented on the beach by the largest number of
individuals. On the other hand those species found in the more re-
stricted habitats were represented by fewer individuals, and those con-
fined to streams by none.

In order that these data might be verified a trip was made covering
the entire shore line of the lake of 15 miles in a single day. On this trip
all beached fishes were measured, examined and identified. The data,
collected are given in Table 10.

TABLE NO. 10,
Including a study of the .shore.? about the whole lake (Aug. 3, 1913).

Species.

Average size.

Number.

240 m.m.

1

350 m.m.

1

103 m.m.

551

103 m.m.

1

110 m.m.

2

78 m.m.

10

107 m.m.

7

204 m.m.

11

290 m.m.

177

132 m.m.

31

97 m.m.

72

537 m.m.

5

98 m.m.

10

140 m.m.

2

9.
10.
11.
12.
13.
14.

Smail-mouthed black bass, M. dolomieu

Large-mouthed black bass, M. salmoides

Yellow perch, Perca flavescens

Pumpkin seed, Eupomotis gibbosus

Xotropus cayuga

Hudson River shiner, Notropus hudsonius

Common shiner, Notropus cornutus

Cat fish, Amieurus melas

Common yellow sucker, Catostomus commersonii.

Rock bass, Amblopliles rupesiris

Log perch, Percopsus guttatus

Pil<e-pickerel, Esox lucius

Blue gill, Lepomis pallidus

Lake whitefish, A. a. cisco

Total .

881

Note: — Several dead specimens of "Johnny darter'" (Boleosoma nigrum) were observed
lying among the pebbles in the shallows about Grape-vine Point and Fairy Island. Because
of their lack of an air-bladder they are not thrown upon the beach as are the other species of
dead fish but they remain i i their habitat and are for the most part eaten by the crayfish.

The figures in Table 10 show the same relations of species as those
in Table 9, the true lake forms being the ones most often beached.

In conclusion it may be said that Perca flavescens, Percopsis guttatus,.
Catostomus commersonii and Notropis cayuga were the forms most often
beached.

The writer wishes to thank Dr. Max M. Ellis for suggestions and
help in this work.

DRAGOXFLIES OF THE DOUGLAS LAKE REGION, ^^IICHIGAN.

ARTHUR T. EVANS

DRAGONFLIES OF THE DOUGLAS LAKE REGION,
IVIICHIGANi.

ARTHUR T. EVANS

A partial list of the Odonata of the Douglas Lake Region (Cheboygan
Gounty, Michigan) was prepared by Miss Abigail O'Brien in 1910^.
This report includes twenty-three species. An opportunity of listing
the Odonata of this region more fully was afforded the writer during
the summer of 1914 while at the University of Michigan Biological
Station on Douglas Lake. The collections date from July 2 to August
21. During the course of the collecting as many individuals of each
species were taken as possible. Forty-three species were secured.

The writer wishes to thank Professor Max AL Ellis for suggestions
in the preparation of this report; Professor Frank Smith for specimens
and records from Lidian River; Professor T. D. A. Cockerell for the
loan of several reprints; and also the many students at the Biological
Station who were kind enough to furnish material for identification.

TOPOGRAPHY OF THE REGION.

The Douglas Lake Region with its small streams, lakes, marshes, and
stagnant bogs, together with its forested, burned over, and open areas
presents varied and suitable habitats for a number of species of Odonata.
Specimens were taken from many habitats, both adults and nymphs
being collected. Efforts were made to capture a number of adults
which appeared new to the region. These efforts were imsuccessful
in several cases, but the aquatic collections yieldetl nymphs of several
species new to the region so that in all a fairly representative series of
the Odonata species was secured. Gollections were made from the
following habitats.

Bessey Creek, one; of the small streams flowing into Douglas Lake,
forms a very desirable hal)itat for a number of species. This stream
is of uniform width, averaging ai)out fifteen feet. It has an average
depth of about two and one-half feet, with a maximum depth of about
five feet and a minimvun depth of about one foot. For the most ]iart
the stream flows through a thickly wooded area with trees overhanging
in many places while here and there are open areas. In many places

'Contribution No. 2.'> from the University of Mifhifiin UioloKical Stiilioii.
2Rei)t. Mich. Acad. Sci., 1911, pp. 144-145.

40 PAPERS ON ZOOLOGY OF MICHIGAN.

vegetation is common in the stream. The bottom is of decayed vege-
table matter with a thick cover of plant debris. The stream flows into
the lake through a broad embayment which is well overgrown with
reeds and flags.

Maple River, the only outlet to Douglas Lake, is in many ways
very different from Bessey Creek. This stream does not flow through
a wooded area but through a more open burned-over area. The
stream is about twenty feet ^^^de in its widest part and is on an
average about two feet deep. Its current is swift but as it flows through
a sandy country the water is very quiet. The bottom of this stream
is of marl with some vegetation. About tAvo miles from the lake, down
the river, collections were made in a situation quite different from
the river. The stream at this second station flows through an area
from which the trees have been cut or burned as at its source, but the
water is swifter and the bed of the stream is of coarse gravel and small
rocks.

Bryant's Bog is a relic bog which has been cut off from the lake by
the throwing up of a sand-bar. Although the whole bog occupies about
ten acres only about one-half an acre is covered by open water. The
water is about 18 feet in the shallowest part. The bog has no known
outlet, although there is undoubtedly more or less loss of water through
the very sandy, porous soil which surrounds it. The small size and
great depth of this bog together with its location in a more or less
sheltered place makes the water quiet. The dominant plant about the
bog is Chamaedaphne calyculata (Linnaeus) the so-called "leather leaf."
On account of its depth few plants grow from the bottom of the pool
although the Chamaedaphne grows out into the water about the edge of
the bog for several feet. This vegetation in the water makes an ex-
cellent habitat for a number of species which are abundant upon the
submerged portions. Such species as Tramea lacerata Hagen and Anax
Junius Drury were found in numbers in this situation. The low shrub-
bery and a few large trees near this habitat supply a very desirable
foraging ground for a number of the imagos.

Smith's Bog, located about two miles south of the Station, is another
.situation from which a number of specimens were obtained. The
marshy area, although called a bog, is quite different from Bryant's
Bog. It is located in an open area of about fortj^ acres, the water
covering about ten acres. In the water and about the edge of the bog
for about one hundred feet is a thick growth of rushes of several species.
There are a few trees standing, and over the whole area are old logs
lying in or near the wafer. The depth of the water is probably not more
than four or five feet in the deepest parts. Nymphs were found to be
abundant in the water while the adults were also common.

DRAGONFLIES OF DOUGLAS LAKE REGION. 41

Burt Lake, about one and one-half miles south of Douglas Lake,
constitutes another of the habitats from which collections were made.
On the north shore of this lake is Reese's Bog which is densely wooded
and occupies an area of several hundred acres. This bog has no area
completely inundated but the whole is more or less wet and there are
several small outlet streams. The tamarack growth over the whole
area is very dense with here and there narrow roads passing through it.
Collections were made along the shore of the lake as well as along the
roads leading through the bog.

North Fishtail Bay, a quiet and shallow little bay on the north shore
of Douglas Lake, together with the pools and open areas in the ad-
joining woods, formed another of the situations collected from. A
large number of both nymphs and adults were collected from this
habitat.

From the shallow waters along the shore of the lake near camp and
about the docks a number of species were secured which were not found
elsewhere. Also the aspens near the Station were found to contain
adults, some of which were seen nearly a mile from the water.

TAXONOMY.

Keys have been made for all species collected and all previously
reported from the region, except those included in the difficult genus
Enallagma Charpentier. Where a genus includes more than one species
in the Douglas Lake Region, a kej- for the various species collected and
previously reported is offered. Lhider the species head short dis-
cussions of the habitats, time of appearance, and abundance are given
when the data were obtained. The nomenclature offered b}^ MuttkoAv-
ski'^ is followed. Free use has been made of certain other published
reports on Odonata (see bibliography) to which the writer Avishes to
acknoAvledge his obligations.

KEY TO THE SUBORDERS AND FAMILIES OF THE ODOXATA OF THE DOUGLAS
LAKE REGION (MICHIGAN).

ImiKjox.

A. Front ami liitid wings similar in outline, spatulate and d.stinctly narrowed at the base,
not held horizontally when at rest; head nnich wider tha.i long; whole insect of a more
or less trail apiiearanre.

Suborder ZVCJOFTKHA

li. VSiiiKs rich black or dusky brown, or if hyaline w.th Ixight red or brown areas
at the bases.

Family .\grioiiidae

MB Wings hyaline — bluish or t rans[>areut .

Family C'oenagrionidae '

'Bull. Public Mus. Milwaukee, I, IDIO-I'.il I, pp 1-208

42 PAPERS ON ZOOLOGY OF MICHIGAN.

AA. Front and hind wings riissimilar, held horizontally when at rest.

SuborderANISOPTKRA

C. Triangles of the iroat and hind wiiigs similar, first and second series of anti-
cubitais not coinciding, except the first and another thick one.

Family Aeshnidae

CC. Triangles of the front wings, with the long axis of the triangle, at right angles-
to the long axis of the wings; triangles of the hind wings with the long axis
coincioing with the axis of the wing.

Family Libellulidae

Xytnphs.

A. Last abdominal segment with terminal, ieaf-like gills.

Suborder ZYGOPTERA

B. Basal segment oi the antennae much elongated.

Family Agrionidae
BB . Basal segment of the antennae short.

Family Coenagrionidae
AA. Last abdominal segment ending in five, short, spine-like appendages.

Suborder ANISOPTERA

C . Labium flat, not concealing the front of the head.

Family Aeshnidae
CC. Labium spoon-shaped, covering most of the front part of the head.

Family Libellulidae

FAMILY AGRIONIDAE.

KEY TO THE GENERA OF AGRIONIDAE.

lynagos.

A. Imagos with wingj of a rich black or dusky brown color; basal spaces in all of the wings
without cross veins.

Agrion
AA. Imagos with large red or brown areas at the bases of the wings, if the wings are hyaline,
basal spaces with cross veins.

Hetaerina

Nymphs.

A. Median cleft of the median labial lobe extending far below the base of the lateral labial
lobes.

Agrion
AA. Median cleft of the median labial lobe not extending below the base of the lateral labial
lobes.

Hetaerina

GENUS AGRION FABRICIUS.

Imagos.

A. Apical third of the hind wings black or cloudy.

A. aequabile
AA. Wings uniformly black or smoky brown.

■-4. maculatum

Nymphs.

A. Bdsal segments or the antennae one-third longer than the head is wide.

.4. aequabile
AA. Basal segment of the antennae equal to or less than the width of the head.

A. maculatum

DRAGONFLIES OF DOUGLAS LAKE REGION. 43

Agrion aequabile (Say). PI. IX, Fig. B. — Adults and n>Tnphs of this
species were taken on Bessey Creek, and at the station on Maple River,
about two miles down stream from the source. Although a number of
both adults and nj-mphs were taken in both situations the adults were
rather uncommon on Maple River. The njTnphs in general were
found clinging to the vegetation in the stream, seeming to prefer the
swifter parts.

Agrion maculatum Beauvois. PI. IX, Fig. D. — This species was
taken in both the adult and nymph stages in the same situations as
Agrion aequabile. The adult with its handsome black or smoky wings
is easily distinguished when once seen, while the mTiiph with its sprawl-
ing legs is easily recognized.

GENUS HETAERINA HAGEN.

Heiaerina americana Fabricius. PI. IX, Fig. A. — None of the
nymphs of this beautiful dragonfly were collected but adults were taken,
by Dr. Max M. Ellis at the station some distance dowTi Maple River.
The brilliant red at the bases of the wings of the males and the pale
brown at the bases of the wings of the females will distinguish this
species at once.

FAMILY COENAGRIONIDAE.

KEY TO THE SUBFAMILIES OF COENAGRIONIDAE.

Imagos.

A. Vein Ma arising from vein Mi and 2 nearer the arculus than the Jodus.

Subfamily Lestinae

.\A. Vein Ma arising from vein Mi and 2 nearer the nodus than the arculus.

Subfamuy Coenagrioninae

Nymphs.

A. Lateral labial lobes trifid at the distal end, movable hook of the labium bearing raptorial
setae.

Subfamily Lestinae

AA. Lateral labial lobes bifid at the distal end, movable hooks of the labium without raptorial
setae.

Subfamily Coenagrioninae

SUBFAMILY LESTINAE.

A single genus, Lestes, is known from the subfamily Lestinae at
Douglas Lake. Since the females of the genus are so very much alike
no key has been made to distinguish them, the following key being only
for the determination of the males. Also no key has been made for the
determination of the nymphs as their great similarity makes identifica-

44 PAPERS ON ZOOLOGY OF MICHIGAN.

tion very difficult. It might be well to state that L. forcipata and L.
rectangularis have either five or six raptorial setae while L. unguiculata
and L. uncata normally have seven setae. There seems to be no very
definite way to distinguish between each of the two species which have
been thus separated. The nymph of L. disjuncta, the only other
species of Lestes knoAvn from Douglas Lake, is unknown.

GENUS LESTES LEACH.

I mayos.
A. Males metallic green.

B. Inferior appendages of the male viewed from above exhibiting a sigmoid curve.

L. unguiculatus
BB . Inferior appendages of the male viewed from above strongly dilated, at the ape.K.

L. uncatus
AA. Males blackish brown.

C . Ape.x of the inferior appendages of the male declined.

L. rectangularis
CC. Apex of the inferior appendages not declined.

D. Inferior appendages of the male viewed from above slightly vvidened at the tip;
proximal tooth on the inner edge of the superior appendage larger than the other.

L. forcipatus
DD. Inferior appendages of the male not widened at the tip; the two teeth on the
superior appendage about equal.

L. iHiijunctus

Lestes rectangularis Say. — A number of adults of this species were
taken both from the beach pool, which is located west of North Fishtail
Bay, and from Smith's Bog. Nymphs taken from the same habitat
as the adults were identified as L. redangidaris although they are very
similar to L. forcipata Rambur.

Lestes forcipatus Rambur. — This species was taken by Miss Abigail
O'Brien during the summer of 1910. She reports that a number of
adults were taken on August 19 but does not state the locality from
which they were secured. No adults were taken in the collections upon
which the present report is based, and since the nymphs of this species
are so much like those of L. redangidaris they were not determined.

Lestes unguiculatus Hagen. — One adult of this species and a number
of nymphs were taken on Maple River. The nymphs of this species
are very similar to those of L. uncatus Kirby.

Lestes uncatus Kirby. — Neither adults nor nymphs were referred to
this species although it is possible that some of the mniiphs identified as
L. unguiculatus may be L. uncatus. A number of adults were collected
by Miss O'Brien in 1910.

Lestes disjunctus Selys. — This species was not taken at Douglas Lake
in 1914 but were reported as common in 1910.

DRAGONFLIES OF DOUGLAS LAKE REGION. 45

SUBFAMILY COENAGRIONINAE
KEY TO THE GEXERA OF CEOXAGRIOXI XAE.

Imagos.

A. Xo postocular spots; dorsum bronzy green.

Nehalennia
AA. Light, round or ovoid, postocular spots.

B . Sexes unlike in color, female with the orange oi the abdomen covering less than
the three basai segments of the abdomen; males chiefly black or green with a
bifid process on the apical margin of the 10th abdominal segment; pterostigma
rhomboidal.

Ischnura

BB. Color of the males and females similar, females somewhat lighter; no upturned
bifid process on the apical margin of the 10th abdominal segment.

Enallagma

Xymphs.

A. Labium with one mental setae and a rudimentary second one; antennae six jointed.

Nehalennia

AA. Labmm with three to five mental setae; antennae seven jointed.

B . Labium with four to six lateral setae; usually three mental setae on each side.

Enallagma

BB . Labium with five or six lateral setae; four mental setae.

Ischnura

GENUS XEHALEXNIA SELYS.

Nehalennia irene Hagen. — This species was not taken in any of the
collections at Douglas Lake during the summer of 1914 but was re-
ported as common during July and August, 1910.

GENUS ENALLAGMA CHARPENTIER.

Two species of this genus, the males of which may be distinguished
by the following key, are known from the Douglas Lake region.

Imaoos.

A. Dorsum of segment two blue with an apical black spot.

E. carunculatum
AA. Dorsum of segment two black.

E. exulans

Enallagma carunculatum Morse. — This species was reported to be
common in the region throughout the summer of 1910. No habitat
data were given.

Enallagma exulann Hagen. — Specimens of these nymphs were taken
on Maple River. They were found clinging to the vegetation near
shore in very little water. The species has also been found in the water
of North P'ishtail Bav.

46 PAPERS ON ZOOLOGY OF MICHIGAN.

GENUS ISCHNURA CHARPENTIER.

Imagos.

A. Segments eight and nine of the abdomen blue with a black stripe on each side.

I. verlicalis

AA. Segments eight and nine of the abdomen black.

I. posita

Nymphs.

A. Labium with six lateral setae on each side.

I. verlicalis
AA. Labium with five lateral setae on each side.

I. pofita

Ischnura verticalis (Say). — This species was taken from the swifter
water of the station about two miles down Maple River.

Ischnura posita (Hagen). — This species was taken from the same
habitat as I. verticalis.

FAMILY AESHNIDAE.

This family is represented in the Douglas Lake region by two sub-
families.

Imagos.

A. Eyes distinctly separated above on the middle of the head.

Subfamily Gomphinae

AA. Eyes meeting above in the middle line of the heaa.

Subfamily Aeshninae

Nymphs.

A. Antennae four jointed, broad and flat; superior appendage not notched at the apex.

Subfamily Gomphinae
AA . Antennae six or seven jointed ; superior appendage notched at the apex.

Subfamily Aeshninae

SUBFAMILY GOMPHINAE.

Imagos.

A. Both triangles with a cross vein.

Gomphoides

AA. Both triangles without a cross vein, (except the discoidal triangle in Hagenius).

B . First and second anal veins angulated toward each other at the cross vein of
the anal loop, which contains from three to five cells.

C. Discoidal triangle without cross veins; anal loop three cellerl.

Ophiogomphus
CC. Di.scoidal triangle four sided, with cross veins; anal loop three to five,
usually four celled.

Hagenius

BB. First and second anal veins nearly parallel; anal loop one or two celled.

D. Hind femora with five to seven long spines in addition to the usuai short
ones.

Dromogomphus

DD. Hind femora with the usual short spines but with no long ones.

Gomphus

DRAGOXFLIES OF DOUGLAS LAKE REGION. , 47

\ yrnfhs.

A. Middle legs closer together at the base than the fore ones; inner wing cases strongly
divergent.

Goinphoides

AA. Middle legs as far apart as the fore ones.

B. Inner \ving cases strongly divergent.

Ophiogoniphus

BB . Inner wing cases parade,.

C. Third antennai joint flat, subcylindrical or broadly oval: body broad
and flat.

Hagenius

CC. Third a.itenna. joint .subcylindrkal, more than twice as long as thick.
D Dorsal hooks short but with acute spiny tips.
D romogomphus

DD. Dorsal hooks sometimes present, but obtusely pointed,
usually absent excepting a median tooth on the ninth segment.
Goraphus

GEXUS GOMPHOIDES SELYS.

Gotnphoides ohsainis (Rambur). — The nymphs of this species were
taken at the station on Maple River about two miles below the source.
They seem to prefer the SAvifter parts of the stream, clinging to and
crawling over the vegetation and rocks.

GENUS HAGEXIUS SELYS.

Hagenius hrevistylus Selys. PI. IX, Fig. F.; PI. X, Figs. B, D. —
Nymphs of this queerly designed species were taken many times during
the summer. They were found in Maple River, Bessey Creek and in
the beach pool near North Fishtail. The nymphs were taken from the
first layers of ooze along the bottom. No adults were taken.

GEXUS OPIflOGOMPHUS SELYS.

Ophiogomphus carolus Needham. — NjTnphs of this species were
found only in Maple River. Like those of Goinphoides obscurus they
were found in the relatively swift water on submerged vegetation, logs
and rocks. No adults were taken.

GENUS GOMPIIUS LEACH.

ImagoK.
A. Face entirely yellow.

B. Til)ia yellow externally; posterior abdominal segments not dilated.

G. spicatun
BB. Tibia black e.xteriiaiiy.

C" . Posterior end of the abdomen dilated.

G. ventricoKu.'<

CC . Posterior end ot the abdomen not dilated.

G. ilescripluH

48 PAPERS ON ZOOLOGY OF MICHIGAN.

AA. Face transversely banded with hlack.

D. Yellow ot the thoracic dorsum reduced to two narrow, oblique, isolated,
yellow strii)es.

G. scudderi
DD. Yellow stripes cf the thoracic dorsum broader; anterior face of the
hind femora yellow.

G. vastus

\ ymphs.

In the following key Gomphus rentricosuf; is not included since the nymph of that species is
unknown.
A. Four pairs of lateral spines.

B . Dorsal hooks more or less apparent on segments two or three to nine.

G. descriptris

BB . Dorsal hooks represented only by teeth on the posterior margins of eight and
nine.

CC . Lateral spines on nine about as long as the tenth segment.

G. vastus

CC. Lateral spmes on the ninth segment about half as long as segment ten.

G. scudderi

AA. Three pairs of lateral spines, the first pair very small.

G. spicatus

Gomphus spicatus Hagen. — Nymphs of this species were taken in
Maple River near its source. Their habitat is probably the stream
vegetation. No adults were taken.

Gomphus ventricosus Walsh. — This species was reported from the
region in 1910 but did not occur in any of the 1914 collections.

Gomphus descriptus Banks. — Only the nymphs of this species were
taken at one station on Maple River.

Gomphus scudderi Selys. — This species was not taken in 1914 al-
though adults were reported from the region in 1910.

Gomphus vastus Walsh. — Nymphs of this species were taken in
Bessey Creek where they seemed to prefer the bottom of the stream
and the lower paj"ts of the vegetation.

SUBFAMILY AESHNINAE.

Large numbers of nymphs representing six of the eight species of this
subfamily found in the Douglas Lake region were collected, but the
adults of only four species were taken. These species Epiaeschna
heros (Fabricius), B as iaeschna Janata (Say), Aeshna constricta Say and
Anax Junius Drury were very common.

Imagos.

A. Upper part of the arculus equal to or longer than the lower part; anal loop five to seven
sided.

B . Radial sector forked.

C . Radial sector forked near the middle.

Epiaeschna

CC. Radial sector forked beyond, i. e. apicad to the middle.

Aeshna

DRAGONFLIES OF DOUGLAS LAKE REGION. 49

BB. Radial sector not forked.

D. Space between the arculiis and the base of the wing crossed by from
two to six cross veins; anal triangle, in the male, three to five celled.
Boyeria
DD. Space between the arculus and the base of the wing free or crossed by
but a single cross vein.

Basiaeschna
AA. Upper part of the arculus shorter than the lower; the upper sector rising about midway
between the lower sector and the median vein above.

Anax

Xymphs.
A. Five pairs of lateral spines.

B . Antennae six jointed.

Epiaeschna
BB . Antennae seven jointed.

C. Lateral labial lobes scarcely tapering, subtruncate at the tip.

Boyeria
CC. Lateral labial lobes tapering to an incurved tooth.

Basiaeschna
AA. Three or four pairs of lateral spines.

D Four pairs of lateral spines, the anterior pair small.

Aeshna
DD. Three pairs of well developed spi.ies.

Anax

GEXUS EPIAESCHNA HAGEN.

Epiaeschna hews (Fabricius). — Adults of this large species were
common throughout the summer in various habitats. These dragon-
flies were found along Maple River and Bessey Creek, about the bogs,
over the lake, about a mile from shore, and back in the aspens a mile
or more from water. One specimen was taken about seven-thirty p.
M., in the late twiUght, as it was flying swiftly about one of the roads
through Reese's Bog. Adults of this species were especially abundant
in the vicinity of Smith's Bog.

GENUS BOYERIA MACLACHLAN.

Boyeria vinosa (Say). — The nj^mphs of this species were taken in
numbers from the submerged vegetation at Bryant's Bog. No adults
were captured.

GENUS BASIAESCHNA SELYS.

Basiaeschna Janata (Say). — The nj-mphs of this dragonfly -were found
on vegetation in Bessey Creek and the adults were caught along ]3oth
Maple River and Bessey Creek.

GENUS AESHXA FABRICIUS.

Imagos

A. Anal triangle of the hind A'ing of the male usually con,si.«tiiig of three cells; genital valve
of the female strongly elevated at the apex.

.1. constricta

7

50 PAPERS ON ZOOLOGY OF MICHIGAN.

AA. Anal triangle of the hind ving of the male usually consisting of two cells; genital valve
ot the female not strongly elevated at the apex.

B . A black line on the fronto-nasal suture; hamular processes short and broad.

A. inierrupta
BB . No black line on the fronto-nasal suture.

A. can:idensi^

Nymphs.

A. Mentum of the labium distinc.ly more than half as broad at the base as at the apex.

B. Lateral labial lobes squarely truncaie, the outer apical angle scarcely rounded.

A. interrupta
BB . Lateral labial lobes not truncate, but curving to a prominent, apical hook.

A canadensis
AA. Mentum of the labium not, or scarcely, half as broad at the base as at the apex.

A. constricia

Aeshna constricia Say. — Nymphs of this species were taken in Bessey
Creek and Bryant's Bog. Prof. Frank Smith also collected several
specimens in Indian River, the outlet, at the extreme southern end of
Burt Lake about nine miles from my Burt Lake station.

Aeshna interrupta Walker. — This species was reported from Douglas
Lake in 1910, one specimen being taken on August 18.

Aeshna cariadensis Walker. — This species was reported common to
the region during the summer of 1910. Neither nymphs or adults were
taken during the summer of 1910.

GENUS AN AX LEACH.

Anan Junius (Drury). PI. IX, Fig. E.; PI. X, Figs. E, F.— Both
adults and nymphs of this dragonfly were common all summer. Nymphs
were taken from the submerged vegetation at Smith's Bog, Bryant's
Bog and the beach pool near North Fishtail Bay, usually in water
which was relatively quiet. The adults of the species were taken in
various situations about the water as well as in the aspens near the lake.

GENUS DROMOGOMPHUS SELYS.

Dromogomj)hus spinosus Selys. — One specimen of this species,
undergoing exuviation, was taken on the dock near camp.

FAMILY LIBELLULIDAE.

KEY TO THE SUBFAMILIES OF LIBELLULIDAE.

Imayos.

A. Sectors of the arculus distinctly separated.

Subfamily Cordulinae
AA. Sectors of the arculus in close proximity or completely fused for a short distance from the
arcmus.

Subfamily Libellulinae

DRAGONFLIES OF DOUGLAS LAKE REGION. 51

Nymphs.

A. Lateral abdominal appendages more than half as long as the inferiors; hind femora longer
than the head is wide.

Subfamily Cordulinae

AA. Lateral abdominal appendages less than lidlt the length of the inferiors; hind femora
ge lerally as long as the head is wide.

Subfamily Libellulinae

Subfamily Corduliinae.

KEY TO THE GENERA OF CORDULINAE.

Imagos.

A. Triangle of the hind wing placed considerably beyond the arculus.

Macromia
AA. Triangle of the hind wi.ig retracted to the level of the arculus or even passing it.
B . Triangle of the hind wing with a cross vein.

Epicordulia

BB . Triangle of the hind wing without a cross vein.
C . Winga with black basal markings.

Tetragoneuria
CC . Wings clear.

Cordulia

Nymphs. ^

A. Head with a prominent, pyramidal horn.

Macromia
AA. Head without a prominent, pyramidal horn.
B . Lateral setae four or five.

Epicordulia
BB . Lateral setae seven.

C . Abdomen with large dorsal hooks.

Tetragoneuria

CG . Abdomen without dorsal hooks.

Cordulia

GENUS MACROMIA RAMBUR.

Macromia illinoiensis Walsh. PI. IX, Fig. C; PI. X, Fig. A. — This
spider-like nymph was only taken twice, once on Maple River and once
in the shallow water along the lake shore near camp. The nymphs
taken on Maple River were from vegetation along the shore but the
specimens taken at camp (these may have been wave-washed in-
dividuals) were found on the piles of the dock. No adults were taken.

GENUS EPICORDULIA SELYS.

Epicordulia priiiceps (Hagen).— This species was found to be rather
rare, only a few nymphs occurring in the collections from Maple River.

GENUS TETRAGONEURIA HAGEN.

Tetragoneuria spinoso (Hagen). — Nymphs of this species were taken
in Maple River, Bryant's Bog, and the beacli i)(k)1 Avest of North Fish-

52 PAPERS ON ZOOLOGY OF MICHIGAN

tail Bay. They were found among the submerged vegetation in fairly
deep water. No adults were secured. The eggs of this species, which
are laid in strings, were found attached to aquatic vegetation both in
North Fishtail Bay and at the mouth of Bessey Creek.

GENUS CORDULIA LEACH.

Cordulia shurlleffi, Scudder.— Nymphs of this species were taken in
Bessey Creek although they appear to be rather uncommon, judging
from the number appearing in the collections. These nymphs were
found along the shore in debris of various sorts.

Subfamily Lihellulinae.

KEY TO THE GENERA OF LIBELLVLIN AE.

Imagos.

A. Triangle oi the fore wing not placed distinctly beyond the level of the apex of the triangle
of the hind wing; ends of pterostigma not distinctly divergent.

B . Sectors of the arculus, veins Mi to 3 and M4, in the tore wing more or less com-
pletely fused for a short distaace beyond the arculus; triangle of the fore wing
not greatly produced posteriorly, normally contaiaing but a single cross-vein.
C . Vein Cui of the hind wing departing from the triangle at the hind angle.
D. Sectors of the arculus contiguous but incompletely fused for
a distance beyond the arculus; wings generally spotted with
yellow or reddish brown.

Celithemis
DD. Sectors of the hind wing distinctly fused for a distance beyond
the arculus.

Sympetrum
CC. Vein Cui of the hind wing migrating a litile way up the outer side of
the triangle.

Pachydiplax
BB . Sectors of the arculus of the fore wing contiguous but not completely fused be-
yond the point of their departure from the arculus.

Libellula
AA. Triangle of the fore wing placed distinctly beyond the level of the apex of the triangle of
the hind wing.

Tramea

Nymphs.

A. Basal segment of the nind tarsus more than hail as long as the second segment.
B . No dorsal hooks.

Pachydiplax
BB . With dorsal hooks at least on the middle abdominal segments.
C. Abdomen ovate.

D. Lateral spines long and straight.
Celithemis
DD. Lateral spines short and more or less incurved.
Sympetrum
CC . Abdomen lancolate; five to ten lateral setae.

Libellula
AA. Basal segment of the hind tarsus only half as long as the second segment; lateral setae
ten or more.

Tramea

DRAGONFLIES OF DOUGLAS LAKE REGION. 53

GENUS CELITHEMIS HAGEX.

Celithemis eyonina (Drury). — Nymphs of this species were collected
in the aquatic vegetation in Bessey Creek. Their frequent appearance
in collections from Bessej'- Creek marks the species as a rather common
form. No adults were taken.

GENUS SYMPETRUM NEWMAN.
Jmagos.

A. Superioi appendages of the male with a prominent, inferior, median tooth; vulvar lamina
01 the female divided by a median cleft into two lobes.
B . Wings with the basal half flavescent.

a. assimilatum
BB . Wings flavescent only at the extreme base, or at least not beyond the nodus.

C . Branches of the genital hamules of the male enclosing an oval notch,
outer branch twice as stout as the inner, both equally curved.

D. Median inferior tooth ot the superior male appendages bearing
two or three minute teeth and preceded by lour large coarse
teeth; iiuerior appendage of the male with a terminal recurved
hook.

S. scoticum
DD. Median liUerior tooth of the superior male appendages
simple, and preceded by three coarse teeth; terminal hooK
of the inferior appendage not recurved.
S. rubicundulum
CO . Branches of the genital hamules oi the male enclosing a short rounded
notch, the inner branch more sharply incurved, the outer branch about
four times as thick as the inner.

S. obtrusum
AA. Superior appendages of the male without a promine.it, inferior, median tooth, but with
several small, interior, subequal, pointed denticles, wings flavescent only at the base.

5. costiferum

Nymphs.

A. Dorsal hooks of abdominal segments six to eight long and sharp, about as long as their
respective segments; lateral spines straight.

S. costiferum
AA. Dorsal hook of abdominal segments six to eight shorter than the segments bearing them
and less pointed than in the preceeding species.

S. assimilatum
S. rubicundulum
S. obtrusum
Owing to the incompleteness of the knowledge of the nymphs in this genus the above key
gives the diagnostic characters of but one species. No description of the nymph of S. scoticum
(Donovan) was found.

Syinpetruni assimilatum (Uhler). — Reported from the region in 1910,
a male and female being taken in coitu, as well as a numl^er of other
specimens.

Sympelrum riihiundulum (Say). — This sj)ecies was common near
North Fishtail Bay and at Smith's Bog. Adults were abundant in a
little relic bog near North Fishtail. Nymphs were taken in numbers
from Bessey Creek, the North Fishtail beach pool and at Smith's Bog.

54 PAPERS ON ZOOLOGY OF MICHIGAN.

Sijmpetrum scoticum (Donovan). — Reported on August 11, 1910.
No habitat data given.

Sympetrum ohstrusum (Hagen). — This species was reported as com-
mon in the region from July 23 to August 20, 1910. No habitat data
were given. It was not included in the 1914 collections.

Sympetrum costiferum (Hagen). — Reported in 1910.

GENUS PACHYDIPLAX BRAUER.

Pachydiplax longipennis (Burmeister) . — One nymph of this species
was collected about two miles down stream from the lake in Maple
River, where it was found among trash and vegetation along the shore.

GENUS LIBELLULA LINNE.

KEY TO THE SPECIES OF LIBELLULA.

Imagos.
A. Wings with no nodal spots.

L. cyanea
AA. Wings with large nodal spots.

L. pulchella

Nymphs.

A. Dorsal hooks on the seventh and eight abdominal segments long and sharp; lateral setae
six.

L. cyanea

AA. Dorsal hooks on the seventh and eighth abdominal segments rudimentary; lateral setae
eight or nine.

L. pulchella

. Lihellula cyanea Fabricius. — The nymphs of this species were col-
lected at the station on Maple River about two miles down from the
lake. They were taken among trash along shore.

Lihellula pulchella Drury. — This species was taken in both the
nymph and the adult stages. They were found common about North
Fishtail Bay as well as on Maple River. The nymphs were taken in
trashy situations along the shore; the adults flying about near the
shore.

GENUS TRAMEA HAGEN.

Tramea lacerata Hagen. — Nymphs of this species were among the
most common forms collected. A single dip of the net through the
submerged vegetation in Bryant's Bog would usually yield twenty or
more of the nymphs. The nymphs were also found in both Smith's
and Reese's Bogs. Although large numbers of nymphs were collected
no adults were obtained.

DRAGONFLIES OF DOUGLAS LAKE REGION.

55

DISCUSSION AND SUMMARY.

The suborder Anisoptera, which contains some of the largest and
most handsome dragonflies, includes the majority of species of Odonata
at present kno^^^l from the Douglas Lake Region. (See Table 1). Of
the forty-three species which have been collected in the region thirty
are Anisoptera. The nymphs of the Anisoptera occupy every type of
habitat suitable for Odonata from the stagnant bog to the swnftly
flowing streams, and adults of this group were found flying about
through the aspens a mile or more from water as well as some distance
from the shore over the lake. In general the adults of Anisoptera are
ver}' alert and so active on the A\'ing that their capture in many cases is
almost impossible. On the other hand, however, in certain places
which were infrequently visited, as Smith's Bog, the adults seemed less
shy and w^re easih' captured as they hovered before one.

TABLE 1.— SUMMARY OF SPECIES.

Suborder ZYGOPTERA

13

5

2

1

II Ceonagrionidae

10

5

1

2

2

Suborder ANISOPTERA

30

16

III. Aeschnidae

.

1

3

14

20. Cordulia .

I

21. Celithemis . . .

23. Pachydiplax . . .

24. Libellula. ...

25. Tramea. . .

Total

43

In connection with the above table it is interesting to note that the
forty-three species listed represent a rather rich Odonata fauna for the
region studied, since Williamson* records but eighty-three species
(forty-three Z.ygoptera and forty Anisoptera) from the entire state of

<Rept. Iiul. Dept. Geol. Naf. Resources, 1900. p. 233.

