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ANTHONY HERREL JAY J. MEYERS BIEKE VANHOOYDONCK 《Biological journal of the Linnean Society. Linnean Society of London》2002,77(1):149-163
With the exception of the well-documented case for anoline lizards, recent studies have found few evolutionary relationships between morphology and habitat use in lizards despite clear-cut biomechanical predictions. One of the factors typically hampering these analyses is the clustering of habitat use within evolutionary lineages. In the present study, body shape was quantified for male and female lizards of 30 species of phrynosomatid lizards. This group was selected as little clustering of ecological variables seemed to be present. The results of traditional analyses indicate that evolutionary correlates of habitat use were prominent in the hindlimbs of both sexes. Species living in open habitats are characterized by longer femurs, and longer hindlimbs relative to the forelimb. Moreover, males from ground-dwelling species utilizing open habitats have longer toes on the hind foot than males from climbing species. Phylogenetic analyses indicated strong evolutionary associations between habitat use and the relative length of front and hindlimbs, with species from open terrestrial habitats having significantly shorter frontlimbs relative to their hindlimb than rock or tree climbing species. Evolutionary associations between morphology and habitat use were generally stronger for male lizards, indicating a potentially important contribution of sexual selection to the evolution of differences in limb proportions. © 2002 The Linnean Society of London, Biological Journal of the Linnean Society , 2002, 77 , 149–163. 相似文献
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Haenel GJ 《Molecular ecology resources》2009,9(2):597-599
Tree lizards (Urosaurus ornatus) are a highly accessible species useful in testing theories of life-history evolution and behavioural ecology. A polymerase chain reaction-based method was used to isolate nine polymorphic tetranucleotide microsatellite loci from the genome of these lizards. The isolated loci displayed 5 to 9 alleles in the populations screened. Observed heterozygosity ranged from 0.333 to 0.900. Results indicate these loci now provide a basis to study mate choice, parentage, and population genetic structure within this species. 相似文献
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Seven microsatellite loci were developed for the Baja California endemic black‐tailed brush lizard Urosaurus nigricaudus, using an enriched genomic DNA library. All loci were polymorphic and overall presented high levels of variation. Number of alleles ranged from five to 16 (average 12.14), and observed heterozygosities from 0.535 to 0.923 (average 0.752). Cross‐species amplification was successful and polymorphism was detected for all the loci using the congeners Urosaurus lahtelai and Urosaurus ornatus. These markers will be useful to study fragmented populations of U. nigricaudus on agricultural landscape of the Baja California Peninsula. 相似文献
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Philip J. Bergmann Gen Morinaga Elyse S. Freitas Duncan J. Irschick Günter P. Wagner Cameron D. Siler 《Proceedings. Biological sciences / The Royal Society》2020,287(1938)
Evolutionary reversals, including re-evolution of lost structures, are commonly found in phylogenetic studies. However, we lack an understanding of how these reversals happen mechanistically. A snake-like body form has evolved many times in vertebrates, and occasionally a quadrupedal form has re-evolved, including in Brachymeles lizards. We use body form and locomotion data for species ranging from snake-like to quadrupedal to address how a quadrupedal form could re-evolve. We show that large, quadrupedal species are faster at burying and surface locomotion than snake-like species, indicating a lack of expected performance trade-off between these modes of locomotion. Species with limbs use them while burying, suggesting that limbs are useful for burying in wet, packed substrates. Palaeoclimatological data suggest that Brachymeles originally evolved a snake-like form under a drier climate probably with looser soil in which it was easier to dig. The quadrupedal clade evolved as the climate became humid, where limbs and large size facilitated fossorial locomotion in packed soils. 相似文献
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BIEKE VANHOOYDONCK RENAUD BOISTEL VINCENT FERNANDEZ ANTHONY HERREL 《Biological journal of the Linnean Society. Linnean Society of London》2011,102(1):91-99
