Energetic costs of tail loss in a montane scincid lizard

Most species of lizards will shed their tails at the point of contact when grasped by a predator. We investigated the energetic consequences of tail loss by measuring lipids in a scincid lizard that stores energy in its tail for reproduction. Most of the lipids were concentrated in the proximal portion of the tail. Thus, partial tail loss may not severely affect energy stores if the distal portion of the tail is shed in predatory encounters. We also found that the width of the tail was a reliable non-invasive index of energy reserves in this species.     

The ecological cost of morphological specialization: feeding by a fossorial lizard

Summary Head size and shape of reptiles may reflect selection for multiple uses. For example, sexual selection for large head size may enhance feeding efficiency. In contrast, morphological characteristics of the heads of fossorial reptiles suggests that fossoriality may have evolved at the expense of reduced effectiveness in feeding. Our research focused on the question: Does a fossorial lizard feed less effectively than a non-fossorial lizard? To answer this question, we measured the time, number of bites, and oxygen consumption by sand-swimming (Chalcides ocellatus) and epigeal (Eumeces inexpectatus) skinks feeding on crickets. These lizard species were similar in mass, but different in body form: Chalcides had longer bodies and smaller heads than Eumeces. For lizards of the same mass, Chalcides were unable to eat prey as large as those eaten by Eumeces, Chalcides took longer to eat prey of the same size than did Eumeces, and the aerobic energy cost of eating crickets of the same relative size (cricket mass/lizard mass) tended to be greater for Chalcides than for Eumeces. The ecologically relevant costs of feeding appear to be the upper limit to the size of prey and the time of feeding. Both costs would restrict the energy intake per unit time of Chalcides. Moreover, given the same energy requirements and prey community, Chalcides would have to feed more often and would take longer to feed than would Eumeces. Both factors would increase the exposure of Chalcides to predators relative to that of Eumeces. To reduce the risk of predation, Chalcides would have to reduce energy intake or fulfill its energy requirements with relatively small prey, or both. These conclusions are potentially confounded in two ways. The first is that male Eumeces have relatively large heads as a result of sexual selection. Thus, the differences we observed between Chalcides and Eumeces (most of our specimens were males) could have been the result of reduced costs of feeding for Eumeces due to sexual selection and not the result of enhanced costs of feeding for Chalcides. A more likely explanation is that differences in the costs of feeding observed between these species reflect adaptations for fossoriality by Chalcides and sexual selection on Eumeces. Our results may also be confounded because we compared laboratory reared Chalcides with field captured Eumeces. Any deterimental effects of captivity on the vigor of Chalcides would increase their costs of feeding relative to those of Eumeces. Although short-term captivity is not associated with changes in the metabolic capcity of lizards, effects of long-term captivitiy are unknown.     

Deferred agonistic behavior in a long-lived scincid lizard Eumeces laticeps

Summary A laboratory experiment with the broad-headed skink (Eumeces laticeps) involving staged agonistic encounters demonstrates that larger males have an advantage over smaller ones in agonistic bouts. Field data on head wounds produced by intraspecific fighting during the breeding season show a much higher frequency of new wounds among males over 100 mm in snout-vent-length than in smaller males. The significant difference in new-wound frequency strongly suggests avoidance of fights by the small males, which is corroborated by laboratory and field observations. Access by males to reproductively active females depends on the ability to defeat other males in aggressive contests virtually always involving head biting if the males are of nearly equal size. Because the probability of winning agonistic encounters increases with size, young males avoid fights with older males. Aggressive contests with larger males and reproductive attempts other than courtship in the absence of larger males are deferred.Aggressive behavior in E. laticeps may be employed in direct defense of females, but might also be expressed in defense of specific sites and/or territories. In the laboratory, males in their home cages were significantly more likely to win encounters with males of similar size than were males fighting in the home cages of opponents. This suggests that encounter site could be important in determining encounter outcome and that field study of possible site defense or territoriality is needed.     

