Leptophis coeruleodorsus Oliver, 1942

Albuquerque, Nelson Rufino De & Fernandes, Daniel S., 2022, Taxonomic revision of the parrot snake Leptophis ahaetulla (Serpentes, Colubridae), Zootaxa 5153 (1), pp. 1-69 : 22-26

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Leptophis coeruleodorsus Oliver, 1942
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Leptophis coeruleodorsus Oliver, 1942 View in CoL

( Figs. 11C–D View FIGURE 11 , 12–14 View FIGURE 12 View FIGURE 13 View FIGURE 14 )

Leptophis coeruleodorsus Oliver, 1942: 4 View in CoL . Male holotype (AMNH 9022; examined). Type locality: Trinidad, British West Indies; restricted to Mt. St. Benedict (10°39’N, 61°23’W, 1300 m asl), Tunapuna, Trinidad by Murphy et al. 2013: 566 View Cited Treatment ; Boos 2001: 125; Auguste 2019; Torres-Carvajal & Terán 2021: 2.

Leptophis ahaetulla ortoni — Beebe 1946: 34.

Leptophis ahaetulla View in CoL [ coeruleodorsus ]— International Commission of Zoological Nomenclature 1958: 270.

Leptophis ahaetulla coeruleodorsus — Peters & Orejas-Miranda 1970: 162; Pérez-Santos & Moreno 1988: 205; Kornacker 1999: 98; Tipton 2005: 161; Ugueto & Rivas 2010: 241; Barrio-Amorós et al. 2011: 29.

Leptophis haileyi Murphy, Charles, Lehtinen & Koeller, 2013: 569 View in CoL View Cited Treatment . Male holotype ( CAS 245313 About CAS ; photograph examined). Type locality: Tobago near Roxborough. New synonym.

Leptophis caeruleodorsus (sic)— Barrio-Amorós & Ortiz 2015: 85.

Diagnosis. Leptophis coeruleodorsus can be distinguished from its congeners by the following unique combination of character states: (1) head scales not edged with black and with no black spots; (2) adult color pattern with no dark dorsal bands; (3) dorsum with two dorsolateral stripes separated from each other by middorsal area about three to nine scale rows wide, at least anteriorly; (4) dorsals keeled, except first dorsal row on each side; keels of dorsals slightly black; (5) no loreal scale; (6) ventrals 144–168 in males, 157–178 in females; (7) subcaudals 141–166 in males, 125–174 in females; (8) dorsal scales of tail with no keels; (9) maxillary teeth 22–24; (10) TL/SVL: 95% CI = 0.632 –0.663 mm (n = 18); (11) small spines at first basal row of hemipenial body; (12) asulcate side of hemipenis similar to sulcate side.

Comparisons. Leptophis coeruleodorsus differs from all members of the L. ahaetulla complex by dorsal color pattern with two dorsolateral stripes at rows 2–4 or 2–5 (occasionally 2–3 or 3–5) ( Fig. 12A–B View FIGURE 12 ) separated from each other by middorsal area about three to nine scale rows wide, at least anteriorly (vs. dorsolateral stripes usually absent; if present, separated from each other by vertebral stripe one to one and half scale wide, at least anteriorly). Further, L. coeruleodorsus differs from sympatric L. occidentalis by having dorsal coloration reduced posteriorly, becoming Pale Cinnamon (55) ( Fig. 12C View FIGURE 12 ) to bronze in preservative (vs. uniform dorsal coloration; Fig. 29A View FIGURE 29 ); preocular black stripe always absent or reduced to black margin on second and third supralabials (vs. preocular black stripe present and always reduced to upper margin on second, third and fourth supralabials); and the lowest number of ventrals in males—95% CI = 158.6–161 and females—162.6–165.2 (vs. 164.9–166.9 and 167–169.9, respectively) ( Table 2).

