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POSTILLA

PEABODY MUSEUM
YALE UNIVERSITY

NUMBER 142. 30 JAN. 1970

TEND LIZARDS OF THE GENUS
PROCTOPORUS FROM BOLIVIA
AND PERU.

THOMAS UZZELL

POSTILLA

Published by the Peabody Museum of Natural History, Yale University

Postilla includes results of original research on systematic, evolution-
ary, morphological, and ecological biology, including paleontology.
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the Peabody Museum or on research using material in this Museum.

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in exchange for relevant publications of other scientific institutions
anywhere in the world.

TEND LIZARDS OF THE GENUS PROCTOPORUS
FROM BOLIVIA AND PERU

THOMAS UZZELL

Department of Biology and Peabody Museum of Natural
History, Yale University

ABSTRACT

Four species |P. pachyurus Tschudi, P. bolivianus Werner, P.
guentheri (Boettger), P. ventrimaculatus Boulenger] occur in Boliy-
ia and Peru. The first three (the P. pachyurus group) have an
undivided translucent disc in the lower eyelid, a median occipital,
two or three supraoculars, and squarish pregulars not forming
chevrons. This group resembles P. striatus (Peters) in the last
character, but differs from it in the first three. P. pachyurus (17
examined) and P. bolivianus (158) occur at about 2500-3800 m
above sea level on the eastern Andean slopes, the former in cen-
tral Peru, the latter in southern Peru and northern Bolivia. P.
guentheri (30) occurs parapatrically at lower elevations (1000-
2516 m). Although the hemipenes of P. bolivianus and P. guen-
theri resemble each other rather than that of P. pachyurus, in most
respects P. bolivianus and P. pachyurus are more similar to each
other. Specimens of P. bolivianus from the upper reaches of the
Rio Urubamba differ from those from the lower Rio Urubamba
valley in size, ventral coloration, presence of a loreal, and number
of anterior supralabials. A small sample from Cuzco resembles
those from the lower Rio Urubamba valley in absence of a loreal
and in femoral pore number, but resembles specimens from the

POSTILLA 142: 39 p. 30 JANUARY 1970.

2 POSTILLA

upper valley in size and some aspects of coloration. P. ventrima-
culatus (2; northern Peru, 2200-2700 m) has a divided eye disc,
an enormous first superciliary resembling a supraocular, a small
first supraocular touching the palpebrals, and a smaller second
supraocular separated from the palpebrals by a superciliary. The
relationships of P. ventrimaculatus may be with P. striatus. The
name P. petersi (Boettger) is placed in the synonymy of P. uni-
color (Gray). P. bolivianus is removed from the synonymy of P.
guentheri and is used for the taxon formerly called P. petersi; P.
lacertus (Stejneger), P. longicaudatus Andersson, and P. obesus
Barbour and Noble are synonyms. P. ocellifer (Boulenger) and P.
anomalus (Barbour and Noble) are placed in the synonymy of
P. guentheri.

PROCTOPORUS FROM BOLIVIA AND PERU 3

INTRODUCTION

More than ten years ago I examined most of the Peruvian and Bo-
livian lizards of the genus Proctoporus in North American mu-
seums. At that time, I was unable to decide to which population
of these the name Proctoporus petersi applied. A recent opportu-
nity to examine the holotype of Proctoporus petersi has, however,
removed my doubts, and the imminent publication of a checklist
of South American reptiles, being edited by James Peters, provides
some urgency for recording new information on the taxonomy of
these animals.

The specimens examined include two groups and four species.
One group contains Proctoporus ventrimaculatus. | have examined
two specimens of this form, both from northern Peru; I am uncer-
tain about its affinities. The other group, with three species in
Bolivia and southern Peru, is related to Proctoporus striatus of
Colombia. These three southern species may be distinguished as
a separate subgroup on the basis of the undivided transparent disc
in the lower eyelid. Such an undivided disc occurs frequently in
southern populations of many species of lizards in Boulengerx’s
(1885) Group II of the family Teiidae, and does not indicate that
the members of the subgroup are more closely related to each
other than to P. striatus. The subgroup is purely a matter of my
convenience.

KEY TO SPECIES OF PROCTOPORUS IN PERU AND BOLIVIA

The four species of the genus Proctoporus that I presently recog-
nize in Peru and Bolivia can be distinguished by the following key.

la. Dorsal scales 49 or more P. pachyurus
b. Dorsal scales 47 or fewer 2
2a. A pair of enlarged pregular scales in contact on midline be-
hind the second pair of chinshields; belly clear yellow; con-
oo ocelli in males, 29-35 dorsal scales
eee. P. guentheri

b. No pair ior enlereed pregulars; ventral scales uniformly
dark or at least heavily spotted on lateral rows... .... 3

3a. Supraoculars 2-2 or 3-3, separated from palpebral scales by
a complete superciliary series P. bolivianus

4 POSTILLA

b. Supraoculars 2, the first in contact with palpebrals and pre-
ceded by an enormous first superciliary (or, supraoculars 3,
the middle in broad contact with the palpebrals)

P. ventrimaculatus

PROCTOPORUS PACHYURUS GROUP

DEFINITION. A continuous narrow zone of granules separating the
ventral and lateral scales. Males with or without ocelli in pattern.
Two or three supraoculars, all separated from upper palpebrals
by superciliary series; first superciliary expanded onto dorsal sur-
face of head or not. Translucent disc in lower eyelid composed of
single scale. Median occipital almost always present. Pregulars
(Ruibal, 1952: 478) variable, but usually not forming chevrons
with apices forward; many pregulars quadrangular; pregulars and
gulars separated by granular row. Limbs not or scarcely overlap-
ping when adpressed. Tibial scales weakly keeled. Thenar scales,
especially in P. guentheri, with weakly produced edge. Females
with or without femoral pores; when present, fewer than in males;
males with femoral pores; no preanal pores in either sex.

Lizards of the P. pachyurus group can be identified by the nar-
row zone of granules separating the lateral and ventral scales and
by the undivided disc in the lower eyelid. The median occipital is
absent in five specimens, although in six others it is revlaced by
two small scales and in one, it 1s partly fused to an occipital'!; when
series are available, presence of a median occipital is apparently
a reliable feature to distinguish the P. pachyurus group from the
P. luctuosus group (Uzzell, 1958).

RELATIONSHIPS. The relationships of the P. pachyurus group are
with Proctoporus striatus. This is especially suggested by the
arrangement of the pregular scales, the complete superciliary
series, and the narrow zone of small scales just lateral to the ven-
tral scales. P. striatus differs from members of the P. pachyurus
group in having more (4-5) supraoculars, longer legs, a divided
disc in the lower eyelid. and usually no median occivital (although
Burt and Burt, 1931, reported variation in this character). Proc-

' One individual lacks an interparietal, therefore presence or absence of
a median occipital is a meaningless distinction.

PROCTOPORUS FROM BOLIVIA AND PERU 5

toporus hypostictus is perhaps related to P. striatus and the P.
pachyurus group, although it shares many features with the P.
luctuosus group (Uzzell, 1958).

Proctoporus pachyurus Tschudi

Proctoporus pachyurus Tschudi, 1845, Archiv fiir Naturgeschichte
Gl

Tschudi (1845) described this species on the basis of two
specimens that he collected in the valley of the Rio Chanchamayo
in eastern Peru. This river, located in Junin, joins the Rio Pau-
cartambo and gives rise to the Rio Perené. The two syntypes,

BP ventrimacutotus
@ P quentheri
A P pochyurus
W Pbolivianus

te} 290

SCALE IN KILOMETERS

ley hoc
AS Fw, “he
V2 SA y
~Olantaytomes SSG

7») noe

i) ae
WA

Collection localities for four species of Proctoporus in Peru and Bolivia.
Open symbols represent published records. Localities for P. guentheri
are generally at lower altitudes than those for P. pachyurus and P. bolivi-
anus. Arrows point to towns mentioned in text.

6 POSTILLA

which are in the Musée d’Histoire Naturelle in Neuchatel, Swit-
zerland, were examined and described in detail by Peters (1862).
I have recently examined one of these, and can add only that it, the
specimen figured by Peters, is a female. Recent specimens of this
species are from the valley of the Rio Tarma, which flows into the
the Rio Chanchamayo (map). One of these had previously been
reported by Griffin (1917).