56

PAPERS ON ZOOLOGY OF MICHIGAN.

Indiana and Muttkowski^ records four hundred ninety-four species
and subspecies from North America.

The data gathered, coming from varied habitats as they do, make
possible an ecological studj^ of the nymphs. These habitat relations
have been incorporated in Table 2.

TABLE 2.— HABITAT PREFERENXES OF THE NYMPHS COLLECTED.

Species.

Vegetation.

No vegetation.

Bottom.

Water.

Muck.

Sand.

Rapid. Slow.

StilL

ZYGOPTERA

Agrion maculatum

Agrion aequabile

Hetaerina americana

Lestes rectangularis

Lestes unguiculata

X
X
X
X
X

X

X
X
X

X

X

X

X

^

:::::: ::::::

Enallagma carunculatum. .

X

X

X

X
X

X

X

X

X

X
X

X
X

Isclinura yerticalis

ANISOPTERA

X X
X X
X X

X
X
X

X
X
X

X

Ophiogomphus carolus. . . .

Gomphus spicatus

X ^
X "
X

X
X

X
X

X

X
X

X
X

X

X

X

Gomphus descriptus

Epiaesohna heros

X
X

X

X

X

X

X
X

X
X

X

X

X

X •

X
X

X

X

X
X

X
X
X
X
X
X
X

X
X

X

Epicordulia princeps x

Tetragoneuria spinosa .... x

X
X

X
X

xxxx

X

Celithemis eponina x x

Sympetrum rubicundulum. x x

X

X

1

i

1

Pachydiplax lorigipennis.. . i x x

Libellula pulchella x x

Libellule cyanea x x

Tramea lacerata x x

X

X
X
■K

X
X

X

X X

X

X

x

X

j 2.5 20

22

14

15 20

16

It is to be noted that this table lacks data for twelve species which
are known from the Douglas Lake Region.

Table 2 shows rather well the vertical distribution within the habitats
and the habitat preferences. In general it may be said that the Aesh-

'Bull. Public Mus. Milwaukee, I, 1910-11, p. 6.

DRAGOXFLIES OF DOUGLAS LAKE REGION. 57

ninae are found almost entirelj' in and on the submerged aquatic vegeta-
tion or on objects not covered with mud. The nymphs were almost
^vithout exception clean, brightly colored and active. The Gomphinae,
on the other hand, were usually found in numbers on a mud bottom
in the top layers of the ooze. Specimens were, however, occasionall}'
captured on vegetation, logs or other floating objects, a fact which might
be explained as a preparation for the moulting attendant to trans-
formation. Gomphid n^^nphs were almost alwa3's dully colored and
more or less incrusted vrith mud and algae. The Libellulids were usually
found in the trash and debris on the bottom of the stream or among
the lower parts of the vegetation. Their preference for such situations
is also shown by the large number of mud-incrusted specimens of this
group collected. Some species of this famil}^, for example, Tramea
lacerata, were taken in water less than two feet deep at Bryant's Bog.
The great depth of the water in the center of this bog, where it exceeds
twenty-five feet, may account for these nymphs being nearer to the
surface, clinging to the aquatic vegetation.

Without exception the Zygoptera of the region were found in aquatic
vegetation rather near the surface of the water. The njTiiphs of some
species, for example Agrion aequabile, frequent the swiftest parts of
small streams. The preference of the Zygoptera njTnphs for surface
situations or rapidly moving streams may be a corollarj' of the oxygen
relations. In this connection it was observed that the Gomphid njonphs
have a very characteristic way of holding the posterior end of the ab-
domen turned up at a ver}- decided angle. This habit, together with
their mud-burrowing habit and the length of the tenth abdominal
segment, which segment in many cases is much longer than the ninth
segment, might be interpreted as an adaptation for securing a better
supply of oxA^gen. The top layers of ooze through which the njTnphs
crawl generally contain decaying animal and vegetable matter from
which more or less carbon dioxide is discharged; thus a nymph would
be able to get more water and hence more oxygen if the end of the
abdomen could be extended upward above the ooze.

University of Colorado,

October 24, 1914.

BIBLIOGRAPHY.

Muttkowski, II. A., Catalogue of the Odonata of North America,
Bull. Public Mus. City of Milwaukee, Vol. I, i)p. 1-208, 1910-11.

Needham, J. G., and Hart, C. A., The Dragonflies (Odonata) of Illinois,
Pt. I, Bull. 111. State Lab. Nat. Hist., Vol. VI, Art. I, pp, 1-94, 1901.

Needham, J. G., Aquatic Insects in the Adirondacks, Bull. 47, N. Y.
State Mus., pp, 383-591, 1901.

58 PAPERS ON ZOOLOGY OF MICHIGAN.

Needham, J. G., Aquatic Insects in New York State, Bull. 68, N. Y.

State Mus., pp, 199-501, 1903.
O'Brien, Abigail, Odonata Collected at Douglas Lake, Michigan, in the

Summer of 1910, Rept. Mich. Acad. Sci., for 1910, pp. 144-145, 1911.
Walker, E. M., The North American Dragonflies of the Genus Aeshna,

Uni. Toronto Studies, Biol. Ser. No. 11, 1912.
WilUamson, E. B., Dragonflies of Indiana, Rept. Ind. Dept. Geol. Nat.

Resources, for 1899, pp. 229-333, 1900.
Idem, Notes on a Few Wyoming Dragonflies, Ent. News, Vol. XI,

No. 5, p. 457, 1900.

Mirliifjan Geological and
Biological Survey.

]'ul)liralioii 20; Hiology 4.
Plate IX.

B.

C.

D,

E.

F

ICMHK .\. .\l)ri/l' ()!■• IIETAEiaXA A MEUIC.WW ( F.\Hi; !( 'US).

KilHK H, ADfLT Ol' A(,h'I(>\ A lUji A HI LE (SAV).

KUHK C, XVMPM ol M AdiOMI A 1 LLISOIEXSIS WALSH.

icrin': n, adilt ok Aa/nox macclatum liKAiXAis.

ICnUK K, ADl'LT OK .lA'.lA' JUNIUS (DRUIiY).

loriU'; I', N'SMPii Ol' iiAdEMfs /y/i-AT/.s-y}-/, r.s sl■:I,^•s.

Michigan Geological and
Biological Survey.

Put

licalion 20; Biology 4.
Plate X.

B

K

■KMHl-;

■Kir in:

•IGIHK
•lOrHK

■ icriiiv

A. I, A I?
H. I'lCl
C. I ICI

1 ) . s 1 1 ) !■;
< i; AM

F

IM or A XYMIMI OF MACItOMIA ILLISOIKSSIS WALSH

()!• II MiESIVS HRKVISTYIA'S SKLVS.
Ol' THK LABIUM OK AdiloS AEQ [■ Mil LI-: (SAY).
,\V OKTHIO ABOOMION «»1' II .\(. !■: \ I CS HR KV I STY LIS ^V.L\
|-()KK AND MINI) W I\(!S ol' .1 AMA' IIMI S iDUl KYl.

THE REPTILES AND AMPHIBIANS OF MONROE COUNTY,

MICHIGAN.

CRYSTAL THOMPSON.

THE REPTILES AND AMPHIBIANS OF MONROE COUNTY,

MICHIGAN.

CRYSTAL THOMPSON.

An expedition was sent by the Michigan Biological Survey into
Monroe County during the summer of 1913 to determine the reptile-
amphibian fauna of the county and to gather additional data on these
groups in the southeastern part of the state.

Monroe County lies in the extreme southeastern corner of Michigan
and is bordered entirely on the east by Lake Erie — which forms the
outlet for the drainage sj^stem. .The county as a whole is a flat plain
sloping very gently to the southeast, the principal stream being the
River Raisin which flows in a generally southeasterly direction and
empties into the lake about 4 miles east of the city of Monroe.

Collecting was first carried on along the shores of Lake Erie, in the
vicinity of Monroe Piers, and later in the summer along the river about
four miles west of the city of Monroe. At Monroe Piers there is a
narrow strip of sand beach back of which are hundreds of acres of over-
flowed marsh land. This strip of beach is partly covered with vegeta-
tion, there are a few large trees and the whole is over-run A\'ith wild
grape vines. The water averages perhaps three or four feet in depth
in the marshes, which are groAvn up with water plants. Occasionalh"
throughout the marshes are small areas of higher land, and the bed of
an electric line running out to the Piers forms a strip of dryer ground.

The region worked above Monroe is a thickly settled farming country
with very little uncultivated land. About one-half mile north of the
river and running parallel with it for several miles is a stretch of wood-
land— portions of which are not pastured or otherwise disturbed. A
few small streams enter the river on the north and on the south, but
with the exception of a few ponds in an old limestone quarry at Grape
there are no ponds or lakes in the region worked.

The reptile-amphibian fauna is limited now, both in species and in-
dividuals. Fourteen species were taken of which six were amphibians
and eight reptiles. Several features have combined to cause a scarcity
of these groups. Storms are very frequent along the lake shore and
during the winter and spring months the strip of sand beach is fre-
quently entirely submerged — destroying much of the animal life.
Water birds are abundant and no doubt consume great numbers of

62 PAPERS ON ZOOLOGY OF MICHIGAN.

frogs and snakes in a season; many of the amphibians taken are badly
mutilated. The frogs are hunted incessantly by fishermen for bait and
food and all snakes are considered harmful and killed at sight. Prac-
ticall}' the same conditions prevail up the river. The farmers are
especially zealous in their attack on snakes. The countrj'^ is thickly
settled — has been cultivated for years and at the present time there is
very little land that remains undisturbed for more than a season.
Raccoons are common in the country west of Monroe and the small
streams are bordered with paths made by them in their search for food
which consists parth' of amphibians. The fact that there are prac-
tically no permanent ponds, those formed in the spring existing only
for a very short time, means that breeding conditions are unfavorable
for forms which congregate in such places to breed.

LIST OF SPECIES.

Amphibia.

1. Necturus maculosus Rafinesque. — A single specimen was found
dead on the beach after a hard storm. The fishermen report that
this species is commonly taken in the spring in their nets in the
lake and that it is also frequently caught in dip nets in the river
at that season.

2. Bufo americanus LeConte. — Nine specimens were taken, eight of
which were collected along the sand beach, where they seem to be
common. Onh^ one was seen up the river. The numerous in-
sects on the beach furnish an abundance of food.

3. Acris gryllus LeConte. — The call of the cricket frog was heard in
the swamp back of the sand beach at the Piers but none were ob-
served there. Seven specimens were collected from the grass at
the edge of the ponds in the quarry at Grape.

4. Chorophilus nigritis (LeConte). — A single specimen was taken
under the bark of a fallen tree in a damp woods one-half mile
north of the river and about four miles west of Monroe.

5. Rana pipiens Shreber. — The leopard frog is the most common
amphibian of the region, although it is not present in large numbers.
Thirt}^ specimens were taken of which seventeen were collected
in the marshes and along the shore of Lake Erie in the immediate
vicinity of Monroe Piers. In this region they seemed to prefer
the marshes and railroad embankment and were found in smaller
numbers on the sand beach. West of Monroe they were collected
in all of the habitats examined.

6. Rana damitans Latreille. — A single specimen was taken at night

REPTILES AND AMPHIBIANS OF MONROE COUNTY. 63

from a pond at Grape. Several others were heard at various
times but the}' were not common.

Sauria.

7. Eumeces quinquilineatus (Linnaeus). — Seven individuals were
taken in a woods one-half mile north of the river. The woods are
apparently little disturbed and there are manj' fallen trees, old
stumps and decajang logs. Three of the number are old in-
dividuals, and four are very recently hatched young.

Serpentes.

8. Storeria dekayi (Holbrook). — This species is apparently rather
rare in the region, only two specimens being taken, — both in the
woods north of the river.

9. Elaphe vulpinus (Baird & Girard) — A single specimen was col-
lected by the roadside along the river bank on the eastern edge of
the city of Zvlonroe. We were told that formerly- a "family" of
these snakes lived for several years about an old stone pier up the
river. The species is now only rarely seen in the county.

10. Thamnophis surtalis (Linnaeus). — The gartersnake was found in
all the habitats studied. They were most common along the rail-
road embankment where there was considerable water on either
side. On the marsh side the water was shallow and contained
quantities of small fish and frogs which served as food. A few
were taken along the beach, but they were not common there.
Farther up the river this species was only rarely found, and the
farmers reported it as uncommon.

Testudinata.

IL Platypeltis spinifera (LeSueur). — The soft shelled turtle was
found in the river but was not common; only three specimens
were taken.

12. Chelydra serpentina (Linnaeus). — The snapping turtle is common
in the river, particularly above Monroe, where it is little disturbed.

13. Chrysemys cinerea (Bonnaterre). — Five specimens were taken
from the river. It is a common .species.

14 Graptemys geographica (LeSeuer). — Although only five specimens
were taken this seems to be the dominant turtle in the river.

RESULTS OF THE MERSHON EXPEDITION TO THE CHARITY
ISLANDS, LAKE HURON: COLEOPTERA.

A. W. ANDREWS.

RESULTS OF THE MERSHON EXPEDITION TO THE CHARITY
ISLANDS, LAKE HURON: COLEOPTERA.

A. W. ANDREWS.

The writer was a member of the Mershon Expedition of the University
of Michigan for nine days in 1910. He was on the islands from June
19 to June 26 and on July 16 and 17. During this time the beetle
fauna was studied carefull}' with the result that 623 species were ob-
tained with habitat data^ The field work covered such a short period
that much remains to be done, but conditions were so favorable and the
results form such a considerable contribution to our knowledge of the
fauna of these islands that it seems best to publish them.

The location and description of the Charities have been given by
several men. Briefly, the}^ consist of three small islands in the mouth
of Saginaw Bay, and are distant about ten and eight miles from the
south and north shores, respectively. Gull Island is the smallest of the
group, and was not studied. Little Charity is second in size and has
some forest cover. It was apparently poor in Coleoptera and received
little attention. Charity Island, the largest in the group, contains
about 650 acres, is densely wooded in the interior, supports a pond of
about 2 acres, has extensive sand and rock beaches, and has been
practically undisturbed by man It was found to be very rich in
beetles and received practically all of the writer's attention.

HABITAT DISTRIBUTION OF THE COLEOFTERA.

The northeast beach of Charity Island proved to be the most im-
portant beetle habitat. A great number of specimens were found on
the logs, rocks, stones, and sand, and on the bushes which are here but
a few yards from the water's edge. At the time studied the conditions
favored the concentration of beetles on this shore. The wind blew
steadily for twelve out of fourteen days from the northeast, and the
waves washed up specimens of various species and a considerable
amount of food that attracted carnivorous species. Other species were
obtained by beating the bushes and trees, on the top and under boards

•The writer is indebted to .loliti I), Siierma,ii, .Jr., Brooklyn. N. Y., for tlie <lfterinliuitioii of
many species of Carabidae and Dytiscidae; to A. B. Wolcott of tlie Field Museum of Natural
History, Chicago for naming many species of ("urculionidae and Klaleridae, and to K. E.
Swartz of the V. S. NationarMnseuni for a number of species of Curculioni<lae and F.lateridae.
He is also indebted to ("aptain Charles McDonald and his a.;s'stant, .Joseph Singrleton, of the
lighthouse of Charity IslaiKi, for assistance in the field.

68 PAPERS OX ZOOLOGY OF MICHIGAN.

placed end to end on the damp sand Many species of water beetles
were taken in the rock pools.

The southwest beach was, on the other hand, a \'eTy poor place for
finding Coleoptera, even when the wind and waves were from the
southwest. The strip of sand running parallel with the beach was far
wider in extent on this shore, but was loose and dry and supported
scattered shrubs and plants of various species; the sand being so loose
and dry as to make it almost an impossibility for predaceous beetles
to move on the surface. The trees, shrubs and flowering plants near
the shore proved to be the best habitat for beetles. Many species
were found here that did not appear on the northeast shore.

The other shores with a ■s\'ide sandy beach proved to be very poor
beetle habitats; little or nothing being found on them except one species
of Cicindela. The interior of the island was also a poor beetle habitat.
Some species of Ceraml^ycids, however, were to be seen on the blossoms
of Xew Jersey tea which grows along or near the path running across
the island.

Contrary to expectation, the light from the lighthouse did not seem
to attract the beetles It did, however, attract June flies, Ephemeridae,
in vast numbers, for Captain McDonald informed the writer that on
one morning he filled over six bushel baskets with the flies collected on
the lighthouse platform. A number of species were found at night on
the window screens and walls of the lighthouse, attracted by the lamp
and white walls on the outside of the building, and manj^ beetles were
fl3''ing about the open space of land occupied by the lighthouse, some of
which were taken with the net.

The number of species taken in each habitat is as follows:

355 only on or near the northeast shore.

116 only on or near the southwest shore.

32 found on or near both northeast and southwest shores.

4 in the interior of the island.

78 near the pig-pen, at or near the lighthouse, on flowering shrubs
near the path to the lighthouse, at sugar lures on trees and in a lantern
trap in the clearing.

MERSHON EXPEDITION TO CHARITY ISLANDS.

69

Family.

Carabidae .

Dytiscidae and
Hydrophilidae

Distribution by Families.

Number of Habitat,

species.

134 Northeast shore.

12 Southwest shore.

5 Northeast and southwest shores.

39 Northwest shore.

12 In pond near southwest shore.

7 Northeast and southwest shores.

3 Northeast shore.

4 Southwest shore.

1 Little Charity Island.

11 Northeast shore.

1 Southwest shore.

1 Interior of island.

13 Northeast shore.

3 Southwest shore

1 Northeast shore.

4 Southwest shore.

3 Northeast shore.

6 Southwest shore.

16 Northeast shore.

17 Southwest shore.

5 Northeast and southwest shores.

10 Northeast shore.

4 Southwest shore.

3 Northeast shore.

6 Southwest shore.

1 Northeast and southwest shores.

2 Northeast shore.

2 Southwest shore

1 Northeast and southwest shores.

3 Northeast shore.

1 Little Charity Island.

32 Northeast shore.

5 Southwest shore.

1 Northeast shore and center of

island.

2 Northeast and southwest shores.

6 Near the pig-pen.

21 Northeast shore.

13 Southwest shore.

15 Near lighthouse.

70 PAPERS ON ZOOLOGY OF MICHIGAN.

Distribution by families. — Continued.

Family. Number of Habitat,

species.

f 10 Northeast shore.

Chrysomehdae ■{ 25 Southwest shore.

1 2 Northeast and southwest shores.

I 5 Northeast shore.

Tenebrionidae -| 5 Southwest shore

4 Northeast and southwest shores.

34 Northeast shore.

CurcuHonidae ■{ 6 Southwest shore.

3 Northeast and southwest shores.

Calandridae 15 Northeast shore.

This is not a complete hst of all the families found. A few of those
represented by a small number of species are omitted.

Fauna of the Beaches. The writer believes that the greater part of
the beetles seen on the northeast shore belonged to the island, that is
bred there, and that the beetles undoubtedly washed up on this shore
were either blown off the i.sland or when flying off the shore dropped in
the water when tired out and were washed ashore. As will be seen
from the follo\\ang data the wind was northeast twelve days out of the
fourteen and the waves came from the direction of open water in Lake
Huron: June 18-21 northeast, fair; June 22 southwest, fair; June 23-
25 northeast, fair; June 26 southwest, cloudy; July 12-13 northeast;
July 14 southwest, fair; July 15 northeast, variable, rain; July 16-17
northeast, bloAving hard. Consequently the beetles would be in the
water many days if they came from the mainland, and in order to strike
the mile length of northeast shore on Charity Island, increditable
numbers must have been scattered over the twenty mile width of Sagi-
naw Bay. Also the low sandy shore on the mainland at Caseville ought
to have received a large number if they came from the northeast, but
the writer found none to speak of there.

The ability of our beetles to live in the water varies from two hours
to seventy-two hours, if we except a few species of Curculionidae. By
making a series of experiments the writer found the period of life in
still water to be about as follows: Cicindela four hours. Twenty
species of Carabidae four to twenty hours. In about twentj' hours
they became water-logged, most of them sinking to the bottom. Har-
palus caliginosus lived fortj'-eight hours but was dead and water soaked
in seventy-two hours. Elateridae, a number of species, did not hve
three hours. Buprestidae, some species did not live ten hours, most of
them sinking to the bottom, but Acemaeodera pulchella was alive and

MERSHON EXPEDITION TO CHARITY ISLANDS. 71

active at the end of seventy-two hours. Scarabaeidae. a number of
difTerent species, died in forty to forty-eight hours. Chrj-somelidae Uved
in the water twelve to forty-eight hours. Tenebrionidae, five or six
species, lived only four to ten hours. Coccinellidae, all the various
species experimented with lived forty-eight hours and were active up
to that time, but were all dead in seventy-two hours and did not sink
to the bottom. Curculionidae showed a rather wide range in their
ability to resist the action of water, living in some cases only ten hours,
others ranging from ten to seventy-tw^o hours. Cryptorhijnchus lapathi
Linn, seemed to be very hardy, as it w^as in good active condition
after being in water for a week.

From these experiments the writer is convinced that the beetles on
the northeast shore did not come from the mainland but from the
island itself, and hence we do not have in the drift an explanation of
the origin of the beetle fauna of the islands. A few species may have
reached the island in this way, but of the great numbers that each year
fall into the lake waters along the mainland shores very few would
reach the island, as the most of them would be drowned long before they
had traversed the distance. Very few, at least in recent years, would
be carried by drift wood, as little or none is cast up on the shores The
bay is verj- free of anything of that description, although in the time of
extensive lumbering in the Saginaw Bay region great quantities of
lumber did come ashore and probably brought some of the species that
are now breeding on the island. The dung })eetles found on the island
must have reached the island since the lighthouse was built, as before
thai: time they could not live there. None of the large dung beetles
were found on the shore of the islands, although very common on the
mainland.

It is probable that most of the species have reached the islands bj'
flight, and that the growth of the fauna has been slow and accompanied
by an elimination of unfit species. Families that require particular
conditions not found on the island are apparently not represented and
the species that do not make long flights, such as C'icindelidae, are very
poorly represented although the conditions are apparently favorable.

The isolation of the islands is apparently not great for beetles. Little
or no variation from the mainland type in color or form can be seen in
specimens found. This would be expected from the short distance from
the mainland.

LIST OF SPECIES.

Cicindelidae.

1. Cicindela sexguttata Fab. One specimen found on the sandy
path, near the southwest shore, June 16.

72 PAPERS ON ZOOLOGY OF MICHIGAN.

2. Cicindela repanda Dej. Four specimens taken on the dry sand
of the east shore. It was breeding in this locaUty and a number
were seen on June 26.

3. Cicindela purpurea OUv. One specimen found running on the
rocks of the northeast shore, June 26.

Carabidae.

4. Omophron nitidum Lee. Nine specimens found running on the
beach and under the boards and debris on the northeast beach,
June 24. Fairly common.

5. Omophron dentatum Lee. Nine specimens found running on the
beach and under the boards and debris on the northeast beach,
June 24. Fairh- common.

6. Omophron americanum Dej. Two specimens found under boards,
on the northeast shore, June 19.

7. Carabus meander Fisch. Six specimens found running on the
sand and the rocks, on the northeast beach, July 17. It did not
appear in June.

8. Carabus serratus Say. One specimen found on the northeast
shore near the lighthouse, June 20.

9. Calosoma scrutator Fab. Two specimens running on the wet sand
and the rocks, on the northeast shore, June 20-22.

10. Calosoma willcoxi Lee. One specimen running on the wet sand,
on the northeast beach, near the lighthouse, June 22.

1 1 . Calosoma frigidum Kirby. This species was seen in great numbers
running on the wet sand and on the rocks, and under the boards
and debris, on the northeast shore, June 19-20. One specimen
was taken at a sugar lure on a tree near the lighthouse, the night
of June 26.

12. Calosoma calidum Fab. This species was observed running on
the sand and the rocks and under the boards and debris, on the
northeast shore, June 19, 22 and July 17. Not common.

13. Elaphrus clairvillei Kirby. Six specimens found running under
debris, very active, on the northeast beach, July 17.

14. Elaphrus riparius Linn. Eight specimens found hunting food
on beach and under the boards and debris, on the northeast
shore, July 19, 22. Fairly common.

15. Elaphrus fuliginosus Say. Two specimens were taken; they
were observed on the beach and under debris, on the north-
east shore, June 19-22.

16. Blethisa quadricollis Hald. One specimen found under the
debris, on the northeast shore, July 17, very active.

MERSHON EXPEDITION TO CHARITY ISLANDS. 73

17. Loricera caerulescens Linn. One specimen found under the
debr.'s, on the northeast shore near the lighthouse, July 17.

18. Scarites subterraneus Fab. Two specimens found in cells formed
in the damp sand under a board, on the northeast shore, June 25.

19. Clivina impressifrons Lee. Found in numbers running on the
sand of the northeast shore, June 20-22. Very common.

20. Bemhidium Uttorale Oliv. One specimen found under the debris,
on the southwest beach near the lighthouse, July 17.

21. Bembidium americanum Dej. One specimen found under the
debris near the water on the northeast shore, July 17.

22. Bemhidium nigrum Say. One specimen found under boards, on
the northeast beach, June 20.

23. Bemhidium scopulinum Kirby. Four specimens taken. It was
observed running on the wet mud and rocks of the northeast
shore, July 17. Fairly common.

24. Bembidium versicolor Lee. (.)ne specimen, founfl under debris,
on the northeast beach, June 22.

25. Bembidium assimile Gyll. One specimen found under log, on
the northeast beach, June 20.

26. Patrobus longicornis Say. Six specimens found under the washed
up rushes on the southwest shore, Juh" 17. Two found under
the debris on the northeast shore, July 17.

27. Pterostichus coracinus Newm. Four specimens running on beach
and under boards and debris, on the northeast beach, June 19.

28. Pterostichus relictus Xewni. Two specimens found under debris,
on the northeast beach, June 23.

29. Pterostichus permiindus Say. One specimen found under the
debris on the northeast beach, July 17.

30. Pterostichus sayi Bruelle. Five specimens found under boards,
on the northeast beach, June 19. One found under a board
near the water on the northeast beach, July 17.

31. Pterostichus lucublandus Say. Two specimens found under a
board, on the northeast beach, June 20.

32. Pterostichus caudicalis Say. Six specimens found under boards
and debris, on the northeast beach, June 19 and July 17.

33. Pterostichus luctuosus Dej. Two specimens found under boards,
on the northeast beach, June 20.

34. Pterostichus corvinus Dej. Four specimens found under debris,
on the northeast beach, June 19.

35 Pterostichus scrutator Lee. Two specimens found under a board,

on the northeast beach, June 20.
■36. Pterostichus mutus Say. Two specimens found under a board,

on the northeast l)each, June 22.

74 PAPERS OX ZOOLOGY OF MICHIGAN.

37. Pterostichus pennsijj'anicus Lee. One specimen found under a
board, on the northeast beach, June 26.

38. Pterostichus erythropus Dej. Two specimens found under a log,
on southwest beach, June 19. One found under a board, on the
northeast beach, June 22.

39. A7nara avida Say. Two specimens found under a board, on the
northeast beach, July 17.

40. Amara exarata Dej. Two specimens found under a board, on
the northeast beach, June 23. One specimen found under a
board, on the northeast beach, July 17.

41. Atnara laiior Kirby. Two specimens found under boards, on
the northeast beach, July 17.

42. Amara angustata Say. One specimen found running on a log,
on the northeast beach, June 24. One found under a board,
on the northeast beach, July 17.

43. Amara impundi colli s Say. Two specimens found under debris,
on the northeast beach, June 20.

44. Amara crassispina Lee. One specimen found under debris, on
the northeast beach, June 22.

45. Amara cupreolata Putz. Three specimens found under a board,
on the northeast beach, July 17.

46. Amara fallax Lee. One specimen found hunting on the sand, on
the northeast beach, June 21.

47. Amara protensa Putz. Two specimens found hunting on damp
sand, on the northeast beach, June 21.

48. Amara polita Lee. One specimen found under debris, on the
northeast beach, July 17.

49. Amara erratica Sturm. Four specimens found running on the
sand, on the northeast beach, June 20. Two found under flat
stones, on the northeast beach, June 20.

50. Amara inierstitialis Dej. One specimen found under a fiat stone,
on the northea.st beach, June 20.

51. AiJiara obesa Say. Two specimens found under logs, on the
northeast beach, June 20. Two found under boards, on the
northeast beach, June 23. Six found under boards and debris,
on the northeast shore, July 17.

52. Amara remotestriata Dej. One specimen found under a board,
on the northeast beach, June 22. Three found under boards,
on the northeast beach, July 17.

53. Amara ruhica Hald. One specimen found under debris, on the
northeast shore, July 17.

54. Amara gihba Lee. Three specimens found under debris, near
the northeast shore, Jul}^ 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 75

55. Amara suhaenea Lee. Five specimens found under boards, on
the northeast beach, June 20. One found under debris, on the
northeast beach, July 17. Very active.

56. AtJiara 7nusculus Say. One specimen found on the sand near a
log, on the northeast beach, June 21. Three found under the
debris, on the northeast beach, June 22. Two found under
boards, on the northeast beach, June 23.

57. Amara species near chalcea. Two specimens found under de-
bris, near the northeast shore, July 17.

58. Diplochila laticolUs Lee. Three specimens found under logs, on
the southwest shore, June 20. Three found under a log, on the
northeast beach, June 23.

59. Diplochila laticolUs var. rnajor Lee. Three specimens found
under boards and one dead in the water, on the northeast shore,
June 19. Four found under debris, on the northeast shore,
July 17.

60. Diplochila impressicollis Dej. Four specimens found in cells
made in the sand, under boards, on the northeast beach, June 22.
Three found under a log, on the northeast beach, June 23. One
found under a board, near northeast beach, July 17.

61. Diplochila impressicollis var. alternans Casey. This species was
found under boards and debris, on the northeast shore, June 19
and July 17. Fairh- common.

62. Diplochila ohtusa Lee. Three specimens found under boards,
on- the northeast shore, June 22. One found under a board, on
the northeast shore, Ju y 17.

63. Dicaelus purpuratus Bon. One specimen found under a board,
on the northeast beach, June 22.

64. Badister pulchellus Lee. One specimen found under debris, on
the northeast beach, June 25.

65. Calathus gregarius Sa3^ One specimen found under debris near
the water on the northeast beach, July 17.

66. Platynus hypolithus Say. One specimen found under a flat
stone, on the northeast beach, June 21.

67. Platynus clecens Say. One specimen found under a board, on
the northeast beach, June 22.

68. Platynus sinuatus Dej. Two specimens found under debris, on
the northeast shore, July 17.

69. Platynus opaculus Lee. Two specimens found, under a board,
on the northeast beach, June 22.

70. Platinus tenuicollis Lee. Two specimens found under chips, on
the northeast beach, June 23. Two found under debris, on the
northeast beach, July 17.

76 PAPERS ON ZOOLOGY OF MICHIGAN.

71. Platynus cincticollis Say. Two specimens found under a log on
the northeast beach, June 20.

72. Platynus parmarginatus Hamilton. Two specimens found under
boards, on the northeast beach, June 20.

73. Platynus reflexus Lee. Six specimens found under boards, on
the northeast beach, June 20.

74. Platynus extensicollis Say. Four specimens under debris, on
the southwest shore, June 22. One found under debris, on the
northeast shore, i\i\y 17.

75. Platynus extensicollis var. viridis Lee. Two specimens found
under a board, on the northeast shore near the lighthouse, July 17.

76. Platynus errans Say. Two specimens found under debris, on
the northeast shore, July 17.

77. Platynus errans var. suhcordatus Lee. One specimen found under
debris, on the northeast beach, July 17.

78. Platynus moerens Dej. Two specimens found under debris, on
the northeast beach, June 20. One found under debris, on the
northeast beach, July 17.

79. Platynus tenuis Lee. Three specimens found under washed up
debris, on the northeast beach, June 20. One found under washed
up debris, on the northeast shore, July 17.

80. Platynus atratus Lee. Two specimens found under boards on
the debris on the northeast beach, June 19. One found under a
log, on the southwest beach, July 17. One found under a board,
on the northeast beach, July 17.

81. Platynus nialanarius Dej. Two specimens found under a log,
on the northeast beach, July 17.

82. Platynus cupripennis Say. Ten specimens found under boards
on damp sand, on the northeast beach, June 17.

83. Platy7ius excavatus Dej. One specimen found under debris, on
the northeast beach, June 17. One found under debris, on the
northeast shore, July 17.

84. Platynus ferreus Hald. Two specimens found under loose bark
of water-soaked log, on the northeast shore, July 17. Two
found running on wet mud on the rocks of the northeast shore,
July 17; very active.

85. Platynus hogemanni Gyll. One specimen found on the wet sand,
on the northeast shore, June 19. Two found under debris, on
the northeast beach, July 17; very active.

86. Platynus quadripunctatus DeG. Three specimens found under
debris, on the northeast beach, July 17 ; very active.

87. Plakjnus limbatus Say. Two specimens found under damp de-
bris, near the northeast beach, July 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 77

88. PJatynus crenistriatus Lee. Four specimens found under debris,
near the northeast beach, July 17.

89. Platynus ruhripes Zimm. Three specimens found on a stone, on
the northeast shore, June 22.

90. Platynus pimdiformis Say. One specimen found under a board,
on the northeast beach, July 17.

91. Platynus picipennis Kirby. Two specimens found in a cell in
sand under a board, also running on the sand of the northeast
beach, June 21. One found under a board, on the northeast
beach, July 17.

92. Platynus lutulentus Lee. Two specimens found running on the
sand, on the northeast beach. One found under a board, on the
northeast beach, June 23.

93. OUsthropus parmatus Say. One specimen found under a board,
on the northeast beach, July 17.

94. Casnonia pennsijlvanica Linn. Two specimens found crawling
on the lighthouse walk, June 24.

95. Galerita janus Fab. Two specimens found under rotten log, near
the southwest shore, June 24. One found under a board, on the
northeast beach, Jul}' 17.

96. Lebia grandis Hentz. Two specimens found running on the
northeast beach, June 22.

97. Lebia atriventris Say. One specimen found under a board, on
the northeast beach, June 24.

98. Lebia tricolor Say. One specimen found on the sand, on the
northeast beach, June 22.

99. Lebia fuscata Dej. One specimen taken by beating willows,
near the southwest shore, June 22. One taken on a rotten log,
near southwest shore, June 22.

100. Lebia scapularis Dej. One specimen found under a board, on the
northeast beach, June 25.

101. Lehia ornata Say. Two specimens found under boards, on the
southwest beach near the lighthouse, July 17.

102. Callida punctata Lee. One specimen found under the debris, on
the northeast beach, June 20.

103. Callida purpurea Say. Two specimens under the Ijoards, on the
southwest beach near the lighthouse, July 17.

104. Pinacodera linibata Dej. Four specimens found under a log, on
the northeast shore, June 19.

105. Pinacodera platicollis Say. Two specimens found untler boards,
near the northeast shore, July 17.

106. Brachynus perplexus Dej. One specimen found under debris at
water's edge, on the southwest shore, July 17.

78 PAPERS ON ZOOLOGY OF MICHIGAN.

107. Brachynus medius Harr. Two specimens found under debris, on
the northeast beach, July 25.

108. Brachynus quadripennis Dej. One specimen taken in a lantern
trap in the woods, near the lighthouse, June 26.

109. Brachynus cyanipennis Say. Three specimens found under the
debris, on the northeast beach, June 25.

110. Brachynus alternans Dej. One specimen found under a board,
on the northeast beach, June 19.

111. Brachynus cordicollis Dej. One specimen found under debris, on
the northeast beach, June 25.

112. Brachynus haUistarius Lee. One specimen found under a stone,
on the northeast beach, June 20.

113 Brachynus gracilis Blatchley. Two specimens found under
boards, near the northeast shore, July 17.

114. Chlaenius erythropus Germ. Six specimens found running, on
the northeast beach, June 25.

115. Chlaenius sericeus Forst. Four specimens found under the
boards and debris, on the northeast beach, June 19-22. Fairlj^
common.

116. Chlaenius diffinis Chand. Eight specimens found running under
loose debris at the edge of the water, on the northeast beach,
June 17.