Variation and sexual dimorphism. Largest male (AMNH 110472) SVL 907 mm, TL 615+ mm and largest female (USNM 15235) SVL 935 mm, TL 588 mm; ventrals 144–168 in males (160 ± 3.9, n = 38), 157–178 in females (164.1 ± 4.7, n = 40); subcaudals 141–166 in males (156.4 ± 9.2, n = 17), 125–174 in females (157.5 ± 10.1, n = 20); supralabials 7–9 (8.3 ± 0.5, n = 140), with fourth–fifth (64.4%, n = 85), fifth–sixth (34.1%, n = 45), or, rarely, third–fourth (1.5%, n = 2) touching orbit; infralabials 9–11 (10.2 ± 0.5, n = 138), with first 5 (73.6%, n = 103) and first 6 (26.4%, n = 37) contacting first chin shields; preoculars 1–2 (1.1 ± 0.3, n = 140); postoculars 2 (n = 69) and a single specimen with 1 on both sides; anterior temporal 1 (n = 70); posterior temporal 1–3 (1.9 ± 0.1, n = 138); keels more developed in adult males than females and juveniles; width of dorsolateral stripes varies from four to five scales wide, at least anteriorly.

Only three banded specimens were examined: AMNH 101309 About AMNH and AMNH 64478 About AMNH , two males with 392 and 361 mm in total length, respectively, and MCZ 126381 About MCZ , a female with 382 mm in total length, which have bands on anterior and middle portion of the body. Females have more ventrals than males (F 1,78 = 17.3932; P <0.01). No significant difference in subcaudal counts between males and females was observed (F 1,37 = 0.1287; P = 0.7223). The TL / SVL showed no significant difference between females and males (F 1,16 = 2.6178; P = 0.1221) .

Hemipenial morphology. Three retracted organs examined extend up to seventh-eight subcaudals. Everted hemipenis unilobed, noncapitate; sulcus spermaticus centrolineal, undivided, extending from base to tip of lobe; basal portion bears small spines distributed in 5–6 rows approximatelly encircling the organ; first row bears 5–7 hooked spines; two spines in the first row adjacent to sulcus spermaticus larger than those in other rows; few spinules widely scattered on basal portion, occurring below first row of spines; lips of sulcus spermaticus beset with tiny spinules until about the level of midsection portion of hemipenial body; calyces ornamented with 6–8 robust papillae concentrated along distal portion of hemipenial body; papillae gradually decrease in number and length toward distal portion of hemipenis; distal portion of lobe bears few papillate calyces irregularly distributed; most central portion of lobe either calyculate (USNM 195127), or nude (MCZ 100651, TCWC 46262); asulcate side similar to sulcate side ( Fig. 11C–D View FIGURE 11 ).

Coloration in life. Dorsum of the head Light Grass Green (109); dorsal scales row I (occasionally I–II) in anterior portion of the body (before body scale reduction from 15 to 11) white or Smoky White (261); anterior portion of the body of adults with two Spectrum Yellow (79) or Sulphur Yellow (80) lateral stripes on dorsal scale rows II–III, II–IV, II–V or III–V on each side; these stripes are separated by Light Grass Green (109) middorsal area 3–9 scale rows wide, depending on the region of anterior portion of the body examined and the width of the dorsolateral bands; dorsal coloration reduces posteriorly, becoming Pale Cinnamon (55); keels of dorsal scales slightly black, being more pronounced on paravertebral rows; preocular Jet Black (300) stripe always reduced to upper margin on second, third and fourth supralabials; postocular Jet Black (300) stripe broad covering lower edge of upper postocular, all of lower postocular, two-thirds of anterior temporal, all or nearly all of lower posterior temporal, and upper edge of last three supralabial scales, extending further over two up to eight scales onto nuchal region; supralabials, infralabials, chin, throat and venter white or dirty white. Roze (1966: 173) and Boos (2001: 125) briefly described the color pattern of Leptophis a. coeruleodorsus , whereas Murphy (1997, fig. 136) and Ugueto & Rivas (2010: fig. 102) not only described but also illustrated this color pattern (as L. a. coeruleodorsus ). Campbell & Lamar (2004, fig. 1172) illustrated a specimen from Villavicencio, Meta, Colombia.

Distribution and natural history. Caribbean coast of Venezuela to the islands of Trinidad and Tobago and Llanos region between Venezuela and Colombia and Pantepui areas (see below), corresponding to the tropical and subtropical moist broadleaf forests, tropical and subtropical grassland, savannas, and shrublands; and deserts and xeric shrublands ecoregions, as defined by Olson et al. (2001) ( Fig. 8 View FIGURE 8 ). In addition, William Lamar (pers. comm., 26 Aug 2015) collected specimens of L. coeruleodorsus in the Llanos of Colombia and in Villavicencio, departament of Meta, which is at the piedmont of the Eastern Cordillera of the Colombian Andes. USNM 562695 was collected at 1390 m at Cerro de La Neblina, Venezuela.

