Author: Kenneth John Halama
Publisher:
ISBN:
Category : Lizards
Languages : en
Pages : 438

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Author: Robert P. Pelletier
Publisher:
ISBN:
Category : Reptiles
Languages : en
Pages : 86

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Book Description
Western Fence lizards (Sceloporus occidentalis) are a geographically widespread species that would benefit from adapting their microhabitat use and morphology to better suit the local habitat types they inhabit. To test for such differences, I used visual encounter surveys to assess the microhabitat use of the lizards and collected morphological data to evaluate differences between populations in different habitats. I observed the lizards at three sites representing three habitat types, including a suburban road in Turlock, Stanislaus Co., CA; a rocky cliff in Knights Ferry Recreational Area, Stanislaus Co., CA; and a Riparian forest in Caswell Memorial State Park, Ripon, San Joaquin Co., CA. My prediction that suburban road lizards would be generalists was supported; however, while there was evidence for morphological adaptation for reduced climbing ability and small body size, there was not support for improved running speed to facilitate escape to dense vegetated shelters. My prediction that rocky cliff lizards would be rock specialists was supported; the data showed adaptations for improved running, jumping, and climbing abilities on flat rocks along with a compressed body for taking refuge in tight rock crevices. My prediction that riparian forest lizards would specialize in using the tree microhabitat was not supported; as a result, my prediction that their morphology would be adapted for running, jumping, and broad tree climbing was disproven although they did exhibit a robust body. Instead the riparian forest population appeared better adapted for crypsis while making use of leaf litter and twigs on the ground. My results suggest that Western Fence Lizard populations do have shifts in microhabitat use in different habitat types and have means of adjusting their morphology to better suit their environment, be it through local adaptation or phenotypic plasticity.

Author: Simone Des Roches
Publisher:
ISBN:
Category : Holbrookia maculata
Languages : en
Pages : 276

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Book Description
The species of lizards that inhabit White Sands, New Mexico, provide an ideal system in which to study evolutionary and ecological interactions. Characterized by 250 square miles of gypsum sand dunes, White Sands formed in the last two to seven thousand years. Three lizard species, the Lesser Earless Lizard (Holbrookia maculata ), the Southwestern Fence Lizard (Sceloporus cowlesi ), and the Little Striped Whiptail (Aspidoscelis inornata ) colonized White Sands since its formation and today exhibit blanched colouration, unlike their closely related dark-coloured counterparts inhabiting the surrounding Chihuahuan Desert. As both a geologically young and novel ecosystem, White Sands provides a setting for studying ecological and evolutionary changes in its colonist species. In my dissertation, I examined the ecological implications of morphological differences between White Sands and dark soils lizards and investigated the current dynamics of ecological population dynamics and natural selection on White Sands lizard populations. In Chapter I, I introduced the geological history of White Sands and the biological history of its lizard inhabitants. In Chapter II, I examined whether White Sand lizards show evidence of ecological release. Specifically, I found that there are fewer potential competitor and predator species in White Sands and the three resident species exhibit density compensation. Furthermore, one of the White Sands species, S. cowlesi , demonstrates expansion of resource use by using a greater variety of perch types than in dark soils habitats. In chapters III and IV, I explored whether ecologically relevant morphology, performance, and resource use showed evidence of ecological release and directional selection. In particular, I found that two species White Sands lizards have longer legs than their dark soils counterparts, but this does not influence their sprint speed as much as their behavioural response to a simulated predator. In addition, all three species consume a greater number of prey species in White Sands than in dark soils; however, only A. inornata eats significantly harder prey, and only H. maculata has expanded the variability of its diet in White Sands. Finally, in Chapter V, I investigated the changes in population demographics and selection on ecologically important traits in two species, S. cowlesi and H. maculataon the White Sands ecotone over two to three years. I found extreme differences in the ratio of juveniles to adults, growth, dispersal distances, and potential selection on traits between the two species over time.