117. Chlaenius soUtarius Say. Two specimens found under a board, on
the northeast beach, June 20.

118. Chlaenius impunctifrons Say. Two specimens found under
boards, on the south shore, June 23.

119. Chlaenius tricolor Dej. One specimen found under a board, on
the northeast shore, June 20.

120. Chlaenius nemoi-alis Say. Two specimens taken under fiat
stones, on the northeast shore, June 20.

121. Chlaenius pennsylvanicus Say. Six specimens taken under de-
bris, on the northeast shore, June 20.

122. Chlaenius niger Rand. Two dead specimens found under a
board, on the northeast beach, June 21. One found under a
board, on the northeast beach, July 17.

123. Chlaenius tonientosus Say. Four specimens found under boards,
on the northeast beach, July 17.

124. Brachylobus lithophilus &ay. Three specimens found under a
board on the sand, on the northeast beach, June 20. Two found
running under debris at the edge of the water, on the northeast
beach, July 17.

125. Lachnocrepis parallelus Say. Six specimens found under boards,
on the northeast beach, June 23.

MERSHON EXPEDITION TO CHARITY ISLANDS. 79

126. Oodes amaroides Dej. One specimen found under debris, on the
northeast beach, June 23.

127. Oodes americanus Dej. One specimen found under a board, on
the northeast beach, July 17. One found under debris, on the
northeast beach, July 17.

128. Oodes fluvialis Lee. Two specimens found under a board, on the
northeast beach, July 17.

129. Geopinus mcmssatus Dej. Six specimens found under boards
and debris, on the northeast beach, June 19-22.

130. Agonoderus pallipes Fab. Eight specimens were found, some
under boards, some hunting on damp sand, and others digging
into the moist sand under logs and boards, on the northeast
beach, July 21.

131. Gynandropus hylacis Say. One specimen found alive in rock
pool, on the northeast shore, June 21.

132. Harpalus autumnalis Say. One specimen found under deca.ying
plank, near the northeast shore, July 17.

133. Harpalus erraticus Say. One specimen found under a board, on
the northeast beach, June 25. Four making cells in damp sand
underneath boards, on the northeast shore, July 17. "\'er>'
common.

134. Harpalus caliginosus Fab. Four specimens found under the
boards and debris, on the northeast shore, June 16-25. Common.

135. Harpalus pennsylvanicus Dej. Four specimens found under a
decaying plank, near the southwest shore, July 17.

136. Harpalus pennsylvanicus var. erythropus Dej. Two specimens
found under a decaying plank, near the southwest shore, July
17.

137. Harpalus herbivagus Say. One .specimen found under a board,
on the northeast beach, June 29.

138. Harpalus laticeps Lee. Two specimens found under a log, on
the southwest shore, July 17.

139. Harpalus viduus Lee. One specimen found under a log, on the
southwest beach, June 22.

140. Selenophorus opalinus Lee. One specimen found running under
debris, on the northeast beach, June 22. One found under a
board, on the northeast beach, July 17.

141. Stenolophus dissinulis Dej. One specimen found on a flat stone,
on the northeast beach, June 21.

142. Stenolophus ochropezus Say. One specimen found on a Hat rock,
on the northeast shore, June 26.

143. Stenolophus fulginosus Dej. One specimen found under a board,
on the northeast beach, July 17.

80 PAPERS ON ZOOLOGY OF MICHIGAN,

144. Selejiophorus sp. One specimen found under a board, on the
northeast beach, June 22.

145. Anisodactyhts harrisii Lee. One specimen found under a board,
on the northeast shore, June 24.

146. Amsodadylus rusticus Dej. Three specimens found under some
boards, and one under a stone, on the northeast beach, June
19-23. One under a board, on the northeast beach, July 17.

147. Anisodactylus inter pundatus Kirby. One specimen found under
debris, on the northeast beach, June 23.

148. Anisodadylus nigerrimus Dej. Three specimens found under
boards, on the northeast beach, June 19. Six running under
boards and debris, on the northeast beach, Juh^ 17. One under
a board, on the northeast beach, July 17.

149. Anisodadylus discoideus Dej. Six specimens found hunting on
the sand near logs, on the northeast beach, June 21.

150. Anisodadylus haltimorensis Say. Two specimens found under a
log, on the northeast shore, June 19. One found under a board
at the water edge, southwest beach, June 20.

151. Anisodadijlus sericeus Harr. One specimen found under a board,
on the northeast beach, July 17.

152. Anisodadylus verticalis Lee. One specimen found under debris,,
on the sand of the northeast beach, June 21.

153. Anisodadylus interstitialis Say. Two specimens found under a
log, on the northeast beach, June 20.

Dytiscidae.

154. Laccophilus macidosus Germ. Five specimens found in the rock
pools, on the northeast shore, July 16.

155. Coelambus inaequalis Fab. Six specimens found in the mud of
the pond, near the southwest shore, July 17.

156. Coekwibus impresso-pundatus Sch. Two specimens found crawl-
ing on the wet rocks, on the northeast shore, June 21. Six taken
by dredging pond, July 17.

157. Coelamhus turbidus Lee. One specimen taken by dredging pond^
July 17.

158. Deronedes griseostriatus DeG. One specimen found swimming
in rock pool, on the northeast shore, June 23.

159. Hydroporus laccophilinus Lee. One specimen found in a rock
pool, on the northeast side shore, July 17.

160. Hydroporus undulatus Say. Fifteen specimens taken by dredging
pond, July 17.

161. Hydroporus tristis Fayk. One specimen taken by dredging mud
at edge of pond, Juh' 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 81

162. Hydroporus dichrous Melsh. Two specimens found in the mud
of the pond, July 17.

163. Hydroporus modestus Aube. Two specimens found swimming in
rock pool, on the northeast shore, July 17.

164. Ilyhius ignarus Lee. Two specimens found in a pool, on the
northeast shore, June 21.

165. Ilyhius confusus Aube. Four specimens found swimming in a
rock pool, on the northeast shore, July 17.

166. Coptotomus interrogatus Fab. Eight specimens found in rock
pools, on the northeast shore, June 25. Seven taken by dredging
pond, July 17.

167. Matus hicarinaius Say. Ten specimens found in the rock pools,
on the northeast shore, June 23. One found by dredging pond,
July 17. Six taken in rock pools, on the northeast shore, July 17.

168. Agahetes acuductus Harr. Two specimens taken in the rock
pools, on the northeast shore, July 17.

169. Ilyhiosoma hifarius Kirby One specimen found swimming in
rock pool, on the northeast shore, June 21.

170. Agabus obtusatus Say. One specimen found in a rock pool, on
the northeast shore, July 17.

171. Agabus subfuscaius Sharp. Five specimens taken in the rock
pools, on the northeast shore, June 23-24. Two taken by dredg-
ing pond, July 17.

172. Rhantus binotatus Harr. Two specimens were taken in the water
of the bay, near some rocks, on the northeast shore, June 21.

173. Rhantus bistriatus Bergst. Three specimens found by dredging
pond, July 17.

174. Colymbetes sculptilis Harr. Ten specimens taken in rock pools,
on the northeast shore, June 21. Three taken in rock pools, on
the northeast shore, July 19.

175. Hydaticus piceus Lee. One specimen found in the rock pools,
on the northeast shore, June 23. One found in the rock pools,
on the northeast shore, July 16.

176. Hydaticus stagnalis Fab. One specimen found swimming in rock
pool, on the northeast shore, June 22.

177. Dytiscus fasciventris Say. Two specimens found in the rock
pools, on the northeast shore, June 23. Three taken in the rock
pools, on the northeast shore, July 16.

178. Dytiscus verticalis Say. One specimen taken in tiie rock pools,
on the northeast shore, July 16.

179. Dytiscus sublimbatus Lee. Six specimens found crawling in wet
sand near the water edge, on the northe^ast shore*. .lu'y 16.

82 PAPERS ON ZOOLOGY OF MICHIGAN.

180. Dytiscus marginaJis Linn. Two specimens found swimming in
the water of the bay, on the northeast shore, July 16.

181. Dijtiscus hybridus Aube. One specimen found swimming in rock
pool, on the northeast shore, June 25. Six specimens found
crawling in wet sand at the edge of the water, on the northeast
shore, July 16.

182. Dytiscus harrisii Kirby. Tavo specimens found swimming in
rock pool, on the northeast shore, June 21.

183. Acilius semisulcatus Aube. Two specimens taken in the rock
pools, on the northeast shore, June 21-22. Five found by dredg-
ing pond, July 17.

184. Acilius fraternus Harr. Three specimens taken by dredging in
the pond, July 17.

185. Graphoderus liberus Say. Ten specimens taken by dredging
pond, Juh"^ 17.

186. Cybister fimbriolatus Say. Two specimens found in the rock
pools, on the northeast shore, June 23.

Gyrinidae.

187. Gyrinus aeneolus Lee. One specimen found in a rock pool, on
the northeast shore, July 17.

188. Gyrinus lugens Lee. Nine specimens found under boards and
debris at the edge of the water, on the northeast shore, July 17.

189. Dineutes emarginatus Say. Six specimens found swimming on
the surface of the pond, July 17. Common.

190. Dineutes hornii Roberts. Two specimens found in the rock pools,
on the northeast shore, June 23.

191. Dineutes nigrior Roberts. Two specimens found swimming in
a rock pool, on the northeast shore, July 17.

Hydrophihdae.

192. HeJophorus lacustris Lee. Three specimens found crawling under
wet debris near the edge of the water, on the northeast shore,
July 17.

193. Helophorus lineUtus Say. Two specimens taken on the wet sand
and two on a log, on the northeast shore, June 21-25.

194. Helophorus tuberculatus Gyll. One specimen taken under- de-
bris, on the northeast shore, July 17.

195. Hydrochus excavatus Lee. One specimen found crawling on wet
rocks, on the northeast shore, June 21.

196. Hijdrophilus triangularis Say. One specimen taken in a rock
pool, on the northeast shore, July 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 83

197. Tropisternus nimhatus Say. One .sjiecimen fovind by dredging
pond, Juh^ 17. One found swimming in a rock pool, on the
northeast shore, July 17.

198. Tropisternus mixtus Lee. Ten specimens taken by dredging
among roots of the water plants in the pond, July 17.

199. Tropisternus glaber Hbst. One specimen found swimming in
the rock pools, on the northeast shore, June 23. One in a rock
pool, July 17.

200. Tropisternus sublaevis Lee. One specimen taken in a rock pool,
on the northeast shore, June 21.

201. Hydrocharis obtusatus Say. Two specimens found in the water
of the bay, near the northeast shore, June 21. Three crawling
up from the water, July 16. One swimming in a rock pool,
July 17.

202. Berosus striatus Say. One specimen found under a board on the
wet sand, on the northeast shore, June 24.

203. Berosus infuscatus Lee. One specimen found on the wet rocks,
on the northeast shore, June 21. Two found in rock pools,
June 23. Four found in rock pools, July 17.

204. Cymbiodyta blanchardi Horn. Two specimens taken by dredging
the pond, July 17.

205. Philhydrus bifidus Lee. Five specimens found in 'the rock pools,
on the northeast shore, June 23. Fifteen found in the rock pools,
on the northeast shore, July 17.

206. Helochares maculicoUis Muls. Three specimens taken by dredg-
ing at edge of pond, July 17.

207. Philhydrus ochraceus Mels. One specimen taken on wet rocks,
on the northeast shore, June 26. One found swimming in rock
pools, on the northeast shore, July 17. One fountl by dredging
the pond, July 17

208. Philhydrus cinctus Say. One specimen found on a stone, on the
northeast beach, June 17.

209. Philhydrus harniltoni Horn. Four specimens taken by dredging
the mud of the small pond, near southwest shore, July 17.

210. Ilydrobius tessellatus Ziegl. Three specimens taken on the sand,
on the northeast shore, June 20.

211. Hydrobius fuscipes Linn, 'i'hree specimens found swimming in
the rock pools, on the northeast beach, June 21. Seven found
in the rock pools, on the northeast beach, July 17.

212. Creniphilus subcupreus Say. One si)ecimen taken in rock pool,
on the northeast shore, June 26. One in pool on rocks, on north-
east shore, July 17.

84 PAPERS ON ZOOLOGY OF MICHIGAN.

213. Cercyon nigricepa Marsh. One specimen found by dredging on
edge of pond, i\i\y 17.

Silpliidae.

214. Necrophorus sayi Lap. Two specimens found under a dead fish^
on the northeast shore, June 23.

215. NecropJiorus americanus OUv. One specimen found beside a
dead fish, on the south shore of Little Charity, June 23.

216. Necrophorus pustulatus Hersch. One specimen found under a
dead fish, on the northeast beach, June 22.

217. Necrophorus vespilloides Hbst. One specimen found under a dead
fish, on the southwest shore, July 17.

218. Necrophorus tormentosus Web. One specimen found under a
dead fish, on the southwest shore, July 17.

219. Silpha surinamensis Fab. Two specimens found under a dead
fish, on the southwest shore, Juh' 17.

220. Silpha novehoraceyisis Forst. One specimen found under a dead
fish, on the northeast shore, July 17.

221. Silpha americana Linn. One specimen taken in decaying fungi
on a log, on the southwest shore, June 26.

Staphylinidae.

222. Creophilus villosus Grav. Two specimens taken in a decayed
pickerel, on the northeast shore, June 20. One found under a
dead fish on the sand, on the northeast shore, July 17.

223. Staphylinus hadipes Lee. One specimen found under a board,
on the northeast shore, June 26.

224. Staphylinus tomentosus Grav. Two specimens taken under damp
debris, near the northeast shore, June 26. Three taken under
damp debris, near the northeast shore, July 17

225. Philonthus sericinus Horn. Two specimens found crawling on a
log, on the northeast beach, June 25.

226. Philonthus umhrinus Grav. One specimen found crawling on
the beach, near the lighthouse, June 26.

227. Philonthus cyanipennis Fab. Two specimens taken in fungi
growing on a log, near the southwest shore, June 26.

228. Xantholinus emmesus Grav. Two specimens found running
under bark, on the northeast shore, June 24.

229. Crypiohium hicolor Grav. Two specimens taken under debris
on the rocks, on the northeast shore, June 22.

230. Crypiohium pusillum Lee. One specimen found under a board,
on the northeast shore, June 25.

MERSHON EXPEDITION TO CHARITY ISLANDS. 85

231. Cryptobium sellatum Lee. One specimen found under debris,
on the northeast shore, June 22.

232. Stilicus tristis Melsh. Three specimens found running on damp
sand near logs, on the northeast beach, June 22. Six found
running under debris, on the northeast beach, July 17.

233. Boletohius pijgmaeus Fab. Five specimens taken in fungi, near
the center of the Lsland, June 26.

234. Acidota crenata Fab. Four specimens found under cut and dried
milk-weed, on the northeast shore near the lighthouse, July 17.

Coccinellidae.

235. Megilla maculata DeG. Two specimens taken on leaves of
A\dllow, near the northeast shore, June 26. Four found crawling
on rocks, logs, and milkweed near the northeast shore, July 17.

236. Hippodamia o-signata Kirb}-. Five specimens found on large
stones, on northeast shore, June 20. One found crawling on a
log, on the northeast shore, June 24.- Two found crawling on a
log, on the northeast shore, July 17.

237. Hippodamia convergens Guer. One specimen found on \villow,
on the northeast shore, June 20.

238. Hippodamia IS-pundata Linn. Tw^o specimens taken on leaves
of birch, on the northeast shore, June 20. Thousands crawling
on rocks and logs in a,bout 100 feet in length of beach, hundreds
mating, July 17.

239. Hippodamia parenthesis Say. Seven specimens taken on leaves
of basswood, on the northeast shore, June 20. One taken on
leaves of wallow, on the northeast shore, June 21. Thousands
were observed in a small area on logs and rocks, on the northeast
shore, July 17.

240. Coccinella trifasciata Linn. One specimen taken on wallow, on
the northeast shore, June 21. One found crawling on a log, on
the northeast beach, July 17.

241. Coccinella 9-notaia Hbst. Three specimens taken on logs, on the
northeast shore, June 20.

242. Coccinella tricuspis Kirby. One specimen taken bj' beating
willow, near the southwest shore, June 24.

243. Coccinella sanguina Linn. One specimen taken on a stone, on
the northeast beach, June 20. Six taken on logs, rocks, and
milkweeds, on the northeast shore, July 17. Common.

244. Adalia bipunctata Linn. Two specimens taken on milkweed,
near the lighthouse, July 17.

245. Harmonia picla Rand. One male and one female specimen taken

86 PAPERS ON ZOOLOGY OF MICHIGAN.

on the flowers of Jersey tea, along the path near the Ughthouse^
July 17.

246. Anotis 1 d-pundatus Oliv. Five specimens (dark form) found
crawling on logs, on the northeast beach, June 20. Six specimens
(light form) taken from larger rocks, on the northeast beach,
July 17.

247. Anatis lo-punctatus var. tnali Oliv. Five specimens found
crawling on logs and boards, on the northeast beach, June 25.
Nine-found crawling on the rocks, on the northeast beach, July 17.

248. Psyllohora 20-maculata Sa3^ Five specimens taken on blossoms
of red-stemmed dogwood, near the northeast shore, June 24.

249. Chilocorus hivulnerus Muls. Six specimens taken on leaves of
willow, on the northeast shore, June 20.

250. Brachyacantha ursina Fab. Ten specimens taken by beating the
foliage of willows, on the southwest shore, June 23.

251. Brachyacantha 10-pustulata Melsh. One specimen taken on the
flowers of dogwood, on the northeast shore, June 24.

Erotylidae.

252. Dacne i-maculata Say. Ten specimens found in fungi on trunk
of tree, near southwest shore, June 21.

253. Megalodacne fasciata Fab. Two specimens found in fungi in the
woods, near the southwest shore, July 17.

254. Megalodacne heros Say. One specimen taken in fungi on a log,
near the southwest shore, June 24.

255. Ischyrus quadripunctatus Oliv. One specimen found in fungi in
the woods, near the southwest shore, June 21.

256. Tritoma thoracica Say. Five specimens taken in fungi on logs,
on the northeast beach, June 23.

257. Tritoma flavicollis Lee. Two specimens found in dry fungi on
a log, near the southwest shore, June 22.

Cucujidae.

258. Brontes duhius Fab. Three specimens taken under the bark of
an oak log, on the northeast shore, June 26.

Cryptophagidae .

259. Tisactia subglabra Casey. One specimen taken on a willow, near
the northeast shore, June 21.

MERSHON EXPEDITION TO CHARITY ISLANDS. 87

Mj'cetophagidae .

260. Mycetophagus flexuosus Say. Two specimens taken in fungi,
near the southwest shore, June 21. Seven taken in fungi on an
ash tree, near the southwest shore, June 26.

261. Mycetophagus bipustulatus Melsh. Five specimens found in
fungi on a dead tree, near the southwest shore, June 20.

262. Mycetophagus plunpunctatus Lee. Four specimens taken in
fungi, near the southwest shore, June 26. One found under a
log, on northeast shore, June 27.

263. Litargus tetraspilotus Lee. One specimen found under debris,
on the southwest shore, June 22.

Dermestidae.

264. Dermestes caninus Germ. One specimen found under a dead
fish, on the northeast beach, June 26.

265. Dermestes lardarius Linn. One specimen taken on the floor of
the lighthouse, June 22. One taken in the lighthouse, July 17.

266. Anthrenus castaneae Melsh. Three specimens taken on blossoms
of red stemmed dogwood near northeast shore, June 26.

Histeridae.

267. Hololepta fossularis Say. One specimen taken on a willow, near
the southwest shore, June 22.

268. Hister foedatus Lee. Three specimens taken in decayed fungi
on a paper birch, near the southwest shore, June 23.

269. Hister depurator Say. One specimen found under a log, on the
southwest beach, June 21.

270. Hister sedecimstriatus Say. One specimen taken in decayed
fungi, near the southwest shore, July 17.

271. Hister nubilus Lee. Two specimens found under a board oii the
sand, on the northeast beach, June 21.

272. Saprinus lugens Erichs. One specimen found under debris, on
the northeast shore, Jul}^ 17.

273. Saprinus fraternus Say. One specimen taken in fungi, near the
southwest shore, July 17.

274. Saprinus fitchii Mars. One specimen found in dried fungi, near
the southwest shore, June 22. One found in fungi, on the south-
west shore, July 17.

275. Saprinus patruelis Lee. One specimen found und(M- a board, on
the northeast beach, July 17.

88 PAPERS ON ZOOLOGY OF MICHIGAN.

Nitidulidae.

276. Epuraea corticina Erichs. One specimen found under debris, near
the northeast beach, Jul,v 17.

277. Phenolia grossa Fab. One specimen taken in fungi, near the
southwest shore, June 21.

278. Ips quadriguttatus Fab. A dark variety found feeding at sap of
a sugar maple, near the northeast shore, June 23. Two speci-
mens taken feeding at sap of a maple, near the lighthouse, July 17.

279. Ips sanguinolentus Oliv. Three specimens taken in decaying
fungi on logs, on the southwest shore, June 21.

Lathridiidae.

280. Enicmus minutus Linn. Two specimens found under cut and
dried milkweed, near the southwest shore, June 19.

281. Enicmus consimilis Mann. Two specimens taken under debris
on the northeast beach, June 24.

Byrrhidae.

282. Cytilus sericeus Forst. One found under a log, on the northeast
shore, June 25.

283. Cytilus trivittatus Melsh. Two specimens taken on a log, on the
northeast beach, June 20.

284. Byrrhus amei'icanus Lee. Four specimens taken on the sand, on
the northeast beach, June 25.

285. Byrrhus kirhyi Lee. One specimen found under a board, on the
northeast beach, June 22.

Heteroceridae.

286. Heterocerus hrunneus Melsh. One specimen found under a
board, on the northeast beach, June 25.

Dascyllidae.

287. Eucinetus testaceus Lee. One specimen found in decayed fungi,
near southwest shore, June 26.

288. Prionocyphon discoideus Say. One specimen taken in a pool on
the rocks, on the northeast shore, July 17.

289. Cyphon variabilis Thunb. One specimen taken in fungi, near
southwest shore, June 23.

Elateridae,

290. Fornax orchesides Newm. Two specimens found under the bark
of a dead ash, near the southwest shore, July 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 89

291. Adelocera discoidea Web. One specimen found by beating the
willows, near the northeast shore, June 26.

292. Adelocera hrevicornis Lee. Two specimens found hy beating the
willows, near the northeast shore, June 26.

293. Alaus ocidatus Linn. Two specimens taken on a log, near the
northeast shore at lighthouse, June 23.

294. Alaus myops Fab. One specimen caught flying near the light-
house, June 23.

295. Cardiophorus convexus Say. One specimen found on wild grape,
near the lighthouse, June 20. Another, taken at sugar lure on
tree, near the lighthouse, the night of June 20.

296. Cardiophorus cardisce Say. One specimen taken, on the north-
east beach, June 20. One found by beating a willow, near the
southwest shore, June 23.

297. Cardiophorus convexulus Lee. One specimen taken on the flowers
of red-stemmed dogwood, near the northeast shore, June 23.
One found under the bark of a dead oak, near the southwest
shore, July 17.

298. Cardiophorus gagates Erichs. One specimen taken on leaves of
a red oak, near the northeast shore, June 23.

299. Cardiophorus laevicollis Er. Two specimens taken by beating
red-stemmed dogwood, near the northeast beach, July 17.

300. Cardiophorus robustus Lee. One specimen taken by beating
branches of Norway pine, near southwest shore, June 23. One
on pine, near southwest shore, July 17.

301. Cryptohypnus abhreviatus Say. One specimen found floating in
rock pool, on northeast shore, June 26.

302. Monocepidius suturalis Lee. One specimen taken on the leaves
of a willow, on the northeast shore, June 20.

303. Dicrepidius corvinus (Cand.). Three specimens found under the
bark of a dead oak, near the southwest shore, July 17.

304. Elater hepaticus Melsh. Two specimens taken on an oak, near
the southwest shore, July 17.

305. Elater pedalis Germ. Five specimens taken under the bark of a
dead oak branch, near the southwest shore, July 17. Fairly
common.

306. Elater sid)tilis Lee. One specimen found on flowers of red-
stemmed dogwood, near the northeast shore, June 21. One
taken by beating the branches of a white pine, near the southwest
shore, June 23.

307. Elater luduosus Lee. One specimen taken on flowers of J(M-sey
tea, near the northeast shore, July 17.

90 PAPERS ON ZOOLOGY OF MICHIGAN.

308. Elater rubricus Say One specimen taken by beating the leaves
of basswood, on the northeast shore, July 17. Seven taken on
the oaks, near the southwest shore, July 17.

309. Elater areolatus Say Four specimens taken on the leaves and
flowers of red-stemmed dogwood, on the northeast shore, June
20. Three found by beating branches of birch, near northeast
shore, July 17.

310. Drasterius elegans Fal). Eight specimens taken on the logs, on
the northeast beach, June 20.

311. Ludius attenuatus . Say. Two specimens found by beating
branches of willows, near southwest shore, June 26. One taken
by beating the branches of basswood, near the northeast shore,
July 17.

312. Agriotes stabilis Lee. Five specimens taken on the branches of
white pine, near the northeast shore, June 20. Seven found on
the leaves and branches of the white pine, near the southwest
shore, June 21-23.

313. Agriotes fucosus Lee. Two specimens taken by beating the
leaves of willows, near the southwest shore, June 26.

314. Agriotes puhescens Melsh. Two specimens taken on leaves on a
Norway pine, near the southwest shore, June 24.

315. Agriotes limosus Lee. Five specimens taken by beating the
branches of a Norway pine, near the southwest shore, June 23.

316. Agriotes avulsus Lee. One specimen taken on a dead branch of
a yellow oak, near the southwest shore, June 22.

317. Dolopius lateralis Esch. Four specimens found on flowers of
red-stemmed dogwood, on the northeast shore, June 20.

318. Melanotus corticinus Say. Two specimens found by beating
foliage of yellow oak, near northeast shore, June 20.

319. Melanotus decumanus Erichs. Two specimens taken by beating
the branches of a birch, near the northeast shore, July 17.

320. Melanotus canadensis Cand. One specimen taken on a branch
of an oak, near the southwest shore, July 17.

321. Melanotus glandicolor Melsh. One specimen taken by beating
willows, near the southwest shore, July 17.

322. Melanotus comrnunis Gyll. Two specimens found under bark
of dead oak, near center of island, June 26.

323. Melanotus castanips Payk. One specimen taken on a branch of
a yellow oak, near the northeast shore, June 20. One found by
beating a red oak, near the southwest shore, June 25.

324. Melanotus fissilis S&y. One specimen found on an oak leaf, near
the southwest shore, June 20. Two taken under the bark of a
dead oak, near the southwest shore, July 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 91

325. MeJatiotus parumpunctatus Melsh. Two specimcms taken by
beating the branches of a j^ellow oak, near the southwest shore,
June 23.

326. Limonius aurifer Lee. Two specimens taken on the leaves of a
willow, near southwest shore, June 21.

327. Pityohius anguinus Lee. One specimen found crawling on a log,
on the northeast beach, June 23. One male specimen found
crawling on a log and one female specimen found, on the north-
east beach, June 25. Several specimens picked up on the north-
east beach in August by Captain McDonald.

328. Sericosomus viridanus Say. Two specimens taken on a birch,
near the lighthouse shore, July 17.

329. Sericosomus silaceus Say. One specimen taken by beating the
birch, near the northeast shore, June 23. Four taken on the
flowers of dogwood, on the northeast shore, July 17.

330. Athous stabiUs Lee. Two specimens taken by beating the
branches of a red oak. near southwest shore, June 23. Two taken
by beating a June-berrj'- bush, near the southwest shore, July 17.

331. Corymbites sulcicollis Say. One specimen taken at a sugar lure,
on a tree in woods near the lighthouse, night of June 26.

332. Corymbites propola Lee. One specimen taken on mullein, near
the southwest shore, July 17.

333. Corymbites hieroglyphicus Say. Two specimens taken by beating
the branches of a white pine, near the southwest shore, June 23.

334. Corymbites tesselatus Linn. One specimen found at sap ruiming
from sugar maple, near the northeast shore, June 23.

335. Corymbites pyrrhos Hbst. One specimen taken by beating the
branches of a white pine, near the southwest shore, June 23.

336. Asaphes decoloratus Say. One specimen taken in a lantern trap,,
in the woods near the lighthouse, June 26.

337. Asaphes memnonius Hbst. One specimen found under a board,
on the northeast shore, July 17.

Buprestidae.

338. Dicerca divaricata Say. One specimen found on a dead branch
of a yellow oak, near the lighthouse, June 20.

339. Poecilonota cyanipes Say. One specimen founil crawling on an
oak log, near the northeast beach, July 17.

340. Buprestis nutlalli Kirby. Two specimens taken on a log, on the
northeast beach, July 17.

341. Buprestis maculiveniris Say. One specimen taken on a log, on
the northeast beach, June 23.

92 PAPERS ON ZOOLOGY OF MICHIGAN.

342. Bupi-estis fasciata Fab. Two specimens found crawling on a
board, on the northeast beach, July 17.

343. Biiprestis fasciata var. langii Mann. Two specimens taken
under a log, on the northeast beach, June 25.

344. Melanophila longipes Say. Four specimens taken on a log, on
the northeast beach, June 20. Seven found crawling on logs,
boards and rocks, on the northeast shore, July 17.

345. Melanophila fulvoguttata Harr. Three specimens taken on a
pine log, on the northeast shore, June 20. Five found crawling
on logs and rocks, on the northeast shore, July 17.

346. Agrilus otiosus Say. Two specimens taken on a willow, near the
northeast beach, June 23.

347. Agrilus acutipenms Mann. One specimen found on the leaves
of an oak, near the northeast shore, June 23.

348. Agrilus anxius Gory. Two specimens taken by beating the
willows, near the southwest shore, July 17.

349. Agrilus politus Say. Four specimens taken by beating the
willows, near the southwest shore, June 23.

350. Brachys ovata Web. Two specimens taken by beating the
branches of Norwaj' pine, near the southwest shore, June 23.

351. Brachys aeruginosa Gory. Two specimens found crawling on
logs under debris, on the northeast beach, June 22.

Lampyridae.

352. Eros trilineatus Melsh. One specimen taken by beating the
willows, near the southwest shore, July 17.

353. Lucidota atra Fab. One specimen taken by beating the birch,
near the northeast shore, July 17.

354. Ellychyiia corrusca Linn. One specimen found by beating the
willows, near the southwest shore, July 17.

355. Photinus pyralis Linn. Three specimens taken by beating the
willows, near the southwest shore, July 17.

356. Photinus marginellus Lee. Two specimens taken by beating the
willows, near the southwest shore, June 25.

357. Photuris pennsylvanica DeG. One specimen taken by beating
the willows, near the southwest shore, July 17.

358. Telephorus dentiger Lee. Three specimens found on a small
birch, near the southwest shore, June 22.

359. Telephorus carolinus Fa,b. Three specimens found by beating
small birch, near the northeast shore, June 22.

360. Telephorus scitulus Say. One specimen taken oil the blossoms
of red-stemmed dogwood, near the northeast shore, June 23.

MERSHON EXPEDITION TO CHARITY ISLANDS. 93

361. Telephorus tuherculatus Lee. Two speeimens taken in the blos-
soms of wild rose, near the pond, July 17.

Malachiidae.

362. Collops quadrimacidatus Fab. One specimen found under cut
and dried milkweed, on the northeast shore, near the lighthouse,
July 17.

363. Collops vittatus Say. Five specimens taken on a mullein, near
the southwest shore. Two found under dried milkweed, near
lighthouse, July 17.

364. Anthocomus flavilahris Say. One specimen taken on the flowers
of dogwood, near the southwest shore, June 22.

Cleridae.

365. Trichodes nuttalli Kirby. Eight specimens taken on the blossoms
of wild rose, near the southwest shore, June 22. Three taken on
milkweed blossoms, in clearing at lighthouse, June 23.

6. Clerus analis Lee. One specimen taken on a log, near the north-
east shore, July 17.

367. Clerus quadriguttaius Oliv. One specimen captured flj'ing,
near the lighthouse, June 22.

368. Thaneroclerus sanguineus Say. Two specimens taken on the
trunk of a dead oak, near the southwest shore, July 17.

369. Hydnocera pedalis Lee. Five specimens taken on flowers of dog-
wood, on the southwest shore, June 21. One taken on flowers
of dogwood, on the northeast shore, June 23.

370. Ellipotoma laticornis Say. One specimen taken in the flowers of
a wild rose, on the northeast shore, June 21. One taken on the
blossoms of red-stemmed dogwood, near the northeast shore,
June 26.

Ptinidae.

371. Xyletinus peltatus Harr. Two specimens taken by beating the
willows, near the northeast shore, June 23.

372. Ptilinus ruficornis Say. Four specimens found breeding and
boring in the bark of a dead oak, near the northeast shore, June 26.

Bu.strichidac.

373. Bostricfius bicornis Web. Tavo specimens fountl untler a board,
on the northeast shore, Jul}' 17.

374. Bostrichns armiger Lee. One specimen found on a l)oard, on the
northeast shore, June 22.

^4 PAPERS ON ZOOLOGY OF MICHIGAN.

375. Bostiichus truncaticollis Lee. One speeimen found crawling on
a log, near the northeast shore.

Cioidae.

376. Cis fiiscipes Mellie. One specimen taken on the willow, on the
northeast shore, June 21.

Lucanidae.

377. Lucanus dama Thunb. Two female specimens found on a log,
near the southwest beach, June 21. . Two, a male and a female,
taken on the sand near a log, on the southeast beach, July 17.

378. Lucanus pladdus Say. Three specimens found on the south
beach of Little Charity, June 25. Three (two males and a fe-
male) taken on a log, near the lighthouse, the night of June 21.

379. Dorcus paraUelus Say. Two specimens caught near the light-
house, night of June 23.

380. Platycerus quercus Web. One specimen taken on a log, on the
northeast shore, June 23.

381. Platycerus depressus Lee. Two specimens found crawling on
logs, near the northeast beach, June 25.

382. Passalus cormdus Fab. A dead specimen picked up from the
washup on the northeast beach, by Captain McDonald, in
August.

Scarabaeidae.

383. Canthon nigricornis Say. Two specimens found near the pig-
pen, June 25.

384. Canthon laevis Drury. One specimen taken under a board, near
the northeast beach, July 17.

385. Copris anaglypticus Say. Three specimens found crawling on
the sand, on the northeast beach, June 24.

386. Ataenius cognatus Lee. Six specimens found in fungi, near the
southwest shore, June 22. One taken on the steps of the light-
house, July 17.

387. Aphodius fosso7' Linn. One specimen found crawling on the
ground, near the pig-pen, June 25.

388. Aphodius hamatus Say. One specimen found on the sand, on
the northeast shore, June 20. One found under a board, on the
northeast shore, July 17.

389. Aphodius fimetarius Linn. Three specimens taken under a
board, at the pig-pen, July 17.

390. Aphodius ruricola Melsh. One specimen found on the sand, on

MERSHOX EXPEDITION TO CHARITY ISLANDS. 95

the northeast shore, June 20. One found criiAvhng on the sand,
on the northeast shore, July 17.

391. Aphodius foctidus Fab. One specimen taken on the sand, on
the northeast beach, June 21.

392. Aphodius inquinatus Hbst. One spechnen found on the ground,
near the pig-pen, June 22.

393. Ochodaeus musculus Say. One specimen taken on the sand, on
the northeast beach, June 23.

394. Bolboceras lazarus OUv. One specimen taken under the debris,
on the northeast shore, July 17.

395. Hoplia trifasciata Say. Two females and one male specimens
taken in the blossoms of wild rose, near southwest shore, June 25.

396. Dichelonycha subvittata Lee. Eight specimens found on the
leaves of basswood and birch, near the northeast shore, June 20.
Common.

397. Dichelonycha albicoUis Burm. Six specimens taken on leaves
of white and Norway pine, near the lighthouse, June 20. Four
taken Ijy beating a pine, near the southwest shore, July 17.
Four taken on a pine, on the southwest shore, July 24. Verj^
common.

398. Serica vespertina Gyll. Two specimens found on a log, on the
northeast beach, June 23.

399. Serica iricolor Say. Two specimens found in cells formed in
damp sand under a board, on the northeast beach, June 25.
Two picked up, on the path to the lighthouse, July 17.

