Your search keyword '"Lizards growth & development"' showing total 435 results

1. Developmental Patterns Underlying Variation in Form and Function Exhibited by House Gecko Toe Pads.

Author

Griffing AH, Gamble T, Behere A, Higham TE, Keller GM, Resener J, and Sanger TJ

Subjects

Animals, Biological Evolution, Biomechanical Phenomena, Species Specificity, Lizards physiology, Lizards anatomy & histology, Lizards growth & development, Lizards embryology, Toes physiology, Toes anatomy & histology

Abstract

Adhesive toe pads have evolved numerous times over lizard evolutionary history, most notably in geckos. Despite significant variation in adult toe pad morphology across independent origins of toe pads, early developmental patterns of toe pad morphogenesis are similar among distantly related species. In these distant phylogenetic comparisons, toe pad variation is achieved during the later stages of development. We aimed to understand how toe pad variation is generated among species sharing a single evolutionary origin of toe pads (house geckos-Hemidactylus). We investigated toe pad functional variation and developmental patterns in three species of Hemidactylus, ranging from highly scansorial (H. platyurus), to less scansorial (H. turcicus), to fully terrestrial (H. imbricatus). We found that H. platyurus generated significantly greater frictional adhesive force and exhibited much larger toe pad area relative to the other two species. Furthermore, differences in the offset of toe pad extension phase during embryonic development results in the variable morphologies seen in adults. Taken together, we demonstrate how morphological variation is generated in a complex structure during development and how that variation relates in important functional outcomes., (© The Author(s) 2024. Published by Oxford University Press on behalf of the Society for Integrative and Comparative Biology.)

Published

2024

2. A new small-sized Calotes Cuvier (Squamata: Agamidae: Draconinae) from the Subansiri river basin, Arunachal Pradesh, India.

Author

Patel H, Thackeray T, Sheth C, Khandekar A, and Agarwal I

Subjects

Animals, India, Male, Female, Rivers, Phylogeny, Ecosystem, Animal Structures anatomy & histology, Animal Structures growth & development, Organ Size, Lizards classification, Lizards anatomy & histology, Lizards growth & development, Animal Distribution, Body Size

Abstract

We describe a new species of small-sized Calotes from mid-elevation (~1270 m asl.), swidden or shifting cultivation areas in the Subansiri river basin, Upper Subansiri District, Arunachal Pradesh, India. Mitochondrial sequence data (ND2) recovers Calotes sinyik sp. nov. as the closely related sister taxon to an unnamed species from Medog, Tibet; the two falling in a broader clade including C. paulus + C. zolaiking and species of the C. emma and C. mystaceus groups. The new species is 7.8% divergent in ND2 sequence data from the unnamed lineage from Medog and deeply divergent (≥ 21.6-28.1%) from other congeners. The new species can easily be distinguished from regional congeners by its small adult body size (maximum snout to vent length of 65 mm) and heterogenous dorsal scales, and from its closest relatives C. paulus and C. zolaiking by having 54 or 55 midbody scale rows and 42 or 43 vertebral scales. It is likely that many more allied species remain to be discovered from Northeast India, which remains poorly surveyed across taxonomic groups.

Published

2024

3. New species of Gehyra (Squamata: Gekkonidae) from Papua New Guinea.

Author

Kraus F

Subjects

Animals, Papua New Guinea, Female, Male, Body Size, Ecosystem, Organ Size, Animal Structures anatomy & histology, Animal Structures growth & development, Lizards classification, Lizards anatomy & histology, Lizards growth & development, Animal Distribution

Abstract

I describe four new species of Gehyra from New Guinea and immediately adjacent islands. Two of these are giant species that have long been misassigned to either G. vorax or G. membranacruralis; the other two were previously referred to G. oceanica. Each of the new species has a very circumscribed geographic distribution, with one being known from only a single island, a second from a small portion of southeastern New Guinea and immediately adjacent islands, a third from a small archipelago, and the fourth from foothill forest along the northern versant of eastern New Guinea. Three of these species are found only in the Milne Bay Region of southeastern Papua New Guinea, a region previously identified as having a globally high density of narrow-range endemic reptile and amphibian species. These species provide further extension of that pattern by increasing the number of known endemic herpetofaunal species from that small region to 165. Variation in subcaudal shape is taxonomically useful in Gehyra, but its character-state coding must rely on original tails because aberrant development of subcaudals in some regenerated tails could lead to mischaracterization of this feature.

Published

2024

4. Complex ontogeny of sexual size dimorphism in a female-larger gecko: Implications of determinate growth for lizard body size and life-history evolution.

Author

Meter B, Kratochvíl L, Starostová Z, Kučera T, and Kubička L

Subjects

Animals, Female, Male, Lizards growth & development, Lizards anatomy & histology, Body Size, Sex Characteristics, Biological Evolution

Abstract

Ectothermic vertebrates such as reptiles were assumed to be indeterminate growers, which means that there is no terminal point in time or size for growth in their lifetime. In recent years, evidence for the determinate nature of growth in lizards has accumulated, necessitating a re-examination of models of their ontogeny and evolution of sexual size dimorphism (SSD). In the female-larger gecko Paroedura vazimba, we monitored post-embryonic growth over a period of 15 months. After hatching, females grew faster than males but also reached their final body size, that is, closed growth of their vertebrae, earlier than males. The closure of bone growth in females correlates with the onset of reproductive maturation. We compared this pattern with the previously minutely studied, male-larger species Paroedura picta, where we documented determinate growth as well. We propose a model to explain the evolutionary switches in the direction of SSD in lizards based on bipotential effects of ovarian hormones on growth. In this model, male growth is assumed to require no male-specific growth modifier, such as sex-limited hormonal regulators, while growth is feminized by ovarian hormones in females. Low levels of ovarian hormones can promote bone growth, but high levels associated with maturation of the reproductive organs promote senescence of bone growth plates and thus cessation of bone growth. We suggest that models on growth, life-history and evolution of body size in many lizards should acknowledge their determinate nature of growth., (© 2024 The Author(s). Evolution & Development published by Wiley Periodicals LLC.)

Published

2024

5. Amphisbaena lumbricalis Vanzolini, 1996 is a synonym of Amphisbaena carvalhoi Gans, 1965 (Squamata, Amphisbaenidae).

Author

Sales RFD, Caramaschi U, and Freire EMX

Subjects

Animals, Male, Brazil, Female, Animal Structures anatomy & histology, Animal Structures growth & development, Organ Size, Lizards classification, Lizards anatomy & histology, Lizards growth & development, Animal Distribution, Body Size

Abstract

We reassessed the type-series of Amphisbaena lumbricalis Vanzolini, 1996 and Amphisbaena carvalhoi Gans, 1965, two small amphisbaenid species from northeastern Brazil, to evaluate the characters used to diagnose and distinguish them, and compared these data with additional specimens from four new localities. We found broadly overlapping ranges of the diagnostic characters, and no morphological traits that could support differences between A. carvalhoi and A. lumbricalis. Based on the morphological similarities, and the overlapping distribution ranges of both species, we consider A. lumbricalis as a junior synonym of A. carvalhoi. We provide updated data on intraspecific variation in the diagnostic characters of A. carvalhoi.

Published

2024

6. A New Species of the Genus Tropidophorus Duméril, Bibron, 1839 (Reptilia: Squamata: Scincidae) from China-Vietnam Border Region in Southeastern Yunnan Province, China.

Author

Wang K, Li L, Mu HN, Xu SJ, and Che J

Subjects

Animals, China, Male, Female, Vietnam, Organ Size, Animal Structures anatomy & histology, Animal Structures growth & development, Ecosystem, Animal Distribution, Body Size, Phylogeny, Lizards classification, Lizards anatomy & histology, Lizards genetics, Lizards growth & development

Abstract

Based on morphological and genetic data, we describe a new species of Tropidophorus from the tropical karst landscape in southeastern Yunnan Province, China, close to the Vietnam border. Phylogenetically, the new species forms a clade with T. baviensis, T. murphyi, and T. hainanus, with p-distances ranging from 4.7-5.1% for the 16S gene and 3.9-6.8% for 12S gene. Morphologically, the new species shares the karst morphotype of Tropidophorus, particularly similar as T. murphyi and T. baviensis, in which all having a dorsally compressed head and body, smooth dorsal head scales, and distinctively keeled body scales. However, the new species can be distinguished from these similar species by numbers of supralabial scales, ventral scales, scales around the tail at the10th subcaudal, and a larger body size. We emphasize the urgency of conservation for the tropical karst landscape in northern Indochina.

Published

2024

7. A new species in the Cyrtodactylus intermedius (Squamata: Gekkonidae) group from an isolated limestone karst formation in southwestern Cambodia.

Author

Chhin S, Neang T, Chan S, Kong K, Ou R, In V, Samorn V, Sor R, Lou V, Sin S, Chhim M, Stuart BL, and Grismer LL

Subjects

Animals, Cambodia, Male, Female, Body Size, Animal Structures anatomy & histology, Animal Structures growth & development, Organ Size, Lizards classification, Lizards anatomy & histology, Lizards growth & development, Ecosystem, Animal Distribution, Phylogeny

Abstract

The gekkonid lizard Cyrtodactylus intermedius was formerly considered to be a single widespread species in hilly areas across eastern Thailand through southern Vietnam but has recently been partitioned into a complex of 12 nominal species across its range. A population belonging to the C. intermedius group was recently found in an isolated limestone karst block in Kampot Province in southwestern Cambodia, part of which lies within the recently designated Phnom Preah Kuhear Loung Natural Heritage Site. Comparisons of morphometric, meristic, qualitative morphological and color pattern data, as well as a molecular analysis using the mitochondrial ND2 gene, revealed that this population differs from all other named members of the C. intermedius group, and so is described here as a new species. The karst-dwelling C. regicavernicolus sp. nov. was recovered as the sister species to C. laangensis, the most geographically proximate member of the complex and one that is also restricted to a small limestone karst habitat.

Published

2024

8. Another new micro-endemic, limestone-dwelling leaf-toed gecko (Gekkonidae: Dixonius) from Phetchaburi Province, western Thailand.

