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4. Environmental conditions shape the chemical signal design of lizards

Author

Baeckens, S. Martín, J. García-Roa, R. Pafilis, P. Huyghe, K. Van Damme, R.

Abstract

The signals that animals use to communicate often differ considerably among species. Part of this variation in signal design may derive from differential natural selection on signal efficacy; the ability of the signal to travel efficiently through the environment and attract the receiver's attention. For the visual and acoustic modalities, the effect of the physical environment on signal efficacy is a well-studied selective force. Still, very little is known on its impact on chemical signals. Here, we took a broad, phylogenetic comparative approach to test for a relationship between animals' signal chemistry and properties of their natural environment. Our study focused on lizards from the Lacertidae family. We sampled 64 species across three continents and determined the lipophilic composition of their glandular signalling secretions using gas chromatography–mass spectrometry. For each species, an array of environmental variables of high temporal and spatial resolution was obtained from climate databases. Species varied considerably in the overall richness (number of constituents) of their secretions, as well as in the relative contribution of the major chemical compound classes. Signal richness and the relative contribution of the respective compounds exhibited little evidence of phylogenetic relatedness, suggesting that chemical signals may change very rapidly. Neither insularity nor substrate use affected chemical signal composition, however, we found a strong statistical relationship between the chemistry of the lizards' secretions and aspects of the thermal and hydric environment they inhabit. Species from ‘xeric’ milieus contained high proportions of stable fatty acid esters and high molecular weight alcohols in their glandular secretions, which likely increase the persistence of secretion scent-marks. In contrast, species inhabiting ‘mesic’ environments produced secretions of a high chemical richness comprising high levels of aldehydes and low molecular weight alcohols. This chemical mix probably creates a volatile-rich signal that can be used for long-distance airborne communication. We argue that the observed variation in signal design results from differential natural selection, optimizing signal efficacy under contrasting environmental conditions. A plain language summary is available for this article. © 2017 The Authors. Functional Ecology © 2017 British Ecological Society

Published
2018

5. An ecomorphological analysis of the determinants of mating success

Author

Huyghe K. San-Jose L. Peñalver M. Fitze P.S.

Abstract

Investigating the factors affecting the strength of sexual selection is important for understanding the evolution of sex specific morphological and behavioural traits. Traditionally sexual selection studies focus on male ornaments although recent evidence indicates that sexual selection mechanisms also target organismal performance. In the present study we investigated the role of sexually dimorphic morphological and performance traits of the common (viviparous) lizard (Zootoca vivipara Jacquin 1787) with respect to determining mating behaviour. Using an experimental set up controlling for size differences we found that males with longer tails had a higher probability of mating a female. Unexpectedly males with lower bite forces had an advantage over males with higher bite forces whereas males with bigger heads copulated for a longer time with the female. This shows that predicting mating success is not straightforward and is sometimes counterintuitive because a longer tail appears to be beneficial whereas biting harder is not for male Z.?vivipara in a male–female interaction context.

Published
2013

9. Fossorial and durophagous: implications of molluscivory for head size and bite capacity in a burrowing worm lizard.

Author

Baeckens, S., García ‐ Roa, R., Martín, J., Ortega, J., Huyghe, K., and Van Damme, R.

Subjects
BURROWING animals, LIZARD morphology, AMPHISBAENIA, SNAIL shells, GASTROPODA
Abstract