VARIATION. Data on 10 males and 7 females are presented in Table
1. All of the specimens have an undivided disc in the lower eyelid,
and a loreal that touches both the supralabials and frontonasal. A
complete superciliary series separating the supraoculars from the
palpebral scales occurs on 33 of 34 sides; in SMF 65286, the left
second supraocular touches the palpebrals. A median occipital is
present in 13 specimens; in the other 4 the corresponding area is
occupied by 2 small scales. One specimen (SMF 65287) has no
interparietal, and the parietals touch behind the very elongate
frontoparietals. Counting only those longitudinal series that are
continuous for at least 3 ventral scales, there are 12 longitudinal
rows of ventrals in 8, 11 rows in 8°; enlarged ventrals across the
belly number 12-14. The males have 24 (5 specimens), 25 (3) or
26 (2) transverse rows of ventral scales; 3 recently collected
females have 26 transverse rows of ventrals; 1 has 25; the syntype
examined and 2 others have 24. Thirteen specimens have 3-3
supraoculars; in four of these the second supraocular on each side
is excluded from contact with the superciliaries. Two males and
two females, including the syntype examined, each have 2-2. In all
specimens, the first supraocular is the largest. The first supercili-
ary is expanded onto the dorsal surface of the head in all speci-
mens.

The dorsal scales are convex but smooth, or weakly keeled or
striate. The lateral scales are separated from the ventrals by a
granular row. The gular scales are usually in 7 or 8 rows, the pre-
gulars in 5 or 6 at midline.

COLORATION. Specimens of P. pachyurus are basically gray-brown
above and below, although somewhat lighter below than above.
The ventral scales are each marked by diffuse dark pigment, and

~One individual was not scored.

PROCTOPORUS FROM BOLIVIA AND PERU

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8 POSTILLA

especially in younger specimens, this dark pigment tends to form
ventral lines, one on each row of ventral or subcaudal scales.

Adults are more uniform above than the young. In the young
there tend to be light dorsolateral lines bounded below by darker
brown; these lines extend from the hind corner of the eye to the
end of the body and onto the tail. They may be retained in adult
females. There is usually a mid-dorsal dark stripe on the shoulder
region. A bright white line passes from the middle of the lower
border of the eye to the tympanum. There is a row of light spots
along the upper side of the body between the limb insertions and
below the dorsolateral light lines.

LENGTH. Both the largest male and the largest female (a syntype)
examined are 58 mm snout to vent. Two males and one female
with intact tails have tail over snout-vent length ratios of 1.4 to
1.9 (mean 1.76).

SEXUAL DIMORPHISM. The greatest dimorphism is in femoral pore
number (Table 1). The preanal scale number is also dimorphic.
Six females have six posterior preanals, while one has four plus
two lateral slivers. Seven males have four posterior preanals, two
have five, the median a small triangular wedge; and one has six.
The pattern may also show some dimorphism, mature males
being more uniform above.

BIOLOGY. Nothing is known about the biology of Proctoporus
pachyurus.

RANGE. Although P. pachyurus is not known to occur sympatri-
cally with other members of the genus, P. guentheri also occurs in
the valley of the Rio Chanchamayo (map). In this valley, the
localities for P. guentheri are downstream from and lower (1000-
1500 m above sea level) than the exact localities for P. pachyurus
(2900-3800 m).

SPECIMENS EXAMINED. Peru: Junin: valley of Rio Chanchamayo,
MN unnumbered, syntype of Proctoporus pachyurus; Tarma, Tar-
ma (3000 m) CM 1043, FMNH 134384-90; Huanuquillo (3800
m): FMNH 134391; Tarma, between Acobamba and Palcamayo
(2900 m) SMF 65284-88; Tarmatambo (3300 m) AMNH 88323
(2 specimens).

PROCTOPORUS FROM BOLIVIA AND PERU 9

Proctoporus bolivianus Werner

Proctoporus bolivianus Werner, 1910, Mitt. Naturh. Mus. Ham-
bure.27 (pe. 2)E 30:

Oreosaurus lacertus Stejneger, 1913, Proc. U.S. Nat. Mus. 45: 546.
Proctoporus longicaudatus Andersson, 1914, Arkiv f. Zool. 9
(3)= 6:

Proctoporus obesus Barbour and Noble, 1921, Proc. U.S. Nat.
58(2392)2 6116.

Proctoporus bolivianus was described from a single female with a
body length of 48 mm collected at Sorata, La Paz, Bolivia, at
about 2615 m above sea level (Werner, 1910). Dr. Erna Mohr
has informed me that the holotype, formerly in the collection of the
Zoologisches Museum in Hamburg, was lost during World War II.

Although Burt and Burt (1931) placed P. bolivianus in the
synonymy of P. guentheri, several characters in the original de-
scription of P. bolivianus convince me that it is not conspecific
with P. guentheri. These characteristics are, however, found among
the other specimens that I have referred to P. bolivianus. Among
the characters that I consider significant are the absence of
large scales behind the second pair of chinshields (present in all
but one of 30 specimens of P. guentheri examined), the larger
number (26) of transverse rows of ventral scales (17 to 20 in
P. guentheri), and the larger number (between 37 and 45, accord-
ing to Werner’s key) of dorsals (29 to 35 in P. guentheri). Wer-
ner’s count of scales around the midbody region (28) is low for
both species, but did not include the small granules between the
dorsal and ventral scales.

VARIATION. Variation in several characters of the specimens of
Proctoporus bolivianus examined is presented in Tables 2
through 5S.

There is considerable geographic variation in this species. I
have examined 158 specimens (89 males, 69 females) that I refer
to P. bolivianus, but I am not convinced that I understand their
relationships. I have examined series from several localities in the
middle and upper Urubamba valley, and two series from near
Limbani in the Rio Madre de Dios drainage. The latter is sep-
arated by a very high divide from the upper Rio Urubamba valley.
My knowledge of this species in Bolivia depends on the descrip-

POSTILLA

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12 POSTILLA

TABLE 4. Body length and frequencies of certain states for several characters in
males of Proctoporus bolivianus. Frequencies are given as sides with state/sides
examined

Maximum body Loreal 2 supra- 3 supralabials
length (mm) present! oculars? anterior to angle?

Cuzco, 20 mi. S

1 ¢ 40 2/24 DD) 0/2
Cuzco-A

37 $4 47 72/74 60/745 58/746
Cuzco-B

3 26 47 0/67 6/6 0/6
Calca

27 3 ¢é 48 54/54 54/54 38/54
Ollantaytambo

1 ¢ 44 0/2 2/2 0/2
Torontoy

i 58 0/28 0/2 0/2
Tinccochaca

2S S 49 0/4 4/4 0/4
Marcapata

266 58 1/49 0/4 1/410
Limbani

I. as 56 2/2611 G/26ue 24/26
Pelechuco

1 6 54 0/2 72 4{ 22 2/2

1 states observed: present, partly delimited, absent; 2 states observed: 2, 3; ° states
observed: 3 or 4 unless noted; 4 loreal touches labials; *.one additional side with
irregular 3 could be counted as 2; ®2 additional sides with irregular minute 4 could
be counted as 3; 7 partly delimited on both sides in two specimens; § partly
delimited on both sides; 9 loreal irregular on one side, partly delimited on another;
10 counts include an irregular 4 and an irregular 5; 11 loreal separated from labials

tion of P. bolivianus and on examination of the holotype of P.
longicaudatus.

The specimens from the upper part of the Urubamba valley
(map: Calca and south) are rather different from those from the
middle part (Ollantaytambo and north). The scalation character-
istics that most suggest this difference are included in Tables 4 and
5, and include the greater frequency of a loreal and the higher
number of individuals with three supralabials anterior to the post-
eroventral angle of the subocular (Fig. 1) in the specimens from
Calca and south. Specimens from Calca and south also average
considerably shorter in body length. Although the sample sizes

PROCTOPORUS FROM BOLIVIA AND PERU

13

rABLE 5. Body length and frequencies of certain states for several characters in

females of Proctoporus bolivianus. Frequencies are given as
sides examined

sides with state/

Maximum body Loreal 2 supra- 3 supralabials
length (mm) present! oculars= anterior to angle?