Author

Donbundit N, Sumontha M, Suthanthangjai M, Suthanthangjai W, and Pauwels OSG

Subjects

Animals, Thailand, Female, Male, Organ Size, Animal Structures anatomy & histology, Animal Structures growth & development, Body Size, Lizards anatomy & histology, Lizards classification, Lizards growth & development, Ecosystem, Animal Distribution

Abstract

We describe Dixonius chotjuckdikuli sp. nov. from Khao Ebid (Mount Ibit), Khao Yoi District, Phetchaburi Province, western Thailand. The new, limestone-dwelling species differs from all currently recognized species of Dixonius by the following combination of morphological characters and pattern: maximal known snout-vent length of 45.6 mm, 18 (rarely 16) longitudinal rows of dorsal tubercles; 31 to 34 paravertebral scales; 18 (rarely 16) longitudinal rows of ventral scales across the abdomen; 20 to 22 interciliary scales; 5 or 6 precloacal pores in males, no pores in females; a marked canthal stripe extending beyond the shoulder; and a blotched dorsal pattern in males, females and juveniles. This description brings the number of Dixonius species to 17, among which seven species are endemic to Thailand.

Published

2024

9. Morphospace analysis leads to an evo-devo model of digit patterning.

Author

Fontanarrosa G, Abdala V, and Dos Santos DA

Subjects

Animals, Body Patterning genetics, Forelimb physiology, Lizards genetics, Lizards growth & development, Models, Biological, Biological Evolution, Body Patterning physiology, Forelimb anatomy & histology, Lizards anatomy & histology, Toes growth & development

Abstract

Biological forms occupy a constrained portion of theoretical morphospaces. Developmental models accounting for empirical morphospaces are necessary to achieve a better understanding of this phenomenon. We analyzed the phalangeal formulas (PFs) in lizards and relatives' hands by comparing them with a set of simulated PFs that compose a theoretical morphospace. We detected that: (1) the empirical morphospace is severely limited in size, (2) the PFs comply with two properties of phalangeal count per digit, namely the ordering rule (DI ≤ DII ≤ DIII ≤ DIV ≥ DV), and the contiguity relationship (neighbor digits differ on average in one phalanx), (3) the totality of the PFs can be categorized into four categories of hands aligned along a feasibility gradient. We also reconstructed the evolution of PFs and found a stepwise trajectory from the plesiomorphic PF towards reduced conditions. Finally, we propose a developmental model as the generative mechanism behind the PFs. It is consistent with the bulk of evidence managed and involves an ordered digit primordia initialization timed with periodic signals of joint formation coming from digit tips. Our approach is also useful to address the study of other meristic sequences in nature such as dental, floral, and branchial formulas., (© 2021 Wiley Periodicals LLC.)

Published

2021

10. Two transcriptionally distinct pathways drive female development in a reptile with both genetic and temperature dependent sex determination.

Author

Whiteley SL, Holleley CE, Wagner S, Blackburn J, Deveson IW, Marshall Graves JA, and Georges A

Subjects

Animals, Female, Lizards growth & development, Male, Sex Determination Analysis methods, Temperature, Transcription, Genetic genetics, Lizards genetics, Sex Chromosomes genetics, Sex Determination Processes genetics, Transcriptome genetics

Abstract

How temperature determines sex remains unknown. A recent hypothesis proposes that conserved cellular mechanisms (calcium and redox; 'CaRe' status) sense temperature and identify genes and regulatory pathways likely to be involved in driving sexual development. We take advantage of the unique sex determining system of the model organism, Pogona vitticeps, to assess predictions of this hypothesis. P. vitticeps has ZZ male: ZW female sex chromosomes whose influence can be overridden in genetic males by high temperatures, causing male-to-female sex reversal. We compare a developmental transcriptome series of ZWf females and temperature sex reversed ZZf females. We demonstrate that early developmental cascades differ dramatically between genetically driven and thermally driven females, later converging to produce a common outcome (ovaries). We show that genes proposed as regulators of thermosensitive sex determination play a role in temperature sex reversal. Our study greatly advances the search for the mechanisms by which temperature determines sex., Competing Interests: The authors have declared that no competing interests exist.

Published

2021

11. Is the natural UV zone important for successful captive propagation of the Panther Chameleon (Furcifer pardalis); are different UVB irradiance exposures that generate a similar dose equally successful?

Author

Ferguson GW, Gehrmann WH, Vaughan MS, Kroh GC, Chase D, Slaets K, and Holick MF

Subjects

Animals, Cholecalciferol biosynthesis, Cholecalciferol radiation effects, Female, Madagascar, Male, Ovum chemistry, Time Factors, Lizards growth & development, Lizards physiology, Reproduction physiology, Ultraviolet Rays

Abstract

While we generally understand the optimal ultraviolet B (UVB) environment for the growth and reproduction of female Panther Chameleons Furcifer pardalis, we do not know the relative importance of UVB irradiance and dose for optimal husbandry outcomes. Accordingly, we experimented with Panther Chameleon females to test the hypothesis that UVB dose (irradiance × exposure duration) determines the outcome, regardless of the combination of UVB irradiance and exposure duration generating the dose. We varied UVB irradiance and exposure duration across treatment groups while keeping dose similar and within a range previously documented to result in reproductive success. The growth rate, age of maturity, and measurable vitamin D status were not significantly different among the treatment groups. Individuals in all groups produced viable eggs that successfully hatched. Thus, we found some support for the hypothesis that the UVB dose determines the outcome regardless of UVB irradiance. However, mean egg vitamin D 3 concentration and percent hatching were higher in the highest UVB irradiance group, despite similar doses among the three groups. Preliminary field data reveal that this species occupies UV irradiance Zone 4 in Madagascar, the highest zone for reptiles recorded. Only the irradiance of the high UVB irradiance group in our experiment approached this zone and resulted in the best reproductive success. Biosynthesis of vitamin D 3 and provisioning to eggs is more efficient when exposure to UVB irradiance is similar to that in their natural environment. Establishing an optimal UVB environment, based on knowledge of the natural UVB environment, is important for the propagation of Panther Chameleons in captivity., (© 2021 Wiley Periodicals LLC.)

Published

2021

12. Transcriptomic and proteomic analysis of Hemidactylus frenatus during initial stages of tail regeneration.

Author

Nagumantri SP, Banu S, and Idris MM

Subjects

Amputation, Surgical, Animals, Lizards genetics, Proteomics, Tail growth & development, Lizards growth & development, Proteome genetics, Regeneration genetics, Tail metabolism, Transcriptome genetics

Abstract

Epimorphic regeneration of appendages is a complex and complete phenomenon found in selected animals. Hemidactylus frenatus, house gecko has the remarkable ability to regenerate the tail tissue upon autotomy involving epimorphic regeneration mechanism. This study has identified and evaluated the molecular changes at gene and protein level during the initial stages, i.e., during the wound healing and repair mechanism initiation stage of tail regeneration. Based on next generation transcriptomics and De novo analysis the transcriptome library of the gecko tail tissue was generated. A total of 254 genes and 128 proteins were found to be associated with the regeneration of gecko tail tissue upon amputation at 1, 2 and 5-day post amputation (dpa) against control, 0-dpa through differential transcriptomic and proteomic analysis. To authenticate the expression analysis, 50 genes were further validated involving RTPCR. 327 genes/proteins identified and mapped from the study showed association for Protein kinase A signaling, Telomerase BAG2 signaling, paxillin signaling, VEGF signaling network pathways based on network pathway analysis. This study empanelled list of transcriptome, proteome and the list of genes/proteins associated with the tail regeneration.

Published

2021

13. Effect of early thermal environment on the morphology and performance of a lizard species with bimodal reproduction.

Author

Beltrán I, Durand V, Loiseleur R, and Whiting MJ

Subjects

Animals, Body Size, Environment, Female, Lizards growth & development, Locomotion, Oviparity, Reproduction, Viviparity, Nonmammalian, Lizards physiology, Temperature

Abstract

Early developmental environments influence life-history traits and survival of reptiles. In fact, rising global temperatures have already caused widespread extinctions among lizards. Viviparous species might be more susceptible to increasing temperatures because of their inability to meet their energetic demands following rapid environmental changes. Nevertheless, we do not yet fully understand how lizards with different reproductive modes can respond to climate change. We investigated the effect of both maternal thermal environment during pregnancy and incubation temperature on hatchling morphology and physiological performance of two populations of the lizard Saiphos equalis differing in their mode of reproduction, to test whether reproductive mode affects the ability to buffer against rising temperatures. Gravid females from both populations were subjected to current or projected end-of-century (future) thermal environments, to evaluate differences in the body size, growth rate, thermal preference, and locomotor performance of their offspring. Our results show that independently of the mode of reproduction, high temperatures accelerated gestation periods. Thermal environments did not affect hatchling thermal preference, but viviparous hatchlings consistently preferred lower temperatures. Unlike viviparous lizards, oviparous hatchlings incubated under future temperatures were smaller and had a lower growth rate compared to current-incubated hatchlings. Finally, thermal environments did not affect hatchling endurance and speed when controlling for body size. Our results show that global warming is likely to have a negative impact on S. equalis, but suggest that some of its effects may be ameliorated by maternal responses during pregnancy, particularly in viviparous populations.

Published

2020

14. Maternal Temperature, Corticosterone, and Body Condition as Mediators of Maternal Effects in Jacky Dragons ( Amphibolurus muricatus ).

Author

Liu G, Cain K, and Schwanz L

Subjects

Animals, Body Size physiology, Clutch Size, Corticosterone blood, Female, Lizards growth & development, Male, Phenotype, Sex Ratio, Lizards physiology, Reproduction physiology, Temperature

Abstract

AbstractTemperature is a crucial environmental component that imposes physiological constraints and ultimately produces variation in life-history traits. Temperatures experienced by mothers can influence offspring phenotypes, including growth and sex ratios, especially in ectothermic species. However, mechanisms by which thermal information can be passed onto offspring have been underexplored. Here, we investigated corticosterone as a potential mediator of thermal maternal effects. We held female jacky dragons ( Amphibolurus muricatus ) in two different thermal regimes (short [7 h] or long [11 h] basking treatments), then quantified plasma corticosterone levels and tested for correlations between the resulting corticosterone levels and reproductive outputs. Lizards in the long-bask treatment had significantly higher corticosterone levels than those in the short-bask treatment. Maternal corticosterone, in turn, had sex-dependent effects on offspring hatching size but was not associated with maternal reproductive effort or offspring sex or growth. In contrast, maternal body condition was strongly positively related to both reproductive output (including clutch size and total number of eggs) and offspring size at hatching but had no effect on offspring growth. Basking treatment also interacted with condition and corticosterone to affect egg mass and hatchling snout-vent length, respectively. When we tested for relationships between corticosterone levels and body condition, we found corticosterone to be negatively related to condition in long-bask lizards but only in the postbreeding season. These findings indicate that thermal opportunity alters physiology, with potential consequences for fitness. Moreover, the results suggest interactive influences of temperature, corticosterone, and condition as mediators of maternal effects.

Published

2020

15. Reproductive cycle and maturation of Swinhoe's tree lizard (Diploderma swinhonis (Günther, 1864)) in Hyuga City, Miyazaki Prefecture, Japan.