400. Serica tristis Lee. Two specimens taken, on the beach of the
northeast shore, June 20.

401. Serica sericea 111. Four specimens found on the sand, on the
northeast beach, June 21.

402. Serica intermixta Blatchly. Four specimens found on the sand,
on the northeast beach, June 21. Ten found on a log, on the
northeast beach, June 23. Two found in cells in damp sand,
under a board, on the northeast shore, July 17.

403. Serica carinata Blatchly. Two specimens found under a board,
on the northeast beach, July 17.

404. Macrodactylus subspinosus Fab. Four specimens found on wild
grape and wild rose blossoms, on the northeast shore, June 20.
^'ery common.

405. Diplotaxi.s sordida Say. One s]^ecimen found in a cell in the
damp sand und(T a board, on the northeast shore, June 25.
Three taken in a lantern trap, in the woods, near the lighthouse,
Julv 22.

96 PAPERS ON ZOOLOGY OF MICHIGAN.

406. Lachnosterna nova Smith. Two specimens taken in a lantern
trap, in the woods, near the hghthouse, June 26.

407. Lachnosterns gracilis Burm. Four specimens found on the
leaves of basswood, on the northeast shore, Jul}^ 22.

408. Lachnosterna fusca Froh. Three specimens found on willows,
near the northeast shore, June 22.

409. Lachnosterna rugosa Melsh. Two specimens taken on the
willows, on the northeast shore, June 22. One taken in a lantern,
trap, in the woods, near the lighthouse, June 26.

410. Lachnosterna albina Burm. Four specimens found crawhng, on.
the northeast beach, near the lighthouse. Three found dead
in a washup, on the northeast beach, June 23.

411. Anomala pubesens Blatchly. One specimen found in the blossom
of a wild rose, near the southwest shore, June 26.

412. Strigoderma arbor icola Fab. Sixteen specimens taken while
flying in a patch of reeds, growing in the clamp sand, near the
southwest shore. They were fairly common on the blossoms of
the meadow rose, near the southwest shore, June 23.

413. PeUdnota punctata Linn. Three specimens taken on a wild
grape vine, along the path near the lighthouse, July 17.

414. Cotcdpa lanigera Linn. Two specimens found crawling on the
sand, of the northeast beach; two on willows, near the northeast
beach, and four dead in a washup, on the northeast beach, June
22.

415. Ligyrus gibbosus DeG. One specimen taken while flying over
dry land, near the northeast beach, and one found on the ground,
near the pig-pen, July 17.

416. Ligyrus relictus Say. Six specimens found crawling on the sand^
near the northeast beach, June 22. Two taken in cells made in
damp sand under boards, on the northeast beach, June 25. Two
taken on the wing, near the lighthouse, night of June 26. Four
found crawling on the sand, on the northeast beach, July 17.

417. Aphonus tridentatus Say. One specimen taken while fl^ang over
the sand, on the northeast shore, July 17.

418. Xyloryctes satyrus Fab. One male specimen found crawling on
the dead leaves on the ground, in rather open woods chiefly paper
birch, many of them dead and decaying, near center of the island,
June 25. Three male specimens found crawling on the ground
near the ])ank, on the northeast shore, July 17. No females were
found.

419. Euphoria fulgida Fab. Two specimens found on the branches
of a willow, near the northeast shore, July 17.

420. Euphoria inda Linn. One dead specimen picked up on the sand,

MERSHON EXPEDITION TO CHARITY ISLANDS. 97

near the water's edge, northeast shore, June 21. One taken on
the sand, of the northeast beach, June 22.

421. Trichus affinis Gorj\ Six specimens taken in the blossoms of
the meadow rose, near the southwest shore, June 24.

422. Trichus viridulus. Two specimens found in the blossoms of
a meadow rose, near the northeast shore, June 20.

423. Parandra hninnea Fab. Four specimens found working in dead
wood of a hollow oak tree, near the southwest shore, July 17.

Cerambycidae. "

424. Orihosoma hrunneum Forst. Two specimens taken in a lantenn
trap in the woods, near the hghthouse, July 17. Several taken
in a washup, on the northeast shore, July 17. One taken on the

' screen at the lighthouse, July 21.

425. Prionus laticoUis Drury. One specimen found crawling up from
the edge of the water, on the northeast beach, July 17.

426. Tragosoma harrissi Lee. Two specimens found on a pine log,
on the northeast beach, June 22. Two taken on a pine log, near
the northeast beach, Juh' 17.

427. Asemum moestum Hald. One specimen taken on a log, near the
northeast beach, July 17.

428. Criocephalus agrestis Kirby. One specimen found crawling on a
log, near the northeast beach, June 25.

429. Criocephalus obsoletus Rand. Two specimens taken, on the walk
at the lighthouse, night of June 24. One taken in a lantern trap
in the woods, near the lighthouse, June 26.

430. Physocnemum hrevilineum Say. One specimen found running^
on a log, near the northeast shore, June 26.

431. Chion cinctus Drury. One specimen taken, on the wall of the
lighthouse, June. 24.

432. Chion cinctus var. garganicus Fab. One specimen taken in the
blossoms of a swamp rose, on the edge of the pond, July 17.

433. Elaphidion villosum Fab. One specimen taken by beating the
branches of a red oak, near the southwest shore, June 26

434. Elaphidion unicolor Rand. One specimen taken on a dead
branch of a red oak, near the southwest shore, June 26.

435. Elaphidion parallelum Newm. One specimen found on an oak,
near the lighthou.se, July 17.

436. Molorchus bimacida'.us Say. Six specimens found on the blossoms
of red-stemmed dogwood, \war the northeast shore, June 26.

437. Purpuricenus hiuneralis Fab. One specimen taken by beating
a yellow oak, near the southwest shore, June 23.

13

98 PAPERS ON ZOOLOGY OF MICHIGAN.

438. Calloides nobilus Harris. One specimen taken by beating a
small oak, near the northeast shore, June 23. One found under
debris, near the edge of the water, on the northeast beach, July 17.

439. Arhopalus fulminans Fab. Three specimens found on an oak,
near the lighthouse, June 20.

440. Xylotrechus sogittntus Germ. One specimen taken, on the out-
side wall of the lighthouse, July 17.

441. Xy'otrechus undulatus Say. One specimen taken on an oak, near
the lighthouse, June 20.

442. Clytanthus ruricola Oliv. Two specimens found in the blossoms
of the meadow rose, near the northeast shore, June 21.

443. Cyrtophorus verrucosus Oliv. Two specimens taken on the
blossoms of red-stemmed dogwood, near the northeast shore,
June "26.

444. Cyrtophorus msi?iuans Casey. Two specimens found in the
blossoms of red-stemmed dogwood, on the northeast shore, June
23. Four found in the flowers of Jersey tea, in the woods, near
the northeast shore, July 17.

445. Acmaeops hivHtata var. nigripennis Lee. One specimen taken on
the flowers of red-stemmed dogwood, on the northeast shore,
June 23.

446. Acmaeops proteus Kirby. Three specimens taken on a log,
within a foot of space and the only specimens found on the
island, on the northeast shore, June 24.

447. Acmaeops pratensis Laich. One specimen found on a window-
screen, attracted by the light in the lighthouse, June 23.

448. Ballamira scalaris Say. One specimen found crawling on a log,
on the northeast beach, June 24.

449. Gaurotes cyanipennis Say. One specimen found on a log, on the
southwest shore, June 22.

450. Strangalia luteicornis Fab. Four specimens taken on the flowers
of red-stemmed dogwood, near the northeast shore, June 26.

451. Typocerus velutimis Oliv. Four specimens taken on the flowers
of Jersey tea, near the path to the lighthouse, July 17.

452. Leptura exigua Newm. One specimen taken on the flowers of
red-stemmed dogwood, on the northeast shore, June 23.

453. Leptura subargentata Kirby. One specimen taken on the flowers
of red-stemmed dogwood, on the northeast shore, June 21.

454. Leptura canadensis OHv. One specimen taken by beating
branches of pine, near the northeast shore, June 22.

455. Leptura vagans Oliv. One specimen taken on the flowers of
Jersey tea, near the path to the lighthouse, July 17.

MERSHON EXPEDITION TO CHARITY ISLANDS. 99

456. Leptiira vittata Oliv. One specimen taken on the flowers of red-
stemmed dogwood; near the northeast shore, June 20.

457. Leptura pubera Sa^^ Five specimens taken on the flowers of
red-stemmed dogwood, near the northeast shore, June 26.

458. Psenocerus supernotatiis Saj'. Four specimens taken on the
flowers of red-stemmed dogwood, near the northeast shore,
June 26.

459. Monoharrmius titillator Fab. One specimen taken on a pine log,
on the southwest shore, June 22.

460. Monohammus titillator var. carolinensis Oliv. One specimen
found on the trunk of a pine, near the southwest shore, July 17.

461. Monohammus scutellatiis Say. One specimen taken on the
trunk of a pine, near the southwest shore, June 22. Common on
the mainland.

462. Monohammus confusor Kirby. One specimen found crawling
on a log, on the northeast shore, June 23.

463. Leptostylus macula Say. One specimen taken on the outside
wall, of the lighthouse, July 17.

464. Liopus fascicularis Harr. Two specimens found by beating a
dead branch of a yellow oak, near the southwest shore, June 24.
One found on a branch of a dead oak, near the southwest shore,
July 17.

465. Liopus cinereus Lee. Three specimens taken ])y beating the
dead branch of an oak, near the southwest shore, June 24.

466. Urographis fasciatus DeG. One specimen found on a window-
screen, attracted by the light from the lighthouse, June 20.

467. Leptwges querci Fitch. One specimen found on a log, near the
northeast shore, July 17.

468. Hyper platys aspersus Say. One specimen taken on a branch of
basswood, on the path to the lighthouse, June 26.

469. Hyper platys maculatus Hald. Two specimens taken by beating
a dead branch of basswood, near the southwest shore, June 24.

470. Acanthocinus obsoletus Oliv. One specimen found by beating
a red oak, near the southwest shore, Jul}^ 17.

471. Saperda calcarata Say. One specimen taken on the trunk of a
poplar, near the path to the lighthouse, July 19.

472. Saperda calcarata var. adspersa Lee. One specimen taken on
the trunk of a poplar, near the path to the lighthouse, July 19.

473. Saperda mutica Say. Eight specimens taken by Ideating the
willows, near the southwest shore, June 23.

474. Saperda moesta Lee. Four specimens fountl l^y l)eating balsam
poplar, near the southwiest shore, June 25.

100 PAPERS ON ZOOLOGY OF MICHIGAN.

475. Oberea tripundata Swed. One specimen taken by beating willows,
near the southwest shore, June 26.

476. Tetraopes tetraophthalmus Forst. Four specimens taken on milk-
weeds, near the lighthouse, July 17.

Chrysomelidae.

477. Donacia harrisii Lee. One specimen found on sedges, near the
southwest shore. Eight specimens taken on the sedges, near
the southwest shore, July 17.

478. Donacia palmata Oliv. Four specimens taken on the leaves of
water lilies in the pond, near the southwest shore, June 24.

479. Donacia distincta Lee. Two specimens found on sedges near
the southwest shore, June 25.

480. Donacia suhtiUs Kunze. Five specimens taken on sedges, near
shore. Snake Point, July 17.

481. Donacia cincticornis Newm. Two specimens taken on the leaves
of w^ater lillies, in the pond, near the southwest shore, July 17.

482. Donacia pusilla Say. Two specimens taken on arrow-head, near
the southwest shore, June 21.

483. Haemonia nigricornis Kirby. One specimen found under a
board, on the southwest beach, June 24.

484. Bahia 4-guttata Oliv. One specimen taken by beating willows
near Snake Point, southwest shore, July 17.

485. Pachybrachys elegans Blatchly. One specimen found by beating
wallow, near the northeast shore, June 23.

486. Xanthoma villosula Melsh. One specimen taken by beating an
oak, near the southwest shore, June 24.

487. Adoxus vitis Linn. Six specimens found on flowers of red-
stemmed dogwood, near the northeast shore, June 21.

488. Chrysochus auratus Fab. Two specimens found on leaves of
milkweed, near the lighthouse, June 22.

489. Metachroma angustula Crotch. One specimen found on the sand
beneath a willow near the southwest shore. One found in lantern
trap in woods, near the lighthouse, June 25.

490. Metachroma interrupta Say. Four specimens taken on willow
leaves, near the southwest shore, June 22.

491. Metachroma pallida Say. Two specimens taken on Willows, near
southwest shore, June 22.

492. Labidomera clivicollis Kirby. Two specimens taken on milk-
weed, near the southwest shore, June 26.

493. Leptinotarsa decemlineata Say. Two specimens taken on the
foliage of the night-shade, Solanum dulcamara. Fifteen or more

MERSHON EXPEDITION TO CHARITY ISLANDS. 101

of the larvae were feeding on the plant, near the northeast shore,
June 21. Several picked up dead on the beach.

494. CaUigrapha elegans Oliv. Two specimens taken by beating
willows, near the southwest shore, July 17.

495. CaUigrapha lunata Fab. Two specimens taken on the wang, near
the lighthouse, June 22.

496. CaUigrapha scalaris Lee. One specimen taken on the under side
of a board, on the northeast beach, June 24. One by beating
willow, near the southwest shore, June 2G. Two by beating
birch, near the northeast shore, July 17.

497. CaUigrapha muUipundata Say. Three specimens taken by beat-
ing branches of willov/s, near the southwest shore, July 17.

498. CaUigrapha muUipunctata var. bigsbyana Kirby. Four specimens
taken on the leaves of willow, near the southwest shore, June 20.

499. Gastroidea polygoni Linn. Two specimens taken on larger blue-
flag, Iris versicolor, near the southwest shore, July 17.

500. PhyUobrotica decorata Say. One specimen taken by beating the
willows, at the pond, June 23.

501. PhyUobrotica limbata Fal). One specimen found by beating the
willows, at the pond, June 23.

502. Diabrotica viUata Fabr. Five specimens taken by beating the
willows, near the southwest shore, June 24. Three by beating
a thorn-tree, Crataegus, near the lighthouse, July 17.

503. Galeruca margineUa Kirby. One specimen taken hy beating the
willows, near the southwest shore, July 17.

504. Oedionychis vians 111. Three specimens taken by beating the
willows, near the southwest shore, June 25.

505. Disonycha pennsylvanica 111. One specimen taken by beating
the willows, near the southwest shore, June 26.

506. Disonycha triangularis Say. One specimen found by beating the
willows, near the northeast shore, July 17.

507. Disonycha xanthomelaena Dalm. One specimen found feeding
on pig-weed, Chenopodium album, near the southwest shore,
June 24.

508. Haliica bimarginata Say. Two specimens taken on wild grape
leaves, near the southwest shore, June 21. One found by beating
willows, near th(^ southwest shore, July 17.

509. Haltica ignita 111. Ten specimens taken by beating wild grape
vines, near the northeast shore, June 23. One on wild grape
June 24.

510. Haltica aenescens Blatchly. Four specimens taken on wild grape
vine, near the lighthouse, July 17.

102 - PAPERS OX ZOOLOGY OF MICHIGAN.

511. Chalepus rubra Weber. Two specimens taken ])y beating the
willows, near the southwest shore, June 23

512. Choleyus nervosa 'Vawz. One specimen taken on the flowers of
red-stemmed dogwood, near the northeast shore, June 23.

513. Chelymorpha argus Hbst. One specimen found on a milkweed,
near the southwest shore, July 17.

514. Bruchus nigrinus Horn. Two specimens found under cured and
dried milkweed, near the lighthouse, July 17.

Tenebrionidae.

515. Nydohates pennsylvanica DeG. Two specimens found under
the bark of a dead oak, near the south shore, June 23. Three
taken under the bark of a dead oak, near the northeast shore,
July 17.

516. Nydohates harhata Knoch. One specimen taken under the bark
of a dead oak, near the center of the island, June 26.

517. Iphthimus opacus Lee. Five specimens taken on logs, on the
northeast shore, and a few dead ones washed up on the beach,
June '21. Four taken on a log, near the northeast shore, July 17.

518. Upis ceramhoides Linn. One specimen taken on the bark of a
pine log, on the northeast beach, June 21. Four taken in the
fungi on a log, near the southwest shore, June 25. One on a log,
near the lighthouse, Julv 17.

519. Haplandrus concolor Lee. Three specimens found under the
bark of a dead oak, near the southwest shore, June 22. Four
found on the shaded sides of timber, on the southwest shore,
June 26.

520. Xylopinus saperdioides Oliv. One specimen found under the
bark of a dead oak, on the northeast shore, June 21. One taken
under the bark of a dead oak, on the southwest shore, June 26.
One taken under the bark of a dead oak, near the southwest shore,
July 17.

521. Tenebrio obscuriis Fab. Three specimens found crawling on logs,
on the northeast beach, June 22. One taken under the bark of
a dead oak, near the northeast shore, June 26.

522. Tenebrio molitor Linn. One~ specimen found under the bark of
an oak log, washed up by the waves, on the southwest shore,
July 17. One under bark of dead oak, near the southwest shore,
July 17.

523. Tenebrio castaneus Knock. Three specimens found under the
bark of a dead oak, near the southwest shore, June 22. One
found under boards, on the northeast beach.

MERSHON EXPEDITION TO CHARITY ISLANDS. 103

524. Tenebrio tenehrioides Beauv. Two specimens found untler the
bark of a dead oak, near the southwest shore, June 22. Two
hvmg and a dead one found inider the ])ark of an oak, near the
center of the island, June 26. One found under the bark of a log,
washed up in the southwest shore, July 17.

525. Blapstiniis interriiptus Say. One specimen folmd under a board,
on the northeast beach, July 17.

526. Diaperis maculata Oliv. Six specimens found in fungi on a log,
near the southwest shore, June 26.

527. Arrhenoplita hicornis Oliv. Two specimens found in dried fungi
on a dead trunk of a tree, near the northeast shore, June 23.

528. Platydema flavipes Fab. One specimen taken at sugar lure, on
a tree in the woods, near the lighthouse, June 26.

529. Platydema americanum Lap. One specimen taken at a sugar
lure, on a tree at the path, near the lighthouse, night of July 19.

530. Platydema laevipes Hald. Two specimens taken on the trunk
of a red oak, near the lighthouse, June 22.

531. Hypophloeus paraUelus Melsh. One specimen taken in gallery
of bark beetle in a pine tree, near the soutliAvest shore, July 17.

532. Boletotherus bifurcus Fab. Three specimens taken in dried
liracket fungi, near the southwest shore, June 24. Several
found in bracket fungi, near the northeast shore, July 17.

533. Boletophagus corticola Say. One specimen taken in a lantern
trap, in the w^oods near the lighthouse, June 25. Two taken
under the bark of a pine, near the path to the lighthouse, July 17.

534. Boletophagus depressus Rand. One specimen found under a log,
near the northeast beach, June 25.

535. Meracantha contrada Beauv. One specimen found on the trunk
of a tree, near the lighthouse, night of June 26.

Cistelidae.

536. Allecula punctulatn ]Melsh. Two specimens taken at a sugar lure
on trees near the lighthouse, night of Julj^ 17. One found under
a board, on the northeast shore, July 17.

537. Allecula atra Say. Four specimens taken -on flowers of red-
stemmed dogwood, near the northeast shore, June 21.

538. Hymenorus pilosus Melsh. One specimen found in fungi, on
trunk of tree, near the southwest shore, June 23.

539. Hymenorus obscurus Say. Two specimens taken on the flowers
of Jersey tea, near the path running to the lighthouse, July 17.

540. Hymenorus densus Lee. One specimen found in fungi, growing
on a tree near the pond, southwest shore, July 17.

104 PAPERS ON ZOOLOGY OF MICHIGAN. •

541. Iso7mra sericea Say. Three specimens found crawling on a log,
on the northeast beach, June 23. One taken on the blossoms of
red-stemmed dogwood, near the northeast shore, July 17.

542. Isomira quadristriata Coup. One specimen taken on a board,
near the northeast shore, July 17. Three taken on the willows,
near the southwest shore, June 21.

54*3. Isomira similis Blatchly. One specimen found under a board,
on the northeast shore, July 17.

Melandryidae.

544. Pisenus humeralis Kirb}-. One specimen found under the bark
of a dead oak, near the center of the island, June 26. One taken
in fungi on a log, near the southwest shore, July 17.

545. Penthe obliquata Fab. One specimen found crawling on a log,
near the southwest shore, July 16.

^46. Synchroa punctata Ne^vm. One specimen found on the blossoms
of red-stemmed dogwood, near the northeast shore, June 21.

547. Eustrophus conjinis Lee. One specimen found in fungi. growing
on a log, near the southwest shore, June 25.

548. Melandrya striata Say. One specimen taken by beating the
dead branches of basswood, near the southwest shore, June 24.

549. Enchodes sericea Hald. One specimen taken on a log, on the
northeast shore, June 20. One taken l)y beating the blossoms
of dogwood, near the northeast shore, June 26.

550. Serropalpus harhatus Schall. Two specimens taken on logs, on
the northwest shore, June 20.

•551. Hallomenus debilis Lee. Two specimens found under a log, on
the northeast beach, June 21.

552. Mycterus scaber Hald. Two specimens taken under cut and
dried milkweed, on the northeast shore, near the lighthouse,
July 17.

Pythidae.

553. Salpingus virescens Lee. Two specimens taken under debris, on
the southwest shore, July 17.

Mordellidae.

554. Anaspis rufa Say. Four specimens found in flowers of red-
stemmed dog%vood, near the northeast shore, June 26. Three
taken under cut milkweed, on the northeast shore, near the
lighthouse, July 17.

555. Mordellistena hiplagiata Helm. Six specimens taken on the
flowers of dogwood, near the northeast shore, June 23.

MERSHON EXPEDITION TO CHARITY ISLANDS. 105

Anthicidae.

556. Anthicus cervinus Laf. One specimen found under a board, on
the northeast beach, June 23.

Pyrochroidae.

557. Dendroides hicolor Xe\\Tn. One specimen found under the bark
of a dead oak along the path, near the center of the island, June
20.

Meloidae.

558. Macrobasis unicolor Kirby. One specimen taken on a grass
stem, near the northeast shore, June 20. One taken on a willow,
near the southwest shore, July 17.

559. Epicauta cinerea Forst. One specimen taken by beating the
^^•illows, on the northeast shore, July 17.

560. Epicauta ferruginea Say. Two specimens found by beating
willows, near the northeast shore, July 17.

561. Epicauta marginata Fab. Two specimens taken by beating
^^^llows, near the southwest shore, July 17.

Otiorhynchidae.

562. Otiorhynckus suJcatus Fab. One specimen taken on the \nllows,
near the southwest shore, Jul}' 17.

563. Otiorhynckus ovatus Linn. Three specimens taken on the willows,
near the southwest shore, June 22.

564. Pandeletejus hilaris Hbst. One specimen taken on a branch of
an oak, at the north end of the island, June 20. One taken on a
branch of an oak, near southwest shore, July 17.

Curculionidae.

565. Phytonomus punctatus Fab. Two specimens found under
boards, near the northeast shore, June 22. One taken on a
board, near the northeast beach, July 17.

566. Lepyrus geminatus Say. Three specimens taken on branches of
willows, on the northeast shore, June 20. Four taken on the
balm of Gilead and willows, on the southwest shore, June 20.
Four taken on the balm of Gilead and willows, on the southwest
shore, June 23. They are killing willows, etc., by the larvae
boring near the roots.

567. Listronotus sordidus Gyll. Two specimens found on the under
side of a board, on the northeast shore July 17.

568. Listronotus tuber osus Lee. One specimen taken by beating the
branches of white pine, near the southwest shore, June 26.

106 PAPERS ON ZOOLOGY OF MICHIGAN.

569. Listronoius squamiger Say. One specimen found crawling on a
log, on the northeast shore, June 25.

570. Listronotus callosus Lee. Two specimens taken on a log, on the
southwest shore, June 22. Four taken by beating willows, on
the southwest shore, June 23.

571. Lisfrofwtus inaequalipennis Boh. Three specimens found crawl-
ing on logs, on the northeast shore, Jul}^ 17.

572. Listronotus caudatus Say. Sixteen specimens founfl on the
undersides of boards, on the northeast beach, July 17.

573. Listronotus nebulosus Lee, Two specimens found on a haw-
thorn tree, near the lighthouse, July 17.

574. Listronotus frontalis Lee. One specimen found crawling on a
board, on the northeast shore, July 17.

575. Hyperodas (Macrops) iparsus Say. Three specimens found
craW'iing on a log, on the northeast beach, July 17.

576. Pachylobius picivorus Germ. One specimen found under a
board, on the northeast beach, July 17.

577. Pissodes strohi Peck. One specimen found on a pine log, near
the northeast shore, July 17.

578. Hylobius pales Hbst. One specimen taken on a log, on the
northeast shore, June 23. One found crawling on the rocks,
near the northeast shore, July 17.

579. Hylohius confusus Kirby. Eight specimens found on pine logs
and boards, on the northeast shore, June 21.

580. Stephanodeonus plumbeus Lee. One specimen found on a willow,
near the northeast shore, June 21.

581. Dorytojuus laticoUis Lee. Ten specimens found crawling on logs
and boards on the northeast shore, June 21.

582. Dorytomus laticoUis Lee. var. One specimen found crawling on
a rock, on the northeast shore, June 23.

583. Dorytomus hrevicolUs Lee. Six specimens found on logs and
boards, on the northeast beach, July 17.

584. Grypidius equiseti Fab. One specimen found on a stone, near
the northeast shore, June 23.

585. Erycus puncticollis Lee. Two specimens found crawling on
rocks, on the northeast shore, July 17. Four taken on rocks,
underside of boards.

586. Simcronyx griseus Lee. One specimen taken on the flowers of
red-stemmed dogwood, near the northeast shore, July 17.

587. Smicronyx corniculatus Fab. One specimen found near the
water edge, on the northeast shore, July 17.

588. Lissorhoptrus simplex Say. One specimen taken on a log, near
the southwest shore, July 17.

MBRSHON EXPEDITION TO CHARITY ISLANDS. 107

589. Bagous magistar Lee. One specimen taken by l)eating willows,
near the southwest shore, July 17.

590. Magdalis oJijra Hbst. One specimen taken on a log on the
northeast beach, June 21.

591. Tachypterus quadrigihbus Say. One specimen taken on a log,
near the northeast beach, July 17.

592. Gymnetron teter Fab. One specimen found by beating a birch,
near the northeast shore, July 17.

593. Nanus uniformis Boh. One specimen found crawling on a rock,
on the northeast shore, June 25.

594 ConotracJielus posticatus Boh One specimen found on a board,
near the northeast beach, July 17. One found on a board, near
the southwest beach, July 17.

595. Conotrachelus nenuphar Hbst. One specimen taken on a willow,
near the southwest shore June 22.

596. Conotrachelus anaglypticus Say. One specimen taken on the
blossoms of red-stemmed dogwood, near the northeast shore,
June 24. One taken on a willow, near the southwest shore,
July 17.

597. Pseudomus truncatus Lee. One specimen taken by Ideating the
willows, near the northeast shore, June 24.

598. Pseudomus inflatus Lee. Two specimens foimd by beating the
willows, near the northeast shore, June 23.

599. Tyloderma aereum Sa^^ One specimen taken by beating birch,
near the northeast shore, June 19.

600. Cryptorhynchus bisignatus Say. One specimen taken on a willow,
near the northeast shore, June 21. Three found on the under
side of a board, on the northeast shore, June 24. Five found on
a board, near the northeast beach, Ju'y 17.

601. Cryptorhynchus fallax Lee. Two specimens found on the under
side of a board, on the northeast beach, July 17. One taken on
a wild grape, northeast shore, near the lighthouse.

602. Cryptorhynchus lapathi Linn. Two specimens found on stones,
near the northeast beach, June 25.

603. Acoptus suturalis Lee. One specimen taken by beating willows,
near the northeast shore, June 24.

604. Coeliodes acephalus Say. One specimen taken on milkweed
leaves, near the northeast shore, July 17.

605. Centrinus prolixus Lee. One specimen taken on wild grape,
near the northeast shore July 17.

606. Balaninus uniformis Lee. Three specimens found on a log,
near the northeast shore, July 17.

607. Balaninus nasicus Say. One specimen found crawling on a rock,
on the northeast shore, July 19,

108 PAPERS ON ZOOLOGY OF MICHIGAN.

Brenthidae.

608. Eupsalis minuta Drury. One specimen found under the bark
of a dead oak, near the southwest shore, June 20. One found
under the bark of a dead oak, near the center of the island,
June 26.

Calandridae

609. Sphenophorus striatipennis Chilt. Two specimens found on
boards, on the northeast beach, June 24.

610. Sphenophorus aequalis SyW. One specimen found under a board,
on the northeast beach, June 22.

611. Sphenophorus zeae Walsh. Two specimens found crawling on
rocks, on the northeast beach, June 24.

612. Sphenophorus venatus Say. Ten specimens found on rocks,
undersides of boards and logs, along the northeast beach, July 17.

613. Sphenophorus ochreus Lee. One specimen taken on the side of a
log, on the northeast beach, June 20. Two taken on the under-
side of a board, June 24. One taken on a rock, on the northeast
shore, July 16.

614. Spenophorus pertinax Oliv. Six specimens found crawling on
rocks, boards and logs, on the northeast shore, July 16.

615. Sphenophorus robustus Horn. One specimen found crawhng on
a stone, on the northeast beach, June 24.

616. Sphenophorus costipennis Horn. Six specimens found on logs,
boards, also on sedges, on the northeast beach, June 21.

617. Sphenophorus cariosus Oliv. Two specimens found on the under-
side of boards, on the northeast beach, July 17.

618. Sphenophorus sculptilis Uhler. Three specimens found on the
underside of boards, on the northeast shore, July 17.

619. Sphenophorus villosiventris Chitt. Two specimens found under
a board, on the northeast beach, June 21.

620. Sphenophorus cultellatus Horn. Four specimens taken on pine
logs, on the northeast shore, June 22.

621. Cosso7ius concinnus Boh. Two specimens found crawling on a
pine log, on the northeast shore, June 21.

Scolytidae.

622. Monarthrum mali Fitch. One specimen found in a lantern trap,
in the woods near the Ughthouse, June 25.

Anthribidae.

623. Cratoparis lunatus Fab. Two specimens taken on a pine trunk,
near the northeast shore, June 21.

RESULTS OF THE SHIRAS EXPEDITIONS TO WHITEFISH
POINT, MICHIGAN: FISHES.

T. L. HANKINSON.

RESULTS OF THE SHIRAS EXPEDITIONS TO WHITEFISH
POINT, MICHIGAN: FISHES.

T. L. HANKINSON.

The fish of the Whitefish Point region, Chippewa County, Michigan,
and the organisms ecologically related to them were studied in the field
between July 29, 1913, and August 31, 1913, by the writer who was
sent there for this purpose by the Museum of Zoology of the University
of Michigan. The investigations form a part of the biological survey
of the region which is being made by the ]\Iuseum and the ^lichigan
Geological and Biological Survey with the support of Hon. George
Shiras 3d.

As it is believed that the animal life of any area cannot be under-
stood without a knowledge of the environmental conditions and the
interrelations of the faunas and the habitat conditions, an attempt was
made to consider the fish of the Whitefish Point region from this eco-
logical standpoint.

No studies have heretofore been made of the fish of this part of
jMichigan, and very few notes relating to them can be found in literature.
Lists of plantings at Whitefish Point, statistics, and notes chiefly of
commercial interest on the fish there, are given in the publications of
the United States Bureau of Fisheries, especially in those entitled,
"Distribution of Fish and Eggs," and also in the Reports of the Michi-
gan Fish Commissioners. These show that the Lake Superior fishery
at Whitefish Point is an old and important one. ^lilner (1872) says
that this is one of the principal fisheries on Lake Superior. G. BroAm
Goode (1887) discusses the importance of the Whitefish Point Fishery
and informs us that it first attained magnitude in 1870. Smith and
Snell (1887) state that in 18G6 fishermen from Sackett's Harbor. New
York, caught fish, chiefly whitefish, there, which they salted and sent
to Cleveland and Detroit. C. H. Moore (1893) says, ''Located at
Whitefish Point, are the most productive whitefish grounds anywhere
to be found in Lake Superior," and again (1895) he states that the most
important fishery upon Lake Superior is Whitefish Point, and "from
this point, large and complete outfits of pound and gill nets are fished,
and the catch is maiiil.\' whitefish and trout, al)()ut one-half of each
variety."

112 PAPERS ON ZOOLOGY OF MICHIGAN.

GENERAL DESCRIPTION OF THE WHITEFISH POINT REGION.

The Whitefish Point Region is considered by this survey to include
that part of Chippewa County which Hes north of the Shelldrake River
and east of a Hne draA\Ti from this to the Chippewa-Luce County Hne
at Lake Superior (Plate XI). It lies between 46° 40' and 46° 46'
north latitude and between 84° 7' and 85° 15' west longitude.

In the short time spent in the field at Whitefish Point all of its bodies
of water could not be visited so special attention was given to the fish
near Vermilion, this place being headquarters for the work. This
limited region, fortunately, was very diversified and appeared to have,
within a radius of two miles, fish habitats typical of the whole area
(Fig. 3).

Topography.

Country of two distinct kinds exists in the Whitefish Point Region:
(1) forested upland with sand}^ soil, recently burnt over almost every-
where, (2) lowland with tree-covered sand ridges running in general
parallel wath the Lake Superior shore and separating large areas of low
and level open marsh and wooded swamp land containing a number of
small lakes. The upland and lowland areas are sharply demarcated
by a steep slope or bluff. This is about seventy-five feet high near
Vermilion where it runs in a general east and west direction and is
located nearly a mile back from Lake Superior. Some distance east
of Vermilion it is much farther from the lake than this; and west of this
place, it approaches within a few hundred feet of the lake. The bluff
represents the shore line of the old Lake Nipissing. The lowland about
Vermilion was thus once covered by the water of Lake Nipissing, so
it is newer than that of the more remotely submerged upland. Along
Lake Superior lies a broad, sandy beach with scant vegetation and much
drift strewn upon it and with a pebble zone several feet wide close to the
water's edge (Plates XII, XIII and XIV). The shoal is here broad
with a firm sandy bottom, without evident plants, and with a sub-
merged pebble zone in the shallowest part. The small lakes of the belt
of marsh land (called marsh lakes in this paper) are surrounded by
sedge marshes and wooded swamps; they lie with their long axes general-
ly parallel with the shore of Lake Superior and the sand ridges. They
are all shallow, probably nowhere over seven feet and in most places
less than three feet (Plate XVII and Fig. 3). The Shelldrake River
cuts through the upland some two miles south of Vermilion, expanding
into a lake, called Shelldrake Lake (Plate XI, XXV and Fig. 3). Con-
ditions about this lake, except a few marked vegetal differences, are
quite similar to those about the marsh lakes.

SHIRAS EXPEDITIONS TO WHITEFISH POINT.

11 :i

1 "^

114 PAPERS ON ZOOLOGY OF MICHIGAN.

Vegetation.

The Whitefish Point region has a rich and varied vegetation. This
has been Httle interfered with on the lowland, but much of the upland
has been burned over, and the forests have been cut off, so that the plant
life retains little of its primitive character. One small area of several
acres near Vermilion still has a thick, untouched growth of large pines
{Pinus strohus and Pinus resinosa) and is an isolated relic of the great
pine forest that once covered this region as well as much of the rest of
northern Michigan. In other places, the upland has onh^ small trees,
prominent among which are spruces (Picea sp.), jack pines (Pinus
Banksiana), birches {Betula sp.), alders (Alnus sp.), aspens (Populus
tremuloides and Populus grandidentata) , red oaks {Quercus rubra),
maples (Acer sp.), all forming scattered groAvths or in a few places
small forests or coppices. Tall pines exist here and there over the burned
area, but their charred stubs are more numerous. Everj^'here on this
upland, there is an undergrowth, composed chiefly of oak ferns {Phe-
gopterus dryopterus), blueberry {Vaccinium sp.), AAdntergreen {Gaul-
theria sp.), bearberry (Arctostaphylos uva-ursi), sarsaparilla {Aralia
sp.), trailing arbutus {Epigaea repens), pearly everlasting (Anaphalis)
and a number of other plants including many grasses and sedges.
Reindeer moss {Cladonia sp.) and other lichens were abundant and
very generally distributed.