Feeding behavior modulation in the leopard lizard (Gambelia wislizenii): effects of noxious versus innocuous prey

Feeding, a fundamentally rhythmic behavior in many animals, is expected to exhibit modulation with respect to prey type. Using high-speed videography (200 frames s⁻¹) and kinematic analysis, we investigated prey-processing behavior in the long-nosed leopard lizard (Gambelia wislizenii). The effects of two prey types were examined, innocuous immature crickets (Acheta domesticus) and noxious stinging hymenopterans (honeybees [Apis mellifer] and yellow jackets [Vespula sp.]). Stinging hymenopterans are processed more extensively, with higher gape-cycling frequencies, and for a greater duration than are crickets. Generalized tetrapod feeding models were used as a framework to test the hypothesis that gape profile characteristics are modulated in response to prey noxiousness. Cricket processing generally fits the models, but hymenopteran processing departs from typical model parameters. In particular, the SO phase is absent to barely detectable during hymenopteran processing. This likely represents an effect of extrinsic neural input on a centrally directed rhythmic motor pattern, possibly to avoid being stung. Differences in the capture behavior of crickets versus hymenopterans indicate that G. wislizenii assesses prey noxiousness before physical contact with prey and modifies its capture behavior accordingly. These results add to the growing body of evidence that sensory information can play a critical role in shaping stereotyped rhythmic behaviors in non-mammalian tetrapods.     

Energetic and physiological correlates of prey handling and ingestion in lizards and snakes

In this review, we summarize the energetic and physiological correlates of prey handling and ingestion in lizards and snakes. There were marked differences in the magnitude of aerobic metabolism during prey handling and ingestion between these two groups, although they show a similar pattern of variation as a function of relative prey mass. For lizards, the magnitude of aerobic metabolism during prey handling and ingestion also varied as a function of morphological specializations for a particular habitat, prey type, and behavior. For snakes, interspecific differences in aerobic metabolism during prey handling seem to be correlated with adaptations for prey capture (venom injection vs. constriction). During ingestion by snakes, differences in aerobic metabolism might be due to differences in cranial morphology, although allometric effects might be a potentially confounded effect. Anaerobic metabolism is used for prey handling and ingestion, but its relative contribution to total ATP production seems to be more pronounced in snakes than in lizards. The energetic costs of prey handling and ingestion are trivial for both groups and cannot be used to predict patterns of prey-size selection. For lizards, it seems that morphological and ecological factors set the constraints on prey handling and ingestion. For snakes, besides these two factors, the capacity of the cardio-respiratory system may also be an important factor constraining the capacity for prey handling and ingestion.     

Maternal thermoregulation influences offspring viability in a viviparous lizard

Gravid females of the viviparous scincid lizard Eulamprus heatwolei were maintained in the laboratory, with some females allowed to bask for 8 h/day and others for only 2 h/day. Maternal basking regimes influenced the gestation period, and significantly affected the body shapes, activity levels and running speeds of the offspring born to these females. Neonates from females with lesser basking opportunities were relatively short and fat, were very active, and were relatively fast runners. Effects of the embryos' thermal regime on the young lizards' morphology and running speed were still detectable two months after birth. Thus, much of the morphological and behavioral variation among neonatal reptiles may arise from phenotypically plastic responses to the thermal environments experienced during embryonic development, rather than from heritable genetic differences among individuals. Hence, selection on maternal thermoregulatory behavior may be an important avenue for adaptive modifications to neonatal phenotypes in reptiles.     