Author

Imatake S, Imaizumi N, Ohashi Y, Matsumura H, Urakawa M, Konaka Y, Kida T, Yanagita T, Fujisaki H, Wakitani S, and Yasuda M

Subjects

Animals, Clutch Size, Epididymis anatomy & histology, Female, Introduced Species, Japan, Lizards growth & development, Male, Ovarian Follicle growth & development, Oviducts anatomy & histology, Oviducts physiology, Ovum, Reproduction physiology, Seasons, Seminiferous Tubules anatomy & histology, Spermatogenesis, Testis anatomy & histology, Trees, Genitalia growth & development, Lizards physiology

Abstract

Swinhoe's tree lizard (Diploderma swinhonis) is an arboreal agamid that is native to Taiwan. The species has been introduced to some areas of Japan and is regarded as an invasive alien species. In 2016, a nonnative population of D. swinhonis was discovered in Hyuga City, Miyazaki Prefecture, Japan, but little information was available on the ecology of the population at the time. The main purpose of this study was therefore to investigate the reproductive cycle and maturation of this population. Field research was conducted from 2017 to 2019, and 764 lizards were collected. Euthanized lizards were dissected and the reproductive organs were examined to determine the reproductive period, clutch size, clutch frequency and size at sexual maturity. Females with oviductal eggs or vitellogenic ovarian follicles were observed from May to October. Clutch size ranged from 2 to 8, and clutch frequency was more than twice a year. In males, spermiogenesis started in early May and testicular regression was observed in September. Males with spermatozoa in the epididymides were found from May to November. Minimum snout-vent length at sexual maturity was 50.2 mm in females and 53.0 mm in males. Comparisons of the findings of this study and reports from Taiwan suggest that the nonnative population of D. swinhonis in Hyuga City has a higher fecundity than populations in Taiwan. It is therefore considered necessary to exterminate the population in Hyuga City before this species colonizes other areas.

Published

2020

16. Do all geckos hatch in the same way? Histological and 3D studies of egg tooth morphogenesis in the geckos Eublepharis macularius Blyth 1854 and Lepidodactylus lugubris Duméril & Bibron 1836.

Author

Hermyt M, Metscher B, and Rupik W

Subjects

Animals, Female, Head, Ovum cytology, Ovum ultrastructure, Tooth diagnostic imaging, X-Ray Microtomography, Imaging, Three-Dimensional, Lizards growth & development, Morphogenesis, Ovum growth & development, Tooth growth & development

Abstract

The egg tooth of squamates evolved to facilitate hatching from mineralized eggshells. Squamate reptiles can assist their hatching with a single unpaired egg tooth (unidentates) or double egg teeth (geckos and dibamids). Egg tooth ontogeny in two gekkotan species, the leopard gecko Eublepharis macularius and the mourning gecko Lepidodactylus lugubris, was compared using microtomography, scanning electron microscopy, and light microscopy. Investigated species are characterized by different hardnesses of their eggshells. Leopard geckos eggs have a relatively soft and flexible parchment (leathery) shell, while eggshells of mourning geckos are hard and rigid. Embryos of both species, like other Gekkota, have double egg teeth, but the morphology of these structures differs between the investigated species. These differences in shape, localization, and spatial orientation were present from the earliest stages of embryonic development. In mourning gecko, anlagen of differentiating egg teeth change their position on the palate during embryonic development. Initially they are separated by condensed mesenchyme, but later in development, their enamel organs are connected. In leopard geckos, the localization of egg tooth germs does not change, but their spatial orientation does. Egg teeth of this species shift from inward to outward orientation. This is likely related to differences in structure and mechanical properties of eggshells in the studied species. In investigated species, two hatching mechanisms are possible during emergence of young individuals. We speculate that mourning geckos break the eggshell through puncturing action with egg teeth, similar to the pipping phase of chick and turtles embryos. Egg teeth of leopard geckos cut egg membranes similarly to most squamates. Our results also revealed differences in egg tooth implantation between Gekkota and Unidentata: gekkotan egg teeth are subthecodont (in shallow sockets), while those in unidentates are acrodont (attached to the top of the alveolar ridge). © 2020 Wiley Periodicals LLC., (© 2020 Wiley Periodicals LLC.)

Published

2020

17. Lizard Embryos Prioritize Posthatching Energy Reserves over Increased Hatchling Body Size during Development.

Author

Murphy KM, Radder RS, Shine R, and Warner DA

Subjects

Animals, Body Size, Energy Metabolism, Lizards embryology, Lizards growth & development

Abstract

Embryonic development in oviparous organisms is fueled by maternally allocated yolk, and many organisms hatch before that energy store is used completely; the resultant leftover (residual) yolk is internalized and may support early posthatching life. However, embryos that use most, or all, of their yolk supply before hatching should hatch at a larger size than those that do not exhaust those energy reserves, which could also have benefits for posthatching growth and survival. To examine the trade-off between residual yolk and offspring size, we experimentally reduced yolk quantity at oviposition in lizard eggs ( Amphibolurus muricatus ) and then quantified offspring size and the amount of internalized residual yolk. This design enabled us to determine whether embryos (1) exhaust yolk supply during development (thereby maximizing neonatal size) or (2) reduce neonatal size by retaining yolk reserves at hatching. Our data support the latter scenario. Eggs from the yolk-reduced treatment produced smaller offspring with a proportion of residual yolk similar to that of offspring from unmanipulated eggs, suggesting that the fitness benefits of posthatching energy stores outweigh those of larger neonatal size.

Published

2020

18. Gene expression of the IGF hormones and IGF binding proteins across time and tissues in a model reptile.

Author

Beatty AE and Schwartz TS

Subjects

Animals, Gene Expression Regulation, Developmental, Hormones metabolism, Insulin-Like Growth Factor Binding Proteins genetics, Insulin-Like Growth Factor Binding Proteins metabolism, Insulin-Like Growth Factor I genetics, Insulin-Like Growth Factor I metabolism, Insulin-Like Growth Factor II genetics, Insulin-Like Growth Factor II metabolism, Life Cycle Stages, Lizards genetics, Lizards growth & development, RNA, Messenger genetics, RNA, Messenger metabolism, Signal Transduction, Insulin-Like Growth Factor Binding Proteins biosynthesis, Insulin-Like Growth Factor I biosynthesis, Insulin-Like Growth Factor II biosynthesis, Lizards metabolism

Abstract

The insulin and insulin-like signaling (IIS) network regulates cellular processes including pre- and postnatal growth, cellular development, wound healing, reproduction, and longevity. Despite their importance in the physiology of vertebrates, the study of the specific functions of the top regulators of the IIS network, insulin-like growth factors (IGFs) and IGF binding proteins (IGFBPs), has been mostly limited to a few model organisms. To expand our understanding of this network, we performed quantitative gene expression of IGF hormones in liver and qualitative expression of IGFBPs across tissues and developmental stages in a model reptile, the brown anole lizard ( Anolis sagrei ). We found that lizards express IGF2 across all life stages (preoviposition embryos to adulthood) and at a higher level than IGF1, which is opposite to patterns seen in laboratory rodents but similar to those seen in humans and other vertebrate models. IGFBP expression was ubiquitous across tissues (brain, gonad, heart, liver, skeletal muscle, tail, and regenerating tail) in adults, apart from IGFBP5, which was variable. These findings provide an essential foundation for further developing the anole lizard as a physiological and biomedical reptile model, as well as expanding our understanding of the function of the IIS network across species.

Published

2020

19. Embryonic and post-embryonic responses to high-elevation hypoxia in a low-elevation lizard.

Author

Li X, Wu P, Ma L, Huebner C, Sun B, and Li S

Subjects

Acclimatization, Altitude, Anaerobiosis, Animals, China, Embryo, Nonmammalian physiology, Female, Lizards growth & development, Male, Body Temperature Regulation, Embryonic Development physiology, Lizards physiology, Oxygen metabolism, Phenotype

Abstract

Low-elevation species can migrate toward higher elevations to survive in a warming world. However, animals' responses to hypoxia when migrating to high elevations have rarely been addressed. To identify the response of low-elevation lizards to high-elevation hypoxia, we collected field body temperatures (T fb ) and operative temperatures (T e ) of lizards (Eremias argus) from a low-elevation population (1036 m) and a high-elevation population (2036 m), and then determined adult thermal physiology, embryonic development, and hatchling phenotypes after acclimating low-elevation lizards and incubating their eggs in conditions mimicking the low-elevation oxygen condition (18.5% O 2 ) and high-elevation oxygen (hypoxic) condition (16.5% O 2 ). Our study revealed that T fb and T e were higher for the low-elevation population compared to the high-elevation population. We also found adults from low elevation acclimated to hypoxia preferred lower body temperatures, but did not show changes in locomotor performance or growth. In addition, hypoxia did not affect embryonic development (hatching time and success) or hatchling phenotypes (body size and locomotor performance). These results suggest that adult lizards from low elevations can respond to hypoxia-induced stress when migrating to high elevations by behaviorally thermoregulating to lower body temperatures in order to sustain normal functions. Similarly, low-elevation embryos can develop normally (with unchanged hatching success and offspring phenotypes) under the high-elevation hypoxic condition. This study highlights that low-elevation populations of a species that inhabits a range of elevations can buffer the impact of high-elevation hypoxic conditions to some degree and thus attain similar fitness to the source population., (© 2020 International Society of Zoological Sciences, Institute of Zoology/Chinese Academy of Sciences and John Wiley & Sons Australia, Ltd.)

Published

2020

20. Cross-Species BAC Mapping Highlights Conservation of Chromosome Synteny across Dragon Lizards (Squamata: Agamidae).

Author

Alam SMI, Altmanová M, Prasongmaneerut T, Georges A, Sarre SD, Nielsen SV, Gamble T, Srikulnath K, Rovatsos M, Kratochvíl L, and Ezaz T

Subjects

Animals, Chromosomes, Artificial, Bacterial genetics, Cytogenetics methods, Female, Karyotyping, Lizards genetics, Lizards growth & development, Sex Determination Analysis methods, Snakes genetics, Snakes growth & development, Evolution, Molecular, Sex Chromosomes genetics, Sex Determination Processes genetics, Synteny genetics

Abstract

Dragon lizards (Squamata: Agamidae) comprise about 520 species in six subfamilies distributed across Asia, Australasia and Africa. Only five species are known to have sex chromosomes. All of them possess ZZ/ZW sex chromosomes, which are microchromosomes in four species from the subfamily Amphibolurinae, but much larger in Phrynocephalus vlangalii from the subfamily Agaminae. In most previous studies of these sex chromosomes, the focus has been on Australian species from the subfamily Amphibolurinae, but only the sex chromosomes of the Australian central bearded dragon ( Pogona vitticeps ) are well-characterized cytogenetically. To determine the level of synteny of the sex chromosomes of P. vitticeps across agamid subfamilies, we performed cross-species two-colour FISH using two bacterial artificial chromosome (BAC) clones from the pseudo-autosomal regions of P. vitticeps . We mapped these two BACs across representative species from all six subfamilies as well as two species of chameleons, the sister group to agamids. We found that one of these BAC sequences is conserved in macrochromosomes and the other in microchromosomes across the agamid lineages. However, within the Amphibolurinae, there is evidence of multiple chromosomal rearrangements with one of the BACs mapping to the second-largest chromosome pair and to the microchromosomes in multiple species including the sex chromosomes of P. vitticeps . Intriguingly, no hybridization signal was observed in chameleons for either of these BACs, suggesting a likely agamid origin of these sequences. Our study shows lineage-specific evolution of sequences/syntenic blocks and successive rearrangements and reveals a complex history of sequences leading to their association with important biological processes such as the evolution of sex chromosomes and sex determination.