The specimen MHNLS 13595 (SVL 981 mm) contains five well-developed eggs (the first, along head-tail orientation, measured 21.44 mm).

Remarks. Prior to its recognition as a distinct subspecies of Leptophis ahaetulla, Oliver (1942) described Leptophis coeruleodorsus from 14 specimens from “ Trinidad, British, West Indies”, plus four specimens from “Milford Bay, Tobago Island, British West Indies”, one specimen from “Macute, Venezuela ”, one specimen from “Río Chico, Venezuela ”, one specimen from “ Venezuela ”, one specimen from “Cariquito, Venezuela ”, and one specimen from “Santa Lucia, Estado Miranda, Venezuela ”. Although Oliver (1942) formally designated specimen AMNH 9022 (now AMNH 209022) as the holotype of L. coeruleodorsus , he did not describe it separately from paratypes. Subsequently, Murphy et al. (2013) described this holotype, restricted the type locality and recognized this taxon as full species, as originally considered by Oliver (1942). Before Murphy et al. (2013), Navarrete et al. (2009) also considered L. coeruleodorsus as full species, but with no further discussion. Due to their phenotypic similarities in body size and color pattern, L. coeruleodorsus was considered a synonym of L. ahaetulla until Oliver’s (1948) revision. The presence of a vertebral stripe 1.0–1.5 scale wide in adults of L. ahaetulla , however, unequivocally distinguishes this taxon from L. coeruleodorsus . On the other hand, based on molecular data, Murphy et al. (2013) reinforced earlier conclusions obtained by Albuquerque (2008), which proposed the elevation of L. a. coeruleodorsus to species level based on a unique combination of phenotypic characters. Further, Murphy et al. (2013) described L. haileyi based on a single male specimen collected in Tobago and the diagnosis of this new taxon was particularly contrasted against Tobago specimens of L. coeruleodorsus by a suite of morphometric, meristic and coloration characters. However, the extensive variation in color pattern and scutellation within and among the widely distributed snakes of the genus Leptophis (see Oliver 1948; Mertens 1973; Albuquerque 2008) was not considered by Murphy et al. (2013), as shown hereafter. According to these authors, L. haileyi is “the only Tobago Leptophis to have a subacuminate snout in profile and the rostral barely visible from above”. However, a subacuminate snout and a rostral barely visible can also be found in preserved specimens of Leptophis coeruleodorsus (paratype USNM 59931 from Trinidad, and paratypes MCZ 11994–95 from Tobago, Fig. 13A–C; a View FIGURE 13 “normal” rounded snout in Fig. 13D View FIGURE 13 ). The “primary temporal in contact with three or four upper labials, including the last” appears to be typical of L. cupreus (see fig. 2 in Albuquerque & McDiarmid 2010), and L. nigromarginatus (KU 126041); the contact between the anterior temporal and four upper labials was either not observed or not investigated herein, but this condition (not illustrated by Murphy et al. 2013) is also not present in L. haileyi . The left side of the head of the holotype of L. haileyi , as well as the right side illustrated by Murphy et al. (2013), contains only three upper labials in contact with the anterior temporal, since an azygous scale prevents contact between the last upper labial and the anterior temporal in the left side ( Fig. 14 View FIGURE 14 ). The “longitudinal dorsolateral stripes on the anterior body scale rows 2–4” (also not illustrated by Murphy et al. 2013; Oliver’s 1948: 229 “five lower rows on each side” with first row included) is subject to variation because the anterior portion of the body of L. coeruleodorsus is ornamented with dorsolateral stripes on rows 2–4 ( Murphy 1997: 181), 2–4 or 2–5 ( Murphy et al. 2013: 567; and this study), and occasionally 2–3 or 3–5 (this study). Actually, the width of yellow dorsolateral stripes varies from one specimen to another and depends on the portion of the body examined, as in L. ahaetulla (see above). Two of the L. coeruleodorsus illustrated in Fig. 12A–B View FIGURE 12 , for instance, exhibit a dorsolateral stripe at rows 2–5 and 2–3 on the anteriormost portion of body, respectively; in these specimens, the middorsal area is five and nine scales wide on these portions of anterior body, respectively. The “nine upper labials, 2–3–4 at the loreal-prefrontal shield” can also be found in other Leptophis such as L. ahaetulla (MPEG 24491, Fig. 2A–D View FIGURE 2 ; note 2–3– 4–5 in Fig. 2C View FIGURE 2 ), L. bocourti (USNM 285488 and QCAZ 8023, Fig. 7B View FIGURE 7 ; Oliver 1948: plate 19), L. nigromarginatus (KU 126041), L. praestans (UMMZ 74851, Fig. 32 View FIGURE 32 ), L. urostictus (paratype MCZ 13298; Mertens 1973: fig. 4), and Leptophis dibernardoi ( Albuquerque et al. 2022) (CHUFC 2144) . Concerning the “5–6 (upper labials) in the orbit”, these scales enter the orbit in 45 (34.1%) of the specimens of L. coeruleodorsus examined in the present study. Finally, Murphy et al. (2013) claim that “this species can also be distinguished from L. coeruleodorsus by…its proportionally shorter tail. The male holotype has a tail/SVL ratio (0.64) …”. The tail/SVL ratio of L. coeruleodorsus , as presented by Murphy et al. (2013) in their Table 3, falls within the range of the specimens of L. coeruleodorsus from Venezuela and Trinidad. Actually, the tail of L. haileyi would be proportionally shorter only if it is contrasted against the four Tobago male specimens of L. coeruleodorsus examined by Murphy et al. (2013) (see also Table 2). Though the phenotype of individuals varies within the same species over a relatively small geographic area (e.g., the supralabial formula of Ecuadorian L. bocourti and L. bolivianus ), the coloration, meristic and morphometric characters used by Murphy et al. (2013) were not sufficiently diagnosable to consider the Tobago specimen as a new taxon. Therefore, we herein place Leptophis haileyi as a junior synonym of L. coeruleodorsus .