Limbless animals that burrow head-first are often considered to be evolutionarily constrained in the development of a large head, due to limitations imposed while penetrating the soil. Whilst animals with a small head experience less resistance when digging, they are believed to have a weak bite, hence restricting their potential dietary spectrum to soft prey. Yet, recent findings established molluscivory in the fossorial worm lizard Trogonophis wiegmanni (Amphisbaenia), suggesting a high bite capacity for this burrowing species necessary to crush snail shells. To tackle this burrow/crush dilemma, we examined the relationship between head morphology, bite force and gastropod diet in T. wiegmanni males and females. In vivo bite force analyses and shell hardness measurements were used to assess the potential dietary spectrum of the amphisbaenians. In addition, phylogenetic analyses were performed to put T. wiegmanni's head size and bite force into an interspecific comparative context. Our results show a strong positive relation between head size and bite force, and we found no evidence for sexual dimorphism. In sharp contrast to other durophagous lizards, T. wiegmanni combines a relatively small body and a (disproportionally) small head with relatively high biting forces. In fact, T. wiegmanni is able to crush a wide array of the most abundant gastropod shells in their environment. However, the head size of the strongest biters imposes a limitation towards a common alternative snail-feeding strategy: entering the opening of the gastropod shell. This study shows that head size, and consequently bite force, increases the number and variety of gastropods that can be consumed by 'shell-crushing', but reduces the number and variety of snails that can be consumed by 'shell-entering', and vice versa. The cranial design of (durophagous) limbless burrowers may therefore not only evolve under constraints for efficient soil penetration, but also through selection for diet. [ABSTRACT FROM AUTHOR]

Published
2017
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10. Precast double curved concrete panels

Author

Huyghe, K. (author), Schoofs, A. (author), Huyghe, K. (author), and Schoofs, A. (author)

Abstract

Building Technology, Architecture

Published
2009

16. Differential growth of naturally and sexually selected traits in an A nolis lizard.

Author

Vanhooydonck, B., Huyghe, K., Holáňová, V., Dongen, S., and Herrel, A.

Subjects
*ANOLES, *IGUANAS, *BIOLOGICAL evolution, *BIOLOGY, *SEXUAL dimorphism
Abstract

Sexual dimorphism may be indicative of differential natural and/or sexual selection pressures acting on males and females. Although similar degrees of adult sexual dimorphism may be observed among populations and species, underlying physiological, developmental and ecological processes driving growth during the juvenile stages may vary. Unraveling how and when differences arise during ontogeny is important to our understanding of the evolutionary patterns observed among adults. In addition, growth patterns may differ among traits within a single individual. A nolis lizards vary greatly in the degree of adult sexual size and shape dimorphism. Ultimate hypotheses (e.g. sexual selection, habitat partitioning) have been put forward to explain this variation, but proximate mechanisms operating during the juvenile stages remain largely unknown. Herein, we aim at elucidating the proximate mechanisms of sexual dimorphism in head and limb shape, performance and dewlap size in A nolis baracoae, a crown-giant anole. We used a longitudinal approach and raised 23 captive-bred juvenile A . baracoae lizards through adulthood. By quantifying body size, head and limb dimensions, dewlap size and bite performance, we obtained growth trajectories that were compared between the sexes and among traits. Our results show that the growth of head and limb shape is similar in males and females, whereas dewlap size and bite performance diverge at a specific age. Based on these results, we hypothesize that, whereas selection favors a similar head and limb shape in males and females, selection pressures on dewlap size and bite performance likely differ between the sexes. In addition, dewlap size starts diverging around the time the animals reach sexual maturity, whereas bite performance diverges much earlier in (sexually) immature males. [ABSTRACT FROM AUTHOR]

Published
2015
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17. Determinants of fighting ability in the lizard Gallotia galloti

Author

Huyghe, K., Scheers, H., and Van Damme, R.

Subjects
Lizards -- Behavior, Animal defenses -- Research, Zoology and wildlife conservation
Abstract

Gallotia galloti is a large lacertid lizard, endemic to the island of Tenerife (Canary Islands, Spain). In the field, large males maintain territories and exhibit strong aggression towards other males. Agonistic interactions include display behaviour, biting and chases. Dominant males are believed to have increased access to basking spots, hiding places, food and females. Therefore, fighting ability is probably an important fitness component. In this study, we explore which morphological and performance traits determine the fighting ability of individual males. Fighting ability of 40 adult male G. galloti was assessed in paired staged contests, in which the opponents were induced to fight for access over a single heat source. Dominance was assessed both by scoring agonistic behaviours (aggressive: throat inflations, vertical head movements, charging, biting; defensive: fleeing, hiding) and by recording space use (access to heat source). The dominance scores were correlated with morphological traits (body size, head size and shape, and the color and size of lateral badges) and performance measures (maximum sprint speed, acceleration capacity, endurance, manoeuvrability and bite force).