Author: Nassima Mahdjouba Bouzid
Publisher:
ISBN:
Category :
Languages : en
Pages : 171

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Book Description
I am fascinated by intraspecific variation-by both its sources and its potential implications for how organisms interact with their environments. The importance of intraspecific variation for predicting species responses to climate change has recently become a research priority. Differences in the sources of intraspecific variation0́3genetic divergence, phenotypic plasticity, and drift0́3can have profoundly different outcomes for species responses. Variation in traits produced by heritable differences in genes will be sensitive to future selection, while variation produced by phenotypic plasticity may be buffered. Time and again, mechanistic studies of species responses have highlighted the importance of considering trait variation to predict idiosyncratic responses, and the sources of trait variation must also be considered. I studied intraspecific variation in Western Fence Lizards (Sceloporus occidentalis) at three spatial scales and three levels of organization. In Chapter 1 I investigated species-wide phylogeographic patterns and demographic scenarios throughout western North America. In Chapter 2 I characterized clinal variation in genotypes and phenotypes and gene flow along an elevation gradient in Yosemite National Park. In Chapter 3 I disentangled the genetic and plastic constituents of divergent phenotypes in a lab rearing experiment. My dissertation research provides an integrative framework for studying local adaptation in a polymorphic and well-established vertebrate system. Chapter 1 is the culmination of over two decades of research on phylogeographic structure within S. occidentalis. We sampled 108 individuals from 83 localities throughout the range in western North America. We used 4,555 SNPs from ddRADseq to characterize population structure and estimate demographic history. We found five genetically distinct populations including: one in the southwest, south of the Transverse Ranges; two west of the Sierra Nevada-Cascades cordillera, separated from north-to-south just north of San Francisco Bay; and two east of the Sierra Nevada-Cascades cordillera, separated from east-to-west in the Great Basin desert. The branching pattern of populations suggests that populations south of the Transverse Ranges and west of the Sierra Nevada-Cascades cordillera are divergent from populations east of the Sierra Nevada-Cascades cordillera. The predominant mechanism of population divergence is allopatric divergence and contemporary secondary contact, which supports Quaternary glacial cycles as drivers of intraspecific genetic divergence. Chapter 2 builds on foundational work by Leaché et al. (2010) to characterize genetic and phenotypic clines along an elevation gradient in Yosemite National Park. At high elevations lizards are larger and more melanistic, while at low elevations lizards are smaller and lighter-colored. We sampled 78 individuals from a 21 km stretch of the Grand Canyon of the Tuolumne River in northern Yosemite. The elevation gradient spanned 1321 m from N Hetch Hetchy Reservoir (37.9168 N, 119.6595 W, 1167 m) in the west to E Glen Aulin (37.9076 N, 119.4196 W, 2488 m) in the east. We used 721 SNPs from ddRADseq to characterize genetic clines and estimate demographic history of populations along the elevation gradient. We found evidence for additional population structure and genetic divergence between phenotypically divergent individuals; one genetically distinct population corresponds to low elevation individuals and another corresponds to high elevation individuals. Analyses of SNPs, maximum size (snout-vent length, SVL), and coloration (ventral patch area) confirm that genes and phenotypes vary clinally, and not discretely, along the elevation gradient. Genetically distinct populations diverged in allopatry, but contemporary gene flow between populations is asymmetric. Genes flow uphill, with five times as many migrants entering the high elevation population from low elevation than the converse. Chapter 3 delves into the underlying sources of trait divergence between low and high elevation individuals from the Grand Canyon of the Tuolumne River elevation gradient. While low and high elevation lizards mature at the same age, high elevation lizards are larger and more melanistic than low elevation lizards. We disentangled the genetic and environmental constituents of phenotypic variation by rearing hatchling lizards under controlled lab conditions. We collected five gravid females from low elevation (N Hetch Hetchy Reservoir [37.96 N, -119.78 W, ca. 1200 m]) and eight gravid females from high elevation (Glen Aulin [37.91 N, -119.42 W, ca. 2400 m]), who produced 36 and 51 hatchling lizards, respectively. We evenly distributed hatchlings from both populations among two treatments that varied in potential activity time: short activity period (6 hrs) and long activity period (12 hrs). We varied activity time by limiting access to heat-lamp-produced thermal gradients, which are necessary for thermoregulation. We found evidence that differences in size are genetically-based; high elevation hatchlings were larger than low elevation hatchlings, regardless of treatment. We found evidence that differences in color are at least partially produced by phenotypic plasticity; high elevation hatchlings were capable of plastically lightening to a color that was lighter than low elevation hatchlings. We found evidence that differences in behavior are genetically-based; high elevation hatchlings spent more time engaged in active behaviors. Overall, our findings are suggestive of local adaptation of high elevation hatchlings to restricted activity periods at high elevation.