Sicuani

192 34 Pai f Pe Diz 0/2
Cuzco-A

289 9 48 56/56 46/56 54/56
Cuzco-B

229 31 0/4 4/4 0/4
Calca

2192 9 47 42/42 42/42 31/42
Ollantaytambo

222 54 0/4 2/4 0/4
Torontoy

Ihe 59 2/2 Ly 0/2
Nusta Hispana,
Tinccochaca

319759 53 0/6 6/6 0/6
Marcapata

PS) 52 0/4 0/4 2/4
Limbani

DONS 54 0/18 8/18 18/18

1 states observed: present, partly delimited, absent; 2 states observed: 2, 3; % states

observed: 3, 4

ase

es

AP

ae

a

SX
2

Q
Py

FIG. 1. Scales on the side of the head of Proctoporus bolivianus (FMNH
81373). The arrow on the fourth supralabial points toward the posteroven-
tral angle of the subocular. This angle marks the point anterior to which
supralabials were counted. « 11.

14 POSTILLA

from Ollantaytambo and north are small, in two out of three sam-
ples the largest female is larger than the largest female from Calca
and south; the largest male in all three samples is larger than the
largest male from Calca and south’.

Perhaps the most striking difference, however, is coloration.
Analysis is complicated by the darkening of coloration with in-
creasing size, especially on the ventral surfaces. Nevertheless,
specimens from the region from Calca south are much lighter in
coloration than those from Ollantaytambo north. The dorsal
coloration of the upper Urubamba valley specimens is a chocolate
brown with moderately well-defined dorsolateral light lines. Occa-
sional males show some indication of ocelli along the sides. Ven-
trally, these animals have a clear gray-white midventral area, with
dark brown pigment encroaching on it from the sides. The chin
tends to be especially light. The tail is lighter above than the body,
darker below than the midventral area. Often there is a thin, ir-
regular dark line around the rostral, across the nostrils and the
edges of the eyelids, across the parietals, and continuing posteri-
orly as a very irregular dark lateral border to whatever dorsolat-
eral light line exists.

Among the specimens reportedly from near Cuzco, there is
considerable variation. Differential characters are given in Table
6. The local relief in this region is so great that it is entirely pos-
sible that the variation observed is entirely microgeographic. In
certain features (femoral pore number, absence of loreal, uniform-
ity of supraocular counts of 2-2, and absence of a fourth anterior
supralabial), one of the samples (Cuzco-B, consisting of FMNH
34096-34100) resembles specimens of P. bolivianus from Ollan-
taytambo and north more than the other sample (Cuzco-A, the
63 specimens of FMNH 40427 and ZSM 174/1938). In size,
however, Cuzco-B certainly belongs with the populations from
Calca south rather than from Ollantaytambo north.

The specimens from near Limbani are rather similar to those
from the middle Urubamba valley (Ollantaytambo and north).
They are larger (Tables 4 and 5) and tend to lack a loreal. In
ventral coloration, especially, they resemble the middle Urubamba
valley specimens; adult males are dark lead black below, although

°'The male holotype of Proctoporus obesus, approximately 78 mm snout-
to vent, is omitted from the Nusta-Hispana-Tinccochaca sample in
Table 4.

PROCTOPORUS FROM BOLIVIA AND PERU 15

TABLE 6. Comparisons of two samples of Proctoporus bolivianus from near Cuzco.
A: FMNH 40427 (63) and ZSM 174/1938. B: FMNH 34096-34100. ZSM 174/1938
has 12 femoral pores, a loreal on each side, 2-2 supraoculars, and 4-4 anterior
supralabials

Total
Sample femoral Loreal Two Three
size pores! present supraoculars? anterior labials?

cs)
Cuzco —A 36 9-12 (10.6) 70/72 58/723 56/724
Cuzco —B 3 15(15.0) 0/6° 6/6 0/6
Qe
Cuzco —-A 28 2-4 (2.6) 56/56 46/56 54/56
Cuzco —B 2 0-1 (0.5) 0/4 4/4 0/4

lrange and mean; ~ sides with state/sides examined; * one additional side with an
irregular third supraocular could be counted as 2; 4 two additional sides with an
irregular, minute fourth supralabial could be counted as 3; ° loreal partly delimited
on both sides in two specimens

there may be a few light dots at the posterolateral corners of the
ventral scales or in the middle of the scale itself in the lateral
rows of ventrals. The lateral scales may also have dot-like pigment-
less areas arranged somewhat in rows. The dorsal surface is uni-
formly dark, and dorsolateral light lines are almost invisible. The
snout, however, is somewhat lighter, with the chinshields and lower
labials lighter gray, the supralabials and the other head scales an-
terior to and including the parietals and interparietal somewhat
browner. This difference is not due to loss of epidermal layers.

On the other hand, the specimens from near Limbani tend to
have three supralabials anterior to the posteroventral angle of the
subocular (Fig. 1), and thus resemble the specimens from the
upper Urubamba valley.

The single individual that I have examined from Bolivia, the
holotype of P. longicaudatus, is an adult male 54 mm snout to
vent. Although it is in the size range of the dark individuals from
near Limbani and from the middle Urubamba valley, it differs in
being rather light, even more so than most of the specimens from
the upper Urubamba valley. Unfortunately, specimens of P. bolivi-
anus from Bolivia are very scarce in collections; one of the two of
which I know (the holotype of P. bolivianus) has been destroyed.

It seems highly probable that the population referred to P. boliv-
ianus in the upper Urubamba valley could be recognized either

16 POSTILLA

as a distinct subspecies of P. bolivianus or as a distinct species.
The sample labeled Cuzco-B could be interpreted as showing
occurrence of a population with dark venter, no loreal, four labials
anterior to the posteroventral angle of the last subocular, and
numerous femoral pores, features typical of populations from
Ollantaytambo north and elsewhere in the range of P. bolivianus,
sympatrically with the populations in the upper Urubamba valley.
I do not now name the upper Urubamba valley population. Except
for Cuzco-B, the characteristics of samples along the Rio Urubam-
ba suggest changing frequencies of states as one moves from head-
waters downstream. On the other hand, the characters by which
the upper Urubamba valley specimens and by which the dark
form from the middle Urubamba valley and the Limbani region
differ from the populations that occur near the type locality of
P. bolivianus are not clear. When more Bolivian material becomes
available, recognition of the upper Urubamba valley population
may seem in order. In my opinion, it is probably conspecific with
P. bolivianus.

In addition to the features in Tables 2 through 5, certain other
data were recorded on most individuals examined. The first super-
ciliary may or may not be expanded onto the dorsal surface of the
head. This character shows high correlation with the number of
supraocular scales: when there are two, the superciliary is ex-
panded dorsally; when there are three, the extra supraocular scale
is usually anterior, and occupies the space that would be filled by a
dorsal expansion of the first superciliary. In a small percentage of
cases, the first superciliary is expanded even though three supra-
oculars are present. A median occipital is absent in two animals
(Limbani); in another specimen, it is replaced by two small
scales (Cuzco-A). The number of longitudinal ventral scale
rows varies geographically, with 10 in most specimens from near
Limbani and in the middle Urubamba valley, and 12 in the upper
Urubamba valley.

Since body size shows important geographic variation, the larg-
est male and largest female are listed for each population sep-
arately (Tables 4 and 5). Thirty-one males (21 to 58, mean 34.6
mm snout to vent) with tails intact have tail over snout-vent length
ratios of 0.82 to 2.21 (mean, 1.57). Twenty-three females (20 to
54, mean 33.4 mm snout to vent), 1.00 to 1.94 (mean 1.65).

REMARKS. Four names are available for populations here referred

PROCTOPORUS FROM BOLIVIA AND PERU 17

to P. bolivianus. Characteristics of four holotypes are compared in
Table 7. I am confident that all four names belong to a closely
related group of individuals.