Published
2003

18. Why can't we all just get along? Interspecific aggression in resident and non-resident Podarcis melisellensis lizards.

Author

Lailvaux, S. P., Huyghe, K., Van Damme, R., and Rödel, Mark-Oliver

Subjects
*PODARCIS, *ANIMAL aggression, *COMPETITION (Biology), *ANIMAL species, *ANIMAL breeding, *SYMPATRIC speciation
Abstract

Interspecific aggression is thought to be driven by competition over either shared resources or mates, with the latter facilitated by mistaken or poor species recognition. However, such aggression may potentially also be modulated by other factors, including residency in territorial species. We tested the relative strengths of intra- and interspecific aggression in the lacertid lizard Podarcis melisellensis by introducing males to both the territories of conspecific males and the territories of a sympatric lacertid, Dalmatolacerta oxycephala. We also conducted reciprocal introductions to test the effect of residency on interspecific aggression in P. melisellensis. Our results show that P. melisellensis exhibit significantly more aggression towards D. oxycephala than towards conspecifics, even though these two species do not closely resemble one another and do not exhibit extensive overlap in diet preferences. We also found an overall effect of residency on behavioural measures of aggression, as well as a clear increase in interspecific aggression towards D. oxycephala in resident relative to non-resident P. melisellensis. These results show that interspecific aggression between sympatric species can exist in the absence of breeding competition and with little resource overlap. [ABSTRACT FROM AUTHOR]

Published
2012
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19. Characterization of polymorphic microsatellite markers in the Dalmatian wall lizard Podarcis melisellensis (Squamata: Lacertidae).

Author

HUYGHE, K., BREUGELMANS, K., SMALL, M., TADIĆ, Z., VAN DAMME, R., VANHOOYDONCK, B., and BACKELJAU, T.

Subjects
*SQUAMATA, *POLYMERASE chain reaction, *MICROSATELLITE repeats, *DNA, *ANIMAL species, *GENETIC polymorphisms
Abstract

We describe polymerase chain reaction primers and amplification conditions for 13 highly polymorphic microsatellite DNA loci isolated from the Dalmatian wall lizard, Podarcis melisellensis. The number of alleles per locus ranged from 12 to 41, with levels of observed heterozygosity between 0.62 and 0.94. Most of these loci were successfully cross-amplified in the closely related species P. sicula, but levels of polymorphism were always lower. [ABSTRACT FROM AUTHOR]

Published
2009
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20. Chronic handling stress in zebrafish Danio rerio husbandry.

Author

Philippe C, Vergauwen L, Huyghe K, De Boeck G, and Knapen D

Subjects
Animals, Zebrafish physiology, Hydrocortisone
Abstract

The zebrafish (Danio rerio, Hamilton, 1822) is one of the most important fish model species in scientific research, with millions of fish housed in laboratory animal facilities around the world. During husbandry, it is necessary to regularly handle the fish, which could cause short- and long-term stress, possibly affecting both fish welfare and experimental outcomes. In two experiments, the authors studied effects of transferring adult zebrafish, by chasing them with a net and/or exposing them to air (netting) on different endpoints: cortisol levels, reproduction parameters and behavioural parameters. They used realistic chase and air-exposure times to mimic normal zebrafish husbandry and investigated the potential to habituate to handling stressors. Finally, the potential welfare improvements of a nutritional reward after handling were studied. All types of handling induced a stress response, but the authors did not find a correlation with the intensity of the stressor. Realistic (short) handling routines also caused stress, both after the first time and after regular handling over a long period of time. Cortisol levels peaked after 15 min, were still elevated after 30 min and dropped to resting level after 60 min. This should be taken into account by researchers when carrying out measurements or behavioural trials within an hour after handling. There is a minor potential benefit of nutritional rewards that may contribute to a faster recovery of normal behaviour. They did not find evidence of habituation to chasing and netting stress. Taking the stress response after handling into consideration will improve fish welfare and health and minimise husbandry-associated sources of variation., (© 2023 Fisheries Society of the British Isles.)