Published

2020

21. Transcriptome sequencing reveals signatures of positive selection in the Spot-Tailed Earless Lizard.

Author

Maldonado JA, Firneno TJ Jr, Roelke CE, Rains ND, Mwgiri J, and Fujita MK

Subjects

Animals, Genome genetics, High-Throughput Nucleotide Sequencing, Lizards growth & development, Phylogeny, Sequence Analysis, RNA, Exome Sequencing, Biodiversity, Lizards genetics, Selection, Genetic genetics, Transcriptome genetics

Abstract

The continual loss of threatened biodiversity is occurring at an accelerated pace. High-throughput sequencing technologies are now providing opportunities to address this issue by aiding in the generation of molecular data for many understudied species of high conservation interest. Our overall goal of this study was to begin building the genomic resources to continue investigations and conservation of the Spot-Tailed Earless lizard. Here we leverage the power of high-throughput sequencing to generate the liver transcriptome for the Northern Spot-Tailed Earless Lizard (Holbrookia lacerata) and Southern Spot-Tailed Earless Lizard (Holbrookia subcaudalis), which have declined in abundance in the past decades, and their sister species, the Common Lesser Earless Lizard (Holbrookia maculata). Our efforts produced high quality and robust transcriptome assemblies validated by 1) quantifying the number of processed reads represented in the transcriptome assembly and 2) quantifying the number of highly conserved single-copy orthologs that are present in our transcript set using the BUSCO pipeline. We found 1,361 1-to-1 orthologs among the three Holbrookia species, Anolis carolinensis, and Sceloporus undulatus. We carried out dN/dS selection tests using a branch-sites model and identified a dozen genes that experienced positive selection in the Holbrookia lineage with functions in development, immunity, and metabolism. Our single-copy orthologous sequences additionally revealed significant pairwise sequence divergence (~.73%) between the Northern H. lacerata and Southern H. subcaudalis that further supports the recent elevation of the Southern Spot-Tailed Earless Lizard to full species., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

22. Cytogenetic mechanisms of unisexuality in rock lizards.

Author

Spangenberg V, Arakelyan M, Cioffi MB, Liehr T, Al-Rikabi A, Martynova E, Danielyan F, Stepanyan I, Galoyan E, and Kolomiets O

Subjects

Animals, Chromosomes, In Situ Hybridization, Fluorescence, Karyotype, Lizards growth & development, Meiosis, Oocytes metabolism, Oogenesis, Comparative Genomic Hybridization methods, Lizards genetics

Abstract

Darevskia rock lizards is a unique complex taxa, including more than thirty species, seven of which are parthenogenetic. In mixed populations of Darevskia lizards, tri- and tetraploid forms can be found. The most important issues in the theory of reticulate evolution of Darevskia lizards are the origin of parthenogenetic species and their taxonomic position. However, there is little data on how meiosis proceeds in these species. The present work reports the complex results of cytogenetics in a diploid parthenogenetic species - D. unisexualis. Here we detail the meiotic prophase I progression and the specific features оf mitotic chromosomes organization. The stages of meiosis prophase I were investigated by immunocytochemical analysis of preparations obtained from isolated primary oocytes of D. unisexualis in comparison with maternal species D. raddei nairensis. It has been shown that in D. unisexualis at the leptotene-zygotene stages the axial elements and the synaptonemal complex (SC) form typical "bouquets". At the pachytene-diplotene stage, 18 autosomal SC-bivalents and thickened asynapted sex Z and w univalents were observed. The presence of SYCP1 protein between the lateral elements of autosomal chromosomes proved the formation of assembled SCs. Comparative genomic hybridization (CGH) on the mitotic metaphase chromosomes of D. unisexualis was carried out using the genomic DNA isolated from the parental species D. raddei nairensis and D. valentini. In the pericentromeric regions of half of the mitotic chromosomes of D. unisexualis, specific regions inherited from maternal species have been found. Following our results, we suggest a model for diploid germ cells formation from diploid oocytes without premeiotic duplication of chromosomes in the oogenesis of diploid parthenogenetic lizards D. unisexualis. Taken as a whole, our findings confirm the hybrid nature of D. unisexualis and shed light on heterozygosity and automixis in diploid parthenogenetic forms.

Published

2020

23. Differential effects of habitat loss on occupancy patterns of the eastern green lizard Lacerta viridis at the core and periphery of its distribution range.

Author

Prieto-Ramirez AM, Röhler L, Cord AF, Pe'er G, Rödder D, and Henle K

Subjects

Animals, Bulgaria, Czech Republic, Ecology methods, Ecosystem, Probability, Lizards growth & development

Abstract

The effects of habitat loss on the distribution of populations are often linked with species specialization degree. Specialist species can be more affected by changes in landscape structure and local patch characteristics compared to generalist species. Moreover, the spatial scale at which different land covers (eg. habitat, cropland, urban areas) affect specialist species can be smaller. Specialization is usually assumed as a constant trait along the distribution range of species. However, for several taxa, there is evidence of higher specialization degree in peripheral populations compared with populations in the core. Hence, peripheral populations should have a higher sensitivity to habitat loss, and strongest effects should be found at a smaller spatial scale. To test these expectations, we implemented a patch-landscape approach at different spatial scales, and compared effects of landscape structure and patch characteristics on occupancy probability among northern peripheral, more specialized populations (Czech Republic) and core populations (Bulgaria) of the eastern green lizard Lacerta viridis. We found that landscape structure and patch characteristics affect differently the occupancy probability of Lacerta viridis in each region. Strongest effects of habitat loss were found at a spatial scale of 150m around patches in the periphery, but at a scale of 500m in the core. In the periphery occupancy probability of populations was principally affected by landscape composition, and the effect of habitat quality was stronger compared to core populations. In the core, persistence of populations was mainly explained by characteristics of the spatial configuration of habitat patches. We discuss possible ecological mechanisms behind the relationship between sensitivity to habitat loss, populations' specialization degree and position in the distribution range, and suggest conservation measures for L. viridis., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

24. Acclimation to Water Restriction Implies Different Paces for Behavioral and Physiological Responses in a Lizard Species.

Author

Rozen-Rechels D, Dupoué A, Meylan S, Qitout K, Decencière B, Agostini S, and Le Galliard JF

Subjects

Acclimatization physiology, Animals, Female, Lizards growth & development, Lizards metabolism, Male, Sex Factors, Water Loss, Insensible, Behavior, Animal physiology, Lizards physiology, Water Deprivation physiology

Abstract

Chronic changes in climate conditions may select for acclimation responses in terrestrial animals living in fluctuating environments, and beneficial acclimation responses may be key to the resilience of these species to global changes. Despite evidence that climate warming induces changes in water availability, acclimation responses to water restriction are understudied compared with thermal acclimation. In addition, acclimation responses may involve different modes, paces, and trade-offs between physiological and behavioral traits. Here, we tested the dynamical acclimation responses of a dry-skinned terrestrial ectotherm to chronic water restriction. Yearling common lizards ( Zootoca vivipara ) were exposed to sublethal water restriction during 2 mo of the summer season in laboratory conditions, then released in outdoor conditions for 10 additional months. Candidate behavioral (exploration, basking, and thermal preferences) and physiological (metabolism at rest and standard water loss rate) traits potentially involved in the acclimation response were measured repeatedly during and after water restriction. We observed a sequential acclimation response in water-restricted animals (yearlings spent less time basking during the first weeks of water deprivation) that was followed by delayed sex-specific physiological consequences of the water restriction during the following months (thermal depression in males and lower standard evaporative water loss rates in females). Despite short-term negative effects of water restriction on body growth, annual growth, survival, and reproduction were not significantly different between water-restricted and control yearlings. This demonstrates that beneficial acclimation responses to water restriction involve both short-term flexible behavioral responses and delayed changes in thermal and water biology traits.

Published

2020

25. Little if any role of male gonadal androgens in ontogeny of sexual dimorphism in body size and cranial casque in chameleons.

Author

Bauerová A, Kratochvíl L, and Kubička L

Subjects

Androgens genetics, Animals, Body Size genetics, Castration, Female, Gonads metabolism, Lizards anatomy & histology, Lizards genetics, Lizards metabolism, Male, Skull anatomy & histology, Skull metabolism, Testosterone genetics, Androgens metabolism, Lizards growth & development, Sex Characteristics, Testosterone metabolism

Abstract

Proximate control of the development of sexual dimorphism is still hotly debated in reptiles. In some squamates, many male-typical exaggerated traits including body size were assumed to be controlled by masculinization by male gonadal androgens. We performed a manipulative experiment to test the importance of this mechanism in the development of pronounced sexual differences in body size and size of head casque in the chameleon Chamaeleo calyptratus. Castrated males attained male-typical body size highly deviating from the body size of control females. Ontogenetic allometries of casque size on head length revealed that sexes depart considerably in casque growth later in the ontogeny; however, castrated males still follow male-typical casque growth. Paradoxically, exogenous testosterone led in females to slight increase of casque size, which might reflect interference with the feminizing effects of female gonadal hormones. The results in males strongly suggest that masculinization by male gonadal androgens during growth is not required for the development of sexual dimorphism in body size and casque size in the chameleon. The ontogeny of sexually dimorphic body size and exaggerated traits in at least some squamates is likely controlled by other proximate mechanism, possibly by feminization by ovarian hormones.

Published

2020

26. Gonadal disruption after single dose exposure of prothioconazole and prothioconazole-desthio in male lizards (Eremias argus).