Oreosaurus lacertus. The holotype, USNM 49551, was collected
at Tinccochaca, Cuzco, Peru (Stejneger, 1913). This locality
(Bingham, 1916) is in the valley of the Rio Vilcabamba, a smail
tributary that enters the Rio Urubamba near 13° S latitude. The
elevation here is approximately 2800 m. I have examined the
holotype and three paratypes (USNM 49549, MCZ 12085,
12087). Certain additional data on the holotype are given in
Table 7. Variational data on the paratypes are included in Tables
2 through 5.

The holotype of Oreosaurus lacertus has a continuous row of
granular scales separating the ventral scales from those on the

TABLE 7. Characteristics of four holotypes in the synonymy of Proctoporus bolivianus

Proctoporus Oreosaurus — Proctoporus Proctoporus

bolivianus! lacertus longicaudatus obesus

Sex 2 } 3} 3}
Snout-vent length (mm) 48 49 54 782
Dorsal scales (37-45) 37 4] 442
Ventral scales 10 x 26 iliexe 2.0) NOR 23 11x192
Scales around midbody

region 283 38 37 40
Loreal present absent absent present
Total femoral pores 0 12 15 8
Supraocular scales 3-39 2-2 2-2 3-3
Pairs of chinshields

in contact 2 2 2 3
Median occipital present present present present
First superciliary not expanded® expanded expanded not expanded
Ventral coloration yellowish uniformly each ventral dull cream

white dark with diffuse dark
mark

Labials to angle = 4-4 3-3 4-4

1data from Werner (1910); 2 estimated; 3 not including lateral granules; + loreal
separated from labials; ® possibly the anteriormost was a dorsally expanded first
superciliary; ® an assumption based on a supraocular count of 3-3

18 POSTILLA

sides of the body, and thus differs from members of the Procto-
porus luctuosus group, which includes the type of the genus Oreo-
saurus (Uzzell, 1958).

Although P. lacertus has not been recognized as a distinct
species for many years (Burt and Burt, 1931), the present alloca-
tion of the name is new. The name lacertus is, however, available
for the large, dark population from near Limbani and from the
middle Urubamba valley, if it becomes important to distinguish
this population nomenclatorially.

Proctoporus obesus. This species was described (Barbour and
Noble, 1921) from Nusta Hispana, Cuzco, Peru. The locality is
a monolith about one half mile from Rosapata (Bingham, 1913)
in the valley of the Rio Vilcabamba, a small tributary that enters
the Rio Urubamba at about 13° S latitude. The elevation in this
region varies dramatically over short distances, but is probably
about 2700 m at the valley floor.

I have examined the holotype of Proctoporus obesus (USNM
60748). Although E. C. Erdis is listed as the collector, it was al-
most certainly collected by a native. The head and body are sep-
arated and the skin has drawn back on each piece. There is at
least one straight cut, as though a machete had been used on the
animal. The neck is tightly constricted, suggesting that the body
was not severed when the animal was captured, and that the an-
imal was carried for some distance hanging by a thin noose around
the neck. For these reasons, counting the scales is difficult, and
many of the counts in Table 7 are estimates.

This individual differs from most of the specimens referred to
P. bolivianus in its greater size and robustness. The scales are
quite smooth, and the coloration is remarkably light for a member
of this species, although under the microscope some mottling of the
scales is apparent. The superciliary series on the right side is bro-
ken so that a corner of the second supraocular touches the palpe-
brals. The equivalent corner of the left second supraocular very
nearly touches the palpebrals. There are four supralabials anteri-
or to the posteroventral angle of the subocular and eight femoral
pores; a loreal is present but separated from the labials.

There is enough room within my concept of P. bolivianus to
include the holotype of P. obesus, even though other specimens
from Nusta Hispana and from nearby at Tinccochaca look rather
different (Tables 4 and 7).

PROCTOPORUS FROM BOLIVIA AND PERU 19

The name Proctoporus obesus has long resided in synonymy
(Burt and Burt, 1931) but the present allocation is new.

Proctoporus longicaudatus. The holotype (NRS 3224) was
collected by Neils Holmgrem and Erland Nordenskidld at Pel-
echuco, La Paz, Bolivia, about 3567 m above sea level (Anders-
son, 1914). I have examined the holotype, and most of my ob-
servations are incorporated in Tables 2, 4, and 7.

Although this specimen is geographically closest to the type lo-
cality of P. bolivianus, the two holotypes differ in that the holotype
of P. longicaudatus has no loreal and has two supraoculars on both
sides. Both characters vary in one or more series referred to P.
bolivianus.

The name Proctoporus longicaudatus has long been recognized
as a junior synonym for the species to which it is referred, but
the present allocation is new.

SEXUAL DIMORPHISM. The most striking sexual dimorphism is in
femoral pore number (Tables 2 and 3). Coloration also is slightly
dimorphic, females never being as dark, within their populations,
as males. In certain populations, males have weakly developed
ocelli. The number of posterior preanal scales also varies sexually;
in a subsample of 23 males, counts include 4 (2 specimens), 5
(3), 6 (17), and 7 (1); in a subsample of 21 females, counts in-
clude 5 (2:specimens), 6 (12), 7 (5), and 8 (2).

BIOLOGY. Virtually nothing is known about the biology of Procto-
porus bolivianus. The specimens from near Calca (FMNH 34101,
34119-22, 34137, 34333-35) were found under stones, as was
the holotype of P. longicaudatus. One female contained one leath-
ery egg in each oviduct.

RANGE. Specimens referred to Proctoporus bolivianus are known
from the Urubamba and Madre de Dios drainages of the eastern
Andes of central and southern Peru and northern Bolivia (map).
Altitudes associated with specific localities vary from 2500 to 3600
m. No other species of Proctoporus is known to be sympatric with
P. bolivianus, but P. guentheri occurs throughout all of the area
inhabited by P. bolivianus at lower altitudes (825 to 2516 or per-
haps 3362 m).

20 POSTILLA

SPECIMENS EXAMINED. Bolivia: La Paz: Pelechuco (3567 m)
NRS 3224 (holotype of Proctoporus longicaudatus).

Peru: Cuzco: Fort Sacsahuama (3600 m) FMNH 34096-100;
Hacienda Urco, near Calca (2850 m) FMNH 34101 (22 speci-
mens), 34119-22, 34137 (19), 34333-35; Cuzco (3362 m)
FMNH 40427 (63), 40428, ZSM 174/1938; 20 mi S of Cuzco
(3000 m) CAS 84753; Nusta Hispana (2700 m) USNM 60699-
700, 60748 (holotype of Proctoporus obesus); Ollantaytambo
(2800 m) USNM 49549 (paratype of Oreosaurus lacertus),
60719, 60746, Sicuani (3515 m) AMNH 38823; Tinccochaca
(2800 m) USNM 49551 (holotype of Oreosaurus lacertus), MCZ
12085, 12087 (paratypes of O. lacertus); Torontoy (2500 m)
USNM 60726-27; Puno: Limbani (3200 m) BMNH 1901.8.2.28-
29, 1904.10.26.91, 1907.5.7.1, FMNH 39360 (7), 40426 (11);
Marcapata (3260 m) FMNH 83171-74.

Proctoporus guentheri (Boettger)

Oreosaurus guentheri Boettger, 1891, Zool. Anz., 14:345
Oreosaurus ocellifer Boulenger, 1902, Ann. BADE: Nat. Histseserm
7, 10: 400. New synonymy.

Oreosaurus anomalus Barbour and Noble, 1921, Proc. U.S. Nat.
Mus. 58: 614. New synonymy.

Oreosaurus guentheri was described from an adult male collected
by Ernesto Guenther in the vicinity of Sorata, La Paz, Bolivia
(Boettger, 1891). The elevation at this locality is about 2516 m.
The holotype, formerly in the Lubeck Museum, was destroyed
during World War II (G. von Studnitz, personal communication,
1960).

Many characteristics of the holotype of P. guentheri are listed
in Table 9. These, together with the 9 rows of pregular and gular
scales and the three posterior preanal scales identify it as belong-
ing with the other specimens that I here refer to P. guentheri.