Published
2023
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21. Intraspecific Variation in the Information Content of an Ornament: Why Relative Dewlap Size Signals Bite Force in Some, But Not All Island Populations of Anolis sagrei.

Author

Baeckens S, Driessens T, Huyghe K, Vanhooydonck B, and Van Damme R

Subjects
Animals, Color, Islands, Male, Sex Characteristics, West Indies, Animal Communication, Bite Force, Lizards physiology, Phenotype
Abstract

In many animals, male secondary sexual traits advertise reliable information on fighting capacity in a male-male context. The iconic sexual signaling device of anole lizards, the dewlap, has been extensively studied in this respect. For several territorial anole species (experiencing strong intrasexual selection), there is evidence for a positive association between dewlap size and bite capacity, which is an important determinant of combat outcome in lizards. Intriguingly, earlier studies did not find this expected correlation (relative dewlap size-relative bite force) in the highly territorial brown anole lizard, Anolis sagrei. We hypothesize that the dewlap size-bite force relationship can differ among populations of the same species due to interpopulation variation in the degree of male-male competition. In line with this thought, we expect dewlap size to serve as a reliable predictor of bite performance only in those populations where the level of intrasexual selection is high. To tackle this hypothesis, we examined the relationship between male dewlap size and bite force on the intraspecific level in A. sagrei, using an extensive dataset encompassing information from 17 island populations distributed throughout the Caribbean. First, we assessed and compared the relationship between both variables in the 17 populations under study. Second, we linked the relative dewlap size-bite force relationship within each population to variation in the degree of intrasexual selection among populations, using sexual size dimorphism and dewlap display intensity as surrogate measures. Our results showed that absolute dewlap size is an excellent predictor of maximum bite force in nearly all A. sagrei populations. However, relative dewlap size is only an honest signal of bite performance in 4 out of the 17 populations. Surprisingly, the level of signal honesty did not correlate with the strength of intrasexual selection. We offer a number of conceptual and methodological explanations for this unexpected finding.

Published
2018
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23. Evolutionary morphology of the lizard chemosensory system.

Author

Baeckens S, Herrel A, Broeckhoven C, Vasilopoulou-Kampitsi M, Huyghe K, Goyens J, and Van Damme R

Subjects
Animals, Lizards anatomy & histology, Biological Evolution, Lizards genetics, Tongue anatomy & histology, Vomeronasal Organ anatomy & histology
Abstract

Foraging mode plays a pivotal role in traditional reconstructions of squamate evolution. Transitions between modes are said to spark concerted changes in the morphology, physiology, behaviour, and life history of lizards. With respect to their sensory systems, species that adopt a sit-and-wait strategy are thought to rely on visual cues primarily, while actively hunting species would predominantly use chemical information. The morphology of the tongue and the vomeronasal-organs is believed to mirror this dichotomy. Still, support for this idea of concerted evolution of the morphology of the lizard sensory system merely originates from studies comparing only a few, distantly related taxa that differ in many aspects of their biology besides foraging mode. Hence, we compared vomeronasal-lingual morphology among closely related lizard species (Lacertidae). Our findings show considerable interspecific variation indicating that the chemosensory system of lacertids has undergone substantial change over a short evolutionary time. Although our results imply independent evolution of tongue and vomeronasal-organ form, we find evidence for co-variation between sampler and sensor, hinting towards an 'optimization' for efficient chemoreception. Furthermore, our findings suggest species' degree of investment in chemical signalling, and not foraging behaviour, as a leading factor driving the diversity in vomeronasal-lingual morphology among lacertid species.