Trade‐offs are thought to be important in constraining evolutionary divergence, as they may limit phenotypic diversification. Limbless animals that burrow head‐first have been suggested to be evolutionarily constrained in the development of a large head size and sexual head shape dimorphism because of potential trade‐offs associated with burrowing. Here we use an acontiine skink (Acontias percivali) to test for the existence of trade‐offs between traits thought to be important in burrowing (speed and force). As head size dimorphism has been shown to be limited in acontiine lizards, thus suggesting constraints on head size and shape, we additionally explore the potential for trade‐offs between burrowing and biting. Our data show that A. percivali uses a burrowing style different from those previously described for caecilians and amphisbaenians, which relies on the use of extensive lateral and dorsoventral head movements. Our data also show that animals use their entire bodies to generate force, as peak force was determined by total length only. Additionally, both bite force and the time needed to burrow into the substrate were principally determined by relative head width, suggesting a trade‐off between biting and burrow speed. Performance data were indeed suggestive of a correlation between bite force and the time needed to burrow, but additional data are needed to confirm this pattern. In summary, our data suggests that trade‐offs may exist, and may have been of crucial importance in shaping the evolution of head shape in A. percivali, and burrowing lizards more generally. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2011, 102 , 91–99. 相似文献
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Abstract Coppertail skinks (Ctenotus taeniolatus) are medium‐sized diurnal lizards that are widespread in eastern Australia. Field surveys on sandstone outcrops in the Sydney region showed that these animals use available rocks non‐randomly: coppertails were found under large, sun‐exposed rocks on deep soil. Choice trials in the laboratory documented selection of retreat sites that were warm, with substrate preferences shifting in a diel cycle. Lizards selected retreats with rock substrates during the day but with sandy substrates at night. Rocky retreats attain higher temperatures during daylight hours, but burrows in sand beneath rocks may provide greater protection against ingress by nocturnal predators. During fieldwork we rarely found lizards under rocks with either ants or centipedes, suggesting that coppertails may avoid these predatory invertebrates. Tongue‐flick trials showed that the lizards could discriminate among common ant species based on chemosensory cues, but apparently could not detect centipede chemical cues. In experimental trials, the lizards did not avoid retreat sites scented by either ants or centipedes. Our data thus suggest that retreat‐site selection in coppertails is driven by abiotic cues (rock size, sun exposure and substrate type) that may confer fitness benefits in terms of thermoregulation and predator avoidance, with biotic cues playing a less important role. 相似文献
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BIEKE VANHOOYDONCK ANEMONE ANDRONESCU ANTHONY HERREL DUNCAN J. IRSCHICK 《Biological journal of the Linnean Society. Linnean Society of London》2005,85(3):385-393
We studied the effects of substrate structure on locomotor performance in a climbing gecko, Hemidactylus garnoti . We quantified three performance traits (acceleration capacity, instantaneous speed, and final speed) on three substrates: (i) smooth wood, (ii) a cloth surface, and (iii) a wire mesh. While acceleration capacity and instantaneous speed were highest on the wooden surface, final speed did not differ significantly among substrates. Using scanning electron microscopy (SEM) pictures, we estimated that 98% of the wooden surface is available for adhesion by the setae on the toepads, while this percentage is much lower for the mesh and cloth (41 and 37%, respectively). We suggest that when a gecko climbs up a gap-filled substrate, such as the wire mesh or cloth, adhesion will only happen between part of the toepad and the substrate, resulting in a diminished acceleration capacity. The higher acceleration capacity on the wooden substrate and the fact that the geckos tend to slip less often on this particular surface, may explain the difference in instantaneous speed. As for final speed, geckos might achieve similar final speeds on all three substrates by employing different locomotor strategies. Our results suggest that microhabitat use in nature might have a profound effect on locomotor performance and survival for climbing lizards such as geckos. © 2005 The Linnean Society of London, Biological Journal of the Linnean Society , 2005, 85 , 385–393. 相似文献
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Y. Norma-Rashid 《Insect Science》2003,10(2):115-119
Abstract The hemimetabolous preliminary studies on the life cycle of Indocnemis orang is here reported for the first time, being completed in 6 instars for a minimum duration of 69 days. It can be classified as a stenotopic species being sensitive to biotope requirements but having tolerance towards fluctuating water qualities during its developmental process. The need for caution in the interpretation of bioindicator species for habitat assessment and biomonitoring is here both indicated and discussed. 相似文献
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TIMOTHY E. HIGHAM ANTHONY P. RUSSELL 《Biological journal of the Linnean Society. Linnean Society of London》2010,101(4):860-869