I have examined 30 specimens (14 males, 16 females) of this
species, including two holotypes. The specimens come from cen-
tral and southern Peru and northern and central Bolivia; they
thus encompass all three type localities for proposed names for
this species. Although geographic variation is apparent in the
series examined (Table 8), the following features characterize the

21

PROCTOPORUS FROM BOLIVIA AND PERU

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22 POSTILLA

TABLE 9. Characteristics of three holotypes in the synonymy of Proctoporus
guentheri

Oreosaurus Oreosaurus Oreosaurus

guentheri! ocellifer anomalus
Sex 3 3} 3
Snout-vent length 32 35 37
Supraoculars 3-3 3-3 3-3
Loreal present? absent absent?
Median occipital present present present
Pairs of chinshields in contact 34 25 25
Rows of pregulars plus gulars 9 8 9
Scales around midbody region 30 30 40
Dorsal scale rows 35 29 30
Ventral scales 8 x 20 8x 19 10x 18
Total femoral pores 15 15 15
Ocelli 9-11 7-8 8-12
Light dorsolateral stripe — present present
Belly pigmentation uniform uniform uniform

yellow yellow yellow

1 data from Boettger (1891); * separated from supralabials; 3 partly indicated on
left side; +I interpret the posteriormost pair as enlarged pregulars (Fig. 2);
5 followed by a pair of enlarged pregulars (Fig. 2)

species. There are usually 3-3 supraoculars and the first super-
ciliary is usually not expanded onto the dorsal surface of the head;
BMNH 1902.11.28.4, however, has 2-2 supraoculars and an ex-
panded first superciliary. There is a large pair of pregulars (Fig.
2) filling the space behind the second pair of chinshields and be-
tween the third, except in ZSM 173/1938. The superciliary series
is complete except for one side in ZSM 173/1938. All individuals
have an undivided translucent disc in the lower eyelid. Only two
individuals (AMNH 23209, ZSM 43/1950) lack a median occip-
ital, but a third (ZSM 165/1954) has the median and left para-
median occipitals fused, and a fourth (also ZSM 43/1950) has
two small scales in this area. Other characters that distinguish
P. guentheri from Peruvian and Bolivian congeners (P. pachyurus
and P. bolivianus) include the lower number of dorsal scales
(29-35) and of transverse ventral scale rows (17-20). Specimens

PROCTOPORUS FROM BOLIVIA AND PERU 23

of P. guentheri have large, flat scales on the under side of the
lower forelimb.

VARIATION. Data on the specimens examined are included in
Table 8. In general, Bolivian specimens have more transverse
rows of dorsal and ventral scales, more scale rows around the mid-
body region, more subdigital lamellae, and more longitudinal rows
of ventral scales than Peruvian specimens.

The loreal is variably present in Proctoporus guentheri. It is
absent in 18 of the specimens from the Perené valley; one female
(FMNH 45475) has both a loreal and a frenoocular on both sides.
On the left side in the holotype of Oreosaurus anomalus, a loreal
is completely delimited from the frenoocular and partly delimited
from the nasal by a short diagonal groove from the frenoocular.
The specimens from “Juliaca”, from Cuzco, from Santo Domingo,
and the holotype of O. ocellifer have no loreal. The holotype of
O. guentheri has both a loreal and a frenoocular on both sides.
One of the specimens from Yungas del Palmar (ZSM 43/1950)
has no loreal, but the other three females from Bolivia have the

FIG. 2. Scales on the underside of the head of Proctoporus guentheri
(AMNH 23223). The enlarged pregular scales are barred. 10.

24 POSTILLA

loreal partly marked just as in the holotype of O. anomalus. The
frequency of partly delimited loreals in Bolivian specimens makes
the occasional occurrence of a completely delimited loreal, as in
the holotype of O. guentheri, seem rather likely to occur.

In general, the specimens of P. guentheri have two rows of small
pregular scales, at least at the middle of the throat. They have
6-9, (mean 6.9) rows of gular scales before the collar.

COLORATION. In males from the Rio Perené area, the belly is yel-
low cream, with a few dark brown flecks on the extreme posterior
part. The throat and chin are the same, with numerous minute
brown flecks. The tail is moderately flecked below with dark
brown on yellow cream; the flecking is lighter along the lateral
seams, forming light lines. The dorsum has a yellow cream ground
color, very heavily flecked with brown, giving a warm brown ap-
pearance. In some specimens, the flecking tends to form a linear
series of dots, but the pattern is not lined mid-dorsally. The dorso-
lateral flecking is arranged to form light, dark-bordered lines that
are well developed only on the shoulder and above the hindlimb
insertions. Below this light line there is a series of ocelli, the
dark border of which is as wide as a dorsal scale length, the white
spot of which has a diameter about three fourths a dorsal scale
width. This series has one ocellus anterior to the forelimb inser-
tion, usually one just above the forelimb insertion, numbers
about 8-11 per side, and may extend as many as two behind the
hindlimb insertion. A light line on the tail extends posteriorly
from the level of the hindlimb insertion. Below this there is a dark
line, and below this, the flecking of the underside of the tail.

The light dorsolateral line extends onto the head to the poste-
rior end of the superciliary series. Usually there is a dark line below
the canthus rostralis; occasionally there is a faint suggestion of a
light line on the canthus. The lips are flecked with light areas,
occasionally with a suggestion of a light line from the posterior
corner of the eye to the rictus oris.

Females from the Rio Perené are similar, but have poorly de-
fined ocelli.

The young are like the females, but the pattern on the dorsum
and sides is more nearly linear, with light dorsolateral and para-
vertebral lines, a dark median line, and dark borders to the dorso-

PROCTOPORUS FROM BOLIVIA AND PERU Z5

lateral light lines. There is a row of light dots between the legs
just above ventral scales.

Specimens of P. guentheri from Bolivia resemble northern ones,
but generally the dorsal and lateral surfaces are darker brown. The
single female with well-developed ocelli (ZSM 43/1950) is from
Bolivia.

LENGTH. The largest male examined is 40 mm snout to vent; the
largest female 47 mm. Three small females (snout-vent lengths
22-25 mm) have tail over snout-vent length ratios of 1.7; two
larger females (35 and 37 mm snout to vent) have ratios of 1.7
and 2.0 respectively. A small male (22 mm snout to vent) has a
tail over snout-vent length ratio of 1.8; two larger males (35 and
40 mm snout to vent) have ratios of 1.8 and 1.9, respectively.

SEXUAL DIMORPHISM. The conspicuously dimorphic features are
the number of posterior preanal scales, the number of femoral
pores (Table 8) and the development of lateral ocelli. ZSM 43/
1950, an adult female 47 mm snout to vent, has seven well-devel-
oped ocelli along each side, but this is very unusual. The number
of femoral pores in males varies from 12 to 19; in females, from
0 to 9. BMNH 1902.11.28.5 has three medial pores and one dis-
tal one on the right side, four medial pores and one distal one on
the left. If the intervening scales on each side also had pores, this
female would have a total of about 17 pores.

Thirteen Peruvian males have the following counts of posterior
preanal scales: 2: eight individuals; 3: four; 5: one (ZSM 173/
1938). The holotype of P. guentheri, the only Bolivian male for
which I have data, had three posterior preanals. Ten Peruvian
females have counts of three four times; one of these has only a
narrow posterior median wedge; two additional females have three
plus a lateral sliver on each side. Five occurs three times, and
another female has five with the median scale semidivided by a
groove at the posterior end. All four Bolivian females have five
posterior preanals.

REMARKS. Although all of the synonyms of P. guentheri were de-
scribed in the genus Oreosaurus, the species has a narrow groove of
granular scales along the side of the body (Uzzell, 1958, Fig. 1-C)
and thus does not belong to the Proctoporus luctuosus group
which includes the type species of Oreosaurus.

26 POSTILLA

Characteristics of three holotypes in the synonymy of P. guen-
theri are given in Table 9.