Published
2017
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24. Inter-class competition in stage-structured populations: effects of adult density on life-history traits of adult and juvenile common lizards.

Author

San-Jose LM, Peñalver-Alcázar M, Huyghe K, Breedveld MC, and Fitze PS

Subjects
Animals, Body Size, Population Density, Reproduction, Lizards, Population Dynamics
Abstract

Ecological and evolutionary processes in natural populations are largely influenced by the population's stage-structure. Commonly, different classes have different competitive abilities, e.g., due to differences in body size, suggesting that inter-class competition may be important and largely asymmetric. However, experimental evidence states that inter-class competition, which is important, is rare and restricted to marine fish. Here, we manipulated the adult density in six semi-natural populations of the European common lizard, Zootoca vivipara, while holding juvenile density constant. Adult density affected juveniles, but not adults, in line with inter-class competition. High adult density led to lower juvenile survival and growth before hibernation. In contrast, juvenile survival after hibernation was higher in populations with high adult density, pointing to relaxed inter-class competition. As a result, annual survival was not affected by adult density, showing that differences in pre- and post-hibernation survival balanced each other out. The intensity of inter-class competition affected reproduction, performance, and body size in juveniles. Path analyses unravelled direct treatment effects on early growth (pre-hibernation) and no direct treatment effects on the parameters measured after hibernation. This points to allometry of treatment-induced differences in early growth, and it suggests that inter-class competition mainly affects the early growth of the competitively inferior class and thereby their future performance and reproduction. These results are in contrast with previous findings and, together with results in marine fish, suggest that the strength and direction of density dependence may depend on the degree of inter-class competition, and thus on the availability of resources used by the competing classes.

Published
2016
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25. Linear versus geometric morphometric approaches for the analysis of head shape dimorphism in lizards.

Author

Fabre AC, Cornette R, Huyghe K, Andrade DV, and Herrel A

Subjects
Animals, Bite Force, Body Size, Female, Male, Maxilla anatomy & histology, Muscle Strength, Sex Characteristics, Head anatomy & histology, Lizards anatomy & histology, Mandible anatomy & histology, Skull anatomy & histology
Abstract

Differences between the sexes may arise because of differences in reproductive strategy, with females investing more in traits related to reproductive output and males investing more in traits related to resource holding capacity and territory defence. Sexual dimorphism is widespread in lizards and in many species males and females also differ in head shape. Males typically have bigger heads than females resulting in intersexual differences in bite force. Whereas most studies documenting differences in head dimensions between sexes use linear dimensions, the use of geometric morphometrics has been advocated as more appropriate to characterize such differences. This method may allow the characterization of local shape differences that may have functional consequences, and provides unbiased indicators of shape. Here, we explore whether the two approaches provide similar results in an analyses of head shape in Tupinambis merianae. The Argentine black and white tegu differs dramatically in body size, head size, and bite force between the sexes. However, whether the intersexual differences in bite force are simply the result of differences in head size or whether more subtle modifications (e.g., in muscle insertion areas) are involved remains currently unknown. Based on the crania and mandibles of 19 lizards with known bite force, we show intersexual differences in the shape of the cranium and mandible using both linear and geometric morphometric approaches. Although both types of analyses showed generally similar results for the mandible, this was not the case for the cranium. Geometric morphometric approaches provided better insights into the underlying functional relationships between the cranium and the jaw musculature, as illustrated by shape differences in muscle insertion areas not detected using linear morphometric data., (© 2014 Wiley Periodicals, Inc.)

Published
2014
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26. Female lizards ignore the sweet scent of success: Male characteristics implicated in female mate preference.