The belt of lowland along Lake Superior, where marsh conditions are
prevalent, has' a vegetation very different from that of the upland just
described, but the dry sand ridges have associations of plants very
similar to those of the upland. Both the uplalid and the sand ridges
support birches, aspens, alders, maples, red pines, and white pines as
their most noticeable trees; and blueberries, huckleberries, winter-
greens, and oak ferns form the chief undergrowth on the high ground
as well as on the low ground. There are some plants, however, that
while common on the sand ridges appear to be scarce or absent on the
upland. These are: Balsam fir, {Abies balsamea), willows, {Salix sp.),
service berrj^ {Amalanchier canadensis), wild cherry, {Prunus sp.),
red osier dogwood, {Cornus stolonifera) , raspberrj^, {Rubus sp.), low
juniper, {Juniperus communis depressa), Labrador tea, {Ledum sp.),
]:)unch berry {Cornus canadensis), dogbane {Apocynum sp.), pigeon
berry, {Phytolacca decandra), beach pea {Lathyrus maritimus), skull
€ap (Scutellaria sp.), rattle snake plantain {Epipactis sp.), St. John's
w^ort {Hypericum sp.), spotted touch-me-not {Impatiens biflora), squaw
berry {Vaccinium sp.), and sand cherrj^ {Prunus puniila). A number of
other common plants were not determined ; and there are many species
on these ridges represented by but a few individuals in each case. One

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 115

of these is the red cedar {Jiiniperus virginiana). Many mosses and
lichens were present here ; the latter including some long pendant forms
that made festoons among dead tree branches.

The low ground betAveen the sand ridges has a large variety of plants,
which are chiefly hydrophytic. In the small lakes, extensive carpets
of stonewort (Characeae) are found in some places; in others, water
weeds (EJodea canadensis) grew in patches on the bottom. Pond-
weeds thrived in the deeper parts of the lakes. Of these there are the
oblong-leaved forms {Po'.amogeton lucens and P. natans) and the narrow,
linear-leaved, grass-like pondweeds {Potamogeton rutili§ and P. hetero-
phijUus), commonly producing grayish green tufts up from the bottom.
In places there are also many water milfoils {Myriophijllum sp.) and
bladderworts {Utricularia intermedia and ('. ndgaris americana).
Yellow water liUes {Nymphaea americanaj form patches of varying ex-
tent. Distinct zonal arrangements of pondweeds and water lihes are
not present in these lakes, the plants occurring in irregular patches;
indeed, water plants are not a conspicuous feature of these bodies of
water, for, in most places, rooted plants are absent and the bottom is
composed of loose muck or hard sand, neither of which appears favor-
able for rooted aquatic plants. Considerable algae were found in a
number of places, but like the seed plants, were not generally dis-
tributed. They mostly form gelatinous masses (Nostoc sp., Anabaena
sp., and Rivularia sp.) or green, floating scums, with filaments of
several species intermixed, but with those of Spirogyra jiuviatilis and
Zygnema sp. predominating. Green tufts of Vaucheria filaments grew
on the bottom at some stations.

Extensive sedge growths border the marsh lakes almost everywhere.
In places the jolants are in clumps so it is impossible to find a line sepa-
rating lake and marsh (Plate XIX). Some plants taken from a typical
shore growth proved to be Carex lanuginosa, Dulichium anindinaceum,
and Eleocharis sp. Much moss, including Sphagnum, grows about the
bases of the sedges in the wet marshes, as well as pitcher plants {Sar-
racenia purpurea) and cranberry {Vaccinium Oxycoccus). The latter is
propagated in the Whitefish Point region and forms a very profitable
industry there. A low shrub {Myrica Gale) thrives in large numbers
in zones and patches. about the edges of the lakes as well as in other
parts of the marsh region. This ])lant is shown in Plates XVIII, XX
and XXI. X^o attempt was made to identify all the marsh plants, and
only a few other conspicuous ones will be mentioned. These are:
cat -tails (Typha latifolia), blue flags {Iris versicolor), arrow head
(Sayittaria sp.), bulrush {Scirpus validus), Cassandra {Chamacdaplme
sp.), smart weed {Polygonum Muhlenhergii) , bur-reed {Sparganium
eurycarpum), marsh bluebell {Campanula aparinoides), marsh five-

116 PAPERS ON ZOOLOGY OF MICHIGAN.

finger {PoteniiUa polustris), rosemary (Andromeda sp.), cotton grass
{Eriophorum virginicum), and high huckleberry (Gaylussacia sp.)-
Willows formed patches and borders. Tamaracks {Larix laricina)
with spruces formed thick swamps and also grew singly over the marsh.
Many of these tamaracks were dead (Plate XVIII).

Where the marsh lakes touch tamarack or spruce-cedar swamps,
their shores are wooded (Plate XXIIA). The oldest, thickest swamps
and those Avith largest trees are near the Nipissing bluff. These are
quite extensive near Vermilion and contain besides spruces many white
cedars, with ])irches, maples, mountain ashes, and many tamaracks
forming marginal growths. These swamps have wet, soggy floors or
small pools or streams with hummocks, exposed roots, fallen trees or
Hmbs. Sphagnum sp. and other mosses thrive here with man}^ pitcher
plants, ferns orchids and other forms. About the edges of these
swamps, thick undergrowth is commonly present with such plants as
high huckleberry, cotton grass, willows, sweet gale and rosemary con-
spicuous.

Invertebrates.

As with the plants, only those invertebrates most closely related to
the fish Ufe in an ecological way were given particular attention; these,
of course, are those which are aquatic or have aquatic stages. Insects
were observed in largest numbers. Some very noticeable ones are
biting flies, about the size and general appearance of house flies, which
are exceechngly numerous, much more so near Lake Superior. In ap-
pearance and behavior, they are like stable flies (Stomoxijs calcitrans) ;
and it is possible that they are this insect, since a specimen of the species
was found in a small collection of insects made along the lake shore.
Mosquitoes are very numerous, and they were most in evidence about
the lowland marshes, toward evening. A few specimens collected
proved to be Culex sylvestris, Culex suhcantans, and Anopheles quad-
rimaculatus. A number of kinds of dragon-flies and damsel-flies,
swarms of gnats, small, annoying tabanids, and many moths, and
butterflies, were the most conspicuous of the aerial insects. On the
water surface were gyrinids, water striders, and other insects with some
spiders. On floating water lilies were seen leaf-eating beetles {Donacea
sp.) and frequently large, slender, naked caterpillars {Bellura sp.), that
eat the channels in these leaves and mine their petioles (Welch, 1914).
Tiger beetles are common on Lake Superior beach. Some caught there
are Cicindella hirticoUis. Beneath the surface in the marsh lakes and
in the beach ponds were found many insect larvae and some adults.
A list of those collected is here given :

May-flies: Heptagenia.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 117

Dragon-flies: Aeschna sp., Gomphus sp., Tetragoneum sp., Soma-
tochlora sp., Leucorhinia intada Hag., Sympetrum sp., Ladotiia exusta
Say, Lihellida pulcheUa Drury, Plathemis lydia Driiry, and Enallagma
sp.

Aquatic Hemiptera: Notonecta undulata Say, Corixa sp., Ardo-
corisa nitida Lieb., Ardocorisa internipta Say, Lethocerus sp., Gerris
remiges Saj^ Geiris rufosadeUatus Latr., Gerris marginatus Saj\

Alder flies: Sialis sp.

Aquatic Diptera: Chironomus sp., Ceratopodon sp.

Aquatic Coleoptera: Dytiscus sp., Gyrinus ventralis Kirby, Gyrinus
canadensis Regimbart, Dineutes nigrior Rob.

Crustaceans were not found in noticeable numbers anywhere, yet en-
tomostracans formed a prominent part of the food of small whitefish,
herrings, suckers, sticklebacks, and perch that gathered in large numbers
during calms on the Lake Superior shoal. The compact masses of
entomostracans in the fish stomachs and intestines are of an orange
color and frequently are evident through the body wall of an undis-
sected fish. Analyses of the material revealed three genera and three
species in the stomachs of the little fish examined; these are: Bosmina
longirostris, Diaptomus ashlandi, and Cydops viridis brevispinosus.
Droppings of the fish were numerous on the shore at the water's edge,
where they formed minute windrows, like orange-colored strings,
thrown up by the gentle waves. The distribution of these small crus-
taceans was not studied, but they appeared very scarce in shallow
water; none could be seen in water dipped up in a pail or bottle. The
marginal shoal may not be the main feeding ground for the fish, which
may be there for other reasons such as higher water temperature, or
excess of oxygen. Entomostracans were also found in the stomachs
of fish taken in bodies of water other than Lake Superior.

Crayfish were occasionally caught in the marsh lakes and were
quite common in their outlet streams. Cambanis virilis was the only
species found here, but of the two specimens taken in Shelldrake River,
one was Camharus virilis and the other C. propinquus. Amphipods
could be picked from masses of aquatic })lants draAm in by a net.
Those taken were all Hyalella knickerbockeri (Bate) and Eucrangonyx
gracilis (Smith). The former appear the most common and more
generall}' distributed. Amphipods also were in Lake Superior for they
were taken from the stomachs of Menomhiee whitefish. A few isopods,
Mancasellu^ tanax (Smith), were found on i)lant debris from the marsh
lakes.

Mollusks were found in numbers by the writer only in certain places.
In a small, marsh-bordered bay of Beaver Lake (Station oo), many
small bivalves could be taken by tlrawing the net through the thick

118 PAPERS ON ZOOLOGY OF MICHIGAN.

muck on the bottom. These were Sphaerium rhomhoideum Say. They
were taken in other parts of the marsh lakes, 1)ut nowhere were they
found in such numbers as they were at Station 55. Sphaerium simile
Say, was found in a collection from the marsh lakes. Three univalve
mollusks, Physa heterostropha Say, Planorhis antrosus striatus Baker,
and Physa gijrina Say, were incidentally collected with fish. Physa
gyrina was found only in the Shelldrake River, and the others in marsh
lakes and beach ponds west of Vermilion.

The margins of the shallow marsh lakes are favorable places for
leeches. These creatures are ravenous, and much difficulty is ex-
perienced in keeping them from one's body while wading. The following
leeches were taken by the writer in the region: Placohdella rugosa
(Verrill), Haemopsis marmoratus (Say), Macrobdella decora (Say) Verrill,
Glossiphonia complanata (Linn.) Johnston, Erobdella punctata (Leidy),
and Dina fervid a (Verrill).

Sponges, bright green in color, often formed extensive growths on
submerged brush, roots, logs, and other objects. The following were
collected :

Spongilla lacustris (Linn.), Spongilla fragilis Leidy, and Myenia
fluviatilis astrosperma Potts.

These three forms appeared to be closely associated.

Near the surface of one of the beach ponds, the water was a bright
green due to an abundance of ciliated protozoans (Stentor igneus Ehr.).
Another conspicuous protozoan in one of the marsh lakes produced
large, jelly-like colonies It appeared to be Ophrydhim sp., which the
writer has found abundant in Walnut Lake, Oakland County, Michigan
(Hankinson, 1908).

Vertebrates Other Than Fish.

The amphibians and reptiles of the Whitefish Point region have
been studied and a paper published on them (Thompson and Thompson,
1913). A number of species were taken in the course of the field work
on fish, which were, Kana pipiens Shr., Ra7ia septentrionalis Baird,
Rana clamitans Latreille, Bujo americanus LeConte, Thamnophis sirtalis
(Linn.), and Chrysemys belli Gray. Tadpoles were found in some num-
bers in cjuiet sunny shoals of Shelldrake River and Shelldrake Lake and
in shallow, quiet tributaries of Vermilion Creek.

Many birds were present in the region during the time of the field
work, but like other terrestrial animals, they were given little attention.
A detailed report on the birds and mammals of the region has been
published by N. A. Wood (Annual Report of the Michigan Academy of
Science, Vol. XVI, pages 55-73). Since these forms have been treated
by Mr. Wood, only notes on the beaver. Castor canadensis michiga-

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 119

nensis (Bailey) will be given in this paper, for this species is related
to the nsh life of the marsh lakes in an especially important ecologi-
cal way.

The work of beavers was very manifest almost everywhere about
the marsh pools. These were in the form of lodges (Ruthven, 1914),
submerged piles of sticks gathered for food, felled trees, dams (Plate
XVB), and networks of channels through the marshes. The dam on
Mason's Creek was a new one, and above it a large pond had been re-
cently formed; this had m.any dead trees standing in the water, as well
as dying ones with wilting leaves. Forest conditions are rapidly chang-
ing to pond conditions here; and thus a new dwelling place for fish will
ia all probabilit}- be formed. The marsh lakes appear to be very
good habitats for beavers. Both the marsh and lake region are readily
accessible one from the other by the animals, and by means of channels
they can easily get to wooded areas where there is an abundance of
food in the way of young trees.

CAimatic Features.

The climate of the Whitefish Point region is probably that of north-
ern Michigan generally with a little more than the usual rainfall due to
its proximity to Lake Superior. According to data given by Leverett
(1911), the mean annual temperature of the Northern Peninsula is near
40° F, with, a few days when it exceeds 90° F, and a few when it is below
20° F. In August, the average temperature is near 60° F. The rain-
fall is near 34 inches each year; at Whitefish Point it varied from less
than 25 inches to near 30 inches from 1906 to 1910, inclusive. There
is considerable snow, and winter conditions last usually from early
November to late April. The small lakes are frozen over during this
time. The warm season is, therefore, short, with spring, summer, and
autumn conditions from May to October. There is an abundance of
sunshine, and the periods of daj'light are from 3 A. ]\I. to 9 P. M., a
length of time favorable for plant growth.

In August, 1913, when most of the fish work was done, the weather
was, for the most part, pleasant with days mostly warm and sunny and
nights cool and clear. There was a rainy tlay or two and a few showers
of short duration. The season was called by residents a wet one.
From July 15, 1913, to August 28, 1913, the range of temperature
readings at the Life Saving Station on Lake Superior beach were from
38° F. to 89°.F. With the permission of the U. S. Life Saving Service,
these readings arc published here:

120

PAPERS ON ZOOLOGY OF MICHIGAN.

Midnight.

6 A. M.

Noon.

6 P. M.

Wind.

July 15

47

46

55

54

W-N. E.

16

52

63

72

63

S-8E.

17

60

56

60

52

SE.-N-W.

18

52

56

55

56

N. W. S-W.

19

57

55

61

58

W. S. W.

20

52

53

54

56

N-N. W.

21

50

54

63

70

N. E. S.

22

64

62

76

67

S. S. W. E.

23

60

61

56

55

S-N-W.

24

48

52

54

52

W.

25

50

54

65

65

N. S. W. N. E.

26

61

62

73

71

S-S. E.

27

68

70

75

70

S. N. E. W.

28

54

56

58

60

N-W.

29

48

52

64

60

S-N-W.

30

55

60

80

. 72

W-S. E.

31

77

76

68

61

S-N-W.

Aug. 1

60

62

62

60

w.

2

55

63

60

60

S-W-N.

3

63

53

59

58

N-W.

4

52

52

62

60

N-W-E.

5

60

58

62

60

S-N. E. g.

6

61

57

62

60

N-N. W.

7

59

60

75

. 70

N. E.-SE.

8

64

64

75

64

S. SE. W-E.

9

62

64

67

66

S-N. S. W.

10

59

58

56

52

W-N. NW.

11

54

54

67

63

SE. SE.

12

60

58

71

70

SE. NE. N.

13

58

' 62

76

73

S. E. N. E. E.

14

65

66

82

80

S. E.

15

68

68

89

82

SE.-S.

16

77

67

74

72

S. N. NW-N.

17

67

64

66

62

w-s-w.

18

62

64

68

66

NW. E. N.

19

65

62

73

70

E-SE.

20

56

60

77

70

SE.

21

64

63

66

62

S. E. SW. E.

22

62

54

60

57

W. SW. NW.

23

52

53

59

58

N. NE. N. W. NE.

24

55

49

48

46

N. W-N-NW.

25

38

40

71

62

26

59

60

63

60

27

55

56

55

60

28

58

60

68

60

The A\ind as shown in the above table varied much as to direction
in the late summer of 1913. It also varied in intensity, but only a feAv
times was it strong enough to produce a very rough sea on the lake.
Water temperatures Avere taken with each fish collection. A list is
here given with accompanying air temperatures taken at the same
times. The latter are given in parentheses.

Lake Superior Shoal; water under two feet deep: 65 (60); 65 (70),
66 (67), 55 (68), 66, 64.

Beach Ponds: 65 (79), 80 (82), 70 (63), 69.

Marsh Lakes: 71 (69), 73 (68), 73 (77), 76 (72), 73, 72 (72), 70
(70), 62 (60), 69 (60), 68 (58), 75 (62), 64 (60), 70 (68), 75 (70), 74 (68),
75 (64), 67, 69 (60) 65 (64).

Outlet Streams of the Marsh Lakes: 68 (62), 69, 74 (68), 65.

Shelldrake Lake 68 (59), 65 (68).

Shelldrake River: ,63 (70).

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 121

Methods and Acknowledgments.

In the study of the fish of the Whitefish Point region, extensive
collections Avere made and each was studied in detail before another
was taken up. An attempt was made to get a complete collection of
the fish inhabiting the region, but not to such an extent as to interfere
with the study of the habits of the species in their respective habitats.
A convenient laboratory was fitted up, and the fish were studied in an
aquarium. In this way it was possible to become well enough ac-
quainted with the different species so that they could easily be recog-
nized under favorable circumstances in the water afield.

For watching fish binocular field glasses and a water-glass were
found very helpful. In Lake Superior a large, fifty-foot minnow seine
and smaller "common sense" seines were hauled on the marginal
shoal. Fish from the deeper shoal were obtained from fishermen, who
very Avillingly permitted the writer to examine their "catches," and to
retain desirable specimens. In the marsh lakes and beach ponds a
six-foot, "common sense" seine was used almost everywhere. This
can readily be handled by one person while wading or from a row boat.
In the marsh, in narrow beaver channels, and for scooping under banks
of streams, under gale growths, and about sedge clumps, a large minnow
dip net (1 1-2 x 3 ft.), was successfully used. A minnoAv trap on the
plan of a fj-ke-net was kept set much of the time, and some interesting
specimens were taken with it.

Many photographs of the fish and their environments were taken to
supplement the field notes, negatives and prints of which are filed in the
Museum of Zoology, Ann Arbor, Michigan. The field work was nearly
all done l)}- the writer unassisted, but at times help and suggestions
were given by the following named residents of ^^ermilion: John
Clarke, Will Clarke, Fred Wetherhog, and Captain J. A. Carpenter of
the Life-Saving Station. Special mention should be made of the ser-
vices given by Mr. John Clarke, whose lamented death in May, 1914,
removed a good friend, advisor, and efficient assistant to the members
of the several field parties. Mr. Robert Carlson, ligjitkeeper at White-
fish Point, furnished information concerning the fisheries at that place.
Mrs. Hankinson prepared and identified plants and contributed in
other ways to the progress of the work. Mr. Seymour Bower, Super-
intendent of the Michigan Fish Commission, made the investigations
possible l)y procuring a permit to collect specimens of fish. The work
was done under the direction of A. G. Ruthven, Director of the Museum
of Zoology and Chief Naturalist of the Michigan Geological and Bio-
logical Survey. Mr. N. A. Wood of the Museum of Zoology at Ann
Arbor gave the writer some useful suggestions and directions and col-

122 PAPERS OX ZOOLOGY OP MICHIGAN.

Iccted some fish for liim in the region '''lie folhnving specialists named
material collected :

E. N. Transeau, Charleston, Illinois, Algae and some seed plants,

Philip Dowell, Port Richmond, New York, Chi])-mosses,

C. K. Dodge, Port Huron, JNIichigan, Seed Plants,

G. N. Calkins, New York, New York, Protozoans,

N. A. Harvey, Ypsilanti, Michigan, Sponges,

J. P. ]\Ioore, Philadelphia, Pa., Leeches,

Bryant Walker, Detroit, Michigan, Mollusks,

J. G. Needham, Ithaca, New York, Dragon-flies,

J. R. De la Torre Bueno, White Plains, New York, Hemiptera,

C. Betten, Lake Forest, Illinois, Caddice-flies,

Chas. A. Hart, Urbana, Illinois, Water beetles,

V. E. Shelford, L^rbana, Illinois, Tiger beetles,

O. A. Johannsen, Ithaca, New York, Aquatic Diptera,

Chancey Juday, ^Madison, Wisconsin, Entomostracans,

]\Iiss Ada Weckel, Oak Park, Illinois, Amphipods,

Miss Harriet Richardson, Washington, D. C, Isopods,

A. E. Ortmann, Pittsburg. Pennsylvania, Crayfish,

A. G. Ruthven, Ann Ar]:)or, ^Michigan, Amphibians and Reptiles.

FISH HABITATS.

Fish are the most abundantly represented of all the vertebrates of the
Whitefish Point region, but they do not inhabit all of the bodies of
water or all parts of any one of them. Descriptions of the more im-
portant places where fish are found will be given for the purpose of
enabling one to understand better the conditions under which the
different species live in the region. Data on the relations of the fish
to the environmental factors in their habitats will be included, although
little information of this kind was revealed in the necessarily brief time
that could be spent in the field. The portions of the bodies of water
examined are called stations and are designated by numbers; those near
Vermilion are indicated on the sketch map (Fig. 3). They may be
classified as follows:

Lake Superior Shoal
Deeper Shoal
Marginal Shoal
Beach Ponds

Lower Beach Ponds
Upper Beach Ponds
Open Pond
Marsh
Beaver Dam Pool

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 123

Marsh Lakes

Deeper water Areas

Shallow water Areas

Marsh bordered Shoal

Wooded Shore

Outlet streams
Shelldrake Lake
Shelldrake River

Lake Superior Shoal.

Deeper Shoal. Station 2. At the end of Clark's pier, at Vermilion,
the water is about six feet deep. The zone having this or a little greater
depth out to about ten feet is called the deeper shoal, and the part of
it examined, about the end of the pier, is Station 2. Plate XIIB shows
the region in the background. The following conditions maintained
at Station 2 during August, 1913: depth, 6-10 feet; water clear, cold,
and commonly disturbed, even to the bottom; bottom of clear, yellow
sand; and visible plants absent. The species of fish, found iii the order
of their apparent abundance, were: lake herring, common sucker,
brook trout, long-nosed sucker, Menominee whitefish, common white-
fish, rainbow trout, and tullibee.

The fish caught were all fair-sized examples of their species, since the}'
were caught by fishermen for the table. Direct observations are easily
made of all parts of this station from the pier end. At times, many fish
were seen which could not be positively itlentified, but it is evident that
the station is visited by these larger fish periodically, and they do not
permanenth' inhabit the place. Small fish also frequent this region,
but according to the Avritor's observations, only on their wa}' to or from
shallower or deeper water. Immense numbers of little fish were seen
about sunset after an unusually warm and Cjuiet day mo^•ing in a steady,
direct, purposive way from the shallower water near shore close to the
water surface and going out to some depth beyond. None were seen
lingering at this station.

Marginal Shoal. The zon(> of shallow water close to the shore, out
as far as collections could be obtained by wading, is called the marginal
shoal. The conditions here are as follows: depth three feet or less;
water usuallj' clear, only clouded l)y sand or del^ris close to shore
when breakers are present; water cold; bottom of hard, clear,
yellowish sand or with pebbles, the latter forming a discontinuous,
marginal zone; no visible plants except some Ulothrix zonata on sub-
merged parts of piles and other objects; aquatic animals other than
fish inconspicuous. Gnats and caddice-flies (Mystacides sepulchral is)
were seen at t'mes over the water surface: a kingfisher, at one time, was

124 PAPERS ON ZOOLOGY OF MICHIGAN.

seen to dash in where .small fish were schooling near the shore. In four
places, there are unusual conditions, near the mouths of the three
streams draining the marsh and where there is a broad sand flat free of
pebbles and debris, a short distance west of Vermilion (Station 5).
Here a person can wade out several hundred feet before reaching water
waist deep. The mouths of streams appeared to have no special at-
traction for shoal fish except that of Vermilion Creek, which is probably
due to kitchen wastes throAvn in it a short distance up stream from its
mouth The shoal here is called Station 1. Many small fish were oV>
served at times about the entering water. The following species were
collected at this station: *nine-spined stickleback, lake herring, common
sucker, common perch, common sculpin, common whitefish, brook trout,
spot-tail minnow^ long-nosed dace, and brook stickleback.

The little herring were in large, compact schools, and the whitefish
were associated with them. The common suckers and the nine-spined
sticklebacks were both numerous, and each species schooled by itself
with a few individuals of one often in large schools of the other. The
perch associated little with other species but were solitary or in little
companies. The sculpins lived on the bottom among the pebbles, and
there were probably many more of them at Station 1 than the col-
lections revealed since it was difficult to catch them with a seine. Small
burbots were apparently for the same reason poorly represented in col-
lections. The brook sticklebacks and spot-tailed minnows and long-
nosed dace were all very scarce.

Over the large submerged sand flat, Station 5, thousands of young
herring and nine-spined sticklebacks schooled. A few young whitefish,
suckers, and perch were also here; the first closely associated with young
herring and the other two were chiefly by themselves.

Pebble-covered shoals appeared to be avoided by all the shoal fish
except the bottom forms — sculpins and burbots. Often immense
schools of sticklebacks were seen just off the pebble zone and not moving
over it.

The main food of these little shoal fish appears to l)e entomostracans,
chironomid larvae, and adults of various insects that fall into the water,
and filamentous algae {Ulothrix zonata).

Beach Ponds.

Upon the Lake Superior shore, there are a number of small bodies of
water, some onl}' temporarj^ and formed in depressions (Plate XIII)
b}^ the waves during storms and some larger and forrned by the damming
of the small streams. The latter are the only ones of interest here

*In the lists of fish given in this habitat discussion, the species are nameJ, as far as possible,
in the order of apparent abundance, the best represented one first.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 125

for they alone contained fish. The beach ponds belonging to creek
systems are of two kinds: (1) those of the lower beach, which are close
to Lake Superior and freely connected with it and (2) those of the older,
upper, or fossil beach several hundred feet back from the lake and with
scarcely any water connection with the lake except during spring
floods.

Lower Beach Ponds. Two of these were found in the region near Ver-
milion, one at the mouth of Cranberry Creek (Station 31, Plate XVA)
and one a mile or so farther east on ^Yetherhog Creek (Station 121).
Fish might readil}^ enter these ponds from Lake Superior, but there is
no evidence that they often do this. No fish were found on the lake
shoals anywhere near the mouths of these two streams, and the fauna
of these ponds is very different from that of Lake Superior. Each of
these ponds is long and narrow, extending several hundred feet making
a small angle with the lake margin. The water is stained brown but
free from sediment and has a variable temperature, usually about
that of the air. They are shallow, under two feet in depth and the
bottom is of hard, yellow sand with conspicuous "ripple marks."
No vegetation except some diatom scum and filamentous green algae
was evident in the water and the shore was practically barren of veg-
etation. There were no noticeable water invertebrates, except a few
insects. Some aquatic beetles {Coptotomus inter rogatus) were caught.
The following fish, given as near as possible in the order of their abun-
dance, were found in these pools: common sucker, red-bellied dace,
Leuciscus neogaeus, Cayuga minnow, silvery minnow, common perch,
horned dace, brook stickleback, Iowa darter, and brook trout.

All of the fish taken in these pools are small examples of their species,
and none were represented in any numbers except the suckers, Avhich
were only in a depression about two feet deep around a partly sub-
merged stumji at Station 31. Here w^ere a great many little suckers
with very small examples of the other species listed, except the trout.
Only one trout was found and this was beneath a water-logged piece
of wreckage. Very few fish were moving out in the open water of the
pond, but all stayed about objects which afforded some concealment.

Upper Beach Ponds. The ponds of the upper beach are about two
miles Avest of Vermilion and are much larger than those just considered
and possess a larger l)iota. They are U^d by Mason's Creek, and a
little, shallow, narrow outlet winds over the beach to Lake Superior.
The series of several ponds are not distinct from each other but are
expansions of one s\'stem. Two of these are -much larger than the
others and are about five hundred by seventy-five feet. Much vegeta-
tion is in and al)out these bodies of water, and this aiiproaches in char-
acter that of the marsh lakes farther back from Lake SupiM'ior. At the

126 PAPERS ON ZOOLOGY OF MICHIGAN.

upper end of the series plants are especially numerous and form a small
marsh (Station 172, Plate XVI B). A sliort distance al)ove this a
beaver dam is across the creek near where it emerges from the woods
(Plate XVB). The dam is a new one and has caused the creek to
flood a large wooded area recently. Below the dam is a pool (Station
171, Plate XVB).

Much invertebrate life was in evidence about these pools and marshes.
The following aquatic forms were taken in the net with fish collections:
dragon-fly larvae (Aeschna, Soynatochlora, Gomphus), water stridors
{Gerris remiges), and leeches (MacrohdeUa decora, Haemopsis mar-
moratus, and Placobdella rugosa). Attached to many submerged ob-
jects were sponges (Spongilla fragilis). A protozoan {Stentor igneus)
swarmed near the Avater surface, giving a considerable area of it a bright
green color.

The noticeable vertebrates were frogs, tadpoles and a number of
birds. In general four tji^es of fish habitats are present: (1) the deeper,
open water areas; Avith water about three feet deep and a hard sand
bottom, over which there is little debris or humus; water plants are
absent, except a few small patches of stoneworts or bladderworts, (2)
the marsh region, with, a thick groAvth of partly submerged sedges,
rushes, flags, sweet gale, and a number of others and also much green
algae on the surface and much stonewort beneath it, (3) marginal
areas of very shallow water, two or three inches deep, and unusually
warm, and well exposed to sunlight owing to a scarcity of seed plants,
and (4) the pool beneath the beaver dam (Station 171, Plate XVB),
which is about twenty by thirty feet with a depth of about three feet
doAATi to the sand bottom, over which there is a foot or more of dead
leaves, sticks, and other litter, and growths of stonewort; the water
was cold (65° F.) and stagnant, since the pool is supplied by percola-
tions through the beaver dam.

In the open deep areas (No. 1, above), the following fish were taken:
black-head minnow, Cayuga minnow, horned dace, Leuciscus neogaeus,
black-nosed dace, and brook stickleback.

None of these were abundant or generally distributed in this type of
region. The Caj'^uga minnoAvs were chiefl}- in a few large schools in
the deepest water; and those observed were large example^ of their
species, while all the other fish taken were much undersized.

In the marsh area (No. 2, above), chiefly in the more open places, the
following fish were caught: red-bellied dace, silvery minnow, black-
head minnow, horned dace, Leucif>cus neogaeus, Cayuga minnow, black-
nosed dace, mud minnow, and brook stickleback.

Most of these fish were small, under an inch in length, and each
species, except Cayuga minnows, L. neogaeus, and mud minnows, was

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 127

abundantly represented. This marsh is the onlj' place in the White-
fish Point region where horned dace were found in any numbers.
The marsh appears to be an important feeding ground for the smaller
fish.

The marginal shoals (No. 3, above) were visited by many small fish,
but a representative collection of them was not made; one species, the
barred kiUifish, seemed to be confined to these places and was tolerably
common.

The pool below the beaver dam (Xo. 4, above) was frequented by
brook sticklebacks, red-bellied dace, Leuciscus neogaeus, black-nosed
dace, and mud minnows.

The sticklebacks were numerous, and appeared to thrive Ijetter than
in any habitat examined in the Whitefish Point region. Some of
them were large, being nearly three inches long. A few opened had
been eating insects and algae. The other fish were all small and present
only in small numbers.

Marsh Lakes and Streams.

The small lakes among the sand ridges on the strip of lowland along
Lake Superior vdth their outlet streams, channels, pools, beaver runs,
and other bodies of water connected with them, contain many small
fish and some large ones. They are, moreover, everj'thing considered,
the most productive places for studjdng and collecting aquatic organisms
in the Whitefish Point region. The lakes given particular attention
are close to Vermilion and are show^l on the sketch map. The names
used for these were for the most part invented by the writer.

According to Leverett (1911), regions below the Nipissing shore line,
including the lowland about Vermilion, are very 3'oung geological^,
perhaps not older than three thousand years. When the waters of the
(Ireat Lakes descended to their present level, sand ridges, produced
probably ])y both waves and ice, were formed with the intervening de-
pressions, ^larsh plants began to grow and thrive here till they cap-
tured the shallower parts of the flooded low ground. In places, the beavers
made dams to retain and elevate the water, which on rising drowned
out portions of the marsh or otherwise changed its features. These
animals thus helped to preserve the small lakes, and in this and
other ways they have been a djmamic factor in determining the char-
acter of the fish habitats. Man has also affected the region in a similar
way by damming the water to facilitate cranberry culture. No inlets
were found leading to these lakes, except short streamlets from springs
near the base of the Nipis.sing bluff. They appear to be fed chiefly
by seepage from the higher ground. The bottom of these lakes is at
foundation a hard, yellow sand, but over this in many places, there is

128 PAPERS ON ZOOLOGY OF MICHIGAN.

a thick stratum of loose, buoyant muck, barren of visible growing
vegetation. Where this deposit is absent, the clean yellow sand sup-
ports few plants; but where a little humus is present, there is often a
growth of submerged aquatic plants, principally stoneworts, pond-
weeds, bladderworts, water weeds, and water lilies. The marshy
shores have, as a rule, either sedge growths (Plate XX I IB) or partly
submerged patches of sweet gale (XXI A). Cat-tails, bulrushes, smart-
weeds, and some other plants characterize the open marsh region. In
a number of places, the Avooded swamps extend to the lake margin
(Plate XXIIA). The water of these marsh lakes is without evident
turbidity, but is slightly brown stained. In temperature it was found
commonly to be about that of the air, and the readings made were not
far from 70° F.

Although fish are numerous in these lakes they are not found in all of
them or in all parts of any one of them. They have a marked tendency
to dwell near the shore, although bottom and water conditions in mid-
lake are very similar to those about the margin, except for those pro-
duced by the shore features. Muck bottoms are evidentl,y much pre-
ferred to the sandy -ones. On account of these restrictions in dis-
tribution, very definite fish habitats could be found. A consideration
of the important types of these will now be made. It is very difficult
and apparently impossible to work out these habitats in a successional
way, on account of complications in their history, brought about by
dams, channels, and other structures built by beavers and man and by
the removal of beaver dams by man, when their presence interfered
with cranberry culture and other interests, but in general the habitats
have developed as follows. When the water receded from the Nipissing
to the Lake Superior level and the sand ridges were formed, the inter-
vening depressions were capable of containing water in sufficient
amounts in some cases to form small lakes. Wind and water borne
sand and accumulating humus tended to make these lakes shallower.
Beavers, however, converted parts of their shoals into deep water
areas by digging channels. Similar work may have been done b}^ water
currents. Marshes followed the shoals by the encroachment of plants
on them, but in places there is a reversion to lake conditions by the
formation of channels and pools in marshes by beavers and sometimes
this occurs temporarily when the marshes are ilooded by man to pro-
tect or harvest cranberries. These operations appear to be the chief
source of the muck deposits over the sand bottom in these lakes. A
considerable amount of this light black soil could be transferred by
beavers from the marshes while making their channels or while using
them as runways, and when the lakes are lowered by opening the
sluices in dams for flooding cranberry marshes, currents might be set

SHIRAS EXPEDITIONS TO WHITEFISH POINT. . 129

up in tliese channels that would wash much of this material into the
lake. A rapid accumulation of muck over a plant association would
obhterate it, and the looseness of the soil would prevent plants again
taking root. Thus regions like Stations 52 and 55 could be produced.
In more open parts of the lakes, this light muck may be carried and
very generall}^ distributed by wind-made water currents. Beaver Lake
and Spruce Lake have muck practicalh' over their entire bottoms. It
is possible that currents swTep this away completely in some cases, thus
returning the shoals to a primitive type, that is, with sandy bottoms
and no plants, but a continued accumulation of organic debris in these
lakes must in time bring about a firm substratum, peaty in nature, that
will support plants readily. The marsh, then, can rapidly encroach on.
the lake, and the last stage as a fish environment would thus be reached.
Beaver channels and pools will finally give way to the marsh if man
destroys these animals, as he is rapidty doing at present. Spruce
swamps encroach on the open marsh and, in places, they have reached
the edges of the lake producing conditions for fish life which are different
from those of other parts of the lake (Plate XXIIA).