Author

Xie Y, Jiang H, Chang J, Wang Y, Li J, and Wang H

Subjects

Administration, Oral, Animals, Estradiol blood, Lizards blood, Male, Reproduction drug effects, Spermatogenesis drug effects, Testis pathology, Testosterone blood, Endocrine Disruptors toxicity, Fungicides, Industrial toxicity, Lizards growth & development, Testis drug effects, Triazoles toxicity

Abstract

Prothioconazole (PTC) is a widely used triazole fungicide with low toxicity, and its desulfurization metabolite, prothioconazole-desthio (PTC-d), is reported to have higher reproductive toxicity to mammals. However, little is known about the reproductive toxicity, much less endocrine disrupting effect, of these two chemicals on reptiles. In this study, we investigated the effects of single dose of PTC/PTC-d (100 mg kg -1 body weight) exposure on the pathomorphism of testes and epididymides, serum sex steroid hormones (testosterone and 17β-estradiol) and transcription of steroidogenic-related genes (STARD, cyp11A, cyp17, cyp19A, 17β-HSD, 3β-HSD, AR and ER-α) in gonads of male lizards (Eremias argus). Although structural disorder existed in PTC-d exposure group, severe gonadal disruption, especially suppression of spermatogenesis was only observed in testis after PTC treatment, which consequently led to the lack of spermatozoa in epididymal ducts. Consistent with this result, T/E 2 value in PTC exposure was elevated to a significant higher level compared with control and continually increased over time, while T/E 2 value in the PTC-d exposure group slightly increased only at 12 h. These results demonstrated a more serious disruption of PTC on male lizard gonads than PTC-d. In addition, the expression of cyp17 gene was inhibited at 6 h, however, was induced at 12 h, and exhibited negative correlations with STARD, cyp11A and 3β-HSD after PTC exposure at each timepoint. In PTC-d group, the expression of STARD and 3β-HSD were significantly down-regulated, in contrast, cyp11A and cyp17 were up-regulated, and each gene showed consistent changes over time. For 17β-HSD, no significance was observed in both treated groups. This study was the first to compare the gonadal disruption of PTC and PTC-d in male lizards and elucidated that these two chemicals influenced the physiological function of male gonads through differential transcriptional modulation., (Copyright © 2019 Elsevier Ltd. All rights reserved.)

Published

2019

27. How epidemiological patterns shift across populations in an exotic lizard.

Author

Bezerra CH, Pinheiro LT, Melo GC, Braga RR, Anjos LA, and Borges-Nojosa DM

Subjects

Animals, Body Size, Brazil epidemiology, Ecosystem, Female, Lizards classification, Lizards growth & development, Male, Parasites classification, Parasites genetics, Parasites physiology, Parasitic Diseases, Animal epidemiology, Lizards parasitology, Parasites isolation & purification, Parasitic Diseases, Animal parasitology

Abstract

Several factors influence the dynamics and structure of parasite communities. Our goal was to investigate how the community composition, prevalence and abundance of parasites change across seven populations of the exotic lizard Hemidactylus mabouia in Northeast Brazil, and to describe ontogenetic and sex variations. We found differences in the composition of component communities and patterns of infection according to the host body size across the lizard populations. We did not find any variation between the sexes regarding epidemiological patterns, which can probably be explained by the similar diet and habitat use of male and female H. mabouia. An unusually high abundance and prevalence of trematodes infecting this host lizard was apparent when we compared other native lizard hosts, and we suggest that local environmental conditions might be advantageous to the development and life cycle of these parasites due to the abundance of all the intermediate and definitive hosts.

Published

2019

28. Climate change effects on population dynamics of three species of Amazonian lizards.

Author

Diele-Viegas LM, Werneck FP, and Rocha CFD

Subjects

Animals, Confidence Intervals, Population Dynamics, South America, Species Specificity, Climate Change, Lizards growth & development

Abstract

The scarcity of data on natural history and ecology of lizards still limits the understanding of population dynamics for many species. We attempt to evaluate possible effects of climate change on the population dynamics of three lizard species (Ameiva ameiva, Gonatodes humeralis and Norops fuscoauratus) in two Amazonian localities (Caxiuanã National Forest and Ducke Reserve). We calculated a tolerance index combining environmental thermal adequacy with the b-d model, which consider survival and reproductive rates to calculate population dynamics. Thus, we simulated population growth rates based on current and future environmental operative temperatures, considering an optimistic and a business-as-usual scenario of greenhouse gases emissions (GGE), and evaluate if the sensitivity of life history traits to population growth rate are likely to be trigged by climate change. Our results demonstrated that both populations of G. humeralis and the Ducke population of N. fuscoauratus may become locally extinct under both scenarios of GGE, while both populations of A. ameiva are likely to decrease, but without reaching a scenario of local extirpation. This study represents the first effort to evaluate the sensitivity of lizard populations and elasticity to climate change and demonstrate the geographic variability of these traits in three widespread and habitat-generalist species. We highlight the need of new studies focusing on species with different biological trait patterns, such as endemic distributions and habitat-specialists, to provide the theoretical and empirical basis for biologically informed conservation strategies and actions, in order to minimize the potential extinction of populations due to climate change., (Copyright © 2019 Elsevier Inc. All rights reserved.)

Published

2019

29. Stimulation of regenerative blastema formation in lizards as a model to analyze limb regeneration in amniotes.

Author

Alibardi L

Subjects

Amphibians growth & development, Animals, Fishes growth & development, Metamorphosis, Biological physiology, Extremities physiology, Lizards growth & development, Organogenesis physiology, Regeneration physiology

Abstract

The hypothesis here presented tries to explain why organ regeneration is present in fish and amphibians (anamniotes) but is absent in reptiles, birds and mammals (amniotes). Anamniotes possess complex life cycles including larvae and metamorphosis stages, the latter representing a physiological form of organ destruction and regeneration coded in their genome that can be reactivated in adults in the form of regeneration. Part of the genome for larvae and metamorphosis phases was likely lost in amniotes with the evolution of direct development, the potentiation of the immune system and the increase in complexity of the nervous system. These events consequently determined incapability for organ regeneration in extant amniotes with the exception of the lizard tail. This likely derives from the evolution of a mechanism of immunosuppression that allows the regeneration of the tail although the complete morphogenetic plane of tail embryogenesis is lost. The lizard model of imperfect but outstanding organ regeneration indicates the possibility to improve organ regeneration also in other amniotes. In fact, the induction of a blastema in the amputated lizard limb has stimulated the formation of short limbs containing cartilaginous bones of the femur, tibia and fibula, and these experiments foster some hope for future attempts to induce limb and digit regeneration also in mammals.

Published

2019

30. The Cephalic Osteoderms of Varanus komodoensis as Revealed by High-Resolution X-Ray Computed Tomography.

Author

Maisano JA, Laduc TJ, Bell CJ, and Barber D

Subjects

Animals, Lizards growth & development, Male, Skull diagnostic imaging, Skull growth & development, Imaging, Three-Dimensional, Lizards anatomy & histology, Osteogenesis, Skull anatomy & histology, Tomography, X-Ray Computed

Abstract

Osteoderms constitute a morphological system that plays an important role in squamate systematics. However, their study and visualization have always been difficult due to their isolated occurrence in the skin, among the first organs to be removed during the skeletonization process. High-resolution X-ray computed tomography (HRXCT) offers a nondestructive means of visualizing osteoderms both in their natural relationship to each other and to the underlying cranial bones. Although it is often stated that Varanus komodoensis has a "chain mail" of osteoderms, this morphological system was never described in this taxon. Further, given its size, it might be expected that V. komodoensis would present the extreme of osteoderm development in extant varanids, a group that tends to have weakly developed osteoderms or none at all. Indeed, our HRXCT scan of a 19-year-old captive individual reveals an elaborate mesh of cephalic osteoderms that are incredibly numerous and morphologically diverse. We describe this skeletal system and compare it to the cephalic osteoderms in other varanoids. Anat Rec, 302:1675-1680, 2019. © 2019 American Association for Anatomy., (© 2019 American Association for Anatomy.)

Published

2019

31. Review: The Regenerating Tail Blastema of Lizards as a Model to Study Organ Regeneration and Tumor Growth Regulation in Amniotes.

Author

Alibardi L

Subjects

Animals, Cell Differentiation, Cell Proliferation, Lizards embryology, Disease Models, Animal, Extremities growth & development, Lizards growth & development, Neoplasms pathology, Organogenesis, Regeneration, Tail cytology

Abstract

Tail regeneration in lizards is a unique case of organ regeneration among amniotes. The Review summarizes past and recent studies indicating that tail regeneration utilizes numerous signaling pathways typical for tumor growth. The regenerative blastema-cone contains sparse proliferating cells that utilize coding and noncoding RNAs in an environment rich in water and hyaluronate, as typical for tumor outgrowth. Differently from tumors, the blastema appears as a polarized outgrowth where the distal region contains proliferating cells mainly driven by the up-regulation of Wnt, snoRNAs, and associated onco-genes. The down-regulation of immune-genes coupled with the high production of hyaluronate coating blastema cells likely protect them from attach by immune cells. Immunoevasion of blastema cells allows the proliferation and migration necessary for the morphogenesis of a new tail. Transcriptome and immunolabeling data suggest that gradients for wnts, shh, msx, and signaling receptors are present in the tail blastema. It is hypothesized that cells along these gradients activate different genes, including tumor suppressors that are expressed in more proximal regions where cells stop proliferating and differentiate into tissues of the new tail. The continuous proliferation at the apex of the blastema is turned into a regulated growth in more proximal regions near the original tail. In contrast, it is hypothesized that no or nonresponding gradients of signaling proteins are present in tumor outgrowths so that cell proliferation but no differentiation occurs in expanding tumors. Considering signaling gradients, the lizard model of regeneration can help in understanding the lack of regulation of tumor growth. Anat Rec, 302:1469-1490, 2019. © 2018 American Association for Anatomy., (© 2018 American Association for Anatomy.)