We detected that the type series of Leptophis coeruleodorsus is composite, as the diagnostic two dorsolateral stripes separated from each other by middorsal area, at least anteriorly, and the dorsal coloration reduced posteriorly, are lacking in the Venezuelan paratype USNM 27821. Based on these characters, this specimen is here reidentified as L. occidentalis , one of the four species of Leptophis found in Venezuela.

Albuquerque, N. R. (2008) Revisao Taxonomica das Subespecies de Leptophis ahaetulla (Linnaeus, 1758) (Serpentes, Colubridae). Doctoral thesis, Pontificia Universidade Catolica do Rio Grande do Sul, Porto Alegre, 165 pp.

Albuquerque, N. R. & McDiarmid, R. W. (2010) Redescription of Leptophis cupreus (Cope), a rare South American colubrine snake. Papeis Avulsos de Zoologia, 50 (23), 375 - 384. https: // doi. org / 10.1590 / S 0031 - 10492010002300001

Albuquerque, N. R., Santos, F. M., Borges-Nojosa, D. & Avila, R. W. (2022) A new species of parrot-snake of the genus Leptophis Bell, 1825 (Serpentes, Colubridae) from the semi-arid region of Brazil. The South American Journal of Herpetology, 23 (1), 7 - 24. https: // doi. org / 10.2994 / SAJH-D- 19 - 00113.1

Auguste, R. J. (2019) Herpetofaunal checklist for six pilot protected areas in Trinidad and Tobago. Herpetology Notes, 12, 577 - 585.

Barrio-Amoros, C. L., Brewer-Carias, C. & Fuentes-Ramos, O. (2011) Aproximacion preliminar a la herpetocenosis de un bosque pluvial en la Guayana venezolana. Revista de Ecologia Latino-Americana, 16, 1 - 46.

Barrio-Amoros, C. L. & Ortiz, J. C. (2015) Material herpetologico colectado por Roberto Donoso Barros em Venezuela (excepto geckos) na el Museo de Zoologia de la Universidad de Concepcion, Chile. Gayana, 79 (1), 68 - 93. https: // doi. org / 10.4067 / S 0717 - 65382015000100008

Beebe, W. (1946) Field notes on the snakes of Kartabo, British Guiana and Caripito, Venezuela. Zoologica, 31, 11 - 52.

Boos, H. E. A. (2001) The Snakes of Trinidad and Tobago. Texas A & M University Press, College Station, Texas, 328 pp.

Campbell, J. A. & Lamar, W. W. (2004) The Venomous Reptiles of the Western Hemisphere. Cornell University Press, Ithaca, New York, 976 pp.

International Commission of Zoological Nomenclature. (1958) Opnion 524, Interpretation of the nominal species Coluber ahaetulla Linnaeus, 1758, and addition to the Official List of Generic Names in Zoology of the generic name Ahaetulla Link, 1807 with Ahaetulla mycterizans Link, 1807 as type species (Class Reptilia). Opinions and declarations rendered by the ICZN, 19, 263 - 276.