The probable developmental relation of these fish habitats to each
other is shoA\ni in the diagram below.

Wooded Swamp

I

Sedge Marsh

1 I

Muck covered Bottom Areas without Plants

quatio Plant Associatione

Deep areas without Plants -^ >■ Shoala wi'ihout Plants

Diagram ehowing probable developmental relation of fish habitats near Vermilion,

Michigan.

A classification of the fish habitats in the marsh lakes ma}' be made
as follows :

Deep Water Areas; five to seven feet. Natural depressions, deep
channels, beaver excavations, etc.
With few or no visible plants
With stonewort association
With pondweed association
With water-lily association
17

130 PAPERS ON ZOOLOGY OF MICHIGAN.

.Shallow Water Areas; about three feet and under

Without higher plants (barren shoal)

With stonewort association

With water-weed {Elodea) association

With pondweed association

With dense growth of submerged aquatic plants, a number of kinds
forming a complex association

With thick deposit of muck over a sandy bed ; no higher plants

With sweet gale (Myrica) association

With water-lily (Nijmphaea) association
Marsh Area, sedge, gale association

With shalloAv water about plant bases

With beaver channels and pools
Wooded Shore.
•Outlet Streams.

Examples of the above-listed tj^pes of fish habitats in the marsh
lakes, so far as the}- were examined, are here described in detail.

Deep Water Areas without Vegetation. This type of fish habitat
is poorly represented in the small lakes, for most of the water is less than
four feet deep. Where it is considerably more than this, from about
five to seven feet, it is called deep water. The channel of Vermihon
Lake (Station 25, Plate XXIIIB) is in many places of this depth with the
"bottom of hard sand. No collections were made in the channel, but
from the boat only a few large perch were seen. Apparently there were
no minnows or other small fish. It is likely that these are poor feeding
places and used by fish chiefly as highways. Fish lingering here would
be much exposed to the attacks of pikes, which undoubtedly frequent
regions of this type; some huge ones were seen in this channel and other
deep parts of the marsh lakes. A large sculpin was caught in a place
of this character by N. A. Wood.

Deep Water Areas with much Vegetation. Some deeper parts of
the channel of Vermilion Lake (Plate XXIIIA) had manj' water lilies
forming patches. Scarcely any fish, except a few verj^ small ones, about
an inch in length, and a few large perch were seen about these. At the
east end of this channel. Station 24, there is a region where the water is
five or six feet deep and where much fine-leaved pondweed grows. The
area is roughly circular and about a hundred feet in diameter with gale
and sedge-formed shores and an island of gale near its center. A nearlj^
submerged pile of beaver-cut wood lies against this. The bottom is of
hard, yellow sand. This depression was undoubtedly dug out by
beavers. Large perch frequented this place; and they were easilj^
vcaught with a hook baited with leeches. On one occasion a huge pike,

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 131

two or more feet long, was seen to move away from here on the approach
of the boat. Some small fish were seen here, but they were uncommon.

Shoal Areas without evident Plants. These have a hard, sandy
bottom with very few or no rooted aquatic plants. A strip of region
of this type examined lay along the dam at the west end of Vermilion
Lake (Station 28) . Fish were uncommon here as at other places of the
type and with many hauls of the seine only a few examples of Leuciscus
neogaeus, brook sticklebacks, and Iowa darters were caught. There is
an extensive shoal of this type at the north end of Little Lake but almost
no fish were found over it. At Station 111, of Hay Meadow Lake,
barren shoal is also prevalent with the usual scarcity of fish.

Shoals with Stonewort Association. Shallow water a few inches
deep with thick bottom mats of stonewort plants is found in a number of
bays near the east end of Vermilion Lake. One of these (Station 53)
was given particular attention. This extends some three hundred
feet into the marsh and is from about twenty to eighty feet wide. Only
very small fish, an inch or so long, including many little brook stickle-
backs, were found over this growth. Others caught were red-bellied
dace, Leuciscus neogaeus, black-head minnow, and Iowa darter. Cray-
fish dwelt in the stonewort masses. In the westward prolongation of
Spruce Lake (Station 84) stoneworts covered a very thick muck deposit
almost everywhere. Large mats of these plants often became detached
and came to the surface and floated as shoAvn in (Plate XXIB.) Only a
few very small fish were found here as elsewhere where stoneworts
covered the bottom.

Shoals with Water Weed Association. Water weeds {Elodea cana-
densis) grow in dense patches on a hard sandy bottom in Hay IVIeadow
Lake (Station 111), where the depth is about two feet. Many Iowa
darters were found among these plants, but no other fish were found
\vith them.

Shoals with many Aquatic Plants forming a dense, complex Associa-
tion. In a few, shallow, sheltered places, submerged plants are num-
erous, filling the water. One of these is at the west end of a small lake
(Station 101) where pondweeds, stoneworts, bladderworts, -green algae,
with partl}^ submerged rushes, sedges, sweet gale, and other plants form
a complex association that nearly fills the water leaving little swimming
space for water animals (Plate XXIIIB). The entire lake is char-
acterized by an abundance of vegetation (Plate XXIIIA). At Station
101 mud minnows are common, and this is a typical habitat of the
species. A great many small Leuciscus neogaeus were caught along the
margin in different parts of the lake. These were about an inch in
length. A few small Iowa darters were also caught in this lake. A
small pike was noted. The following aquatic invertebrates were

132 PAPERS ON ZOOLOGY OF MICHIGAN.

common about the water plants: Sponges {Spongilla sp.), leeches
{Placobdella rugosa and Haemopsis marmoratus), snails {Physa hetero-
stropha), and insects {Libellula pulchella, Somatachlora sp., Leucorhi-
nia intacta, AescJma sp., Arctocorisa nitida, and Dytiscus sp.).

Muck Bottom Shoals without Plants. The shoals, with deposits of
loose muck forming layers from a few inches to five or more feet thick
over hard, sand}^ substrata were along much of the shore region of these
small lakes, but the layer is thickest in wind sheltered places such as
small bays. A good example of one of these is Station 55, which is a
bay running into the marsh on the northeast shore of Beaver Lake.
Here the muck is two or three feet thick with two feet or less of water
over it. The sand foundation is not down so far but that wading and
hence collecting can be easily done; and the muck is scarcely more
resistant than the water to a person going through it. The bay is
irregular in form and some seventy-five by a hundred feet in diameter.
It opens into the lake by a mouth about fifty feet wide. The sedges
of the marsh about it are nearly three feet high and form marginal
clumps (Plate XIX). The water is slightly bro^vn stained but free
• from sediment and was found usually to have a temperature of 70° F.
This station has the largest and most constant fish population for its
size of any station studied in the Whitefish Point region, and it is
evident from general observations about the marsh lakes that the
conditions in this bay are those most attractive to the fish of these small
lakes. The following species were found here: red-bellied dace,
Cayuga mimiow, black-head minnow, silvery minnow, Leuciscus
neogaeus, Iowa darter, brook stickleback, common perch, homed dace,
white sucker, mud minnow, and common pike.

The first five species listed associate closely with each other, forming
dense, compact schools that tend to gather in peripheral depressions,
getting as near the marsh as possible but apparently not entering it.
The}'' were probably finding food especia'ly abundant near it. Dis-
sections showed that diatoms, alga filaments, and insects were being
eaten. Sticklebacks were abundant and very generally distributed
in this bay; they were not in company with other fish or noticeably
with each other. They rest, apparently motionless, off the bottom,
and when the muck is disturbed they quickly gather about the cloud
so made, evidently looking for food.

Only one mud minnow was caught and this in the minnow trap
placed on the bottom near the middle and deepest part of the bay.
This species may be abundant in this bay, but because of the habit of
hiding in the mud (Gill, 1904), few could be captured with nets. The
Iowa darters could be seen "creeping" over the surface of the muck

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 133

bottom, leaving little trails behind them. A feAv pikes were noted in
and about this bay.

A few dragon fly larvae {Somatochlora sp.) and many small Sphaeri-
ums {Sphaerium rhomhoideum) and a few snails {Physa heterostropha,
and Planorbis antrosus striatus) were the aquatic invertebrates found at
this station in making fish collections. Some tadpoles and a turtle
were noted. A solitar}^ sandpiper was flushed, and a kingfisher re-
mained about the station, and now and then its splash could be heard
as it struck the water, or it could be seen to dash from a dead tamarack
to the place where fish were schooling. Recently used channels and
other evidences made it appear that beavers were frequenting this bay
at the time the field work was being done. These animals certainly
constitute a djmamic feature in the aquatic life of this ba3\

Another bay (Station 52) with similar conditions to that of Station
55 is a short distance east of Station 55 and connected with the bay
called Station 53 (Plate XXA) . It is oval in surface form and some
fifty by eighty feet in diameter. A deposit of muck some six or seven
feet thick exists here. In all probability the bay was dug out by
beavers. Hundreds of fish were seen here on every visit. They were
similar in relative numbers and manner of association to those of
Station 55. The following were collected: red-bellied minnow,
Cayuga minnow, black-head minnow, silvery minnow, Leuciscus
neogaeus, Iowa darter, brook stickleback, and common sucker.

Shrub-bordered Shoal. In a number of places small shrubs (Myrica
Gale) form fringes about the edges of these lakes. Fish find seclusion
near and among the submerged bases of these plants. Station 59
(Plate XXB) and Station 71 (Plate XXII A) are the examples of this
type studied. Pikes were frequently seen here, apparentlj^ in ambush.
Red-bellied dace, Cayuga minnows, black-head minnows, and brook
sticklebacks were also often found and schools of large common suckers
stayed about the gale fringe of Station 59. Many of the suckers were
a foot or a little more in length, and dozens of them were seen at every
visit to the place, although none were noted elsewhere in the marsh
lakes except for a few at Station 55. This may have been due to the
unusually deep water, about three feet, along this shore.

Sponges were abundant on submerged gale branches. Those col-
lected were Spongilla lacustris. Aniphii^ods {Hyalella knickcrbockeri),
dragon-fly larvae {Tetragoneura sp.) and dipterous larvae (Chironomus
sp. and Ceratopogon sp.) were also noted.

Water Lily Association in Shallow Water. A place of this kind is
Station 116 (Plate XXI VA). A large school of small perch, about an
inch and a half long, and also many little minnows, an inch or loss in
length, were found in this habitat.

134 PAPERS ON ZOOLOGY OF MICHIGAN.

Marsh Areas. The water in the sedge marsh close to the lake is
frequented by mud minnows and a good man^^ small examples of other
species common in the lakes. The latter was composed of black-head
minnows, brook sticklebacks, Iowa darters, Leuciscus neogneus, and
silvery minnows. These were mostly about an inch in length and
were caught chiefly in the marsh near Station 55 and at Station 115.
When the marshes are artificially flooded, the small fish of the lakes
are said to go over them in large numbers. The marshes are undoubt-
edly used as breeding grounds for pike in the spring, and people living
at Vermilion tell of their coming into these places at that time.

Some water insects and other invertebrates were taken in the marsh.
Mosquitoes were very numerous. A few specimens belonging to the
species, Anopheles quadrimaculatus, were caught. About the bases of
the sedge plants some dragon fly larvae (Plathemis lydia and Somata-
chlora) were taken, also a few snails {Planorhis antrosus strialus and
Physa heterostropha) .

Beaver Channels and Pools in the Marsh. These are narrow passages
through the marsh dug bj^ beavers. Some of them are quite deep and
extensive as at Station 51. These lead to houses, a number of which
are on the island in the east part of Beaver Lake. The passages are
from about two to seven feet in width and three or four feet deep, and
have a great deal of the soft muck on their bottoms. Five radiating
from the house and one connecting the channel system with the lake
are present at this station. Many small fish frequented them, but no
collections of them were made. To what extent beavers are a factor
in forming little bays like Station 52 and 55, is an interesting problem.
It can readih' be seen how a group of radial channels like those of Sta-
tion 51 could start one of these bays by being widened till the marsh
between them is obliterated.

Wooded Lake Border. Stations 85 and 110 are of this type. Trees
here produce much shade, which is the chief characteristic of this type
of habitat. Much submerged brush is present, which furnishes hiding
places for small fish. On the shore with trees are many shrubs, logs,
fallen limbs, and much herbage, including sedge growths. The lake
margin is cut up by little bays or channels that are numerous on the
swamp floor. The follo^^^ng species were caught along wooded shores:
black-head minnow, red-bellied dace, Leuciscus neogaeus, Caj'^uga
minnow, brook stickleback, and common pike.

Pikes find many retreats in the shore indentations. Black-head
miimows were numerous at Station 85, and hundreds of them crowded
up into the little bays and chaimels. Brook sticklebacks also fre-
quented these places in some numbers. Attached to the submerged

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 13.>

brush were many sponges {Myenia fluviatilia astrosperma) as Avell as
dragon-fly larvae, leeches, snails and other invertebrates.

The marsh lakes have three small outlet streams in the Vermilion
region, called by the writer, Vermilion Creek, Cranberrj' Creek, and
Wetherhog Creek (Fig. 3).

Vermilion Creek flows from a pool at the junction of three channels
(Station 24, Fig. 3), the largest of which extends southward to Beaver
Lake. It is, for the most part, an artificiall}' dredged ditch with a
board dam, which has a controllable spillway so the water may be made
to rise in the several ditches of the cranberry marshes to flood them.
According to many observations the creek above the dam has a fish,
fauna like that of the marsh lakes. Below the dam, the stream is
irregular in width and depth, perhaps six or seven feet on the average
and shallow except for a few "holes" where the water is still and nearly
two feet deep with mud bottom and groA\i:hs of pondweeds, filamentous
algae, and other aquatic plants. These are favorite places for brook
sticklebacks. Where the creek cuts under the bank small brook trout
find hiding places from which they are easily captured with a dip net.
Fish were seldom seen out in the open stream, but staj'ed in deep
places. Their absence here may have been due to blue herons which
feed along this creek (Plate XXIVB). The following fish were taken
in this part of the stream (Station 22): brook stickleback, brook
trout, silvery minnow, common sucker, and Leuciscus neogaeus.

A number of other animals were taken in the few net collections made
at Station 22. Among these were: two kinds of leeches {Eropdella
punctata and Haemopsis marmoratus) , crayfish (Canibarus virilis),
dragon-fly larvae (So?natochlora sp., Gomphus sp., and Aeschna sp.),
water bugs (Lithocerus sp.), water beetles, and snails {Physa hetero-
stropha). Tadpoles were abundant in shallow tributaries of this creek
and a number of frogs were seen about it.

At Vermilion the creek is covered with a tramway made of heavy
timbers and driven piles. It extends out into Lake Superior about a
hundred and fifty feet as a strong pier (Plate XIIB, background).
The separated overhead cross timbers of this structure put the creek
in heavy shade like a woodland stream. No leafj^ plants develop from
its sandy bottom or shore. It is a few feet wide, rather swift, and but
a few inches deep, except in a few restricted areas where it is two feet
or so deep. The following fish were caught under this tramway (Sta-
tion 21): brook trout, common sucker, long-nosed sucker, red-l)ellied
dace, common perch, burbot, and common sculpin.

The trout here are small, but one nearly a foot long was seen. They
were all found beneath submerged objects in the deeper parts of the
creek. Schools of little suckers wandered into the creek short dis-

136 PAPERS ON ZOOLOGY OF MICHIGAN.

tances from the Lake Superior shoal. Twelve large example.s of long-
nosed dace, a little over three inches in length, were caught in a de-
pression of the creek bottom, where the water is about two feet deep,
just above the stream mouth. This verj^ small and restricted region
is the only place in the whole area studied, where any but very small
long-nosed dace were taken. These large ones from Station 21 were
eating black-fly larvae, which made up all of the material in the in-
testines of four of the dace opened. The other species from this station,
listed above, were scarce. The burbot was caught in the small fyke net
set across the creek just above its mouth so as to catch entering fish.
It is possible that burbots visit the creek at night for food.

Cranberry Creek is a short stream which cuts through the sand ridge
along the Lake Superior beach a short distance east of Vermilion
(Plate XI VB). On the beach it spreads out into a long, shallow pond
(Station 31, Plate XVA). The part of the creek through the sand
ridge (Station 30) was the only part examined. Here it runs some two
hundred feet below a small road bridge, \vinding about making pools
and narrows ; the former are as deep as three feet and as wide as fifteen
feet, while at the narrows the creek is constricted to two or three feet
and is but a few inches deep. The water is clear but slightly stained
brown; it is swift, and moderate in temperature (68° F. at times when
the principal collections were made). The bottom is of clean dune
:sand except in pools where much organic debris has collected. The
banks are high, with scant vegetation, and are well-lighted. The
following species of fish were taken in Cranberry Creek: brook trout,
black-nosed dace, Leuciscus neogaeus, homed dace, common sucker, and
brook stickleback.

The small, deep pools with overhanging banks harbored a number
of small brook trout, but this was the only species well represented;
only a few of each of the others listed being found.

Wetherhog Creek is a short stream running from below a dam at the
■end of Wetherhog Lake and expanding in a beach pond. The creek is
wide and very shallow and concealed by bushes for much of its course.
Fish were scarce in it, and few little perch and some Iowa darters
were the only ones taken in many hauls.

Shelldrake Lake.

The lake that lies in the course of the Shelldrake River some two
miles southeast of "S'ermilion (map Fig. 3 and Plate XXVA) is in
general similar to the larger of the marsh lakes just described. It is
perhaps a little over a half mile in length bj- a quarter of a mile in
%\adth. An extensive shoal is present and apparenth^ a large deep water

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 137

area, but this could not be examined. The bottom of the shoal is of
hard sand Avith a thin layer of humus over it in many places and much
vegetation occurs in this shallow water, although irregularly distributed.
Partly submerged bulrushes, yellow water lilies, scouring rushes {Equi-
^etum) form large and conspicuous patches; and along the marshy
shore at the west end are rank growths of Sagittaria, cat-tails, and
sweet gale, as well as sedges, grasses, and other plants. Under the
water are pond-weeds, bladderworts, tape grass, and water milfoil.
Sponges produce conspicuous tufts and incrustation on submerged
])rush and other objects; some collected were Myenia fluviatilis and
Spongilla fragilis. Leeches were common, and two forms were taken,
Haemopsis marmoratus and Placohdella rugosa. Some isopods {Man-
casellus tenax) were found. Larvae of May-flies (Heptagenia), some
water bugs (Corixa), and a few whirl-i-gig beetles {Gyrinus canadensis),
were the aquatic insects taken.

The more detailed observations on the fish were made at Station 142
(Plate XXVB) . Small perch were very abundant here but they stayed
about the water lily zone. Good-sized Cayuga minnows were in large
schools on the shoal but chiefly on parts where the water lilies were
absent and thus not associated closely with the perch. A few small
pikes were found in the sweet gale zone along the shore here. One
good-sized one (about nineteen inches long) was captured beneath the
gale. The species of fish taken at this station were as follows: com-
mon perch, Cayuga minnow, spot-tailed minnow, common sucker,
common pike, black-sided darter, Johnny darter, and common sculpin.

In the large marsh area at the west end of the lake and cut through
by Shelldrake River, one or two specimens of each of the following
were caught: mud minnow, common pike, Johnny darter, and com-
mon sculpin. A small crayfish, Camharus propinquus, was taken here
with the fish.

Shelldrake River.

A portion of Shelldrake River, about a half mile in length, lying
about two miles southeast of Vermilion and about a quarter of a mile
above Shelldrake Lake, was examined by wading the entire length of
this portion and dipping with the hand seine in all places likely to have
fish.

This part of the stream winds through a swamp with alders, spruces,
birches, pines, and other trees, which produce a very dense growth
(Plate XXVI A). It averages here perhaj^s thirty feet in width, but in
places narrows to a few feet and widens to as much as fifty feet. The
water is clear, and very free of sediment but stained. The bottom is
of hard, firm sand and is bar(> almost everywhere excejit that it is

138 PAPERS ON ZOOLOGY OF MICHIGAN.

covered with luimus in depressions or about plant growths. The depth
is mostly less than two feet, Ijut very irregular, with man}' shoals and
pools, some five or more feet deep. Wading could be done, however,
almost everywhere. The water w^as cold (63° F. on the day when the
examinations of this part of the stream were made), and almost every-
w^here wdth a good current, l)ut there are no rapids. Water plants were
abundant in the swifter parts of the stream, forming oblong patches;
the principal ones of these Avere tape grass, stoneworts, or slender-
leaved pondweeds, and Vaucheria, the latter forming bottom mats or
tufts.

Sponges (Myenia fliiviatilis) were found, and craj^fish {Camharus
propinquus and C. virilis) were caught. Water insects w^ere usually
in evidence. On the surface, were many water-striders and whirl-i-gig
beetles {Gyrinus ventmlis and G. canadensis). Beneath the surface,
black-fl}' larvae were abundant on the leaves of tape grass, and some
dragon-fly and May-fly larvae and eaddice-worms were caught. Small
bugs (Ardocon'sa nitida) were taken in quantities in the seine. A few
snails {Physa gyrina) were collected.

Small tadpoles Avere seen on quiet marginal shoals. Frogs and
small toads [Bufo anien'canus) were frequently seen along the shore of
the stream. Kingfishers were absent, which may have been due to
the scarcity of small fish. Some beaver work was noted, but these
mammals prol^abh- influenced the meager fish fauna of the river to a
very slight degree. All conditions appeared to be favorable for a large
fish fauna, but nevertheless fish were surprisingly few both as species
and indivitluals. This part of the river looked like a fine trout stream
but no trout were found in it bj^ the writer or anyone else, according to
good testimony. Brook trout are in the south fork of Shelldrake
River, according to information received; and they have been planted
there but apparently not elsewhere in the river. The following species
of fish were caught in Shelldrake River: common sculpin, long-nosed
dace, common pike, common sucker, Cayuga minnoAv, common perch,
and long-eared sunfish (?).

The first three species are apparenth' the only ones at all generally
distributed in the part of the stream examined, and sculpins are much
more common than the others. A number of long-nosed dace were
caught, but the}' were all very small. These, with the sculpins, Avere
taken in the masses of stoncAvorts, tape grass and pondAveeds that grow
in the sAvift parts of the stream. The presence of so many sculpins
may be an important factor in keeping trout from the stream for they
are Avell-known destroyers of trout eggs. One sculpin opened had been
eating a large burroAving May-fly larva and some other insects. Small
pike Avere frequently seen along the quiet margins. A sculpin two

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 139

inches long was taken from a pike ten inches long. Another, smaller
pike had eaten some small fish that were too badly digested for identifi-
cation, and still another had fed upon insects. The suckers were scarce.
All seen were little fish in a small school. The sunfish (two taken in a
small bay with a muddj' bottom) were the only members of the sunfish
family found by the writer in the Whitefish Point region. A little
perch, the only one caught in the river, was caught in the net with these
sunfish. Conditions in Shelldrake River, thus, appear to be favorable
for but one kind of fish, the common sculpin. The other species were
not thriving there and were represented b}-- few or small individuals.

LIST OF SPECIES.

The list below contains the data on thirty species of fish represented
in the collections made in the Whitefish Point region by the writer.
Following this is a hypothetical list giving names of species whose
presence was not ascertained by the writer's data, but from published
notes on their distribution and from statements made by people living
in the region, the fish listed probably in some cases, possibly in others,
belong to the fauna of northern Chippewa County. When there was
opportunity to do so, color descriptions were made of fish fresh from the
water or from aquarium specimens. Ridgway's Color Standard and
Nomenclature (1912) was used in this work. Dimensions of fish are
stated in inches and tenths of inches. The lengths given are total ones,
from the tip of the snout to the tip of the caudal fin.

1. Coregonus clupeaformis (Mitchill). Labrador Whitefish. — White-
fish are abundant in Lake Superior, but they are chiefly in a zone where
the depth is between sixty and a hundred feet (Paul Reighard 1910).
This zone is close to the shore at the east end of the region, at Whitefish
Point, but westward it departs farther and farther from the shore and
is about eight miles out at Vermilion. The proximity of the area to
the shore at Whitefish Point makes it very available to fishermen;
hence the importance of the fishery there. Moore (1895) states that
the best whitefish grounds on Lake Superior are at Whitefish Point.
Goode (1884) calls attention to the importance of the fishing grounds
here and to the many whitefish caught and the large size of some of
them; he states that in seventy-four barrels of whitefish taken at one
time, none were under six pounds and records one specimen that weighed
twenty-three pounds. Mr. Robert Carlson informs the writer that
about thirty tons of whitefish are taken at the Point every year, and the
largest one that he knows of taken there weighed twenty-six pounds.

It is known that Labrador whitefish migrate shoreward, apparently
to feed on insects, in the summer (Nash. 1908 and Patton 1912), and

140 PAPERS ON ZOOLOGY OF MICHIGAN.

apparently the catching of a few adults, each nearly a foot long, in
about eight feet of water at Vermilion in August 1913, is evidence of
such a movement. One of these fish had in its stomach insects of
several kinds, some of which were winged. In summer insects un-
doubtedly fall in the water in large numbers along the shore.

The specimens collected from the deeper part of the shoal (Station
2) agree well with the description of Coregonus dupeaformis, given by
Jordan and Evermann (1911), but there is a possibility that some or
all of them were Lake Erie Whitefish, Coregonus albus, many of which
have been planted in Lake Superior. Mr. H. H. Marks says that fish
packers can distinguish the two forms, and Mr. Carlson reports two
types in the region, those with dark backs and those with backs more
yellowdsh in color. From all this information it appears likely that C.
albus is a valid species and is found in the Whitefish Point region.

Eighteen little whitefish, 3 to 3.5 inches in length, were found in a lot
of small herring of similar size to them on the shoal of Lake Superior,
at Stations 1 and 5 (Plate XXVIIIB). These were undoubtedly either
albus or dupeaformis (Hankinson 1914) and perhaps both were repre-
sented in the schools. A typical one of these is described as follows:
length, 3.5 inches; head in body, 4; depth in body, 5; eye in head, 3.5;
snout in head, 3.5; interorbital space in head, 3.5; ventral line of caudal
peduncle, 2.3; least depth of caudal peduncle in head, 3; dorsal rays,
12; anal rays, 12; branchiostegals, 8; gill-rakers, 10 plus 16; scales in
lateral line, 75.

The writer has been unable to find a record in the literature of white-
fish beyond the fry stage as small as these taken at Vermilion. Kendall
(1903), WTiting of Coregonus dupeaformis, says, "It is not known to
the writer that the young of this species has been observed, except the
fry at fish hatcheries, or where they are to be found after leaving their
birthplace in the thoroughfares and streams, or at what age they leave
these places. It is probable that when quite young, they go to deep
water, where, having thus escaped their enemies in the streams, they
become the prey of rapacious fishes of the lakes." G. B. Goode (1884)
says, "Relative to the movements of the whitefish in Lake Superior,
Mr. George Barnston is of the opinion that the young and immature
whitefish confine their range entirely to shallow water near shore.
He states that pound nets in twenty to forty feet of water catch great
numbers seven to eight inches long. From the fact that none have been
found in lake trout stomachs,, he infers the young whitefish are not in
deep water where the trout dwell."

Eight of the little whitefish were opened and their food examined.
The principal data are given below:

SHIRAS EXPEDITIONS TO WHITEFISH POINT.

141

Size of fish,
inches.

Entomostracans.

Chirono-

mid larvae.

Winged
insects.

Miscellaneous
insects.

Algae.

*2 4

Bosmina, Cyclops. . . .
Copepods

Several

One

2

Chironomid pupae

Vlothrix zonata

2.5

Copepods and Clado-

Ulothrix zonata

1 9

3.5

Copepods and Clado-

Few
Few
One

Several

Insect legs
Few
One

Insect pupae

Ulothrix zonata

3
2.4

Copepods

Ulothrix zonata

*3

Bosmina, Diaptomus

Ulothrix zonula

*Stbmach contents examined and identified by Chaney Juday.

The 3'oung whitefish, as showTi above, were eating entomostracans
freely, and this appears to be the chief food of those found near Ver-
mihon. Chironomids were also taken by them in important numbers.
In general the food of the young whitefish appears to be like that of
the adult (S. I. Smith, 1873a, Forbes 1883a, Hankinson 1908, and
Patton 1912). No evidence was obtained that whitefish spawn in the
Vermilion region; a sandy bottom like the one there is unfavorable for
this activitj' according to most writers. Leathers (1911), however,
tells of their spa"v\Tiing on the broad sand flats in Huron County, ^Michi-
gan. Mr. Robert Carlson informs the writer that whitefish spawn near
Whitefish Point.

2. Coregonus quadrilateralis (Richardson). Menominee Whitefish. —
This species v.^as found common on the deeper part of the shoal near
Vermilion (Station 2). Those taken were of edible size, a little over a
foot long. Two typical specimens opened had been eating principally
amphipods; one had these only in its stomach, and the other had mis-
cellaneous insect remains in addition to them.

3. Leucichthys harengus (Richardson). Saginaw Bay Herring. —
The many herrings found in the deeper part of the Lake Superior shoal
are probabl}' of this species for they agree with the description given
of L. harengus by Jordan and Evermann (1911), who state that "The
ordinary herring of Lake Superior are placed provisionally under
Leucichthys harengus, of Avhich they constitute a tangible variet}' or
subspecies, distinguished by the larger size, the more cylindrical form,
and, in general, by the still smaller adipose fin. But these characters
are average onl}', and are subject to much variation, hence we refrain
from regarding the Lake Superior herring a distinct species."

Large schools of little herring, two to three inches long, were fre-
quently seen close to the shore, at Stations 1 and 5, but preferring the
latter where there is a broad sandy area. Here they formed compact
schools, which had remarkable coordination and rapidity of movements,
making it difficult to get them with a seine. Associated with them

142 PAPERS ON ZOOLOGY OF MICHIGAN.

^vere a few young whitefish and other species. These young
herrings were, in all probability, the same species as the adults
taken from the deeper shoal, but since there are at least four other
Leucichthys in Lake Superior (L. supernas, L. cyanopterus, L. zenithicus,
and L. tuUihee), whose j'^oung are apparently unknown in this body
of water, it is possible that they also have young representatives on
the shoal.

The coloration of one of the large herrings from Station 2, just as it
was taken from the water, was as follows: upper parts, yellowish olive,
except for a porcelain green streak just back of the dorsal fin; lower
parts white, with light pinkish lilac reflections on the sides; dorsal and
caudal fins olive; lower fins white. The very small herrings caught
close to shore were similar in color to the large ones, but they were
paler and more silvery on the sides.

Many lake herrings are caught at the Whitefish Point fishery. Mr.
Carlson reports sixty tons taken there in 1914. They constituted the
chief food fish for residents of Vermilion during the time the writer was
in the region, and they are of much importance to these people. Many
of them were discarded as unfit for food on account of parasitic worms
in them. These were of two types: nematodes in coiled masses in
the coelome and cestodes embedded in the flesh of the back.

Four small ones were examined as to their food, which was found to
■consist entirely of entomostracans, chiefly Cyclops viridis brevispinosus.

Forbes (1888) and Juday (1907) give notes on the food of Lake
Herrings. G. B. Goode (1884) considers them great destroyers of
whitefish eggs.

4. Leucichthys tullibee (Richardson)? Tullibee. — A tullibee was taken
by a fisherman at Station 2, in a gill net (Plate XXVIII). In depth of
body, size of eye, and number of branchiostegals, it is more like L.
manitoulinis than L. tullibee, but it is most like the latter in length of
head, maxillary, and anal fin and in the number of gill-rakers and
scales before the dorsal fin. It, therefore, seems best to assign it to
the species tullibee, but not with positiveness, because these char-
acters are apparently variable (see table page 33, Jordan and Ever-
mann 1911), because either species may be found in Lake Superior,
and because the writer is able to examine but one spiecimen of tullibee
and is unable at present to compare this with tj^je specimens.

The following descriptive notes were made on this fish: Length,
10.6 inches; length to base of caudal fin, 8.5 inches; depth in length (to
base of caudal) 3.3; adipose fin in eye, 1.3; eye in head 4.4; caudal
peduncle, 2.5 in head; head in length, 4.3; dorsal fin with 12 developed
rays; anal with 12 rays; scales in lateral line, 74; branchiostegals, 8;

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 143

gill rakers, 16 + 32; color (fresh from water of the lake) upper parts
bluish gray; lower parts white with brassy reflections on the sides.

5. Salmo irideus Gibbons. Rainbow Trout. — One specimen was
taken at Station 2. It was about a foot in length, and in color was
bluish slate above and white below, sides silvery with pinkish reflections,
many small black spots scattered over the back and sides as well as the
dorsal and caudal fins, which had a ground color like that of the back;
lower fins white.

Four small fish, each about three inches in length, distended the
stomach of this trout. They were badly digested, but there can be
little doubt but that they are little herring.

The species is not native to Lake Superior, but it has been introduced
in waters connected with it. Fishermen say that they are frequently
taken in Lake Superior in the Whitefish Point region. Townsend
(1902) records the capture of three at Whitefish Point, and of a large
one, weighing seven pounds, taken there on July 9, 1900.

6. Salvelinus fontinalis (Mitchill). Eastern Brook Trout. — Com-
mon in a number of places in the Whitefish Point region, in Lake
Superior, in the lower part of Vermilion Creek, in lower Cranberry
Creek; and one was found in the beach pond into which Wetherhog
Creek flows. None were seen in the marsh lakes or in Shelldrake
River or Lake. In Lake Superior, the fish are of edible size, usually
about a foot long. Here many were seen and some were caught in
about six feet of water about Clarke's pier (Station 2). The following
notes were made on a typical specimen from here just after it was taken
from the water: length, 10.5 inches; color very pale compared with
stream fish; a light bluish-green above, with faint marblings of a slightly
darker shade of this color; sides silver j^ gray with lilac reflections and
wnih a few indistinct spots, some white and some red ; dorsal and caudal
fins yellowish-green with dark mottlings; the other fins and the lower
parts of the fish white.

All of the fish caught elsewhere than in Lake Superior were small;
the dozen or so examples taken were 3 to 8.5 inches in length. The
largest one of these was of a light yello\\ish-green above and white
below; the sides had Ijroad, slaty, transverse bands or "parr marks,"
which are found on small brook trout, and had conspicuous bright red
spots.

In the small streams the brook trout were never seen unless dis-
turbed, and then they would dart from beneath Imnks or other hiding
places and back to near the same place; never swimming any distance
in the creek before finding a retreat. A small trout found under a
water-logged piece of timber in the beach pond at Station 122, re-

144 PAPERS OX ZOOLOGY OF MICHIGAN.

mained under this even -when it was dragged on the bottom or rolled
over; and it moved out far enough to be caught in the seine only after
man}' attempts were made to dislodge it.

The food of brook trout in the region is, in all probability, chiefi}^
insects, as it is in the other places where the food of the species has been
examined (Needham and Macgillivray 1903 and Juday 1907). One
fish from a stream had remains of insects in its alimentary canal, in-
cluding A\inged forms, and one from Lake Superior had eaten a fly and
a small fish.

The brook trout is a well-known game fish in eastern North America
and a species that attracts many fishermen to northern Michigan, thus
benefitting the state (Dickerson 1904 and Newcombe 1904); but no
evidence could be found that the Whitefish Point region is ever visited
by trout fishermen. In fact, the species appears to be of little value to-
the few people living there. None large enough for food are in the
streams, and the ones in Lake Superior are only to be caught in small
numbers and then with difficulty.

7. Catostomiis catostomus (Forster). Long-nosed Sucker.— These
suckers were frequently taken with common suckers from Station 2,
but thej^ were not as common as the latter. Three typical specimens
(10.5-16 Inches long) were preserved. In color they were as follows:
dark greenish-olive finely spotted with light greenish-yellow due t(>
each scale having a center of that color; sides yellow with metallic re-
flections; below white wdth a pinkish tinge, dorsal and caudal find
similar to the back in color; lower fins of a light reddish brown.

The only other place where this species was found was in the beach
pond at Station 31, where three little ones were caught.