Author

Huyghe K, Vanhooydonck B, Herrel A, Tadić Z, and Van Damme R

Subjects
Animals, Bite Force, Competitive Behavior, Female, Lizards physiology, Male, Odorants, Pigmentation, Lizards anatomy & histology, Mating Preference, Animal, Social Dominance
Abstract

Sexual selection molds the morphology, physiology and behavior of males in many animals. At first glance, it seems reasonable to assume that females would use the same male traits and signals in mate choice as males do during male-male competition. However, intra- and intersexual competition may affect traits in the same or the opposite direction, with differing strength. We investigated which color, morphometric and performance traits are selected for through male-male competition and whether female mate preference is based on these same traits and/or dominance status in the three male color morphs of the lizard Podarcis melisellensis. Males with relatively bigger heads and relatively higher bite forces were more likely to win fights and orange males were always dominant over the other morphs. Females, however, preferred scents of bigger males that were in better body condition, and surprisingly had lower bite force capacities. They did not show a preference for scents of any particular color morph or for scents of the more dominant males. These results indicate that intra- and intersexual competition may result in selection for different secondary sexual traits in P. melisellensis., (Copyright © 2012 Elsevier GmbH. All rights reserved.)

Published
2012
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27. Fast and furious: effects of body size on strike performance in an arboreal viper Trimeresurus (Cryptelytrops) albolabris.

Author

Herrel A, Huyghe K, Oković P, Lisičić D, and Tadić Z

Subjects
Animals, Female, Head anatomy & histology, Male, Sex Factors, Trimeresurus anatomy & histology, Body Size physiology, Movement physiology, Predatory Behavior physiology, Trimeresurus physiology
Abstract

Body size has a pervasive effect on animal functioning and life history with size dependent changes in performance and physiology throughout ontogeny being common in many ectothermic vertebrates. However, as selection on juvenile life history stages is strong, juveniles often offset the disadvantages of small body size by disproportionate levels of performance. Here, we investigate size-related changes in defensive strike performance in an arboreal pit viper, Trimerusurus (Cryptelytrops) albolabris. Our data show a significant negative allometry in the scaling of head dimensions and head mass to body mass. However, strike velocity and strike distance are independent of body mass, with juveniles in our sample striking as fast and as far as adults. In contrast to model predictions suggesting that acceleration capacity should decrease with increasing body mass, acceleration capacity increases with snake body mass. Our results suggest that this is the result of a negative allometric scaling of head mass combined with an isometric scaling of the dorsal epaxial musculature. Finally, our data show a significant sexual dimorphism in body size and strike velocity with females being heavier and striking faster independent of the dimorphism in body size., (Copyright © 2010 Wiley-Liss, Inc., A Wiley Company.)

Published
2011
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28. Seasonal changes in parasite load and a cellular immune response in a colour polymorphic lizard.

Author

Huyghe K, Van Oystaeyen A, Pasmans F, Tadić Z, Vanhooydonck B, and Van Damme R

Subjects
Animals, Lizards genetics, Lizards parasitology, Male, Immunity, Cellular, Lizards immunology, Pigmentation, Polymorphism, Genetic, Seasons
Abstract

Permanent colour polymorphisms may be maintained by complex interactions between physiological traits (e.g. immunity) and environmental pressures. In this study we investigate morph specific variation in parasite load and cellular immune response (induced by a Phytohaemagglutinin, PHA injection) in a colour polymorphic population of the Dalmatian wall lizard (Podarcis melisellensis), where adult males have bright white, yellow or orange throats and ventral sides. Orange males have larger heads and can bite harder than the others. To examine seasonal effects, analyses were performed at an early and late stage in the reproductive season (May and September). Infection with mites and ticks did not differ among morphs, but was more severe at the end of the reproductive season. Fewer orange individuals were infected with haemogregarines at the end of the season, but white males were always more infected (higher number of haemogregarines in their blood) than other morphs. White and yellow males showed an increased PHA response towards the end of the season, but PHA response decreased in the orange morph. Finally, across all morphs, a relationship was found between ectoparasite load and PHA response. Our study provides indications of alternative life-history strategies among colour morphs and evidence for an up-regulation of the immune function at the end of the reproductive season.