Kornacker, P. M. (1999) Checklist and key to the snakes of Venezuela. Pako-Verlag, Rheinbach, 269 pp.

Mertens, R. (1973) Bemerkenswerte Schlangnatters der neotropischen Gattung Leptophis. Studies on Neotropical Fauna, 8 (2), 141 - 154. https: // doi. org / 10.1080 / 01650527309360458

Murphy, J. C. (1997) Amphibians and Reptiles of Trinidad and Tobago. Krieger Publishing Company, Malabar, 245 pp.

Murphy, J. C, Charles, S. P., Lehtinen, R. M. & Koeller, K. L. (2013) A molecular and morphological characterization of Oliver's parrot snake, Leptophis coeruleodorsus (Squamata: Serpentes: Colubridae) with the description of a new species from Tobago. Zootaxa, 3718 (6), 561 - 574. https: // doi. org / 10.11646 / zootaxa. 3718.6.4

Navarrete, L. F., Lopez-Johnston, J. C. & Davila, A. B. (2009) Guia de las serpientes de Venezuela: biologia, venenos, conservacion y listado de especies. Second edition. Zoocriadero Ecopets, Bioreptilia, y Grupo Rio Verde, Caracas, 102 pp.

Oliver, J. A. (1942) A check list of the snakes of the genus Leptophis, with descriptions of new forms. Occasional Papers of the Museum of Zoology, University of Michigan, 462, 1 - 19.

Oliver, J. A. (1948) The relationships and zoogeography of the genus Thalerophis Oliver. Bulletin of the American Museum of Natural History, 92, 157 - 280.

Olson, D. M., Dinerstein, E., Wikramanayake, E. D., Burgess, N. D., Powell, G. V. N., Underwood, E. C., D'Amico, J. A., Itoua, I., Strand, H. E., Morrison, J. C., Loucks, C. J., Allnutt, T. F., Ricketts, T. H.; Kura, Y., Lamoreux, J. F., Wetengel, W. W., Hedao, P. & Kassem, K. R. (2001) Terrestrial Ecoregions of the World: A New Map of Life on Earth. Bioscience, 51 (11), 933 - 938.

Perez-Santos, C. & Moreno, A. G. (1988) Ofidios de Colombia. Museo Regionale di Scienze Naturali, Monografie VI, 1 - 517.

Peters, J. A. & Orejas-Miranda, B. (1970) Catalogue of the Neotropical Squamata: Part I - Snakes. Bulletin of the United States National Museum, 297, 1 - 347. https: // doi. org / 10.5479 / si. 03629236.297.1

Roze, J. A. (1966) La Taxonomia y Zoogeographfia de los Ofidios en Venezuela. Universidad Central de Venezuela, Caracas, 362 pp.

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FIGURE 2. Color patterns and color tones variability of Leptophis ahaetulla: (A) An uncollected specimen from road between Georgetown and Iwokrama, Guyana; (B) MPEG 19434 (SVL 688 mm) from Santo Antônio do Tauá, state of Pará, Brazil; (C) An uncollected specimen from Santarém, state of Pará, Brazil; (D) MPEG 24491 (SVL 543 mm) from Marabá, state of Pará, Brazil; (E) An uncollected specimen from Santarém, state of Pará, Brazil; and (F) an uncatalogued IBSP specimen from Peixe, state of Tocantins, Brazil. Note the variation in the extent, width and pigmentation of the pre- and postocular stripes. Photos by A. Srikanthan (A), A. Maciel (B), R. de Fraga (C), N.R. Albuquerque (D), R. Kawashita-Ribeiro (E), and A. Costa (F).

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FIGURE 7. Color patterns and color tones variability of Leptophis bocourti: (A) USNM 285488, an adult from Santo Domingo de los Colorados, 47 km S of Centro Cientifico Río Palenque, province of Los Rios and (B) QCAZ 8023, a juvenile from province of Durango, Ecuador. Used under CC BY-NC-ND 4.0 https://bioweb.bio/galeria/Album/Leptophis%20ahaetulla. Note that the dorsal color in adults is essentially green in life, but in the juvenile specimen, the color of scales in dorsal rows 1–2 is yellow (indicated by the arrow). Further, the dorsum of the juvenile lacks the small, irregularly shaped black spots of adults, suggesting a distinct ontogenetic color change. Photos by R.W. McDiarmid (A) and S. Ron (B).