8. Catostomus commersonii (Lacepede). Common Sucker. —
Abundant in the shallow water of Lake Superior, both close to the
shore, where schools of mam^ little ones were frequently found, and
farther out in eight or more feet of water, where many individuals about
\\ feet long were taken. Schools of the little suckers entered Vermilion
Creek to feed near its mouth and also the beach ponds freely connectes
with the lake (Stations 31 and 121). None were found in Mason's
Creek or the connecting ponds on the Lake Superior beach. They
were only locally abundant in the marsh lakes, since they were only
found along the north shore of Beaver Lake, chiefly at Station 59
(Plate XXB). Some were present in Shelldrake River and in Shell -
drake Lake, but they appeared uncommon here.

All of the little fish from close to the Lake Superior shore, chiefly in
one or two feet of water, as well as those from the beach ponds were
very uniform in size and appearance, commonly about 2.5 inches long.
One of the larger fish (16.5 inches long) from the deeper shoal (Station

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 145

2) was in color like the others taken there. It was of a dark greenish-
olive above with numerous lighter spots of the same color clue to each
scale having a center of a lighter shade. The lower parts were white,
and the sides had brassy, metallic reflections.

The suckers in Beaver Lake are quite large. Many of them were
about a foot in length, and they moved in large schools in tAvo or three
feet of water along the gale zone on the north side (Station 59). The
three specimens caught there measured seven to eight inches in length.
There was much food in their intestines composed of chironomid larvae,
filamentous algae, diatoms, and undeterminable material. Eight
specimens of the little common suckers from Lake Superior shoal had
been eating chironomid larvae, entomostracans, Ulothrix filaments,
diatoms, and AAdnged insects, with chironomids the principal food in
each. Tracy (1910) says that these suckers eat young fish and fish
eggs. Kendall and Goldborough (1908) found them feeding on black-
fly larvae.

Common suckers are probably an important source of food for lake
trout in Lake Superior (Nash 1913). In Beaver Lake, large pikes were
especially common at Station 59 where these suckers predominated.
Residents of Vermilion used them little if at all for the table although
many were taken with nets. The fish were given to chickens.

9. Chrosomus erythrogaster Rafinesque. Red-bellied Dace. — Red-
bellied dace were found to be the most abundant of all the species of
fish in the marsh lakes south and west of Vermilion, but in those east
of Vermilion (Hay-^Ieadow, Mitten, and Wetherhog Lakes) the species
is at least scarce for no examples could be found in the several large col-
lections made in them and their outlet streams. LikcAvise, none were
taken from Lake Superior, Shelldrake River, or Shelldrake Lake. A
number were found in the few collections made at the north end of
Little Lake. These dace preferred the shore regions of the small lakes
in which they were found, especially the small deep bays and beaver
channels, and the neighborhood of submerged patches of sweet gale.

The several hundred specimens captured ranged in length from .7 to
3 inches. The coloration of a few typical large ones Avas as follows:
olive green above; white below, with two indistinct dark stripes along
each side of the back above the two prominent lateral ones separated
by an area of yellowish green. These linear markings furnish a char-
acter bj'- which the species is readily identified in the water. In some
of the largest dace, the white lower parts were more or less red, a feature-
found in breeding males.

The red-bellied dace were most often found in schools, commonly
associated with other species, but usually predominating when present.
Station 55 (a marsh bay of Beaver Lake) was an ideal place for them.
19

146 PAPERS ON ZOOLOGY OF MICHIGAN.

The immense schools of mimiows here contained more red-beUied dace
than other species, but the following were also abundant in the schools:
Leuciscus neogaeiis, Cajiiga minnoAV, black-head minnow, and silvery
minnow.

The intestines of a number of the dace examined were filled with
humus and many diatoms, alga filaments, and some pine pollen.
Data on the food of the species is given bj' Forbes (1883), Needham
(1908) and Ellis (1914).

10. Hybognathus nuchalis Agassiz. Silvery Minnow. — This species
was found to be abundant at Station 55, in schools with red-bellied
dace and other species (see supra). A few were found in other parts
of the marsh lakes, except those east of Vermilion, where there were
none. They are also found in the beach ponds west of Vermilion.
Nowhere were they of full size, except at Station 55 where conditions
appeared unusually favorable for the species. One which was opened
had been eating some insects including chironomid larvae and mud
rich in diatoms.

The hundred or so captured measured from 1 to 3.3 inches in length.
One of the larger ones was colored as follows: light-yellowish olive
above, below white with yellowish reflections, a distinct black lateral
band, sides not silver}^ as thej^ usually are in this species.

11. Pimephales promelas Rafinesque. Blackhead Minnow. — The
species is similar in distribution to the red-bellied dace and the silvery
minnow in that it is abundant in the west group of marsh lakes near
Vermilion and relatively scarce and of small size in the east group. Like
the others, it also finds optimum conditions in marsh baj'S (Station 52,
53, and 55). It was common in the beach ponds at Mason's Creek,
and some were found in Little Lake.

Over two hundred of these minnows were taken; they measured
from .7 to 2.5 inches in length. One of the larger specimens was of a
light-yellowash olive above, fading to the white of the lower parts, and
had a black, lateral stripe.

Mud rich in diatoms was found in a few intestines examined. Forbes
(1883) found the species eating mud and insects, and Fowler (1908)
states that it eats green algae and mud.

12. Semotilus atromaculatus (Mitchill). Horned Dace. — Horned
dace were uncommon in the Whitefish Point region. Small specimens
.7 to 2.7 inches long were caught in Beaver Lake, in Cranberry Creek
and in the beach ponds west of Vermilion. The last named place was
the only one in which they were found to be at all common.

13. Leuciscus neogceus (Cope). This abundant species of minnow
also belongs to the red-bellied dace association, and is very similar to
it in distribution, except that it is fairly common in the east marsh

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 147

lakes. All of the specimens in the east lakes were small, however.
Many occurred in the beach ponds of the Mason's Creek region, and
some were fomid in a small shallow bay at the north end of Little Lake.
A hundred or more specimens were taken, which were 1 to 3.4 inches
long. In color a typical large one was light yellowish-olive above and
yellowish-white below, with a whitish streak along each side of the body,
and below this a grayish line, and then a jet black stripe. The sides
in a few specimens were tinged with pink, which brightened anteriorly.
This species resembles the red-bellied dace but differs from it in having
a more robust form, a larger and more oblique mouth, and a single,
not double, black lateral stripe.

14. Ahramis chnjsoJeucas (Mitchill). Golden Shiner. — Small golden
shiners (1 to 1.3 inches long) were found in Mitten and in Wetherhog
Lake, but none were taken elsewhere.

15. Notropis cmjuga Meek. Cayuga Minnow. — Cayuga mimiows
were common and very generally distributed in the Whitefish Point
region. They were common in the upper beach ponds west of Ver-
milion, in the w^est group of marsh lakes, and in Shelldrake Lake. A
few were caught in Shelldrake River, and many were taken in the east
marsh lakes, but these were small in size, not over 1.5 inches long,
while most of the individuals caught in the west group (Beaver Lake
and others) were about 2.5 inches long. The largest numbers were
found at Station 55, where they belonged to the red-bellied dace asso-
ciation. There is a tendency in most regions, however, for Cayuga
minnow^s to school by themselves.

Two large examples caught at Station 55 had been eating entomos-
tracans, insects, and diatoms.

16. Notropis hudsoniiis (DeWitt Clinton). Spot-tailed Minnow. —
The minnow appears uncommon in the region, except possibly in Shell-
drake Lake. Six were obtained from Lake Superior close to shore in
two feet or less of water; they were small, an inch or less in length, ex-
cept one, which was a fine large specimen 3.5 inches long. This large
specimen answers more closely to the description of typical N'. hud-
sonius than it does to N. hudsonius selene, which is considered to be the
typical Lake Superior form. The other fish were too small for sub-
species determination. The only other place where spot-tailed minnows
were found in the region was Shelldrake Lake, where many little ones,
less than an inch long were found in the collections made along its
northwest shore (Station 142. Plate XXVB).

17. Rhinichthys cataradae (Cuvier and Valenciennes). Long-nosed
Dace. — Thih fish was found in one very restricted region,— a deep area
mider the pier in Vermilion Creek, and close to Lake Superior. Twelve
large ones (3 inches long on the average) were caught here (Plate

148 PAPERS ON ZOOLOGY OF MICHIGAN.

XXVIIB). In but two other places were long-nosed dace taken,^ —
in Shelldrake River and on the Lake Superior shoal at Station 1, and
these were small (about 1.5 inches). It was quite common in the
river, and was found among thick plant growths in swift water.

One of the large fish from Vermilion Creek was grayish olive-green
above and on the sides, under parts pinkish white, an indistinct dark,
lateral band, the fins and head with a pinkish tinge.

18. Rhinichthys atronasus lunatus (Cope). Black-nosed Dace. —
This species is also much restricted in the region and not at all associated
with the long-nosed dace. It is abundant in the beach ponds formed
by Mason's Creek, but was found elsewhere only in Cranberry Creek,
where it appeared scarce. The eighty or more caught were from 1.5
and 3 inches in length.

19. Umbra limi (Kirtland). Mud Minnow. — Mud minnows are
common in the shallow water of the marshes about the marsh lakes,
and they are also found in some numbers in these lakes, but little in-
formation could be obtained concerning their abundance and dis-
tribution on account of the difficulty of getting them from the dense
vegetation and the deep mud of their habitats in which they are said
to retreat on being approached (Gill, 1904). Station 101 (Plate XXIII
B) is a tj^pical habitat for this species in the Whitefish Point region.
A single specimen was found in the stomach of a pike taken in Wether-
hog Lake. The twenty-two specimens collected measured 1 to 3.3
inches in length.

20. Esox lucius Linnaeus. Common Pike. — Fish of this species are
common in the marsh lakes and in Shelldrake Lake and River. None
were found elsewhere in the region, but in all probability it occurs in
Lake Superior (Townsend 1902).

Individuals reach a large size in the marsh lakes, at least in th-e west
group, just south and west of Vermilion, where some very large ones
were seen. A specimen 30 inches long caught on a trolling hook in
this habitat weighed 6| pounds. In color it was black on the back,
sides gray, with scattered spots of greenish-yellow, lower parts yellow-
ish-white. A pike 19 inches long was taken in Shelldrake Lake by the
writer.

These large pikes preferred the deeper water of the marsh lakes and
the cover of vegetation, such as gale growths. A number were usually
seen at Station 59, perhaps to prey on the suckers that schooled there.
Small ones (four to ten inches) were common in shallow bays of these
lakes and of Shelldrake River.

The stomachs of the small pike caught were for the most part empty.
One had eaten a mud minnow and a leech ; in another, from Shelldrake
River, a sculpin was found.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 149

The pike is a well-kiioAra predator. Xotes on its food are given by
Forbes 78, '88, and '88a, Kirsch '94, IMarshall and Gilbert '05, and
Reighard '13a. Besides fish they sometimes eat crayfish, other crus-
taceans, water insects, and leeches.

Residents of the Vermilion region seldom use the pike for food; its
flesh is said to be '' wormy." The large specimen caught in the marsh
lakes had flesh of the usual good qualitj' for the species, and no para-
sites were evident in it. Pikes are said to be detrimental in the region
by catching wdld ducklings and j'oung muskrats.

The marshes about the small lakes must furnish excellent breeding
places for pikes in the early spring, and according to information given
by residents many frequent these places at that time.

21. Fundulus diaphanus nienona (Jordan and Copeland). Barred
Killifish. — Seven (1-3 inches) were caught from two diverse and separ-
ated regions; five from the Mason's Creek pools and two from the
west end of Mitten Lake. The species is poorlj' represented in the
region.

22. Eucalia inconstans (Kirtland). Brook Stickleback. — The brook
stickleback is very common and generally distributed in the Whitefish
Point region. It was found in all of the bodies of water examined,
except Shelldrake River and Lake. Onh' two, very small ones were
taken in Lake Superior. They were numerous in the beach ponds
connected with Mason's Creek, and the pool beneath the beaver dam
here appeared to have optimum conditions. Many were also ob-
served in Vermilion Creek, where they prefer deep, quiet pools
with much algae and other vegetation. While they are numerous in
Beaver Lake and others of the west group, they are scarce in the east
group, the beaver dam at Station 110 apparently marking the limit of
their eastward extention in this system of small lakes. They are very
common in Little Lake, at least at its north end.

The sticklebacks were easily seen and distinguished in the water, and
they were usually suspended, apparently motionless, off the bottom.
When the bottom soil is disturbed they quickly gather about the cloud,
evidently looking for food. Thej- appear to be insectivorous in the
region for insects with a little algae made up the stomach contents of
the fcAV opened.

The two hundred or more specimens collected Avere from .7 to 2.7
inches in length.

23. Pygosteus ])ungitus (Linnieus). Nine-spined Stickleback. —
This species was not found elsewhere than in Lake Su]KM-ior. where it is
exceedingly abundant, outnumbering by far all other kinds of fish
found there. The enormous schools came shoreward in quiet, warm
weather, where they remained a short distance out from shore in about

150 PAPERS ON ZOOLOGY OF MICHIGAN.

a foot of water. They were not closely associated with the other small
fish, but a few small suckers and young herring were occasionallj^ with
them. For some reason, they avoided all but the sandy bottoms and
in no instance were these schools seen over the pebble zone, although
often close to its margin.

The sixteen specimens opened had been eating entomostracans.
The material appeared to be the same in all of the fish, and it was of an
orange color and showed through the thin body walls of most of the
several hundred captured. The contents of twelve stomachs were sent
to Mr. Chancey Juday, who determined the material as fragments of
Cyclops viridis, hrevispinosus, Diaptomus ashlandi, and Bosmina long-
irostris. It will be seen that these hoards of little sticklebacks were
eating the same objects as were the young whitefish afid herrings.
They are, thus, of some economic interest as competitors of these
more useful fish.

24. Lepomis megalotis (Rafinesque) (?). — Two small sunfish were
taken in a little bay having about a foot of water and a mud bottom in
Shelldrake River. These were the only sunfish, in fact the only mem-
bers of the Centrarchidae found by the writer in the Whitefish Point
region.

They were each about 1.5 inches long. While they answer well to
the descriptions of L. megalotis and resemble specimens of that species,
the present state of our knowledge of Lepomis, makes it impossible to
identify with certainty such small specimens as these, especially since
they came from a region remote from any where sunfish have hereto-
fore been thoroughly studied.

25. Perca flavescens (Mitchill). Yellow Perch.- — Perch were com-
mon and the most generally distributed of all the fish in the Whitefish
Point region, according to the writer's notes. Many small ones (1 to
1.5 inches long) were present on the shoal of Lake Superior, either
solitary, in schools, by themselves or in schools of small suckers and
herring. They did not appear to associate with the sticklebacks.
They are uncommon in the beach ponds, and none were found in those
not freely connected with Lake Superior. The marsh lakes con-
tained many perch, both large and small, and here also they were
found as solitary individuals and in schools, the latter being always
made up of perch of about the same size. Companies of large perch
appeared to wander freely about in some of the marsh lakes, not
clinging to the neighborhood of the shores as most of the smaller lake
fish did. They tended, however, to remain in the deeper water, from
which they were readily caught with hooks baited with leeches.

In the northwest corner of Shelldrake Lake conditions seemed to be

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 151

very favorable for young perch for large numbers of them were found
about the water lily growth there.

Some of the large perch from Station 24 of the marsh lakes were
colored as follows: light yellowish olive above with transverse bands
of olivaceous black, sides yellowish-white, under parts white, pectoral
and anal fins greenish yellow, ventral fins reddish orange.

One fish, 8 inches long, from Station 24, had eaten two leeches and
a caddice larva. In the stomachs of four little perch from the Lake
Superior shoal were entomostracans {Cyclops viridis brevispinosus and
Diaptonms ashlandi), which were the same as those making up the
bulk of the material in the stomachs of the young whitefish, herring,
and sticklebacks found in the same habitat. Notes on the food of this
species are given by S. I. Smith (1873a), who found them eating small
fish, spa^^^l of fish, and dipterous larvae, and b}^ Forbes (1880), who
obtained from stomachs, of adults, mollusks, crustaceans, insects, and
small fish, and in the stomachs of the young entomostracans and Chir-
onomus. Forbes (1890a) records perch eating large, red Chiron-
omus larvae in certain Wisconsin lakes. Marshall and Gilbert (1905)
state that perch eat insect larvae, snails,- crayfish, some other crusta-
ceans, minnows, fish spa^vn, plankton, and plants.

Perch are eaten by at least two species of fish found in the Whitefisb
Point region, the common pike and the burbot (Reighard 1913 and
Forbes 1888).

G. B. Goode (1884) considers perch common along the south Lake
Superior shore and states that Whitefish Baj^ has fishing grounds for
perch, and that fishermen consider them detrimental to whitefish.

26. Hadropterus aspro (Cope and Jordan). Black-sided Darter. —
One small example of the black-sided darter, an inch long, was found
in the collection made in the shallow water at the northwest corner of
Shelldrake Lake.

27. Boleosoma nigrum (Rafinesque). Johnny Darter. — Four speci-
mens, 1 to 1.5 inches long, were found in the collection made at the
northwest corner of Shelldrake Lake.

28. Etheostoma iowae Jordan and Meek. Iowa Darter. — This
darter is common in the marsh lakes, but none were found elsewhere
in the. region, except one small example in the small beach pool at
Station 121. In the marsh lakes they are present over both sandy
and mucky bottoms. On the latter a network of their trails often,
formed a conspicuous bottom feature.

Some fifty specimens, 1 to 1.7 inches in length, were taken. A few
of them were in high coloration as follows: above greenish-yellow with
faint dark blotches, the dorsal fin black with a coral red band near its

152 PAPERS ON ZOOLOGY OF MICHIGAN.

outer edge, sides of the body with about ten feruginous spots inter-
spersed with bluish dusky ones, below yellowish white.

29. Cbttus ictalops (Rafinesque). Common Sculpin. — Sculpins are
common on the Lake Superior shoal (Station 1), where they appear
to frequent the pebble zone. Many were also found in Shelldrake
River in the thick submerged masses of tape grass and stonewort, and
a few were caught in Shelldrake Lake. They appeared to be scarce
in the marsh lakes, as none were found in the many collections made
from them by the writer. But in the summer of 1914, Mr. N. A. Wood
caught two in the marsh lakes in three or four feet of water, one on a
sandy bottom and the other over a mud bottom. Aquatic plants were
absent in both places. No sculpins were found in the beach ponds or
in the streams draining the marsh lakes except at their mouths. It
should be stated, however, that this data on the distribution of sculpins
in the Whitefish Point region probably has little significance owing
to the difficulty of getting them with nets or of seeing them in the water.

Some thirty specimens were taken. These were 1 to 3.5 inches in
length. One from Shelldrake River had a large, burrowing May-fly
larva in its stomach as well as fragments of other insects. A sculpin
Tvas found in the stomach of a small pike taken in the Shelldrake River.

30. Lota maculosa (LeSueur). Burbot. — Two of these were taken,
- — one at Station 1 on the Lake Superior shoal and one in the mouth of
Vermilion Creek. They were both small specimens, 2.5 to 7 inches in
length. The largest one was colored as follows: above light greenish
yellow mottled with darker, a violet reflection on the caudal fin, lower
parts and lower fins white, the latter with a bluish and pinkish tinge.

The stomach of the larger specimen contained the remains of five or
more small fish and chironomid larvae. The habits of the fish are
similar to those of sculpins, hence few were noted. Residents of Ver-
milion say that they are common in Lake Superior. If so, their pre-
daceous habits make them important enemies of fish in this body of
water. Forbes (1888) found young perch, young whitefish, and a
crayfish in the stomachs examined, and he considers young perch an
important article of food for this species.

HYPOTHETICAL LIST OF SPECIES.

It is evident that only a month of collecting and observing would
almost certainly not reveal all the species of fish found in the region
studied. Lake Superior shoal forms could easily be overlooked and fish
that visit this region at other times of the year would not be found.
It was, therefore, considered advisable to attempt to make a list of
species not found by the writer but probably present in the region, as a
^guide to future collectors.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 153

On the preparation of this list the writer made man}^ inquiries of
members of the Life Saving crew at VermiHon and of others familiar
with the aquatic life there, who were willing and capable of giving
reliable information; and he has examined the literature pertaining to
Lake Superior fish, and has corresponded with ichthyologists who
might furnish facts concerning the aquatic biota of the region. Chiefly
from these sources the data given in the following hypothetical list has
been obtained.

1. Acipenser rubicundus Le Sueur. Lake Sturgeon. — Sturgeons are
said to visit the shallow water of Lake Superior near Vermilion, and
Mr. John Clarke informed the writer that they used to run up the
Tahquamenon River which enters Whitefish Bay. Records of sturgeons
in Lake Superior are given by Smith and Snell (1885), who say that they
are captured there but seldom marketed. Cox (1897) states that they
are often taken in Lake Superior. Townsend (1902) reports 711
pounds taken from Lake Superior in 1899 with pound and trap nets,
and asserts that they are not as common in Lake Superior as in the
other lakes.

2. A7)iia calva Linnaeus. Dogfish. — Mr. Robert Carlson reports
that the dogfish or bowfin is caught at Whitefish Point.

3. Leucichthys harengus ardurus Jordan and Evermann. — ^This
subspecies was recently described by Jordan and Evermann (1911).
The type specimen is from Knife River, Duluth, Minnesota. It is
possible that all L. harengus of- Lake Superior belong to this subspecies.

4. Leucichthys eriensis (Jordan and Evermann). — Recorded from
Port Arthur, Lake Superior, by Fowler (1911).

5. Leucichthys supernas Jordan and Evermann. Cisco of Lake
Superior. — The species was described by Jordan and Evermann (1911).
It is said to be a deep water form, living in water 300 feet or over in
depth. Absence of information concerning the habits and character-
istics of the young of this and other Leucichthys of Lake Superior,
makes it impossible to determine whether or not this species is repre-
sented in the hosts of little herring that school in the shallow water of
Lake Superior near Vermilion.

6. Leucichthys prognathus (H. M. Smith.) Cisco of Lake Ontario. — ■
Nash (1908) reports this fish from the Great Lakes except Lake Erie,
and it is recorded from Devil's Isle, Lake Superior, by the Bureau of
Fisheries at Washington (Michael 1904).

7. Leucichthys johannae (Wagner). — Found in Lake Superior, ac-
cording to Wagner (1910).

8. Leucichthys nigripinnis (Gill). Blackfin of Lake Michigan.
The blackfin is said to be common in Whitefish Bay. Townsend
(1902) states that 36,818 pounds have been taken in Whitefish Bay

154 PAPERS OX ZOOLOGY OF MICHIGAN.

since 1893, when it was first noticed there. Nash (1908) reports it as
occasionally taken in Lake Superior.

9. Leucichthys cyanoptera Jordan and Evermann. — Found in deep
water of Lake Superior (Jordan and Evermann 1911).

10. Leucichthys zenithicus (Jordan and Evermann). — This form ac-
cording to Jordan and Evermann (1911) and H. 'SI. Smith (1894)^
occurs in deep W'aters of Lake Superior.

11. Leucichthys manitoidinus Jordan and Evermann. ManitouHn
TuUibee. — North channel of Lake Huron and perhaps in Lake Superior
according to Jordan and Evermann (1911).

12. Cristivomer namaycush (Walbaum). Lake Trout. — No lake
trout Avere found by the writer, l^ut there is abundant evidence that they
occur at least in the deep water near Vermilion. Mr. N. A. Wood got
one weighing fifteen pounds about a mile out from Vermilion in the
summer of 1914. John Clarke informed the waiter that they frequent
the shoal at times, and other reliable testimony as to their occurrence
there was obtained. A number of plantings of the species have been
made at Whitefish Point and Grand Marais.

The lake trout is a w^ell-knowTi predator. The one taken in 1914 by
Mr. Wood had five sculpins, each about three inches long in its stomach.
Nash (1913) states that they eat herrings, j^oung whitefish, and other
soft -finned fish. Mr. John Clarke says that they spawn in fall in five or
six feet of w^ater where the bottom is gravelly in Lake Superior. Nash
(1908) states that the spa^vning season in Lake Superior commences
early in October.

13. Cristivomer namaycush siscowet (Agassiz). Siscowet. — This sub-
species is said to live in Lake Superior, in water from three hundred to
nearly five hundred feet deep. Jordan and Evermann (1911) state
that, "It is never seen in shallow water." It is doubtful if it should
be included in this list.

14. Salmo gairdneri Richardson. Steelhead Trout. — These trout ,
have been planted in .streams tributary to Lake Superior and are said
to frequent the open lake. Nash (1908) states that they have been
introduced in Lake Superior with marked success.

15. Hiodon tergisus Le Sueur. Tooth6d Herring. — Probably occurs
in Lake Superior. Nash (1908) states that it ranges to Lake Superior.

16. Alosa sapidissima (Wilson). The Shad. — Mr. Robert Carlson re-
ports taking one at Whitefish Point. Nash (1908) says "it w^as formerly
abundant in the lower Ottawa but has abandoned that river and its
occurrence within our boundaries is now only accidental.

17. Pimephales notatus (Rafinesque). Blunt-nosed Minnow. — Re-
corded from Sault Ste. Marie by Meek and Clarke (1902). Found in

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 155

the Lake Superior Region at Bear Lake, Houghton Count}-, Michigan,,
in 1905, by the writer.

18. Notropis heterodon (Cope). Black-chinned Minnow. — Recorded
from Sault Ste. Marie by Meek and Clark (1902).

19. Notropis atherinoides Rafinesque. Shiner. — Recorded from the
Lake Superior region by Agassiz (1850) and by Meek and Clark (1902).

20. Notropis cornutus frontalis (Agassiz). — Recorded from Lake
Superior by Agassiz (1850) and from the Lizard Islands in Lake Superior
and from Sault Ste. Marie by Meek and Clark (1902).

21. Couesius plumheus (Agassiz). — Lake Chub.— In Lake Superior,
according to Nash (1908). Recorded from the region by Agassiz
(1850). Found in a small lake in Houghton County, Mich., in 1905,
by the writer. Cope (1866) records it from Keweenaw Point. Jordan
and Evermann (1896) give its range as including Lake Superior.

22. Ictalurus pundatus (Rafinesque). Channel Cat. — It is possible
that this species is recorded from Lake Superior under the term "cat-
fish" by ToMaisend (1902). A letter from the IT. S. Bureau of Fisheries
interprets this name as including this and the following two species.

23. Ameiurus nebulosiis (LeSueur). Common Bullhead. — Recorded
for Lake Superior by Agassiz (1850) and probably included under the
term ''catfish" by Townsend (1902), who states that 6,200 pounds of
catfish and bullheads were taken in Lake Superior in 1899, by fj^ke,
trap, and pound nets.

24. Ameiurus lacustris (Walbaum). Catfish of the Lakes. — Nash
(1908) states that this species is distributed throughout the Great
Lakes. Jordan and Evermann (1896) give it as abundant in the Great
Lakes, and Townsend (1902) probably includes this species among the
"catfish" from Lake Superior.

25. Esox inasquinongy (Mitchill). Muskallunge. — Recorded from
southwest Lake Superior by Goode (1884). Found in Portage Lake in
Houghton County, Michigan, by the writer in 1905.

26. Percopsis guttatus Agassiz. Trout Perch. — Agassiz (1850) and
Meek and Clark (1902) record the species from Sault Ste. Marie, Michi-
gan. Nash (1908) states that it is frequently taken in the clear, cold
water of Lake Superior.

27. Amhloplytes rupestris (Rafinesque). Rock Bass. — Townsend
(1902) reports that 734 pounds of rock bass were caught in Lake Su-
perior in 1899, with fyke nets, pound nets, and trap nets. Meek and
Clark (1902) record it from Sault Ste. Marie.

28. Micropterus salmoides Lacepede. Large-mouthed Black Bass.
— Foui,id in Lake Superior, according to Michael (1904).

29. Stizosiedion vitreum (Mitchill). Wall-eyed Pike. — Townsend

156 PAPERS ON ZOOLOGY OF MICHIGAN.

(1902) states that wall-eyed pike occur in Lake Superior and that they
are caught chiefly in Chippewa County, Michigan. Goode (1884) says
they are abundant in west Lake Superior, and gives a record of three
hundred pounds taken at Whitefish Point, although they are not con-
sidered plentiful there. Apparently they are periodic in their occurrence
in this region of the lake.

30. Percina caprodes (Rafinesque) . Log Perch. — Found in Lake
Superior according to Jordan and Evermann (1896), and recorded
from Sault Ste. Marie by Meek and Clark (1902).

31. Etheostoma caeriileum Storer. Rainbow Darter. — Recorded
from Lake Superior by Abbott (1860).

32. Roccus chrysops (Rafinesque). White Bass. — Nash (1908) re-
ports the species from the Great Lakes of Ontario. Goode (1884)
states that it is found about the Apostle Islands but not elsewhere in
Lake Superior.

33. Aplodinotus grunniens Rafinesque. Fresh-water Drum.— Com-
mon and distributed throughout the entire Great Lake region, ac-
cording to Nash (1908).

34. Uranidea franklini (Agassiz). This species is recorded from
Lake Superior region by Meek and Clark (1902), Girard (1851),
Ruthven (1909), and Nash (1908).

SUMMARY AND CONCLUSIONS.

The field work of 1913 established the occurrence of thirty species
of fish in the Whitefish Point region. That at least thirty-four others
belong to the fauna is very evident from testimony of residents and
published data. Each of the species of fish found in the region by the
writer may be considered common there with the exception of the
following: tullibee, rainbow trout, horned dace, golden shiner, Menona
top minnow, long-eared sunfish (?), black-sided darter, and Johnny
darter.

Of the thirty species of fish taken, eighteen are common and generally
distributed in the region of the Great Lakes and in the Central States
generally. Onh^ eight are boreal in distribution. These are Saginaw
Bay herring, tullibee, Labrador whitefish, Menominee whitefish, long-
nosed sucker, Leuciscus neogaeus, Menona top minnow, and nine-spined
stickleback. The rainbow trout exists in the region through artificial
introduction.

Within the Whitefish Point area, the different species are restricted
in distribution, forming five rather distinct faunas, which are (1) that
of the Lake Superior shoal, (2) of the beach ponds, (3) of the west
group of marsh lakes, (4) of the east group of marsh lakes, and (5)
of Shelldrake River and Lake. No one species was found in all of these

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 157

habitats and but few are at all generally distributed. The species of
widest habitat range are common -perch, brook stickleback, common
sculpin and Caj^ga minnow. Some very limited in distribution are
sunfish (Lepomis), Menona top minnow, golden shiner, long-nosed
dace, black-sided darter, and Johnnj' darter.

Of the fifteen species of fish taken from the Lake Superior shoal,
seven were not found in the inland bodies of water. These were lake
herring, tullibee, Labrador whitefish, Menominee whitefish, rainbow
trout, nine-spined stickleback, and burbot. One burbot, however, was
found in Vermilion Creek right at its mouth, where Lake Superior
shoal conditions were present.

Of the twenty-three species taken in the inland bodies of water,
fifteen were not found in Lake Superior. These were, red-bellied dace,
silvery minnow, black-head minnow, Cayuga minnow, homed dace,
golden shiner, black-nosed dace, Leuciscus neogoeus, mud minnow,
Menona top minnow, common pike, Iowa darter, black-sided darter,
Johnny darter, and the sunfish.

The species common to Lake Superior and the inland habitats are:
brook trout, spot-tailed minnow, long-nosed dace, long-nosed sucker,
common sucker, brook stickleback, common perch, and common
sculpin.

Twentj' species of fish were found in the marsh lakes and their
outlet streams, of these five were abundant in the west group of lakes
but scarce or absent in the east group. These were, red-bellied dace,
silverj^ minnow, black-head minnow, common sucker, and l)rook
stickleback.

Shelldrake River and Shelldrake Lake have a fauna very different
from that of the marsh lakes aiid Lake Superior, for of the eleven
species caught there, three (blacksided darter, Johnny darter, and the
sunfish) appeared peculiar to the habitat and two (long-nosed dace
and spot-tailed minnow) were scarce elsewhere but common in the
Shelldrake region.

It was not possible in the time available to examine in detail the
relations existing between the fish and their environment and thus to
determine the ecological factors governing the distribution, but the
general environmental features influencing the fish life of the region
are climate, bottom soil, plants, and aquiitic animals.

Climate. - The long winters and cold nights even in summer subject
the fish, especially those of the shallow lakes and ponds, to much low
temperature. This undoubtedly affects their numbers, size, and
activity. Fish are said to leave the shallow water near the shore of
Lake Superior on the approach of storms. None could l)e found there
during bad weather, and they only became numerous during rather

158 PAPERS OX ZOOLOGY OF MICHIGAN.

prolonged periods of quiet. Residents saj', however, that herrings are
thro^\^^ ashore at times bj- the waves. Water movements in all prob-
ability disturb the sand down to a depth of twenty-six feet as they do
in Lake Michigan (Shelford 1913, page 74).

Bottom material. No definite relations of bottom soil to fish could
be made out, yet certain types of bottom were preferred to others by
certain fish. In Lake Superior the submerged pebble zone was avoided
by the schools of free swimming j'oung herring, perch, and suckers, as
well as by sticklebacks and some others, while sculpins and burbots
evidently preferred the stony area. In the marsh lakes, there was
noted a marked preference for the muck bottoms on the part of all
species. The loose, black soil undoubtedly harbored much food and
furnished hiding places for the small fish, although none were seen
retreating into it.

Plants. The larger aquatic plants are used by the fish for protection
and seclusion. Growths of stonewort, water weeds, tape grass, and pond-
weeds were found utilized in this way. Partty submerged sweet gale,
sedges, and many other plants of similar habits also furnished con-
cealment for fish; pike lie in ambush about their submerged bases.
Filamentous algae was eaten by common suckers, young whitefish,
brook sticklebacks, and sculpins, according to the writer's observations,
and diatoms were found in mam' digestive canals, especially those of
common suckers, Cayuga minnows, silvery minnows, and black-head
mimiows. The food value of these little plants is questionable.

Invertebrates. The invertebrates are an important part of the fish
environment when they serve as food or become parasites. The prin-
cipal forms eaten by fish in the region are entomostracans, chironomid
larvae, black-fly larvae, May-fly larvae, cacldice-worms, amphipods,
and leeches. Entomostracans constituted the chief food of young
herring, young whitefish, and nine-spined sticklebacks on the Lake Su-
perior shoal. All were feeding on the same forms, which belonged chiefly
to the Crustacean genera, Diaptomus, Bosmina, and Cyclops. Small
suckers, and perch, on this shoal, were also eating these forms to a
considerable extent. Chironomid larvae are extensively taken by the
fish of the Whitefish Point region; they seemed especially important
to bottom feeders, suckers, sculpins and burbots. Black-fly larvae
appeared to be the sole food for the colonj^ of long-nosed dace living
near the mouth of Vermilion Creek. Sculpins were also eating them in
Shelldrake River. Amphipods made up most of the stomach contents
of the few whitefish caught in the deeper part of the shoal. Leeches
were eaten by large perch in the marsh lakes.

Vertebrates. The vertebrates are especially marked factors in the
fish environment when thej' prej' upon fish. Brook trout, rainbow

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 159

trout, common pike, and sculpins were found eating other fish. Of
these the most important destroyers seem to be the common pikes, for
they are numerous and often of a large size. Sculpins appear to eat
other fish extensively in the region, including members of their own
species. Some fish-eating birds are common. These are loons, blue-
herons, night herons, bitterns, kingfishers, mergansers, and grebes.
Kingfishers frequently attack schools of small fish. Minks are con-
sidered common in the region. If they are, many fish are probably
eaten by them. Fish probably to some extent destroy other verte-
brates for large pikes are said to catch young muskrats and 3'oung
ducks in the marsh lakes.

Fish affect each other through competition for food. A conspicuous
instance of this in the Whitefish Point region is in the case of the hosts
of nine-spine sticklebacks eating the same food as the much-less num-
erous little whitefish and herring and other species of the shallow water.

Most of the species of fish in the Whitefish Point region influence man
in unimportant waj^s. Whitefish, herring, and brook trout, furnish food
for residents and the first two are of much commercial value at White-
fish Point, where many tons of them are taken each year and are the
cause of a very important fishery there. Man and the beaver have
varied the character of the fish habitats through dams, channels, and
other structures that the}- have built about the marsh lakes.

BIBLIOGRAPHY.

Abbott, C. C. 1875

1875. Notes on Some fishes of the Delaware River. Report of the
Comm. of Fish and Fisheries, 1875-1876; 825-845.
Adams, A. L.