Published

2019

32. Egg incubation temperature influences the growth and foraging behaviour of juvenile lizards.

Author

Siviter H, Deeming DC, and Wilkinson A

Subjects

Animals, Female, Running, Appetitive Behavior physiology, Lizards growth & development, Ovum growth & development, Temperature

Abstract

After laying their eggs, oviparous reptiles are reliant on the external environment to provide the required incubation conditions for successful embryonic development. Egg incubation temperature can impact the behaviour of various species of reptiles, but previous experiments have focused on the impact of incubation environment on hatchlings, with only a limited number of studies focussing on the longer-term behavioural consequences of incubation environment. This study investigated the effects of developmental environment on bearded dragon lizards (Pogona vitticeps) that were incubated at different temperatures within the natural range; half of them were incubated at a 'hot' temperature (30 ± 3 °C) and half at a 'cold' temperature (27 ± 3 °C). The growth and foraging behaviour of the lizards was then compared over 18 weeks of development. Although the lizards incubated at a cool temperatures grew more quickly, those incubated at the hotter temperature completed the foraging task more often and had significantly faster running speeds. These results show that egg incubation temperature impacts the foraging behaviour of juvenile lizards and suggest a potential trade-off between growth and foraging speed, which could influence an animal's life history trajectory., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

33. Ontogenetic scaling patterns of lizard skin surface structure as revealed by gel-based stereo-profilometry.

Author

Baeckens S, Wainwright DK, Weaver JC, Irschick DJ, and Losos JB

Subjects

Animal Scales growth & development, Animals, Body Size, Imaging, Three-Dimensional, Lizards growth & development, Male, Animal Scales anatomy & histology, Biometry methods, Lizards anatomy & histology

Abstract

The skin surface structure of squamate reptiles varies greatly among species, likely because it plays a key role in a range of tasks, such as camouflage, locomotion, self-cleaning, mitigation of water loss and protection from physical damage. Although we have foundational knowledge about squamate skin morphology, we still know remarkably little about how intraspecific variation in skin surface structure translates to functional variation. This gap in our understanding can be in part traced back to: (i) our lack of knowledge on how body size determines skin surface structure; and (ii) the lack of means to perform high-throughput and detailed analysis of the three-dimensional (3D) anatomy of reptilian skin surfaces in a non-destructive manner. To fill this gap, we explored the possibilities of a new imaging technique, termed gel-based stereo-profilometry, to visualize and quantify the 3D topography of reptilian skin surface structure. Using this novel approach, we investigated intra-specific and intra-individual variation in the skin surface morphology of a focal lizard species, Anolis cristatellus. We assessed how various characteristics of surface topography (roughness, skew and kurtosis) and scale morphology (area, height, width and shape) scale with body size across different body regions. Based on an ontogenetic series of A. cristatellus males, we show that skin roughness increases with body size. Skin patches on the ventral body region of lizards were rougher than on the dorsum, but this was a consequence of ventral scales being larger than dorsal scales. Dorsal surface skew and kurtosis varied with body size, but surfaces on the ventral skin showed no such relationship. Scale size scaled isometrically with body size, and while ventral scales differed in shape from dorsal scales, scale shape did not change with ontogeny. Overall, this study demonstrates that gel-based stereo-profilometry is a promising method to rapidly assess the 3D surface structure of reptilian skin at the microscopic level. Additionally, our findings of the explanatory power of body size on skin surface diversity provide a foundation for future studies to disentangle the relationships among morphological, functional and ecological diversity in squamate reptile skin surfaces., (© 2019 Anatomical Society.)

Published

2019

34. Transplanting gravid lizards to high elevation alters maternal and embryonic oxygen physiology, but not reproductive success or hatchling phenotype.

Author

Kouyoumdjian L, Gangloff EJ, Souchet J, Cordero GA, Dupoué A, and Aubret F

Subjects

Animals, Embryo, Nonmammalian physiology, Female, France, Lizards growth & development, Reproduction, Altitude, Embryonic Development physiology, Lizards physiology, Oxygen physiology, Phenotype

Abstract

Increased global temperatures have opened previously inhospitable habitats, such as at higher elevations. However, the reduction of oxygen partial pressure with increase in elevation represents an important physiological constraint that may limit colonization of such habitats, even if the thermal niche is appropriate. To test the mechanisms underlying the response to ecologically relevant levels of hypoxia, we performed a translocation experiment with the common wall lizard ( Podarcis muralis ), a widespread European lizard amenable to establishing populations outside its natural range. We investigated the impacts of hypoxia on the oxygen physiology and reproductive output of gravid common wall lizards and the subsequent development and morphology of their offspring. Lowland females transplanted to high elevations increased their haematocrit and haemoglobin concentration within days and maintained routine metabolism compared with lizards kept at native elevations. However, transplanted lizards suffered from increased reactive oxygen metabolite production near the oviposition date, suggesting a cost of reproduction at high elevation. Transplanted females and females native to different elevations did not differ in reproductive output (clutch size, egg mass, relative clutch mass or embryonic stage at oviposition) or in post-oviposition body condition. Developing embryos reduced heart rates and prolonged incubation times at high elevations within the native range and at extreme high elevations beyond the current range, but this reduced oxygen availability did not affect metabolic rate, hatching success or hatchling size. These results suggest that this opportunistic colonizer is capable of successfully responding to novel environmental constraints in these important life-history stages., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2019. Published by The Company of Biologists Ltd.)

Published

2019

35. Are hemipenial traits under sexual selection in Tropidurus lizards? Hemipenial development, male and female genital morphology, allometry and coevolution in Tropidurus torquatus (Squamata: Tropiduridae).

Author

De-Lima AKS, Paschoaletto IP, Pinho LO, Benmamman P, and Klaczko J

Subjects

Animals, Biological Evolution, Female, Genitalia, Female growth & development, Genitalia, Male growth & development, Lizards anatomy & histology, Male, Phylogeny, Selection, Genetic, Sexual Behavior, Genitalia, Female anatomy & histology, Genitalia, Male anatomy & histology, Lizards growth & development

Abstract

Male genitalia show considerable morphological variation among animals with internal fertilization and exhibit a high level of evolvability in lizards. Studies have suggested that sexual selection may be driving hemipenial evolution against natural selection and pleiotropy. Given the direct interaction of male and female genitals, coevolution of the aforementioned is posited by several hypotheses of genital evolution. However, there are only a few studies on female genitalia morphology, resulting in a lack of coevolution description and understanding. Studies of allometric patterns have filled some gaps by answering questions about male genital evolution and could prove a powerful tool in clarifying coevolution between male and female genitals. Here, we studied the genital morphology of Tropidurus torquatus. This Tropidurus lizard species is an emerging Neotropical lizard model organism notable for having enlarged hemipenial lobes in contrast with other tropidurid species. In this study, we analyzed hemipenial development in early and late stages, describing both morphological variation and ontogenetic allometric pattern. We used quantitative traits to describe male and female genital morphology, examining their static allometric patterns and correspondence. Our study provides a quantitative discussion on the evolution of lizard genitals, suggesting that sexual selection plays an important role in genital evolution in Tropidurus lizards., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

36. Lizards possess the most complete tetrapod Hox gene repertoire despite pervasive structural changes in Hox clusters.

Author

Feiner N and Wood NJ

Subjects

Amino Acid Sequence, Animals, Gene Expression Regulation, Developmental, Genes, Homeobox physiology, Homeodomain Proteins genetics, Lizards growth & development, Snakes genetics, Evolution, Molecular, Genes, Homeobox genetics, Genome, Lizards genetics, Multigene Family genetics, Phylogeny

Abstract

Hox genes are a remarkable example of conservation in animal development and their nested expression along the head-to-tail axis orchestrates embryonic patterning. Early in vertebrate history, two duplications led to the emergence of four Hox clusters (A-D) and redundancy within paralog groups has been partially accommodated with gene losses. Here we conduct an inventory of squamate Hox genes using the genomes of 10 lizard and 7 snake species. Although the HoxC1 gene has been hypothesized to be lost in the amniote ancestor, we reveal that it is retained in lizards. In contrast, all snakes lack functional HoxC1 and -D12 genes. Varying levels of degradation suggest differences in the process of gene loss between the two genes. The vertebrate HoxC1 gene is prone to gene loss and its functional domains are more variable than those of other Hox1 genes. We describe for the first time the HoxC1 expression patterns in tetrapods. HoxC1 is broadly expressed during development in the diencephalon, the neural tube, dorsal root ganglia, and limb buds in two lizard species. Our study emphasizes the value of revisiting Hox gene repertoires by densely sampling taxonomic groups and its feasibility owing to growing sequence resources in evaluating gene repertoires across taxa., (© 2019 Wiley Periodicals, Inc.)

Published

2019

37. Comparing developmental stability in unisexual and bisexual rock lizards of the genus Darevskia.

Author

Abramjan A, Frýdlová P, Jančúchová-Lásková J, Suchomelová P, Landová E, Yavruyan E, and Frynta D

Subjects

Animal Scales, Animals, Body Patterning, Female, Male, Parthenogenesis, Sex Characteristics, Species Specificity, Lizards genetics, Lizards growth & development

Abstract

Parthenogenetic species are usually considered to be short-lived due to the accumulation of adverse mutations, lack of genetic variability, and inability to adapt to changing environment. If so, one may expect that the phenotype of clonal organisms may reflect such genetic and/or environmental stress. To test this hypothesis, we compared the developmental stability of bisexual and parthenogenetic lizards of the genus Darevskia. We assessed asymmetries in three meristic traits: ventral, preanal, and supratemporal scales. Our results suggest that the amount of ventral and preanal asymmetries is significantly higher in clones compared with their maternal, but not paternal, progenitor species. However, it is questionable, whether this is a consequence of clonality, as it may be considered a mild form of outbreeding depression as well. Moreover, most ventral asymmetries were found in the bisexual species Darevskia valentini. We suggest that greater differences in asymmetry levels among bisexuals may be, for instance, a consequence of the population size: the smaller the population, the higher the inbreeding and the developmental instability. On the basis of the traits examined in this study, the parthenogens do not seem to be of significantly poorer quality., (© 2019 Wiley Periodicals, Inc.)

Published

2019

38. Mathematical models with frills.

Author

Haas PA

Subjects

Animals, Humans, Lizards genetics, Models, Biological, Neck physiology, Lizards growth & development, Mechanical Phenomena, Models, Theoretical, Morphogenesis genetics

Abstract

The spectacular frill around the neck of the lizard Chlamydosaurus has its origins in a mechanical instability that arises during development., Competing Interests: PH No competing interests declared, (© 2019, Haas.)