I have examined the holotype of Oreosaurus ocellifer Boulenger
(BMNH 1902.5.29.183, reregistered as 1946.8.31.22). It is an
adult male collected by G. Okenden in the valley of the Rio Mar-
capata, Cuzco, of southeastern Peru (Boulenger, 1902). This
locality is about 300 km northwest of the type locality of P. guen-
theri. The slight differences between the holotypes of Oreosaurus
ocellifer and O. guentheri are largely those expected on the basis
of the geographic variation in this species. The holotype has the
enlarged pregulars that occur in most P. guentheri (Boulenger
called them chinshields). I therefore consider P. ocellifer a junior
synonym of P. guentheri (new synonymy).

The holotype of Oreosaurus anomalus, USNM 60704, was col-
lected by Edmund Heller near San Fernando in the valley of the
Rio San Miguel, Cuzco, Peru (Barbour and Noble, 1921). The
elevation here is about 1900 m. I have examined the holotype; the
only way in which it differs from other individuals of P. guentheri
is in the presence of very regular supranasal scales. It is conceiv-
able that supranasal scales characterize a population of Procto-
porus in the Urubamba valley, but much more likely this individ-
ual is anomalous, as the name suggests. Certainly it is conspecific
with P. guentheri. | therefore consider the name P. anomalus a
junior synonym of P. guentheri (new synonymy).

Although P. bolivianus Werner (1910) was placed in the
synonymy of P. guentheri by Burt and Burt (1931), I believe that
P. bolivianus is a different species (see discussion of P. bolivi-
anus ).

The specimens (AMNH 1703, 7414) supposedly from about
4500 m above sea level near Lake Aracona, Juliaca, Peru, re-
semble the specimens from Peru more than the specimens from
Bolivia. Lake Aracona is vastly higher than other localities for
P. guentheri. The American Museum material supposedly from
this region collected by H. H. Keays seem to include several speci-
mens with erroneous localities. Dunn (1942) reported that Har-
vey Bassler suggested that American Museum material labeled
Juliaca was sent from there by a member of the Inca Mining
Company (apparently Keays), but was probably collected near
the mine at Santo Domingo, at about 1200 m above sea level.

The specimen from Cuzco (ZSM 173/1938) is from a higher
altitude than others of this species (3362 m). I believe that this

PROCTOPORUS FROM BOLIVIA AND PERU 27

elevation is above the actual range of the species. The specimen
has several unusual features (absence of enlarged pregular scales
[Fig. 2], high number of femoral pores, and relatively massive
head) that suggest local differentiation in this area. These unusual
features do not occur in the holotype of Oreosaurus anomalus,
geographically the closest specimen.

BIOLOGY. Little is known about the biology of this species. Three
females have each contained a single leathery egg; the dimensions
are such (4.5 x 7 mm, more or less) that I doubt that more than
a single egg enlarges at one time. A similar interpretation has
been made for Ecpleopus gaudichaudi (Uzzell, 1969b). Most
members of Group II of the Teiidae lay two eggs (Uzzell, 1959,
1965, 1966, 1969a; Fouquette, 1968).

RANGE. Localities for specimens of Proctoporus guentheri ex-
amined are in central and southern Peru and central Bolivia on
the eastern slopes of the Andes; elevations associated with speci-
mens that I have examined, except for the doubtful pair from Ju-
liaca, vary from 1000 to perhaps 3362 m above sea level. In the
northern part of its range, P. guentheri occurs in the same drain-
age as P. pachyurus, but apparently at lower altitudes. In the cen-
tral and southern part of its range, it occurs in the same drainages
as P. bolivianus, but again at lower altitudes.

Charles F. Walker (personal communication) has examined a
specimen of P. guentheri (NRS 3225) from Linguapata, (Cara-
baya), Puno, Peru, at 825 m above sea level.

SPECIMENS EXAMINED. Bolivia: Cochabamba (2516 m): ZSM
165/1954 (2 specimens); Yungas del Palmar: ZSM 43/1950 (2).

Peru: Cuzco: (3362 m): ZSM 173/1938; Marcapata Valley:
BMNH 1902.5.29.183, reregistered as 1946.8.31.22 (holotype
of Oreosaurus ocellifer); San Fernando, Rio San Miguel (1900
m): USNM 60704 (holotype of Oreosaurus anomalus); Junin
(Tarma): Chanchamayo (1000-1500 m): AMNH 23161;
FMNH 45475; La Merced (1000-1500 m): AMNH 23203, -05,
-07, -10, -13, -18-23, -28; MCZ 49578-9; UMMZ 121443-44;
ZSM 2900/1929 Puno (Carabaya): Santo Domingo (1862 m):
BMNH 1902.11.28.4-5; Juliaca, Lake Aracona (= Lago de
Aricoma): AMNH 1703, 7414.

28 POSTILLA

THE HEMIPENIS OF SPECIES OF THE PROCTOPORUS
PACHYURUS GROUP

Hemipenes were removed from one individual of each species of
the Proctoporus pachyurus group. They were prepared for ex-
amination by slitting them along the sulcus spermaticus, washing
them over night in distilled water, staining them in a dilute solu-
tion of alizarin red S in 0.5 percent KOH, and destaining them
in distilled water.

The hemipenis of P. pachyurus (SMF 65285, left organ; Fig.
3) is unusual in several features. It differs from the hemipenes of
the other two species of the P. pachyurus group in lacking spines
on the basal part of the median welt (Fig. 3A), and in having
the spinous areas of the flounces much reduced (Fig. 3B). In the
lateral pocket, there are seven lateral flounces with spines, and
Six with spines on the median welt; in the medial pocket, seven
lateral and seven medial flounces have spines. The spines in any
flounce with spines are largest near the center of the row, and de-
crease in size toward either end of the spine row. There is con-
siderable variation in the length of the spiny row in each flounce.
The flounces in each pocket are chevron shaped, and continuous
across the apices of the chevron, which is basal and dorsal to the
free edge of the median welt. The distal end of the hemipenis is
arranged so that when everted, there would be two lobes. The
lobes bear a series of fleshy folds.

The hemipenis of P. bolivianus (FMNH 81372, left organ;
Fig. 4) differs from that of P. pachyurus in having nearly complete-
ly spinous flounces. As in P. pachyurus, the flounces are chevron-
shaped, with the apices of the chevrons basal and dorsal to the
free edge of the median welt. In the lateral pocket, there are 14
flounces on the lateral wall, 11 on the medial wall; in the medial
pocket, there are 11 on the medial wall, 14 on the lateral, so that
the two pockets form mirror images of each other. The extra
flounces on the lateral walls appear to continue across the basal
part of the median welt as four rows of very irregular spines
(the basalmost row has but a single tooth, Fig. 4C). Although
the flounces are continuous across the apices of the chevrons,
there is a small gap separating the tooth rows (Fig. 4B). As in
P. pachyurus, the hemipenis is bilobate distally when everted, and
each lobe bears a series of fleshy folds.

The hemipenis of P. guentheri (ZSM 290/1929, left organ;

PROCTOPORUS FROM BOLIVIA AND PERU 29

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FIG. 3. Structure of the left hemipenis of Proctoporus pachyurus (SMF
65285). The inverted organ has been slit along the sulcus spermaticus.
A) The entire organ showing general arrangement of flounces in the lat-
eral (left) and medial (right) pockets. There are no enlarged teeth. x 14.
B) Details of teeth in lateral wall of lateral pocket: additional flounces
without teeth are also shown. < 42.

Fig. 5) is rather similar to that of P. bolivianus. There are 19
lateral and 14 medial flounces in the lateral pocket, 14 medial and
19 lateral flounces in the medial pocket. The arrangement of
flounces thus is a mirror image in the two pockets. One distal

30 POSTILLA

FIG. 4. Structure of the left hemipenis of Proctoporus bolivianus (FMNH
81372). The inverted organ has been slit along the sulcus spermaticus. A)
The entire organ, showing general arrangement of flounces into lateral (left)
and medial (right) pockets, and location of teeth at base of median welt.
‘< 10. B) Details of flounces and teeth in lateral pocket. The median welt
has been folded back to show the apices of the chevron-shaped flounces.
16 C) Details of the irregular teeth at the base of the median welt. x 26.