The functional and evolutionary implications of morphological diversification have been addressed for several groups of vertebrates. Although the mechanisms of gecko adhesion have received considerable attention, little is known regarding locomotor performance of geckos in nature, and how this might relate to morphological diversity. In this study we examine locomotor performance of two sympatric sister species of geckos of the genus Rhoptropus (Rhoptropus afer and Rhoptropus bradfieldi) found in the coastal desert regions of Namibia. One species (R. afer) commonly runs on sandy substrates and moves between isolated rock sheets, whereas the other species (R. bradfieldi) commonly lives and runs on isolated boulders. The morphology of R. afer is extremely divergent from its sister species and all other species in the genus. We initially recorded the inclination of the substrate in which the lizards were found in order to characterize the habitat of each species. We then quantified maximum speed and acceleration on a level 1‐m trackway, and also during escapes in the field. We found that R. bradfieldi occupies steeper surfaces than those occupied by R. afer. On the trackway and in nature, R. afer runs faster than R. bradfieldi, although the differences in locomotor performance between the species are greater for the field measurements. Rhoptropus afer commonly runs for more than 2 or 3 m, whereas R. bradfieldi commonly runs less than 50 cm during an escape sprint. Our main conclusions are that: (1) R. afer attains higher maximum speeds when escaping under controlled and field conditions, although the magnitude differs between conditions; and (2) hindlimb morphology correlates with maximum running speed in R. afer, but not in R. bradfieldi. Similar to the well‐studied Anolis lizards, we propose that these two gecko species represent distinct and highly divergent ecomorphs. © 2010 The Linnean Society of London, Biological Journal of the Linnean Society, 2010, 101 , 860–869. 相似文献
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栖息地改变往往对动物群落及其物种多样性有重要影响,但是目前关于栖息地荒漠化如何影响蜥蜴的群落组成鲜有研究。在内蒙古自治区鄂尔多斯市准格尔旗和达拉特旗地区通过样线法调查了三类不同荒漠化程度样地上的蜥蜴群落组成差异,用典范对应分析探究了关键的影响因素。结果表明,栖息地荒漠化使蜥蜴的群落组成发生显著变化,从固定沙丘、半固定沙丘到流动沙丘,草原沙蜥均是蜥蜴群落的优势物种,密点麻蜥逐渐减少,丽斑麻蜥则消失于荒漠化严重的半固定沙丘和流动沙丘中。随栖息地荒漠化程度的增加,蜥蜴的数量显著减少,密度显著降低,蜥蜴物种的丰富度、香农-威纳(Shannon-Weaver)多样性指数和皮洛(Pielou)均匀性指数均逐次显著下降,而辛普森(Simpson)优势度指数则逐次显著升高。这说明荒漠化不仅使蜥蜴群落组成变得简单,同时造成了蜥蜴物种多样性的下降甚至丧失。荒漠化也使蜥蜴的栖息条件发生显著变化。植被高度、油蒿比例、裸地比例、隐蔽度、表层土壤含水量和表层土壤孔隙度在三类栖息样地之间均存在极显著差异。典范对应分析结果表明,这些环境因子与蜥蜴群落组成的变化密切相关。总体而言,草原沙蜥偏好裸地,密点麻蜥偏好隐蔽性好且土壤湿润又疏松的区域,而丽斑麻蜥则偏好植被高的区域。 相似文献
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Porter LM 《American journal of physical anthropology》2004,124(2):139-153
Callimico goeldii, Saguinus fuscicollis, and S. labiatus are sympatric in northern Bolivia and differ from each other in patterns of spatial and structural use of their environment. C. goeldii has a home range five times larger than that of mixed-species troops of S. fuscicollis and S. labiatus. The larger overlapping home range of C. goeldii allows it to move among Saguinus troops, giving it access to a wide range of different microhabitats. All three species use the most common microhabitat in the area, primary forest with dense understory, more than any other microhabitat type. C. goeldii habitat use varies by season, with bamboo and Heliconia microhabitats used more during the dry season. Each species shows preferences for different height classes: C. goeldii is found almost exclusively in the understory, S. fuscicollis uses the understory and middle canopy, and S. labiatus is found mostly in the middle canopy. These height class preferences are reflected in each species' locomotor styles, with C. goeldii showing the highest rates of vertical clinging and leaping, and S. labiatus showing the highest rates of branch-to-branch leaping and quadrupedal movement. The results suggest that C. goeldii may be restricted to forests with dense understory and a mosaic of other microhabitats. Furthermore, C. goeldii does not appear to use its tegulae for large branch foraging, but rather for vertical clinging and leaping between small vertical supports. 相似文献
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LEONIE E. VALENTINE 《Austral ecology》2006,31(6):732-735
Abstract: Rubber vine (Cryptostegia grandiflora) is an environmental weed that frequently invades riparian habitats in northern Australia. I examined the habitat use of lizards in riparian and woodland environments comprised of native and rubber vine vegetation. Rubber vine was a major component of vegetation in the riparian habitat (approximately 40%), but only a minor component of woodland habitat (approximately 5%). Of 132 lizards, none were observed using rubber vine vegetation in riparian habitats, significantly less than expected, and only one lizard was observed in rubber vine vegetation in the woodland habitat. As rubber vine vegetation contains features that superficially resemble native habitat used by lizards, such as leaf litter, the avoidance of rubber vine by lizards suggests that rubber vine has underlying characteristics that create a suboptimal environment for lizards. 相似文献
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ERIC J. MCELROY STEPHEN M. REILLY 《Biological journal of the Linnean Society. Linnean Society of London》2009,97(3):634-651