Published

2019

39. Isolating and quantifying the role of developmental noise in generating phenotypic variation.

Author

Kiskowski M, Glimm T, Moreno N, Gamble T, and Chiari Y

Subjects

Animals, Body Patterning physiology, Lizards growth & development, Lizards physiology, Skin Pigmentation physiology, Biological Evolution, Computational Biology methods, Genotype, Phenotype

Abstract

Genotypic variation, environmental variation, and their interaction may produce variation in the developmental process and cause phenotypic differences among individuals. Developmental noise, which arises during development from stochasticity in cellular and molecular processes when genotype and environment are fixed, also contributes to phenotypic variation. While evolutionary biology has long focused on teasing apart the relative contribution of genes and environment to phenotypic variation, our understanding of the role of developmental noise has lagged due to technical difficulties in directly measuring the contribution of developmental noise. The influence of developmental noise is likely underestimated in studies of phenotypic variation due to intrinsic mechanisms within organisms that stabilize phenotypes and decrease variation. Since we are just beginning to appreciate the extent to which phenotypic variation due to stochasticity is potentially adaptive, the contribution of developmental noise to phenotypic variation must be separated and measured to fully understand its role in evolution. Here, we show that variation in the component of the developmental process corresponding to environmental and genetic factors (here treated together as a unit called the LALI-type) versus the contribution of developmental noise, can be distinguished for leopard gecko (Eublepharis macularius) head color patterns using mathematical simulations that model the role of random variation (corresponding to developmental noise) in patterning. Specifically, we modified the parameters of simulations corresponding to variation in the LALI-type to generate the full range of phenotypic variation in color pattern seen on the heads of eight leopard geckos. We observed that over the range of these parameters, variation in color pattern due to LALI-type variation exceeds that due to developmental noise in the studied gecko cohort. However, the effect of developmental noise on patterning is also substantial. Our approach addresses one of the major goals of evolutionary biology: to quantify the role of stochasticity in shaping phenotypic variation., Competing Interests: The authors have declared that no competing interests exist.

Published

2019

40. Distribution, metabolism and hepatotoxicity of neonicotinoids in small farmland lizard and their effects on GH/IGF axis.

Author

Wang Y, Zhang Y, Li W, Yang L, and Guo B

Subjects

Animals, China, Environmental Pollutants pharmacokinetics, Farms, Female, Gene Expression drug effects, Growth Hormone genetics, Growth Hormone metabolism, Insecticides pharmacokinetics, Insulin-Like Growth Factor I genetics, Insulin-Like Growth Factor I metabolism, Liver metabolism, Liver pathology, Lizards genetics, Lizards growth & development, Male, Models, Theoretical, Neonicotinoids pharmacokinetics, Tissue Distribution, Environmental Pollutants toxicity, Insecticides toxicity, Liver drug effects, Lizards metabolism, Neonicotinoids toxicity, Oxidative Stress drug effects

Abstract

The potential endocrine disruption of neonicotinoids poses a significant threat to the survival of small farmland lizards. We systematically evaluated the distribution, metabolism, and toxicity of three neonicotinoids (dinotefuran, thiamethoxam, and imidacloprid) in the Eremias argus during a 35-day oral administration exposure. Lizards could quickly transfer and store neonicotinoids into the scale and eliminated through molting. Dinotefuran was most prone to accumulation in lizard tissues, followed by thiamethoxam, and imidacloprid was generally present in the form of its terminal metabolite 6-chloropyridinyl acid. Exposure to dinotefuran resulted in hepatic oxidative stress damage, decreased plasma growth hormone concentration, and down-regulation of ghr, igf1 and igfbp2 gene expression. These indicated that dinotefuran might have potential growth inhibition toxicity to lizards. Although imidacloprid caused severe liver oxidative stress damage, the effect of imidacloprid on GH/IGF axis was not obvious. Compared to dinotefuran and imidacloprid, thiamethoxam had the least damage to liver and minimal impact on GH/IGF axis. This study verified the possible damage of neonicotinoids to lizard liver and the interference of GH/IGF axis for the first time., (Copyright © 2019 Elsevier B.V. All rights reserved.)

Published

2019

41. Effects of cypermethrin (pyrethroid), glyphosate and chlorpyrifos (organophosphorus) on the endocrine and immune system of Salvator merianae (Argentine tegu).

Author

Mestre AP, Amavet PS, Vanzetti AI, Moleón MS, Parachú Marcó MV, Poletta GL, and Siroski PA

Subjects

Animals, Chlorpyrifos toxicity, Corticosterone blood, Endocrine System drug effects, Glycine analogs & derivatives, Glycine toxicity, Immune System drug effects, Pesticides toxicity, Pyrethrins toxicity, Glyphosate, Lizards blood, Lizards growth & development, Lizards immunology

Abstract

Several geographical areas where Salvator merianae is distributed in Argentina are included in regions with agricultural activity and exposed to pesticide formulations. Some pesticides could affect defense mechanisms being able alter structures of some components of immune and endocrine systems. To assess the potential effects of pesticides in this reptile under seminatural conditions, on the immune system and endocrine responses in S. merianae we analyzed several blood parameters. Total (TWBCC), differential (DWBCC) white blood cells count, heterophils/lymphocytes index (H/L), lobularity index (LI), natural antibodies (NAbs) titres, complement system (CS), and corticosterone concentration were analyzed in animals exposed to a mixture of cypermethrin (25%), glyphosate (66.2%) and chlorpyrifos (48%) formulations. In addition, body size was considered in these analyzes. TWBCC and NAbs revealed lower values in organisms exposed to pesticides respect to a control indicating a possible immunosuppression effect. Besides, the LI showed a greater number of lobes in organism exposed demonstrating symptoms of chronic infection. In addition, we observed a reduced growth in these animals possibly related to a less energy investment in body mass to maintain an active defense against pesticides. Finally, we found high levels of plasma corticosterone in animals exposed to mix formulation that could demonstrate neuroendocrine axis activation. Other parameters like DWBCC, H/L index and activity of CS showed no differences in treated animals respect to control group, which could indicate low sensibility of these parameters to the concentration of pesticides used. Our results provide evidence of the toxic effects of pesticides on different immune system parameters, but also a trade-off among these parameters, corticosterone levels and growth. In this way, we can conclude that the formulated pesticides applied widely and constantly in the areas occupied by S. merianae, would be affecting its immune and endocrine systems and therefore its ability to defend against external agents. This kind of studies is of great interest to know the possible responses of wild species to anthropogenic disturbances such as pesticide contamination., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

42. Enantioselective Elimination and Gonadal Disruption of Lambda-Cyhalothrin on Lizards ( Eremias argus).

Author

Chang J, Xu P, Li W, Li J, and Wang H

Subjects

Animals, Endocrine Disruptors metabolism, Insecticides metabolism, Lizards metabolism, Male, Nitriles metabolism, Pyrethrins metabolism, Stereoisomerism, Endocrine Disruptors chemistry, Insecticides chemistry, Lizards growth & development, Nitriles chemistry, Pyrethrins chemistry, Testis growth & development

Abstract

In this study, the different metabolic pathways of lambda-cyhalothrin (LCT) enantiomers in Eremias argus feces and enantioselective disruption on hypothalamus-pituitary-gonad (HPG) system were investigated. After 7 days oral exposure to LCT enantiomers, the concentration of 3-phenoxybenzoic acid (PBA), hydroxylated and sulfated LCT were higher in the (+)-LCT exposure group than that in the (-)-LCT exposure group, which indicated a higher metabolic rate of (+)-LCT than (-)-LCT. Although no significant differences were seen on lizard body weight after enantiomers' exposure, the gonadosomatic index was dramatically decreased. The testicular impacts such as increased seminiferous tubule diameters were only observed in the (+)-LCT exposure group. Consistent with this result, the expression of ar gene in the (+)-LCT exposure was significantly higher than that in the (-)-LCT exposure group. In addition, the stronger binding affinity of AR with (+)-LCT further demonstrated the more serious disruption of (+)-LCT on lizard HPG axis than (-)-LCT. This study first elucidated the metabolic pathway and endocrine effects of LCT in lizards at enantiomeric level and provided some evidence for lizard population decline.

Published

2019

43. Genomic and transcriptomic investigations of the evolutionary transition from oviparity to viviparity.

Author

Gao W, Sun YB, Zhou WW, Xiong ZJ, Chen L, Li H, Fu TT, Xu K, Xu W, Ma L, Chen YJ, Xiang XY, Zhou L, Zeng T, Zhang S, Jin JQ, Chen HM, Zhang G, Hillis DM, Ji X, Zhang YP, and Che J

Subjects

Animals, Female, Gene Expression Regulation, Developmental, Genomics, Lizards genetics, Lizards growth & development, Phylogeny, Placentation genetics, Pregnancy, Reproduction genetics, Snakes genetics, Snakes growth & development, Evolution, Molecular, Oviparity genetics, Transcriptome genetics, Viviparity, Nonmammalian genetics

Abstract

Viviparous (live-bearing) vertebrates have evolved repeatedly within otherwise oviparous (egg-laying) clades. Over two-thirds of these changes in vertebrate reproductive parity mode happened in squamate reptiles, where the transition has happened between 98 and 129 times. The transition from oviparity to viviparity requires numerous physiological, morphological, and immunological changes to the female reproductive tract, including eggshell reduction, delayed oviposition, placental development for supply of water and nutrition to the embryo by the mother, enhanced gas exchange, and suppression of maternal immune rejection of the embryo. We performed genomic and transcriptomic analyses of a closely related oviparous-viviparous pair of lizards ( Phrynocephalus przewalskii and Phrynocephalus vlangalii ) to examine these transitions. Expression patterns of maternal oviduct through reproductive development of the egg and embryo differ markedly between the two species. We found changes in expression patterns of appropriate genes that account for each of the major aspects of the oviparity to viviparity transition. In addition, we compared the gene sequences in transcriptomes of four oviparous-viviparous pairs of lizards in different genera ( Phrynocephalus , Eremias , Scincella , and Sphenomorphus ) to look for possible gene convergence at the sequence level. We discovered low levels of convergence in both amino acid replacement and evolutionary rate shift. This suggests that most of the changes that produce the oviparity-viviparity transition are changes in gene expression, so occasional reversals to oviparity from viviparity may not be as difficult to achieve as has been previously suggested., Competing Interests: Conflict of interest statement: D.D.P. and G.Z. are coauthors on a 2014 paper.

Published

2019

44. Development and differentiation of the reproductive system of Tropidurus catalanensis (Squamata: Tropiduridae).

Author

Delssin AR, Sandoval MT, Ortiz MA, and Alvarez BB

Subjects

Animals, Cell Movement, Embryo, Nonmammalian cytology, Female, Genitalia cytology, Lizards embryology, Male, Oocytes cytology, Spermatogenesis, Testis cytology, Cell Differentiation, Genitalia growth & development, Lizards growth & development, Reproduction

Abstract

Development and differentiation of the reproductive system in lizards begin in the embryonic period, although the stage and time of their occurrence vary according to populations and species. In this study, the events of the development and differentiation of the reproductive system of males and females of Tropidurus catalanensis were characterized during the embryonic, neonatal, and juvenile periods. Embryos at Stages 27, 34, 37, 40, and 41, neonates and juveniles, from Corrientes, Argentina, were analyzed. At Stage 27, the genital ridge was not observed but primordial germ cells were recorded in the yolk sac as well as the mesenteric mesenchyme, indicating the beginning of germ cell migration. Gonadal differentiation commenced at Stage 34. In males from Stage 37, the testes possessed seminiferous cords with Sertoli cells and spermatogonia, while in hatchlings seminiferous tubules and interstitial tissue with mature Leydig cells were present. Spermatogenesis was observed in a specimen of 51.9 mm snout-vent length, corresponding to the minimum reproductive size. In females, from Stage 37 until hatching, the ovaries had a cavernous medulla and a cortex with somatic cells and abundant oogonia. The onset of meiosis and folliculogenesis occurred in the juvenile period., (© 2019 Wiley Periodicals, Inc.)