PROCTOPORUS FROM BOLIVIA AND PERU 31

D Ebb ae, a I

7

FIG. 5. Structure of the left hemipenis of Proctoporus guentheri (ZSM
290/1929). The inverted organ has been slit along the sulcus spermaticus.
A) The entire organ, showing general arrangement of flounces in the
lateral (left) and medial (right) pockets, and the teeth at the base of the
median welt. 9. B) Details of teeth in the basal part of the lateral pock-
et. X 30.C) Details of teeth in the middle part of the medial pocket. < 30.
D) Details of teeth at the base of the median welt. 30.

32 POSTILLA

flounce and four basal flounces from the lateral wall of each pocket
do not continue onto the medial wall, but the remaining 14 form
chevrons, the apices basal and dorsal to the free edge of the medi-
an welt. There are four rows of teeth across the basal part of the
median welt (Fig. 5D); the distalmost of these could be considered
an additional median flounce of each pocket. The teeth in the
flounces appear to be rather uniform in size along the flounces,
although at the extreme ends of the flounces, they become reduced
in size (Fig. 5B, C). The everted organ is bilobate and bears
fleshy folds at the distal end of each lobe.

It is not known to what extent the differences between the
arrangements of spines reflect interspecies differences and to
what extent they reflect individual variation.

RELATIONSHIPS WITHIN THE PROCTOPORUS PACHYURUS GROUP

The distributions suggest that P. pachyurus and P. bolivianus,
which are allopatric and which both occur at higher altitudes than
P. guentheri, are more closely related to each other than either is
to P. guentheri. The morphological data generally support this
relationship. Thus, P. pachyurus and P. bolivianus share large
body size (some populations of P. bolivianus are small), a high
number of transverse rows of ventral scales, and a high number
of longitudinal rows of ventral scales. The scales under the lower
forelimb are large and flat in P. guentheri; they are relatively
smaller in P. pachyurus and P. bolivianus. The enlarged pregular
scales that are present in most specimens of P. guentheri examined
are absent in P. pachyurus and P. bolivianus. Populations of P.
guentheri are uniformly clear yellow below, and have conspicu-
ous ocelli, at least in males; both P. pachyurus and P. bolivianus
have at least some dark pigment superimposed on the ventral
ground color; ocelli, when present, are not conspicuous. Exter-
nally, the relationship of P. bolivianus to P. pachyurus is so close
that it seems necessary to point out again that the two species can
be distinguished by the number of dorsal scale rows. On the other
hand, the structure of the hemipenis marks P. pachyurus off as
a quite distinct species, although individual variation in the
structure of the hemipenis has not been studied.

PROCTOPORUS FROM BOLIVIA AND PERU 33
PROCTOPORUS PETERSI (BOETTGER)

Ecpleopus (Oreosaurus) petersi Boettger, 1878, Ber. Offen. Ver. f.
Natur. 17-18:9.

I consider Proctoporus petersi a junior synonym of P. unicolor
(Gray).

Proctoporus petersi was described (Boettger, 1878) from an
adult male (SMF 11763) that the Senckenberg Museum obtained
in 1849 as an exchange from the museum in Milano. The type
locality given by Boettger—Province of Para in northern Brazil—
has long been considered doubtful (Burt and Burt, 1933).

Recently I examined this specimen in the Senckenberg Museum.
Although I have comparatively little to add to the description
given by Boettger, the following five points are, I believe, critical
for correct placement of this name. There are 3-3 supraoculars,
of which the middle on each side is in contact with the palpebrals.
There are 8-8 lamellae under the fourth fingers, 12-13 under the
fourth toes. The transparent disc in the lower eyelid is divided
into 3-4 pieces by vertical grooves. The innermost femoral pores,
contrary to Boettger’s figure, are preanal, and are separated by
two rather than four small scales. The pregulars immediately
behind the paired chinshields are elongate, rather than squarish
or wider than long. This set of characters readily distinguishes
the holotype of Proctoporus petersi from Proctoporus bolivianus,
the form to which the name is usually applied. Each of these char-
acters, on the other hand, occurs as a regular feature of Procto-
porus unicolor (Gray), from the higher altitudes of Ecuador. I
therefore place Proctoporus petersi in the synonymy of P. uni-
color (new synonymy), although the name is perhaps available
should local geographic variation in P. unicolor warrant recogni-
tion of subspecies.

The history of the application of this name seems easily ex-
plained. Neither Boettger nor Wilhelm Peters, to whom Boettger
showed the holotype, knew Proctoporus unicolor except from
Gray’s original description. Boulenger (1885), in his catalog of
the lizards in the British Museum, left the species petersi in the
genus Oreosaurus, it is readily distinguished from the other lizards
that Boulenger placed there. Finally, the two characters figured
by Boettger that might have insured its correct placement (the
arrangement of the femoral pores and of the superciliary series)

34 POSTILLA

are both incorrect in Boettger’s drawing. Although Boettger pro-
vided a great deal of information on the holotype of P. petersi,
none of the counts of scales (dorsals, ventrals, scales around mid-
body region) and, in fact, almost no feature mentioned by Boettger,
will distinguish P. unicolor trom P. bolivianus, although I believe
that they represent distinct genera.

PROCTOPORUS VENTRIMACULATUS BOULENGER

Proctoporus ventrimaculatus Boulenger, 1900, Ann. Mag. Nat.
ist SEL“. 62185"

The holotype of Proctoporus ventrimaculatus (BMNH 1900.3.30.
17, reregistered as 1946.8.2.34) was collected by P. O. Simons
near Cajamarca (Cajamarca), Peru, about 2700 m above sea
level (Boulenger, 1900). I have examined the holotype and
another specimen (MCZ 18807) that I consider to be P. ventri-
maculatus. The second specimen comes from Huambos (or Huam-
boo), Cajamarca (Chota), Peru, some 100 km to the NNW of
the type locality (map), and about 2200 m above sea level. Both
specimens are females. Certain of their characters are compared
in Table 10.

The arrangement of the pregular scales of P. ventrimaculatus
in three transverse rows of rectangular scales gives the throat
considerable similarity to that of P. pachyurus or P. striatus. On
the other hand, the arrangement of the dorsal head scales is quite
distinctive. Above the eye, there are three large scales. The poster-
iormost is separated from the palpebral scales by one elongate
posterior superciliary. I consider the anteriormost to be an en-
larged superciliary, although Boulenger (1900) considered it to be
a supraocular. If it is a supraocular, it is not separated from the
palpebral scales by a superciliary. The middle scale I consider to
be the first of two supraoculars. Boulenger considered it to be the
second of three supraoculars. Regardless, it is not separated from
the palpebral scales by superciliary scales. These three scales are ill-
ustrated in Fig. 6.

The loreal of MCZ 18807 is a small scale separated from the
supralabials by contact between the very large nasal and the rather
small frenoocular. The holotype has no loreal. Under the poste-
rior corner of the eye in MCZ 18807, there is a large infralabial

35

PROCTOPORUS FROM BOLIVIA AND PERU

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36 POSTILLA

FIG. 6. Scales on the top of the head of Proctoporus ventrimaculatus
(MCZ 18807). Ant. SC - anterior superciliary; Post. SC - posterior super-
ciliary; So I and SO II - first and second supraoculars. & 13.

that reaches the lip line in a point between the third and the very
small fourth labials. This scale is not enlarged in the holotype.
The ventral and lateral scales of P. ventrimaculatus meet in a
narrow granular zone with little or no intercalation of the dorsal
and ventral rows; the arrangement is thus like that in P. striatus
and that figured for P. guentheri (Uzzell, 1958: Fig. 1-C). The
preanal scales number five in the posterior row in the holotype,
six in MCZ 18807. The innermost pores are femoral, not preanal.
The tibial scales are smooth. The scales above and beneath
the forearm are smooth rather than striate; those below the fore-
arm are relatively small. There is no enlarged scale on the upper
surface of the upper arm. The limbs are relatively short, not over-
lapping when adpressed; the hind limb is about 29 percent of the
snout-vent length. The thenar scales of the palm and the inner
scales of the basal pairs of subdigital lamellae on the fourth toes
are not conspicuously enlarged.
The eye disc is clear and divided into three parts. The anterior
and posterior parts are smaller in the holotype than in MCZ 18807.
The two specimens differ somewhat in coloration. The holotype
is rather uniform dark above. The ventral scales have large black
spots on a light background. MCZ 18807 is also generally dark

PROCTOPORUS FROM BOLIVIA AND PERU 37

above and below, but with light, dark-bordered dorsolateral lines
from the posterior corner of the eye to the tip of the tail. There
is a suggestion of a dark mid-dorsal line at the shoulders. The
venter is very dark, the scales having only light posterior margins.