Published
2010
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29. Effects of testosterone on morphology, performance and muscle mass in a lizard.

Author

Huyghe K, Husak JF, Moore IT, Vanhooydonck B, Van Damme R, Molina-Borja M, and Herrel A

Subjects
Animals, Bite Force, Lizards anatomy & histology, Male, Muscle Strength drug effects, Muscle Strength physiology, Muscle, Skeletal anatomy & histology, Muscle, Skeletal drug effects, Penis anatomy & histology, Penis drug effects, Penis physiology, Testosterone blood, Testosterone physiology, Lizards physiology, Muscle, Skeletal physiology, Testosterone pharmacology
Abstract

Because sexual selection pressures are high in sexually dimorphic organisms, morphological, physiological and performance traits are often studied in a sexual selection context. The proximate mechanisms underlying evolutionary change in these traits, however, remain largely unstudied. Here, we examined the role of steroids in shaping morphology and physiological performance in males of a sexually dimorphic lizard (Gallotia galloti). We compared morphology and physiological performance of males with experimentally elevated testosterone levels to sham-operated males. Before surgery, inter-individual variation in plasma testosterone levels correlated positively with bite force capacity. Administration of exogenous testosterone resulted in an increase of the mass of both jaw closing and locomotory muscles compared with sham-operated individuals, but the responsiveness varied considerably among muscle groups. In contrast to our expectations, the dramatic testosterone-induced changes in muscle masses did not result in concordant changes in bite force performance or sprint speed., ((c) 2009 Wiley-Liss, Inc.)

Published
2010
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30. Relationships between hormones, physiological performance and immunocompetence in a color-polymorphic lizard species, Podarcis melisellensis.

Author

Huyghe K, Husak JF, Herrel A, Tadić Z, Moore IT, Van Damme R, and Vanhooydonck B

Subjects
Animals, Animals, Wild, Body Size physiology, Hormones metabolism, Male, Radioimmunoassay, Bite Force, Corticosterone blood, Immunocompetence physiology, Lizards physiology, Pigmentation physiology, Testosterone blood
Abstract

Species with alternative phenotypes offer unique opportunities to investigate hormone-behavior relationships. We investigated the relationships between testosterone, corticosterone, morphology, performance, and immunity in a population of lizards (Podarcis melisellensis) which exhibits a color polymorphism. Males occur in three different color morphs (white, yellow, orange), providing an opportunity to test the idea of morphs being alternative solutions to the evolutionary challenges posed on the link between hormones, morphology, performance, and immunity. Morphs differed in bite force capacity, with orange males biting harder, and in corticosterone levels, with yellow males having lower levels than orange. However, morphs did not differ in testosterone levels or in the immunological parameters tested. At the individual level, across morphs, testosterone levels predicted size-corrected bite force capacity, but no relation was found between hormone levels and immunity. Our results do not support the testosterone-based polymorphism hypothesis and reject the hypothesis of a trade-off between testosterone and immunity in this species, but provide a mechanistic link between testosterone and a sexually selected performance trait.

Published
2009
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31. Rapid large-scale evolutionary divergence in morphology and performance associated with exploitation of a different dietary resource.