Terrestrial locomotion occurs via the hierarchical links between morphology, kinematics, force, and center-of-mass mechanics. In a phylogenetically broad sample of seven lizard species, we show that morphological variation drives kinematic variation, which, in turn, drives force variation. Species with short limbs use a short stride–high frequency strategy when running at steady-speed and to change speeds. This link between morphology and kinematics results in relatively small vertical forces during the support phase of the stride cycle. Conversely, species with long limbs use a long stride–low frequency strategy, resulting in large vertical forces during the support phase. In view of these findings, we suggest that limb length may predict locomotor energetics in lizards because energetics are largely determined by vertical forces and stride frequency. Additionally, we propose an energetic trade-off with both long- and short-limbed species paying the most energy to move, whereas intermediate-limbed species move using less energy. Finally, when these traits are mapped onto a lizard phylogeny, we show that locomotor functional morphology exhibits both deep phylogenetic effects and contemporary patterns of evolutionary convergence. Overall, the present study provides a foundation for testing hypotheses regarding the integration and evolution of functional traits in lizards and animals in general. © 2009 The Linnean Society of London, Biological Journal of the Linnean Society , 2009, 97 , 634–651. 相似文献
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The lizard family Phrynosomatidae comprises three subclades: the closely related sand and horned lizards, and their relatives the Sceloporus group. This family exhibits great variation in ecology, behavior, and general body plan. Previous studies also show that this family exhibits great diversity in locomotor performance abilities; as measured on a high-speed treadmill, sand lizards are exceptionally fast sprinters, members of the Sceloporus group are intermediate, and horned lizards are slowest. These differences are paralleled by differences in relative hindlimb span. To determine if muscle fiber-type composition also varies among the three subclades, we examined the iliofibularis (IF), a hindlimb muscle used in lizard locomotion, in 11 species of phrynosomatid lizards. Using histochemical assays for myosin ATPase, an indicator of fast-twitch capacity, and succinic dehydrogenase, denoting oxidative capacity, we classified fiber types into three categories based on existing nomenclature: fast-twitch glycolytic (FG), fast-twitch oxidative-glycolytic (FOG), and slow-twitch oxidative (SO). Sand lizards have a high proportion of FG fibers (64-70%) and a low proportion of FOG fibers (25-33%), horned lizards are the converse (FG fibers 25-31%, FOG fibers 56-66%), and members of the Sceloporus group are intermediate for both FG (41-48%) and FOG (42-45%) content. Hence, across all 11 species %FOG and %FG are strongly negatively correlated. Analysis with phylogenetically independent contrasts indicate that this negative relationship is entirely attributable to the divergence between sand and horned lizards. The %SO also varies among the three subclades. Results from conventional nested ANCOVA (with log body mass as a covariate) indicate that the log mean cross-sectional area of individual muscle fibers differs among species and is positively correlated with body mass across species, but does not differ significantly among subclades. The log cross-sectional area of the IF varies among species, but does not vary among subclades. Conversely, the total thigh muscle cross-sectional area does not vary among species, but does vary among subclades; horned lizards have slimmer thighs. Muscle fiber-type composition appears to form part of a coadapted suite of traits, along with relative limb and muscle sizes, that affect the locomotor abilities of phrynosomatid lizards. 相似文献
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Central in biology is the view that the commonly observed association between the phenotype and the ecology of organisms is the result of the process of natural selection. There are numerous examples where the current and/or past ecological pressures in which a trait presumably arose have been demonstrated. Less well documented, however, are cases where a species that has artificially been moved from its adaptive peak is seen to return to its ancestral state when exposed to the ancient selective regime. One of the few suggested cases is that of the feral pigeon ( Columba livia ), the free-living descends from domesticated, artificially selected rock pigeons. Contemporary feral pigeons are significantly closer in morphology to wild rock pigeons than to their more direct domestic ancestors, suggesting that natural selection has been reconstituting their wild phenotype. Because they still preserve some characters engendered through artificial selection during their ancestral period of domesticity, notably a tarsus that is disproportionally long for a terrestrial pigeon of its size, feral pigeons provide a rare opportunity to test whether natural selection is the process behind the reconstitution of the wild phenotype. In the present study, it is shown that feral pigeons with tarsi that depart the most from the wild phenotype appear to have limitations in the use of some food resources and, as a result, experience lower survival fitness. These findings support the view that natural selection is reconstituting the wild phenotype in feral pigeons. The possibility nonetheless remains that this process will never be fully completed. © 2008 The Linnean Society of London, Biological Journal of the Linnean Society , 2008, 93 , 657–665. 相似文献