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FIGURE 8. Distribution of Leptophis bocourti, L. coeruleodorsus, L. occidentalis, L. praestans, and L. urostictus based upon the material examined.

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FIGURE 11. Sulcate (left) and asulcate (right) sides of the hemipenes of Leptophis bolivianus (AMNH 104564) from Estancia Yutiole, department of Beni, Bolivia (A–B); L. coeruleodorsus (TCWC 46262) from municipality of San Fernando de Apure, state of Apure, Venezuela (C–D); L. liocercus (CZGB 1149) from municipality of Ilhéus, state of Bahia, Brazil (E–F). Note that although the hemipenis of CZGB 1149 is slightly bilobed, its sulcus spermaticus remains unbifurcated until the apical portion of the organ; L. nigromarginatus (LPHA 1731) from municipality of Santarém, state of Pará, (G–H); and (TCWC 42177) from Centro Union, departament of Loreto, Peru (I–J). Although the first row of basal spines is small in the four species, the two spines adjacent to sulcus spermaticus are larger than those in other rows. Scale bars = 0.5 cm. Photos by D. Kizirian (A–B) and N.R. Albuquerque (C–J).

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FIGURE 12. Color patterns and color tones of Leptophis coeruleodorsus: (A) An uncollected specimen from Parque del Este, Caracas D.F., Venezuela; (B) An uncollected specimen from Villanueva, Casanare, Colombia; in these specimens, the middorsal area is five and nine scales wide, respectively, at least on the anterior portion of the body; (C) a MVURG specimen (catalog number unknown) from San Juan de los Morros, El Castrero, state of Guarico, Venezuela. Brackets indicate dorsolateral stripe at rows 2–5 and 2–3, respectively. Photos by L.A. Rodríguez J. (A), W. L. Riaño (via Naturalista under license CC-BY-NC 4.0) and M.A. Natera-Mumaw (C).

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FIGURE 13. Paratypes of Leptophis coeruleodorsus. (A) USNM 59931 from “Trinidad”. Note the contact between the last supralabial with the anterior temporal. (B) MCZ 11994 and (C) MCZ 11995 from Tobago, near Milford Bay, SW Tobago. Note the subacuminate snout in profile and the rostral barely visible from above in MCZ 11994 and MCZ 11995, respectively (indicated by the arrows); (D) A specimen from San Juan de los Morros en el Estado Guarico, Venezuela, swallowing an Emeraldeyed Treefrog Boana crepitans (Wied-Neuwied), showing a “normal” rounded snout. Courtesy of Division of Amphibians & Reptiles/NMNH/Smithsonian Institution (A), Courtesy of the Museum of Comparative Zoology and Harvard University (B and C), M.A.Natera-Mumaw (D).

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FIGURE 14. Lateral view of the left side of head of the holotype of Leptophis haileyi (CAS 245313). Note that an azygous scale (indicated by the arrow) prevents contact between the last supralabial and the anterior temporal. Photo by E.J. Ely.

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FIGURE 29. Color patterns and color tones variation of Leptophis occidentalis: (A) FMNH 282688 from Gracias a Díos, Bachi Kiamp, Honduras. Note that only the scales of rows VI–X possess prominent keels at midbody (i.e., before the reduction to 11 dorsal scale rows), which is typical (sensu Oliver 1948) in specimens of L. occidentalis from the Atlantic side of Central America; and (B) Uncollected specimen from El Limón, state of Aragua, Venezuela. The dorsal scales of rows II–XIV possess prominent keels, matching the diagnosis presented by Oliver (1948) to populations from the Pacific side of Central America. Photos by J.R. McCranie (A) and L.A. Rodríguez (B).

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FIGURE 32. Color pattern and color tones of Leptophis praestans: Profile view of the UMMZ 74851 from El Petén, Guatemala. This juvenile specimen retains traces of a postocular stripe (indicated by the arrow) reduced to black margin on eighth and ninth supralabials, occupying lower one-third of anterior temporal and lower one-third of posterior temporal, suggesting a possible ontogenetic change in L. praestans. This condition is absent in adult specimens. Scale bar = 0.5 cm. Photo by N.R. Albuquerque.

Kingdom

Animalia

Phylum

Chordata

Class

Reptilia

Order

Squamata

Family

Colubridae

Genus

Leptophis