Sex differences in optimal incubation temperatures in a scincid lizard species

Most theoretical models for the evolution of temperature-dependent sex determination (TSD) rely upon differential fitness of male and female offspring incubated under different thermal regimes. However, there are few convincing data on this topic. We studied incubation effects in a lizard species (Bassiana duperreyi, Scincidae) with genotypic sex determination, so that we could separate effects due to incubation temperatures from those due to offspring gender. We incubated eggs under two different fluctuating-temperature regimes that simulated hot and cold natural nest-sites. The effects of our incubation treatments on phenotypes of the hatchling lizards (morphology and locomotor performance) differed between the sexes. Females emerging from eggs exposed to the “hot nest” treatment (diel cycling, 23–31°C) were larger, and ran faster, than did their sisters from the “cold nest” treatment (16–24°C). Males showed a smaller and less consistent phenotypic response than females. These incubation-induced responses were relatively stable during the first few weeks of life post-hatching, at least in captive lizards maintained under laboratory conditions. These kinds of sex differences in the phenotypic responses of hatchling reptiles to incubation conditions provide a plausible basis for the evolution of temperature-dependent sex determination in reptiles. Received: 07 May 1998 / Accepted: 16 November 1998     

Ecological factors influencing the antipredator behaviors of the ground skink, Scincella lateralis

I tested several hypotheses regarding the antipredator behaviorsof ground skinks (Scincella lateralis) based on a simple-optimalitymodel for avoiding predation. Field studies demonstrated thatS. lateralis with lower body temperatures fled earlier in predatoryevents when the predator was farther away than did warmer animal.This may reflect a compensatory shift in behavior related todecreased sprint speeds observed at lower temperatures. Thesedifferences in maximum sprint speeds at five substrate temperatureswere not linked to morphological characteristics such as mass,snout-vent length, or tail length. Body temperatures of S. lateraliswere highly correlated with substrate temperatures in the field,and these environmental temperatures correlated with the dailyand seasonal activity schedules of S. lateralis. The thermoregulatorystrategy of ground skinks closely parallels theoretical predictionsfor forest-dwelling lizards based on optimum performance curves.In the laboratory, S. lateralis did not alter flight responsesbased on the availability of cover objects or tail conditionof the lizards. Escape behaviors of males and females did notdiffer. Likewise, S. lateralis. showed no differences in responseto differently sized predator models. Differences were foundbetween the reactions of adult and juvenile skinks to an approachingpredator model. Also, S. lateralis collected in Louisiana fledfrom the same predator model with greater frequency than S.lateralis collected in Oklahoma     

Aerobic and anaerobic metabolism in a facultative anaerobe Ep01 lacking cytochrome, quinone and catalase

Abstract A facultative anaerobe, strain Ep01 produced a mixture of pyruvate, formate, acetate and ethanol from glucose anaerobically, and acetate and pyruvate aerobically. Cell extract of anaerobic-grown cells contained active pyruvate formatelyase, aldehyde dehydrogenase and alcohol dehydrogenase, while cell extract of aerobic grown cells contained an active pyruvate dehydrogenase system, NaDH oxidase and NADH peroxidase. Levels of acetate kinase and phosphate acetyltransferase activities were not significantly different in cells grown under either condition. Based on the metabolic products and the emzyme activities, we propose the presence of two metabolic pathways in strain Ep01, namely, a pathway to form formate, acetate and ethanol under anaerobic conditions, and a pathway to form under aerobic conditions. This explains why strain Ep01 can grow well both under strictly anaerobic conditions and well-aerated conditions.     

Variability of heating and cooling rates during radiant heating in a scincid lizard, Egernia cunninghami

Heating rates were significantly greater than cooling rates in Egernia cunninghami. Male lizards had significantly slower cooling rates than females, while heating rates of both sexes were similar. Faster heating and cooling rates were recorded in the earlier months of the 32-week experiment than during the winter season. The effect of infra-red heat intensity on heating and cooling rates was apparent only in the winter months. Painting the animals black retarded the radiant heating rates, rather than enhancing them.     