Published

2019

45. Effects of regional hypoxia and incubation temperature on growth, differentiation, heart mass, and oxygen consumption in embryos of the leopard gecko (Eublepharis macularius).

Author

Parker SL and Dimkovikj VH

Subjects

Animals, Female, Hypoxia metabolism, Lizards growth & development, Lizards metabolism, Male, Oxygen metabolism, Embryo, Nonmammalian metabolism, Heart embryology, Hypoxia pathology, Lizards embryology, Oxygen Consumption, Temperature

Abstract

Oviparous reptile embryos must tolerate fluctuations in oxygen availability and incubation temperature during development. In this study, regional hypoxia was simulated by painting eggs of Eublepharis macularius with melted paraffin wax to decrease the available surface area for gas exchange by approximately 80%. Experimental and control eggs were incubated at either 28 or 34 °C and embryo mass, stage, heart mass, relative heart mass, and oxygen consumption (V̇O 2 ) were measured at 15 and 30 days of incubation. Embryo mass from the regional hypoxia treatment was reduced by about 50% at day 15 and by about 30% at day 30 of incubation, independent of incubation temperature compared to controls. Embryo stage from the regional hypoxia treatment was reduced by about 2 stages at day 15 independent of incubation temperature but there was no effect of hypoxia treatment at day 30. Absolute heart mass was reduced by about 60% in regional hypoxia embryos sampled at day 15 while relative heart mass was increased by about 30% in regional hypoxic embryos at day 30 compared to controls, suggesting that heart mass is conserved at the expense of somatic growth. Embryo V̇O 2 was affected by incubation temperature at both 15 and 30 days of incubation but not by regional hypoxia treatment. These results indicate that embryos of E. macularius possess plasticity in their capacity to respond to reduction in oxygen availability during incubation, and are able to survive and continue developing when gas exchange surface area is severely limited., (Copyright © 2018 Elsevier Inc. All rights reserved.)

Published

2019

46. Thermal tolerance varies with age and sex for the nonnative Italian Wall Lizard (Podarcis siculus) in Southern California.

Author

Liwanag HEM, Haro D, Callejas B, Labib G, and Pauly GB

Subjects

Animals, Biological Variation, Population, Female, Lizards growth & development, Male, Introduced Species, Lizards physiology, Thermotolerance

Abstract

Temperature has a substantial effect on both the physiology and behavior of ectothermic animals such as lizards. Physiology and behavior can also be influenced by ontogenetic and sex differences, but these effects are largely understudied in lizards. We examined ontogenetic and sex-based differences in thermal tolerances, preferred temperature, and temperature-dependent evaporative water loss rates in Italian Wall Lizards, Podarcis siculus, collected from an introduced population near Los Angeles, California, USA that were acclimated to laboratory conditions. Podarcis siculus has been introduced to multiple localities in the USA and the Mediterranean region and has demonstrated remarkable ability to adapt to novel climatic conditions. In the California population, adults of both sexes had a higher critical thermal maximum (CT max ) than juveniles, and adult females had a lower critical thermal minimum (CT min ) than juveniles and adult males. Thus, adult females had a significantly wider thermal breadth (CT max - CT min ) compared to adult males and juveniles. Mass-specific evaporative water loss was higher in juveniles compared to adult males at intermediate temperatures. There was no significant difference among groups for preferred temperature. This implies that thermal tolerance, a physiological characteristic, varies with age and sex for this population, whereas thermal preference, a behavioral characteristic, does not. Interestingly, CT min for all age and sex classes was above temperatures likely experienced by some nonnative populations in winter, suggesting individuals need to find urban thermal retreats. These results add to the growing literature demonstrating that thermal tolerances and breadths can vary between sexes and across age classes in squamate species., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

47. Tree lizard (Urosaurus ornatus) growth decreases with population density, but increases with habitat quality.

Author

Paterson JE and Blouin-Demers G

Subjects

Animals, Arizona, Body Size, Bone Development, Population Density, Ecosystem, Lizards growth & development

Abstract

Habitat selection models can explain spatial patterns in the relative abundance of animals in different habitats based on the assumption that fitness declines as density in a habitat increases. Ectotherms, such as lizards, may not follow predictions of density-dependent habitat selection models because temperature, which is unaffected by density, strongly influences their habitat selection. If competition for limited resources decreases fitness, then crowding should cause a decrease in body size and growth rates. We used skeletochronology and body size data from tree lizards (Urosaurus ornatus) at six sites that each spanned two habitats varying in quality to test the hypothesis that habitat selection is density dependent because growth is limited by competition for resources and by habitat quality. First, we tested that the maximum body size of lizards decreased with higher densities in a habitat by comparing growth between sites. Second, we tested whether body size and growth were higher in the habitat with more resources by controlling for density in a habitat and comparing growth between habitats in different sites. We found evidence of density-dependent growth in females, but not in males. Females in more crowded sites reached a smaller maximum size. Females in the higher quality habitat also grew larger than females in the lower quality habitat after controlling for differences in density between the habitats. Therefore, we found partial support for our hypothesis that competition for resources limits growth and causes density-dependent habitat selection., (© 2018 Wiley Periodicals, Inc.)

Published

2018

48. Developmental asynchrony and antagonism of sex determination pathways in a lizard with temperature-induced sex reversal.

Author

Whiteley SL, Weisbecker V, Georges A, Gauthier ARG, Whitehead DL, and Holleley CE

Subjects

Animals, Female, Gonads growth & development, Gonads ultrastructure, Male, Sex Determination Processes, Sex Differentiation, Temperature, Lizards growth & development

Abstract

Vertebrate sex differentiation follows a conserved suite of developmental events: the bipotential gonads differentiate and shortly thereafter sex specific traits become dimorphic. However, this may not apply to squamates, a diverse vertebrate lineage comprising of many species with thermosensitive sexual development. Of the three species with data on the relative timing of gonad differentiation and genital dimorphism, the females of two (Niveoscincus ocellatus and Barisia imbricata) exhibit a phase of temporary pseudohermaphroditism or TPH (gonads have differentiated well before genital dimorphism). We report a third example of TPH in Pogona vitticeps, an agamid with temperature-induced male to female sex reversal. These findings suggest that for female squamates, genital and gonad development may not be closely synchronised, so that TPH may be common. We further observed a high frequency of ovotestes, a usually rare gonadal phenotype characterised by a mix of male and female structures, exclusively associated with temperature-induced sex reversal. We propose that ovotestes are evidence of a period of antagonism between male and female sex-determining pathways during sex reversal. Female sexual development in squamates is considerably more complex than has been appreciated, providing numerous avenues for future exploration of the genetic and hormonal cues that govern sexual development.

Published

2018

49. Environmental causes of between-population difference in growth rate of a high-altitude lizard.

Author

Lu HL, Xu CX, Zeng ZG, and Du WG

Subjects

Animals, China, Cold Temperature, Altitude, Body Temperature, Diet, Lizards growth & development

Abstract

Background: Ectothermic animals living in cold (high latitude or high elevation) regions are predicted to grow slower due to limited thermal opportunities for activity and food resources than those living in warm regions. However, the Qinghai toad-headed lizards (Phrynocephalus vlangalii) grow faster and reach a larger adult size at a high-elevation site than at a low-elevation site. In this study, we aimed to identify the genetic and environmental causes of this between-population difference in growth rate by conducting mark-recapture and common garden experiments on juvenile growth rate, and investigating the thermal environment, lizard body temperature, potential prey availability at the two elevation sites., Results: Compared with low-elevation individuals, high-elevation juvenile lizards had higher growth rates in the field, but grew at similar rates in the laboratory. High-elevation lizards had higher active body temperatures than low-elevation lizards despite similar air temperatures in the period of field investigation. The high-elevation site had relatively more and larger preys than the low-elevation site., Conclusions: Inter-population difference in growth rate of P. vlangalii may primarily result from developmental plasticity in response to the difference in environmental resources, rather than genetic differentiation. The higher growth rate of high-elevation lizards is likely associated with higher potential food availability and higher active body temperatures.

Published

2018

50. Patterns of growth in the presacral vertebral column of the leopard gecko (Eublepharis macularius).

Author

Powell GL, Russell AP, and Sutey J

Subjects

Animals, Body Size, Femur anatomy & histology, Lizards anatomy & histology, Locomotion, Principal Component Analysis, Spine anatomy & histology, Lizards growth & development, Sacrum growth & development, Spine growth & development

Abstract

Postnatal growth patterns within the vertebral column may be informative about body proportions and regionalization. We measured femur length, lengths of all pre-sacral vertebrae, and lengths of intervertebral spaces, from radiographs of a series of 21 Eublepharis macularius, raised under standard conditions and covering most of the ontogenetic body size range. Vertebrae were grouped into cervical, sternal, and dorsal compartments, and lengths of adjacent pairs of vertebrae were summed before analysis. Femur length was included as an index of body size. Principal component analysis of the variance-covariance matrix of these data was used to investigate scaling among them. PC1 explained 94.19% of total variance, interpreted as the variance due to body size. PC1 differed significantly from the hypothetical isometric vector, indicating overall allometry. The atlas and axis vertebrae displayed strong negative allometry; the remainder of the vertebral pairs exhibited weak negative allometry, isometry or positive allometry. PC1 explained a markedly smaller amount of variance for the vertebral pairs of the cervical compartment than for the remainder of the vertebral pairs, with the exception of the final pair. The relative standard deviations of the eigenvalues from the PCAs of the three vertebral compartments indicated that the vertebrae of the cervical compartment were less strongly integrated by scaling than were the sternal or dorsal vertebrae, which did not differ greatly between themselves in their strong integration, suggesting that the growth of the cervical vertebrae is constrained by the mechanical requirements of the head. Regionalization of the remainder of the vertebral column is less clearly defined but may be associated with wave form propagation incident upon locomotion, and by locomotory changes occasioned by tail autotomy and regeneration. Femur length exhibits negative allometry relative to individual vertebral pairs and to vertebral column length, suggesting a change in locomotor requirements over the ontogenetic size range., (© 2018 Wiley Periodicals, Inc.)

Published

2018