1873. The Lake Trout. Report of the Comm. of Fish and Fisheries,
1872-1873; 357-362.
Adams, C. C. and others

1906. An Ecological Survey in Northern Michigan. Report of the

State Board of Geological Survey of Michigan for 1905.
1909. An Ecological Survey of Isle Royale, Lake Superior. Report

of the State Board of Geol. Survey of Michigan, for 1908.
1913. Guide to the Study of Animal Ecology. The Macmillan Co.,
New York.
Agassiz, L.

1850. Lake Superior: its Phj-sical Clinracter, Vegetation and
Animals compared with those of other and similar Regions.
Boston.
Allen, A. A.

1913. The Red-winged Hlackl)ird. A Study of the Ecology of a

160 PAPERS ON ZOOLOGY OF MICHIGAN.

Cat-tail Marsh. Proc. Linnean Soc. of New York for 1911-

13; 1-128, PI. 1-22.
Baker, F. C.

1910. The Ecology of the Skokie Marsh Area with Special Reference

to IVIollusca. Bull. 111. State Laboratory of Natural History

8, Art. 4.
Barlow, A. E.

1899. Report on the Fish of the Nipissing and Temiscaming Region,
Ontario. Report of the Geol. Surv. of Canada, 10.

Barrows, W. B.

1912. Michigan Bird Life. Mich. Agr. College, E. Lansing, Mich.
Beal, W. J. and Wheeler, C. F.

1892. Michigan Flora. Thirteenth Annual Report of the Secretary
of the State Board of Agriculture.
Bean, T. H.

1901. Food and Game Fishes of New York. Seventh Report of
the Forest, Fish, and Game Comm. of New York. 251-460.

Bell, Robert

1897. Recent Explorations to the South of Hudson's Bay. Geo-
graphical Journal, 10; 1-19.
Bollman, H.

1890. A Report upon the Fishes of Kalamazoo, Calhoun, and
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8; 219-225.
Clark, F. N.

1900. Methods and Results in Connection with the Propagation of
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1902. A Successful Year in the Artificial Propagation of Whitefish.
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1904. Commercial Fish and Fisheries. Sixth Report of the Mich.
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Cope, E. D.

1864. Partial Catalogue of the Cold-blooded Vertebrata of Michi-
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Cowles, H. C.

1899. The Ecological Relations of the Vegetation on the Sand
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4, and 5.

1900. The Physiographic Ecology of Northern Michigan. Science,
N. S. 12; 706-709.

Michigan Geological and
Biological Survey.

Publication 20: Biology 4.
Plate XI.

MAP OF THF. WHITKlISll POINT HIXHOX, CHIPPKW.V iOVSlY. M 1(1 1 1( lA N

Michigan Geological aiul
Biological Sun-ey.

Publication 20; Biology 4.
Plate XII.

A. LAKE SUPERIOR BEACH AT VERMILION. UPPER AND LOWER BEACH
SHOWN; THE LATTER WITH AM MOP HI LA AREXARIA ZONE, SHOWN
CHIEFLY IN THE FOREGROUND.

L.\KE SJI'EIUOK MEACH WITH ."AND UIlKiE CKOSSKD UV CIJANMEHUY
CREEK. JUST EAST OF VERMILION.

Michigan Geological and
Biological Survey.

'uliliration 20; Biology 4.
Plate XIII.

LAKE .SIPERIOK HEACH. LOOKING EAST TOWARD VEU.MILlOX. DLHIXG A
STORM. SHOWING FORMATION OF TEMPORARY POOLS BY WAVES.

S.M.M.L P(JRTION III

\l\i:si I'lHKiH Hi;.\( 11 .->ll(i\V[NG PEliHLE /O.Ni;

s.M.M.i. ri:.Mi'(»i{ Ain pond

Michigan Geological and
Biological Survey.

Publication 20; Biology 4.
Plate XIV.

A. LAKE SIPEKIOK BEACH WITH DUXES Ol" THE ITK.ST SAXD RIDGE.

B. CKANBERKY ClUOEK (STATIOX 3()K L()()K[N(i NOUTH AND DOWN STUEAM,
SHOWING A FART OK THE HEAGH POOL TORMED BY IT (STATION 31)

Michigan Geological aii<l
Biological Survey.

Piit^licatioii 20; Biology 4.
Plate XV.

A. POM) OX LAKE SUPERIOR BEAfH (STATION 31) FORMED BY CRAXBERUV

CREEK.

i

^

1

tJ^

^

■

i

r|yl

■

H

^^^^^^^B

■<-•>

1

1

^^^^^^^^^^^^^^^^^^^^^^^^^^^»^^^

1

^

1

. - it

M Hi;.\\ER DA.M AM) l'i)M)()N .\I AS( ).\ S ( K KK K u->lAll(»N i71i

IMiotiigan Geological and
liiological Survey.

Publication 20; Biology 4.
Plate XVI.

A. BEACH POND IX THE COURSE OF MASOX'S CREEK.

B .MAKSII HOKDKHIXC M.ASOXS CREEK (STATIOX 172) OX L.\KK SIPKHIOU

BEACH

Michigan Geological and
Biological Survey.

Publication 20; Biology 4.
Plate XVII

A. LOOKING SOUTHWEST FROM HIGH SAND DUNE NEAR STATION 101. SHOW-
ING MARSH AND SAXD RIDGES WITH IPLAXI) IX DI.-^TAXT BACK-
GROrXD.

- -^1 -•*■:> w ..,-^-- •'>-,^^i.

B. MARSH l,.\Ki:.>

LOOKING SOI ITIEAST I Ru.M
ST.\TI()N 101

llli: II Kill in Ni: Nl AK

Michigan Geologrical and
Biologrical Survey.

Publication 20; Biology 4.
Plate XVIII.

A. CHANNEL EAST FROM BEAVER LAKE (STATION 00).

B. CHANNEL (»F \I;HM1LI()N L.\KE (ST.VTION 2">).

Michigan Cieological iiml
Biological Survey.

I'lililiciition 20; Biology 4,
Plate XIX.

A. MAUSH HAY OF BKAXKH LAKE (STATION .-)5), LOOKIXC SOTTHWHST (LAKE

WARD).

... illfkl.^llil'li

■ - VI r., ,...;Ai'i

li. ■nil-: .< A.M i:. i.ooi\i\(; smrii

Mirhigaii Geological and
Biological Survey.

Piiljlication 20; Biology 4.
Plate XX.

A. MARSH BAY OF BEAVKR LAKE (STATION .52). LOOKIXCJ XOUTHKAST.

%%

n^^

|p.«tf-

1 i

n^^llll^^f

Hi

li. NoKiiiw i:s I siKiui'; oi ui;a\i:i; i.akI'.

xoKi lll■;As^

lS|■.\lll).\ .-,'1,, l.()(iKI\(,

Michigan Geological and
Biological Survey.

Publication 20; Biology 4.
Plate XXI.

A. .SjniUCK L.MvK, L(J()KI.\G NORTHWEST ->IA1I()X ,1

B. .-iTATioN SI, si'in ( i: i.\Ki;. i.DoKixc i:\.-^|- ii.(i\ii\(, m\i.-(ii .-iom
uojM' ON I III; SI itiAci;

Michigan Geological and
Biological Survey.

Pijblication^20;" Biology 4.
Plate XXII.

A. STATION S.5, SPRUCE LAKE. LOOKING SOUTH ACROSS THE EAST END OF

THE LAKE.

gKSI^ittS&it

^^

m

>:-^'f4^,

B. M\i:.-ii^ NouMi .-iioi;i. (»i \i;i;.MiLi(i\ lake

Michigan Geological am
Biological Survey.

I'ulilication 20: Biology 4.
Plate XXIir.

A. 8MALL LAKE AND WOODED SAXD RIDGE A1'.(M 1 A HALF MILE EAST OF
VERMILION (STATION 106), LOOKING NORTHEAST.

B. WEST END <)!■ Illi: .-MALL L.\KE SHOWN IN .\. .-I.VlKtN lui. LOOKING

EAST.

Michigan Geological and
Biological Survey.

Publication 20; Biology 4
Plate XXIV.

1

-3t*jiilil^

%>*-

A. MITTEN LAKE, STATION 116, LOOKING EAST.

B. \EHMILION CREEK AT VERMILION. (;|{I:A1 BUE HEUON FEEDING.

Michigan Geological and
Biological Survey.

Publication 20; Biology 4.
Plate XXV.

A. .^HKLLDI^VKK LAKK. LOOKIXC; .-^orTHWKST

U-

u \i)i{ Tiiw i:s 1 .•^iiour; ok siii;i,liji{.\kk l.vkk. i.ookinc .\ou imk.v.-^t

ISTATION 142).

Michigan Geological am
Biolosjical Survey

Publication 20: Biology 4.
Plate XXVI.

A. SHKLLDRAKE RIVER AND PORTION OF WOODED SWAMP, LOOKING DOWN
STREAM FROM A HIGH, NORTH STREAM BANK.

I'.. I'oinii N or .-iii:i.i.i)ii AKi; ki\i;k .irsr sorrii oi \ i;k.mii.|()N

Michigan Geological and
Biological Survey.

Publication 20; Biology 4.
Plate XXVII.

A. SHELLDRAKE RIVER JUST SOUTH OF SHELLDRAKE LAKE, LdOKING

SOUTH.

H i.i).\(;-N()si:i) DAc:;. nil i .\ icii rii vs (\rM{.\(rM:.

Michigan Geologic-a! and
Biological Survey.

Put

licatioii 20; Biology 4
Plate XXVTII.

TULLIBEE, LEUCICHTIIYS TVLLIBEE (?) CAUGHT AT STATION 2, LAKE

SUPERIOR.

IV VorXO Will 11,1 ISII, COREVONUS CI.ri'EM'ORMIS (I'OSSIIil.V M.lilS)
LEXG'l'll OK LARGEST AHoUT ITIKi;!'; I\(lli;s, CAlCirr AT STATION 1.
ON LAKE SUPERIOR SHOAL

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 161

Cox, I. 9.

1896. Fishes of Southwestern Minnesota. Report of the U. S.
Comm. of Fish and Fisheries for 1894; 605-616.

1897. A PreUminarj' Report on the Fishes of Minnesota. Geol.
and Nat. Hist. Survey of Minn. Zool. Series III.

Davis, C. A.

1907. Peat, Essays on its Origin, Uses, and Distribution in Mic i-
gan. Report of the Mich. State Board of Geol. Surv^ey for

. 1906; 95-395.
Dickerson, F. B.

1904. The Benefits of the Propagation of Game Fish to the State of
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Science; 69-71.
Dodge, C. K.

1913. The Flowering Plants, Ferns, and their Allies of Mackinac
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Downing, S. W.

1904. The Whitefish; Some Thoughts on its Propagation and Pro-
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Ellis, Max M.

1914. Fishes of Colorado. Univ. of Colorado Studies, II, no. 1; 1-
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Evermann, B. W.

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1900. Bait Minnows. Sixth Report of the New York Forest, Fish,
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1901. List of the Species of Fish Known to Occur in the Great
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Evermann, B. W. and Goldsborough, E. I.

1907. A Check List of the Fresh-water Fishes of Canada. Proc. of
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1910. The Fishes of the Lake of the Woods and Connecting Waters.
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Evermann, B. W. and Smith, H. M.

1896. The Whitefishes of North America. Report of tiie U. S.
Comm. of Fish and Fisheries for 1894: 283-324. PI. 1-17.
Faull, J. H.

1913. The Natural History of the Toronto Region, Ontario, Canada,
21

162 PAPERS ON ZOOLOGY OF MICHIGAN.

including an account of the Fishes by C. W. Nash. Canadian

Institute, Toronto.
Forbes, S. A.

1878. The Food of Illinois Fishes. Bull. 2 of the 111. State Lab.

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1880. TheFoodof Fishes: Acanthopteri. Bull. 111. State Lab. Nat.

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1888b. Food of the Fishes of the Mississippi Valley. Trans. Am.

Fisheries Soc, 17th Ann. Meeting; 1-17.
1890. On Some Lake Superior Entomostraca. Report of the Comm.

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S. Fish Comm. VIII; 473-487.
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1-19. PL 1-10, Maps 21.
Forbes, S. A. and Richardson, R. E.

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Ichthyology.
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1908. A Synopsis of the Cyprinidae of Pennsylvania. Proc. Acad.

Nat. Sci. Phil., 60; 517-553.

1911. Notes on Salmonoid and Related Fishes. Proc. Acad. Nat.
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Gates, F. C.

1912. The Vegetation of the Region in the Vicinity of Douglas

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 163

Lake, Cheboygan County, ^Michigan, in 1911. Fourteenth
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Gill, Theodore

1904. A Remarkable Genus of Fishes— the Umbras. Smithsonian
Miscellaneous Collections (Quarterly Issue) 45; 295-305.

1905. The Sculpin and its Habits. Smith. Misc. Coll. (Quart.
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1905a. The Family- of Cyprinids and the Carp as its type. Smith.
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1907. Some Noteworthy Extra-European Cyprinids. Smith. Misc.
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1908. The Miller's Thumb and its Habits. Smith. :^Iise. Coll.. 52,
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Goode, G. Brown

1884. Natural History of Aquatic Animals, Sec. 1. U. S. Comm.
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1886. American Fishes. Boston.
Goode, G. Brown and Associates

1887. The Fisheries and Fishing Indu.stries of the United States.
U. S. Comm. of Fish and Fisheries, Washington.

Halkett, A.

1913. Check List of the Fishes of the Dominion of Canada and
Newfoundland; 7-138, PI. 1-14, Ottawa, Can.

Hankinson, T. L.

1908. A Biological Survey of Walnut Lake, Michigan. Report of

the State Board of Geol. Surv. for 1907.
1910. Ecological Notes on the Fishes of Walnut Lake, ^lichigan.

Trans, of the Am. Fish. Soc. for 1910; 195-206.

1914. Young AVhitefish in Lake Superior. Science, N. S. 40;
239-240.

Harper, R. ]\I.

1913. Car-window Notes on the \'egetation of the Upper Peninsula.
Fifteenth Report of the ISIich. Acad. Sci.; 193-198.
Hart, C. A.

1895. On the Entomology of the Illinois River and Adjacent Waters.
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1907. On the Biology of the Sand Areas of lUinois. Bull. III.
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Heimburger, H. V.

1913. The Factors that Determine the Distribution of Boleosoma
nigrum in Douglas Lake, Cheboygan County, Michigan.
Fifteenth Report of the Mich. Acad. Sci.; 120.

164 PAPERS ON ZOOLOGY OF MICHIGAN.

Henshall, J. A.

1905. On the Protection of Fish in Inland Waters. Trans. 34th
Ann. Meeting Am. Fish. Soc.; 139-147.
Herrick, C. L. and Turner, C. H.

1895. Synopsis of the Entomostraca of Minnesota. Second Report
of the State Zoology of Minn. Geol. and Nat. Hist. Survey
of Minn. Zool. Series II.

Jackson, C. T.

1884. Fish and Shells from Lake Superior. Proc. Boston Soc.
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Joncas, L. Z.

1894. The Fisheries of Canada. Bull, of the U. S. Fish. Comm. for
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Jordan, D. S.

1905. A Guide to the Study of Fishes, New York.
Jordan, D. S. and Evermann, B. W.

1896. The Fishes of North and Middle America. Bull. 47 of the
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1902. American P'ood and Game Fishes, New York.

1909. Description of Three New Species of Cisco or Lake Herring
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1911. A Review of the Salmonoid Fishes of the Great Lakes with
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Juday, C.

1907. A Study of Twin Lakes, Colorado with Special Consideration
of the Food of Trouts. Bureau of Fisheries Doc. 616.

Kendall, W. C.

1894. Notes on the Fresh-water Fishes of Washington Co., Maine..
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1903. Notes on Some Fresh-water Fishes >from Maine. Bull. U.
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Kendall, W. C. and Goldborough, E. L.

1908. The Fishes of the Connecticut Lakes and Neighboring Waters,
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Kirsch, P. H.

1894 Report upon the Explorations made in Eel River Basin in
the Northeastern Part of Indiana in the summer of 1892.
Bull. U. S. Fish Comm. for 1894; 31-41.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 165

Kumlein, L.

1887. The Fisheries of the Great Lakes. In U. S. Comm. of Fish
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Leathers, A. L.

1911. A Biological Survey of the Sand Dune Region on the South
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Leverett, Frank

1904. Review of the Glacial Geology of the Southern Peninsula of
Michigan. Sixth Report of the Michigan Academy of
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1910. Outline of the History of the Great Lakes. Twelfth Report
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1911. Surface Geology- of the Northern Peninsula of Michigan.
Mich. Geol. and Biol. Survej' Pub. 7, Geol. Series 5; 8-91.

Marsh, C. D.

1897. Cyclopidae and Calanidae of Lake St. Clair. Bull. Mich.

Fish Comm. no. 5.
1903. The Plankton of Lake Winnebago and Green Lake. Wis-
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Marshall, W. S. and Gilbert, N. C.

1905. Notes on the Food and Parasites of Some Fresh-water Fishes
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Mather, F.

1886. Memoranda Relating to Adirondack Fishes with Descriptions
of New Species. Twelfth Report of the Adirondack Survey
of New York.
Meek, S. E. and Clark, H. W.

1902. Notes on a Collection of Cold-blooded Vertebrates from
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Meek, S. E. and Hildebrand, S. F.

1910. A Synoptic List of the Fishes Known to Occur within Fiftj-
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Miall, L. C.

1895. The Natural History of Aquatic Insects. Macmillan Co.,
New York.

166 PAPERS ON ZOOLOGY OF MICHIGAN.

Michael, E. L.

1904. Catalogue of Michigan Fish. Bull, of the Mich. Fish Comm.
no. 8.
Milner, J. W.

1872. Report on the Fisheries of the Great Lakes; the Result of
Inquires Prosecuted in 1871 and 1872. Report of the U. S.
Fish Comm., 1872-73; 1-78.
Milner, J. W. and others

1872. Miscellaneous Notes and Correspondence Relative to the
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79-89.
Moore, C. H.

1893. Report of the Statistical Agent. Tenth Report Mich. Fish

Comm.; 7-39.
1895. Statistics of the Commercial Fisheries. Eleventh Report of
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Moore, J. P.

1912. Classification of the Leeches of Minnesota. Geol. and Nat.
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Nash, C. W.

1908. Vertebrates of Ontario. Dep't. of Education, Toronto.

1913. Natural History of the Toronto Region, Fishes. (See Faull,
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Needham, J. G.

1908. Report on the Entomologic Field Station Conducted at Old
Forge, N. Y., in the summer of 1905. N. Y. State Museum
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Needham, J. G. and Betten, C.

1901. Aquatic Insects of the Adirondacks, N. Y. State Museum
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Needham, J. G. and Hart, C. A.

1901. The Dragon-flies (Odonata) of IlHnois. Part I. Bull. 111.
State Lab. Nat. Hist. 6; art. 1.
Needham, J. G. and MacGillivray, A. D., Johannsen, O. A., and Davis,
E. C.

1903. Aquatic Insects of New York State. Bull. 68, N. Y. State
Museum.

Newcombe, F. C.

1904. A Natural History Survey of Michigan. Sixth Report of
the Michigan Academy of Science; 28-36.

Patton, M. J.

1912. Whitefish of the Great Lakes. Report of the Comm. of Con-
servation of Canada for 1912; 13-24.

SHIRAS EXPEDITIONS TO WHITEFISH POINT. 167

Pond, R. H.

1902. The Role of the Larger Aquatic Plants in the Biology of

Fresh Water. Trans. Am. Fish. Soc. for 1902.
Pope, T. E. B.

1908. Devil's Lake, North Dakota. A Study of Physical and

Biological Conditions with a View to Acclimatization of Fish.

Bur. of Fisheries Doc. 634.
Post, H.

1894. Fish Culture in Michigan. Bull. U. S. Fish Comm. for 1893;

201-211.
Reighard, J. E.

1894. A Biological Examination of Lake St. Clair. Bull. Mich.

Fish Comm. no. 4.
1896. - A Biological Examination of Lake ^Michigan in the Traverse

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1912. Color Standards and Color Nomenclature. AVa.^hington,

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1912. Observations on the Ecology of Dragon-fly Nymphs; Re-

168 PAPERS ON ZOOLOGY OF MICHIGAN.

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1904. Notes on the Mollusks, Reptiles, and Amphibian of Ontona-
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170 PAPERS ON ZOOLOGY OF MICHIGAN.

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INDEX.

INDEX

To the generic names used in this report.

A. Page

Abies 114

Abramis 21, 23, 147

Acanthocinus 99

Acemaeodera '. 70

Acer 114

Acidota 85

Acilus 82

Acipenser 153

Acmaeops 98

Acoptus 107

Acris ^ 62

Adalia 85

Adelocera 89

Adoxus : 100

Aeshna 48, 49, 50, 55, 56, 117, 126, 132, 135

Agabetes 81

Agabus 81

Agonoderus 79

Agrilus ■ 92

Agrion 42, 43, 55, '56, 57

Agriotes 90

Agyrosomus 32, 33, 34, 35

Alaus 89

AUecula 103

Alnus 114

Alosa 154

Amehxnchier 114

Amara 74, 75

Ambloplites 27, 29, 31, 32, 33, 34, 35, 36, 155

Ameiurus 27, 28, 29, 31, 32, 33, 34, 35, 155

Aniia , 29, 33, 153

Anabaena 115

Anaphalis 114

Anaspis 104

Anatis. . .- 86

Anax 40, 49, 50, 55, 56

Andromeda ,. 116

Anisodactylus 80

Anomala 96

Anopheles 1 16, 134

Anthicus 105

Anthocomus 93

Anthrenus 87

Aphodius 94, 95

Aphonus 96

Aplodinotus ' 156

Apocynum 114

Araha 114

Arctocorisa 117, 132, 138

Arctostaphylos 114

Arhopalus 98

Arrtienoplita 103

Asaphes 91

Asemum 97

Ataenius 94

Athous 91

B.

Babia 100

Badister 75

liagoiis 107

Ballamira 98

Basiaeschna 49 , 55 , 56

Batrachospermum 20

Belliira 116

lunula 114

Boyeria 49, 55, 56

Belaninus 107

174 INDEX.

Bembidium 73

Berosus 83

Blapstinus 103

Blethisa 72

Bolboceras 95

Boleosoma 30, 33, 35, 151

Boletobius 85

Boletophagus 103

Boletotherus 103

Bosmina 117, 141, 150, 158

Bostrichus 93, 94

Brachvacantha 86

Brachylobus 78

Brachvnus >. 77, 78

Brachys 92

Brasenia 14, 16, 17

Brontes 86

Bruchus 102

Bufo 62, 118, 138

Bupestris 91, 92

Byrrhus 88

C.

Calathrus 75

Callida - 77

Calligrapha 101

Calloides 98

Calosoma 72

Cambarus 21, 117, 135, 137, 138

Campanula 115

Canthon 94

Carabus 72

Cardiophorus 89

Carex 115

Casnomia 77

Castalia 32

Castor 118

Catostomus 14, 17, 18, 20, 22, 28, 29, 30, 31, 33, 34, 35, 36, 144

Celithemis 53, 54, 55, 56

Centrinus 107

Ceratopodon 117, 133

Cercyon 84

Chalepus 102

Chamaedaphne 15, 20, 40. 1 15

Chelydra 63

Chelymorpha 102

Chilocorus 86

Chion 97

Chironomus : 117, 133, 151

Chlaenius 78

Chorophilus 62

Chrosomus 14, 17, 19, 20, 22, 145

Chrysemys 63, 118

Chrysochus • 100

Cicindela 71, 72, 116

Cis 94

Cladonia - 114

Clems 93

Clivinia 73

Clytanthus 98

Coccinella ; 85

Coelambus 80

Coeliodes 107

Collops 93

Colymbetes '. 81

Conotrachelus 107

Copris 94

Coptotoraus 81, 125

Cordulia 51, 52, 55, 56

Coregonus 139, 140, 141

Corixa 117, 137

Cormus 114

Corymbites 91

Cossonus 108

Cotalpa 96

Cottus 32, 33, 152

Couesius 14 . 17 19, 23, 155

Cratoparis 108

Creniphilus 83

Creopbilns 84

Criocephalus .- , 97

Cristivorner 154

Cryptobrium 84, 85

Cryptohypnus 89

INDEX. 175

Page

Cryptorhynchus "1 ■ 107

Culex 116

Cybister 82

Cyclops 117, 141, 142, 1.50, 1.51, 158

Cymbiody ta 83

Cyphon 88

Cyrtophorus 98

Cytilus 88

D.

Dacne 86

Dendroides 105

Dermestes 87

Deronectes 80

Diabrotica 101

Diapernus 103

Diaptomus 117, 141, 150, 151, 158

Dicaelus 75

Dicerca 91

Dichelonycha ~ 95

Dicripidius 89

Dina 118

Dineutes 82, 1 17

Diplochila s 75

Diplotaxis 95

Di.sonycha 101

Dolopius 90

Donacia 100, 116

Dorcas 94

Dorytomus • 106

Drasterius 90

Dromogomphus 46, 47, 50, 55, 56

Drosera 14

Dulichium 115

Dytiscus 81, 82. 117, 132

E.

Elaphe 63

Elaphidion 97

Elaphrus 72

Elater 89, 90

Eleocharis 115

Elliptoma : • 93

Ellychinia 92

Elodea 115, 130. 131

Enallagania 45, 55, .56, 117

Enchodes 1 04

Enicnius 88

Epiaeschna 49, 55, 56

Epicauta 105

Epicordulia 51 , 55, 56

Epigaea 114

Epipactis 114

Epuraea 88

Epiaeschna 48, 55, 56

Equisetuiii 14, 137

Ericaiilon 14, 16, 24

Eriophoruin 116

Erobdella 118. 135

Eros 92

Erycus 106

Esox 23, 27, 29, 31, 32, 33, 34, 35, 148, 1.55

Etheostoma 21, 24, 32. 33. 151. 1.56

Eucalia 14. 17. 23. 149

Eucinetus 88

Eucrangonyx H"

Eumeces 63

Euphoria 96

Eupomotus 28, 29, 30, 31, 32, 33. 34, 35. 36

Eupsalis 108

Eustrophu.s 104

F.

Fontinalis 20

Fornax ; 88

Fundulus 140

Oalerita 77

Galeruca 101

Gastroidea 101

Gaiiltheria 114

Gaurotes 98

176 INDEX.

Page

Gaylussacia ; 116

Gerris 117, 126

Geopinus 79

Gloiotrichia 14

Glossiphonia 118

Gomphoides 46, 47, 55, 56

Gomphus 46, 47, 48, 55, 56, 117, 126, 135

Graphoderus 82

Graptemys 63

Grypidius 106

Gyranetron 107

Gynandropus 79

Gyrinus 82, 117, 137, 138

H.

Hadropterus 151

Haemonia 100

Haemopsis 118, 126, 132, 135, 137

Hasenius 46, 47, 55, 56

Hallomnus 104

Haltica 101

Haplandrus ; 102

Harmonia : 85

Harpalus 70, 79

Helochares ; 83

Helophorus 82

Heptasenia 116, 137

Hetaerina 42, 43, 55, 56

Heterocerus 88

Hlodon 154

Hippodamia 85

Hister 87

Hololepta 87

Hoplia 95

Hyalella 117, 133

HyboErnathus 146

Hydaticus 81

Hydnocera 93

Hydrobius 83

Hydrocharis 83

Hydrochus '. 82

Hydrophilus •. 82

Hydroporus 80, 81

Hylobius ' 106

Hymenorus 103

Hypericum 114

Hj'perodas 106

Hyperplatys 99

Hypophloeus 103

I.

Ictalurus 155

Ilybiosoma- 81

Ilybius 81

Irapatiens 114

Iphthimus ..." 102

Ips 88

Iris : 115

Ischyrus ' 86

Ishnura ; 45, 46, 55, 56

l.somira 104

J.

Jiiiiiperus 114

L.

taccophilus 80

Lachnocrepis 78

Lachnosterna 96

Ladonia 117

Lapidomera 100

Larix 116

Lathyrus 114

Lebia 77

Ledum 114

Lepomis 17, 18, 20, 23, 28, 29, 32, 33, 34, 35, 36, 1.50

Leptinotarsa 100

Leptostylus 99

Leptura 98, 99

Lepturpes 99

Lepyrus 1 05

Lernaepoda 23

Lestes 43, 44, 55, 56

INDEX. 177

Page

Lethocenis 11"

Leucichthys 141. 142, 153

Leuciscus 17, 18, 19. 23, 125, 126, 127, 131, 132, 133, 134, 135, 136, 146, 156. 157

Leucorhinia 117,132

Libellula 52, 54, 55, 56, 117, 132

Ligyrus 96

Limonius 91

Liopus 99

Lissorhoptrus 106

Listronotu,s ? 105, 106

Litargus 87

Lithocurus •• 135

Lobelia ' Ifi

Loricera '3

Lota 32, 33, 152

Lucanus 94

Lucodota 92

Ludius 90

M.

Macroba.sis 10?

Macrobdella ". 14, 16, 18. 118, 126

Macrodactylus _ 95

Macromia ^1' 55. 56

Magdalis ,-,- }ol

Mancasellus 1 1 < , 137

Marchantia 14

Matus |1

Megalodacne °^

Megilla 8.5

Melandrya 104

Melanophila ^ „

Melanotus ^^\n\

Meracantha 103

Metachroma ■ „, 100

Micropterus 16, 17, IS, 19, 24, 29, 30, 31, 32. 33, 34, 3o, lo5

Molochrus 97

Monarthrum 108

Moiiocepidius 89

Monohamnus 99

Mordellistena 104

Mycetophagus 87

Mycterus 104

Mvenia - 118. 135, 137, 138

Mvrica 15. 20. 115. 130, 133

Myriophviiu'm. ::;;::::::::::;.: u, 20. 27, 28. ns

Mystacides 123

Myxobolus is, 2-

X.

Nanus 107

Necrophorus 84

Necturus , ?^

Nehalennia 4o, o5, ob

Nostoc 11°

N^otoriGCtSf i-i'

Notropis '.".'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.. .-h, 2S, 30, 32, 33, 34, 35, 36, 147, 155

¥yZtl':- ••,■.■;.■.•.•.•.•.•.•.■.•.•.•.•.■.•.•.•.•.•.•.•.■.•.■.•.•.•.•.•.•.■.■.■.■•■ ;.28: 20, ns, Ifo

o.

100

Oberea

Ochodaeus ^4

Oedionychis l^i

OlLsthropus ZI

Omophron i^

Oodes At-'A- -- RR

Ophiogomphus 46. 4r , o^. 56

Opbrydium 11°

Orthosoma ' "7

Otiorhynchus 105

P.

Pachybrarhys ..'..'. ., . , ^^ 100

Pachydiplax •- •j'- 55. o6

Pachylobiu.s ij:'^

Pandeletejus 105

Parandra ^'

Pa.s.salns ^4

'.'.'.'.'.'.'.'.'.'.'.'.'.'.'. 96

104

Perca " '.".'.".*, ■.'.'"."■.','.'.'.'.'. ', 17,' 19, 21. 24, 28. 29, .30, 31. 32. 33. 34, 35, 36, 150

Patrobus
Pelidnota
Penthe

178 INDEX.

Page

Percina. m^ 33_ 34, 156

Percopsis 28, 29, 30, 83, 34, 35, 36, 155

Pnegopterus 114

Philhydrus ' 83

Philonthus ....'..[......'...... '. 84

Photinus \ .................. 92

Photuris 92

Phyllobrotica [.....[.......... 101

Physa .'.."!.'.'.'.'.■.'.'.■.'.';.'.'.'.'; .'lis,' 132,' 133, 134. 135, 138

Pnysocnemum ^ 97

Phytolacca . 114

Phytonomus :..... 105

Picea '. 114

Pimephales '.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.■.■.'.'.'.'.'.'.■.'.'.'.'.■. 14,' 21,' 221 SO, 33, 146, 154

Pincodera 77

Pinus 114

Pisenus 104

Piasodes 106

Pityobius 91

PlacobdeUa '.'.'.'.'.'.'.'.'.'.'.'.'.■.'.'.'.■.'.■.'.■.':'.■.'.'.'.■.■.'.■.'.'.'.'. '.'.118, l'2'6', 132, 137

Planorbis 118, 133, 134

Platnemis . 117, 134

Platycerus \ 94

Platyderma 103

Platynus. . .■.'.' .'.■.'.■.T.'.' .■.'.■.■.■.■.■.■.'.'.'.'.'.'.'.'.'.■.■.'.'.'.'.■.■.'.'.■. .'75, 76, 77

Platypeltis . 63

Poecilonota 91

Polygonum 115

Populus [[ 114

Potentilla 116

Potomogeton ". .■.■.■.■.■.■.■.'.■.■.'.■.-■.■.'.■.■.■.■.■.■.■.■.■.■.■.■.■.■.■.'.'i4,16,'i8,' 20! 27, 28, 29, 115

Pnonocyphon 88

Prionus 97

Prunus 114

Pseudomus .........................].... . . . 107

Psnocerus 99

Psyllobora . 86

Pterostichus ,[ 73, 74

Ptilinu3 . . '93

Purpurescens 97

Pygosteus '. .'.'.'.".'.'.■.'.'.■.'.'.■.'.■.'.■.■.■.'.■.■.".■.■.■.■.■.'.'.".■.■.■.■.■.■.■.".■.■.■.■. '.'.'h, 23, 149

Q.

Quercus 114

R.

Rana 14, 62, 118

Rhantus 81

Rhinichthys '.".'.'.'.'.'.'.'.'.'.'.'.'.'.'.■.'.'.■.'.'.'.'.■.'.'.'.■.'.'.'.' .'l6,'l7, is,' 19, '20, '33, 147, 148

Rivulana 1 15

Roccus ' J 156

Rubus .y.. ............... . 114

S,

Sagittaria ' , II5 137

Salix .■ [' ' ' '' ■ ; '[' ' ' ' 114

Salmo ..............'....'.'...'..'...'.'.'..'...'....'.'...'.'.'..... 143, 154

Salplngus . 104

Salvelinus 23, 33, 143

Saperda . . 99

Saprinus 87

Sarracenia 115

Scarites 73

Scirpus '.'.'.'.'.'.'.'.'.'.'.'.'.".'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'.'31, 32, 115

Scutellaria 114

SemotUus '...'.'.'.'.'.'.'.'.'.'.'.'.' .'.' .' .' .' .' .' .' .' .' .' .' .' .' .'16,' i7,' isi 19, 20, 33, 146

Senca . . . 95

Sericosmus 91

Serropalpus . . 104

Sialis 117

Silpha '. '. 84

Simcronyx ' 106

Solenophorus ' 79, 80

Soniatochlora lif, 126, 'l'32, 133. 134, 135

Sparganium 16, 18, 20, 24, 115

Sphaerium 118,133

Sphagnum 115,116

Sphenophorus . . . . . 108

Spirogyra \ 21, 115

Spongilla 14, 17, 118, 126, 132, 133, 137

Staphylinus "84

Stenolophus ' ' 79

Stentor . 118,126

INDEX. 179

Page

Stephanocleonus 106

Stilicus 85

Sti/ostedion 155

Stomoxys 116

Storeria 63

Strangalia 98

Strigoderma 96

Sympetrum 52, 53, 54, 55, 56, 117

Synchroa 104

T.

Tachypterus 107

Telephorus 92, 93

Tenebrio ■. 102.. 103

Tetragoneuria . 16, 51, 55, 56, 117, 133

Tetraopes 100

Thamnophis 63, 1 18

Thaneroclerus 93

Tisactia 86

Tolypothrix 20

Tragosoma 97

Tramea 40, 52, .54, 55, 56, 57

Trichodes 93

Trichus. 97,

Tritoma 86

Tropisternus 83

Tyloderma 107

Typocerus 98

U.

UlothrLx 123, 124, 141, 145

Umbra • 32, 33, 148

Upis 102

Uranidea 156

Urographis 99

Utricularia 20, 1 15

V.

Vaccinium 114, 115

Vaucheria 1 15, 138

X.

Xantholiiius 84

Xanthonia 100

Xyletinus 93

Xylopinus 102

Xyloryctes 96

Xylotrechus 98

Z.

Zygnema 21, 115

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