Energetic cost of a meal in a frequent feeding lizard

Specific dynamic action (SDA) describes the rise in metabolism following feeding in animals and represents the energetic cost of digesting and assimilating a meal. The overall energetic cost of feeding may depend on whether or not an animal is post-absorptive at the time of feeding. The aim of this study was to compare the energetic cost of SDA due to feeding frequently compared with infrequently in the eastern water skink, Eulamprus quoyii. For similar quantities of food, repeated feeding incurred an energetic cost equal to 8.8% of the metabolizable energy of the meal (25,220 J), while single feeding incurred an energetic cost of 9.4% of the metabolizable energy of the meal (26,072 J). Experimental lizards maintained a rise in (VO2) that was on average 1.8 times greater than the (VO2) of the unfed controls over a 50-h interval as a result of feeding frequently. This prolonged rise in metabolism resulting from frequent feeding does not result in a higher energetic cost of SDA compared with that resulting from infrequent single feeding.     

Ownership influences the outcome of male-male contests in the scincid lizard, Niveoscincus microlepidotus

Male snow skinks (Niveoscincus microlepidotus) in the Tasmanianhighlands have broadly overlapping home ranges, and fight vigorously(often with substantial damage to one or both participants)upon encountering another adult male. We observed 32 male-malecontests, involving at least 49 different males, during a five-yearfield study near the summit of Mount Wellington. Bouts involvingsimilar-sized lizards typically continued for longer than boutsinvolving a greater size disparity between the combatants. Residentmales won 72% of all bouts, despite a lack of any significantdifference between residents and intruders in body sizes, relativehead sizes or body condition. Thus, prior residency of a siteappears to be the major determinant of success in male-malerivalry.     

Characterization of strain HY99, a novel microorganism capable of aerobic and anaerobic degradation of aniline

We have characterized a novel microorganism, strain HY99, which is capable of aerobic and anaerobic degradation of aniline. Strain HY99 was found to aerobically metabolize aniline via catechol and 2-hydroxymuconic semialdehyde intermediates, and to transform aniline via p-aminobenzoate in anaerobic environments. Physiological and biochemical tests revealed that strain HY99 was most similar to Delftia acidovorans, but unlike D. acidovorans, strain HY99 was able to metabolize aniline under anaerobic conditions linked with nitrate reduction. Phylogenetic analysis based on 16S rDNA sequencing also revealed that strain HY99 was closely related to D. acidovorans, with 96% overall similarity.     

Geographic variation in 'costs of reproduction' in the scincid lizard Lampropholis guichenoti

1. A major focus of life-history research has been the analysis of reproductive effort (RE). However, while clearly defined in theory, RE has proved very difficult to measure. Consequently, researchers have looked for indices that estimate the components of RE. Uncritical use of indices of reproductive investment, such as measures of costs of reproduction, without verification of the underlying assumptions of the link between these traits, may lead to spurious conclusions. In this paper, the common assumption that the physical burden of the clutch impairs locomotor ability in gravid reptiles is examined.
2. Two neighbouring populations of Australian scincid lizards ( Lampropholis guichenoti) are similar in adult body sizes, body shapes and reproductive output (egg sizes, clutch sizes, relative clutch masses).
3. Despite morphological and reproductive similarities, the effects of pregnancy on maternal locomotor ability (running speeds, as measured in a laboratory raceway) differed dramatically between the two populations.
4. Lizards from the two populations ran at similar speeds when nongravid (i.e. after egg-laying), but pregnancy significantly reduced running speeds in one population and increased them in the other. Thus, superficial similarities in body size and reproductive output masked a strong divergence in the locomotor 'costs' of reproduction.
5. Caution is advised if using simple measures of reproductive output (e.g. relative clutch mass) as indices of reproductive effort, or to generalize results even among conspecific populations.     