Nothing is known about geographical variation or sexual di-
morphism in this species.

REMARKS. The arrangement of the pregular scales into transverse
rows of quadrangular scales suggests that P. ventrimaculatus is
related to P. striatus and members of the P. pachyurus group.
The arrangement of supraoculars is very distinctive, however, and
I am uncertain that P. ventrimaculatus is closely related to P. stria-
tus or P. pachyurus, although I see no other obvious relatives for
the species. Both Proctoporus unicolor and its relatives and Proc-
toporus columbianus and its relatives regularly have the supercili-
ary series incomplete and one or more supraoculars touching the
palpebral scales. Both of these groups, however, have the pregular
scales arranged in chevrons, the apices forward. A whole series
of other characters also distinguishes P. unicolor and its relatives
from P. ventrimaculatus.

Much of the detail included for this species is to distinguish
P. ventrimaculatus from AMNH 18310, a specimen related, I
believe (Uzzell, 1958) to Proctoporus striatus.

Nothing is known of the biology of P. ventrimaculatus.

No other species of Proctoporus are known from northern Peru.
Huambos is on the divide between Marafion and Pacific drainages;
Cajamarca is in the headwater drainage of the Rio Cajamarca,
which flows into the Rio Maranon (map).

ABBREVIATIONS
AMNH — American Museum of Natural History, New York
BMNH — British Museum (Natural History), London
CAS — California Academy of Sciences, San Francisco
CM — Carnegie Museum, Pittsburgh
FMNH — Field Museum of Natural History, Chicago
MCZ — Museum of Comparative Zoology, Harvard Univer-
sity
MN — Musée d’Histoire Naturelle, Neuchatel

NRS — Naturhistoriska Riksmuseet, Stockholm

38 POSTILLA

SMF — _ Senckenberg Museum, Frankfurt

USNM — _ United States National Museum, Washington

UMMZ — University of Michigan Museum of Zoology

ZSM — Zoologische Staatssammlung, Munich
ACKNOWLEDGMENTS

Many people have helped me in this project by providing me with
access to specimens in collections in their charge, and often by
hospitality while I visited their institutions. For their kindness I
thank Charles Bogert and Richard Zweifel, The American Muse-
um of Natural History, Alice G. C. Grandison, British Museum
(Natural History), Alan Leviton, California Academy of Sciences,
C. J. McCoy, Carnegie Museum, Robert Inger and Hymen Marx,
Field Museum of Natural History, Ernest Williams, Museum of
Comparative Zoology, Harvard University, Fritz Gehringer, Musée
dHistoire Naturelle, Neuchatel, Konrad Klemmer and Robert
Mertens, Senckenberg Museum, Frankfurt, James A. Peters,
United States National Museum, Charles F. Walker, University
of Michigan Museum of Zoology, and Heinz Wermuth and Dieter
Fuchs, Zoologische Staatssammlung, Munich. Greta Casteegley,
Naturhistoriska Riksmuseet, Stockholm kindly sent the holotype
of Proctoporus longicaudatus for me to examine. Travel in Europe
was supported by the Peabody Museum, Yale University and by
a gift from Evan Commager. The illustrations were prepared by
Diane McClure, Alfonso Coleman, and Rosanne Rowen.

LITERATURE CITED

Andersson, Lars Gabriel. 1914. A new Telmatobius and new teiidoid
lizards from South America. Arkiv f. Zoologi 9 (3): 1-12.

Barbour, Thomas, and G. K. Noble. 1921. Amphibians and reptiles from
southern Peru collected by the Peruvian Expedition of 1914-1915
under the auspices of Yale University and the National Geographic
Society. Proc. U.S. Nat. Mus. 58 (2352): 609-620.

Bingham, Hiram. 1913. In the wonderland of Peru. The work accom-
plished by the Peruvian Expedition of 1912, under the auspices of
Yale University and the National Geographic Society. Nat. Geog.
Mag. 24 (4): 387-573.

1916. Further explorations in the land of the Incas. The
Peruvian Expedition of 1915 of the National Geographic Society
and Yale University. Nat. Geog. Mag. 29 (5): 431-473.

PROCTOPORUS FROM BOLIVIA AND PERU 39

Boettger, Oskar. 1878. Studien Uber neue oder wenig bekannte Eidechsen
j. Ber. Offen. Ver. f. Natur. 17-18: 1-12.

1891. Reptilien und Batrachier aus Bolivia. Zool. Anz. 14:
343-347.

Boulenger, George Albert. 1885. Catalogue of the lizards in the British
Museum (Natural History) Il. 24 pls. Taylor and Francis, London.
497 p.

1900. Descriptions of new batrachians and reptiles collected by
Mr. P. O. Simons in Peru. Ann. Mag. Nat. Hist., Ser. 7, 6: 181-186.

1902. Descriptions of new batrachians and reptiles from the
Andes if Peru and Bolivia. Ann. Mag. Nat. Hist., Ser. 7, 10: 394-402.

Burt, Charles E., and May Danheim Burt. 1931. South American lizards
in the collection of The American Museum of Natural History. Bull.
Amer. Mus. Nat. Hist. 61 (7): 227-395.

1933. A preliminary check list of the lizards of South Ameri-
ca. Trans. Acad. Sci. St. Louis. 28 (1 & 2): 1-104.

Dunn, Emmett Reid. 1942. The American caecilians. Bull. Mus. Zool.
Harvard Univ. 91 (6): 439-540.

Fouquette, M. J., Jr. 1968. Observations on the natural history of micro-
teiid lizards from the Venezuelan Andes. Copeia 1968 (4): 881-884.

Griffin, Lawrence Edmonds. 1917. A list of the South American lizards of
the Carnegie Museum, with descriptions of four new species. Ann.
Carnegie Mus. 11 (1 & 2): 304-320.

Peters, Wilhelm. 1862. Uber Cercosaura und die mit dieser Gattung ver-
wandten Eidechsen aus Siidamerica. Abh. Akad. Wiss. Berlin, 1862:
165-225, pls. 1-3.

Ruibal, Rodolfo. 1952. Revisionary studies of some South American
Teiidae. Bull. Mus. Comp. Zool. Harvard Coll. 106 (11): 477-529.

Stejneger, Leonhard. 1913. Results of the Yale Peruvian expedition of
1911. Batrachians and reptiles. Proc. U. S. Nat. Mus: 45 (1992).
541-547.

Tschudi, J. J. von. 1845. Reptilium conspectus quae in Republica Peruana
reperiunter et pleraque observata vel collecta sunt in itinere a
Dr. J. J. de Tschudi. Archiv fiir Naturgeschichte 11 (1): 150-170.

Uzzell, Thomas. 1958. Teiid lizards related to Proctoporus luctuosus, with
the description of a new species from Venezuela. Occ. Pap. Mus. Zool.,
Univ. Michigan 597: 1-15.

1959. Teiid lizards of the genus Placosoma. Occ. Pap. Mus.
Zool., Univ. Michigan 606: 1-16.

1965. Teiid lizards of the genus Echinosaura. Copeia 1965
(1): 82-89.

1966. Teiid lizards of the genus Neusticurus (Reptilia, Sau-
ria). Bull. Amer. Mus. Nat. Hist. 132 (5): 277-328:

1969a. A new genus and species of teiid lizard from Bolivia.
Postilla 129: 1-15.

1969b. The status of the genera Ecpleopus, Arthroseps, and
Aspidolaemus (Sauria, Teiidae). Postilla 135:1-23.

Werner, Franz. 1910. Uber neue oder seltene Reptilien des Naturhistor-
ischen Museums in Hamburg. II. Eidechsen. Mitt. Naturhist. Mus.
Hamburg 27: 1-46.

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