Author

Herrel A, Huyghe K, Vanhooydonck B, Backeljau T, Breugelmans K, Grbac I, Van Damme R, and Irschick DJ

Subjects
Animals, Bite Force, Cecum physiology, Environment, Female, Head anatomy & histology, Male, Molecular Sequence Data, Phenotype, Population Dynamics, Predatory Behavior, Seasons, Time Factors, Biodiversity, Biological Evolution, Diet, Lizards physiology
Abstract

Although rapid adaptive changes in morphology on ecological time scales are now well documented in natural populations, the effects of such changes on whole-organism performance capacity and the consequences on ecological dynamics at the population level are often unclear. Here we show how lizards have rapidly evolved differences in head morphology, bite strength, and digestive tract structure after experimental introduction into a novel environment. Despite the short time scale ( approximately 36 years) since this introduction, these changes in morphology and performance parallel those typically documented among species and even families of lizards in both the type and extent of their specialization. Moreover, these changes have occurred side-by-side with dramatic changes in population density and social structure, providing a compelling example of how the invasion of a novel habitat can evolutionarily drive multiple aspects of the phenotype.

Published
2008
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32. Microhabitat use, diet, and performance data on the Hispaniolan twig anole, Anolis sheplani: pushing the boundaries of morphospace.

Author

Huyghe K, Herrel A, Vanhooydonck B, Meyers JJ, and Irschick DJ

Subjects
Animals, Female, Male, Sex Characteristics, Diet, Ecosystem, Lizards physiology, Running physiology
Abstract

Caribbean Anolis lizards are often cited as a textbook example of adaptive radiation. Similar morphologies (ecomorphs) have originated in similar ecological settings on different large islands in the West Indies. However, relatively little is known about one of the morphologically most specialized and divergent ecomorphs: the twig anoles. Here, we investigate aspects of morphology, dewlap size, locomotor and bite performance, structural habitat and diet of the poorly known twig anole, Anolis sheplani from Hispaniola. Few observations have previously been made of this species in its natural habitat, and few quantitative data on its natural history are available. A. sheplani is an extreme twig anole with respect to its morphology, performance capacities, and ecological niche. Males and females of this species do not differ from each other in body dimensions, performance or habitat use, but males do have a bigger dewlap than females. We present data for 25 individuals and compare them with data for other Greater Antillean anoles. It becomes apparent that twig anoles constitute a large component of the morphological, functional, and ecological diversity of Anolis lizards. Small twig anoles such as A. sheplani appear to be pushing the boundaries of morphospace and are thus crucial in our understanding of the evolution of phenotypic diversity.

Published
2007
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33. Locomotor compensation creates a mismatch between laboratory and field estimates of escape speed in lizards: a cautionary tale for performance-to-fitness studies.

Author

Irschick DJ, Herrel A, Vanhooydonck B, Huyghe K, and Van Damme R

Subjects
Analysis of Variance, Animals, Belgium, Croatia, Species Specificity, Biological Evolution, Escape Reaction physiology, Lizards physiology, Locomotion physiology
Abstract

A key assumption in evolutionary studies of locomotor adaptation is that standard laboratory measures of performance accurately reflect what animals do under natural circumstances. One widely examined measure of performance is maximum sprint speed, which is believed to be important for eluding predators, capturing prey, and defending territories. Previous studies linking maximum sprint speed to fitness have focused on laboratory measurements, and we suggest that such analyses may be appropriate for some species and intraspecific classes, but not others. We provide evidence for a general inverse relationship between maximum laboratory sprint speed and the percentage of maximum capacity that animals use when escaping from a threat in the field (the model of locomotor compensation). Further, absolute values of field escape speed and maximum laboratory speed are not significantly related when comparing across a diverse group of Anolis and lacertid lizards. We show that this pattern of locomotor compensation holds both within (i.e., among intraspecific classes) and among lizard species (with some exceptions). We propose a simple method of plotting field escape speed (y-axis) versus maximum laboratory speed (x-axis) among species and/or intraspecific classes that allows researchers to determine whether their study organisms are good candidates for relating laboratory performance to fitness. We suggest that species that reside directly on, or near the "best fitness line" (field escape speed = maximum laboratory speed) are most likely to bear fruit for such studies.

Published
2005

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