Clutch size in the tropical scincid lizard Emoia sanfordi, a species endemic to the Vanuatu Archipelago

The majority of species in the scincid genus Emoia (Squamata: Scincidae) have a fixed clutch size of two eggs per clutch and produce between two and four clutches per year. One lineage within Emoia, the Emoia samoensis species group, consists of 13 species occurring in Melanesia and the islands of the southwestern Pacific Ocean, and exhibits variation in clutch size, with previously reported clutch sizes of two to five eggs. Little is known about reproduction in several members of this lineage including Emoia sanfordi, a large-bodied lizard endemic to the archipelago of Vanuatu in the South Pacific. We analyzed reproduction and clutch size in E. sanfordi females and discovered that there is a substantial amount of intraspecific variation, with clutch size ranging from two to seven eggs, with a modal clutch size of five eggs. Females were reproductively active throughout the study period of June through October and appear to be laying multiple clutches. The variation in clutch size seen in E. sanfordi is congruent with the variation previously reported within other closely related species.     

Tooth development in a scincid lizard, Chalcides viridanus (Squamata), with particular attention to enamel formation

Comparative analysis of tooth development in the main vertebrate lineages is needed to determine the various evolutionary routes leading to current dentition in living vertebrates. We have used light, scanning and transmission electron microscopy to study tooth morphology and the main stages of tooth development in the scincid lizard, Chalcides viridanus, viz., from late embryos to 6-year-old specimens of a laboratory-bred colony, and from early initiation stages to complete differentiation and attachment, including resorption and enamel formation. In C. viridanus, all teeth of a jaw have a similar morphology but tooth shape, size and orientation change during ontogeny, with a constant number of tooth positions. Tooth morphology changes from a simple smooth cone in the late embryo to the typical adult aspect of two cusps and several ridges via successive tooth replacement at every position. First-generation teeth are initiated by interaction between the oral epithelium and subjacent mesenchyme. The dental lamina of these teeth directly branches from the basal layer of the oral epithelium. On replacement-tooth initiation, the dental lamina spreads from the enamel organ of the previous tooth. The epithelial cell population, at the dental lamina extremity and near the bone support surface, proliferates and differentiates into the enamel organ, the inner (IDE) and outer dental epithelium being separated by stellate reticulum. IDE differentiates into ameloblasts, which produce enamel matrix components. In the region facing differentiating IDE, mesenchymal cells differentiate into dental papilla and give rise to odontoblasts, which first deposit a layer of predentin matrix. The first elements of the enamel matrix are then synthesised by ameloblasts. Matrix mineralisation starts in the upper region of the tooth (dentin then enamel). Enamel maturation begins once the enamel matrix layer is complete. Concomitantly, dental matrices are deposited towards the base of the dentin cone. Maturation of the enamel matrix progresses from top to base; dentin mineralisation proceeds centripetally from the dentin–enamel junction towards the pulp cavity. Tooth attachment is pleurodont and tooth replacement occurs from the lingual side from which the dentin cone of the functional teeth is resorbed. Resorption starts from a deeper region in adults than in juveniles. Our results lead us to conclude that tooth morphogenesis and differentiation in this lizard are similar to those described for mammalian teeth. However, Tomes processes and enamel prisms are absent.     

High costs of female choice in a lekking lizard

Although the cost of mate choice is an essential component of the evolution and maintenance of sexual selection, the energetic cost of female choice has not previously been assessed directly. Here we report that females can incur high energetic costs as a result of discriminating among potential mates. We used heart rate biologging to quantify energetic expenditure in lek-mating female Galápagos marine iguanas (Amblyrhynchus cristatus). Receptive females spent 78.9+/-23.2 kJ of energy on mate choice over a 30-day period, which is equivalent to approximately (3/4) of one day's energy budget. Females that spent more time on the territories of high-quality, high-activity males displayed greater energetic expenditure on mate choice, lost more mass, and showed a trend towards producing smaller follicles. Choosy females also appear to face a reduced probability of survival if El Ni?o conditions occur in the year following breeding. These findings indicate that female choice can carry significant costs, and suggest that the benefits that lek-mating females gain through mating with a preferred male may be higher than previously predicted.