Author: Laurie J. Vitt
Publisher: Princeton University Press
ISBN: 1400863945
Category : Science
Languages : en
Pages : 416

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Book Description
In a collection rich in implications for all fields of ecology, leading lizard ecologists demonstrate the utility of the phylogenetic approach in understanding the evolution of morphology, physiology, behavior, and life histories. Lizards, which are valued for their amenability to field experiments, have been the subject of reciprocal transplant experiments and of manipulations of resource availability, habitat structure, population density, and entire sections of food webs. Such experiments are rapidly rebuilding ecological theories as they apply to all organisms. As a demonstration of state-of-the-art historical and experimental research and as a call for philosophical engagement, this volume will join its predecessors--Lizard Ecology: A Symposium (Missouri, 1967) and Lizard Ecology: Studies of a Model Organism (Harvard, 1983)--in directing ecological research for years to come. Lizard Ecology contains essays on reproductive ecology (Arthur E. Dunham, Lin Schwarzkopf, Peter H. Niewiarowski, Karen Overall, and Barry Sinervo), behavioral ecology (A. Stanley Rand, William E. Cooper, Jr., Emülia P. Martins, Craig Guyer, and C. Michael Bull), evolutionary ecology (Raymond B. Huey, Jean Clobert et al., Donald B. Miles, and Theodore Garland, Jr.), and population and community ecology (Ted Case, Robin M. Andrews and S. Joseph Wright, Craig D. James, and Jonathan B. Losos). Originally published in 1994. The Princeton Legacy Library uses the latest print-on-demand technology to again make available previously out-of-print books from the distinguished backlist of Princeton University Press. These editions preserve the original texts of these important books while presenting them in durable paperback and hardcover editions. The goal of the Princeton Legacy Library is to vastly increase access to the rich scholarly heritage found in the thousands of books published by Princeton University Press since its founding in 1905.

Author: Francisco Octavio Llauger
Publisher:
ISBN:
Category :
Languages : en
Pages : 106

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Book Description
Urbanization has been recognized as an important factor influencing plasticity, evolution, and ecology in populations. However, responses to this novel anthropogenic pressure are taxon-specific and at times difficult to disentangle. A useful approach to elucidating these relationships is utilizing morphology given its influence over animal form and function in the environment. I investigated whether urbanization has caused morphology to change through time and across space in lizards in Central Texas. Utilizing a combination of measuring historical specimens and conducting modern field surveys, I found evidence of morphological variation at both temporal and spatial scales as a response to urbanization. Specifically, limb and toe measurements decreased through time in all five lizard species sampled and were larger on average in urban lizards. I also used modern sampling efforts to record presence-absence data to investigate whether urbanization has altered lizard distributions. I found evidence that distributions have potentially been affected by urban development in three lizard species. The implications of my study include a need for more systematic research on urban morphology that can begin in present day and the need to disentangle the interacting but potentially conflicting effects of plasticity, evolution, and ecology when making conclusions about urban and non-urban populations

Author: Paul Backus
Publisher:
ISBN:
Category : Habitat (Ecology)
Languages : en
Pages : 142

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Author: Eric R. Pianka
Publisher: Univ of California Press
ISBN: 0520234014
Category : Nature
Languages : en
Pages : 348

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Book Description
This book provides an overview of the diversity of lizards and their major adaptive features. The authors discuss the latest research findings and provide new hypotheses about lizard diversity.

Author: Casey Gilman
Publisher:
ISBN:
Category :
Languages : en
Pages :

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Book Description
Interactions with the physical and social aspects of an animal's surroundings direct the trajectory of local adaptation and can lead to tremendous diversity within and across taxa. In my dissertation, I explored how interactions between lizards and their environment lead to morphological, behavioral, and ecological diversity. First, I examined how a common, but unexplored habitat characteristic, perch flexibility, affects jumping performance of an arboreal lizard. I found that in the lab, green anole lizards (Anolis carolinensis) did not take advantage of the natural recoil of the flexible perches, and suffered decreased jump distance and takeoff speed as a consequence. Next, I extended my inquiry into how this habitat characteristic affects multiple aspects of behavior and morphology of the lizards in nature, given the potential performance costs associated with flexible perches. Most strikingly, I found that while green anoles used a range of perches in their habitat for most activities, they selectively jumped from relatively non-flexible perches. Then, I sought to more broadly understand the effects of habitat on the whole organism. I examined associations between habitat structure and complexity on male and female sexual and non-sexual traits, as these would reflect habitat effects on locomotion, foraging ecology, and social interactions. I found that while there was no association between habitat structure and variation in most traits I examined, male body condition decreased with decreasing vertical vegetative complexity. Finally, I focused on the role of social interactions in increasing morphological diversity. I examined the association between genital morphology and male mating type in an alternative mating strategy population of the terrestrial lizard Uta stansburiana. I found that male mating types differed in genital length and complexity, suggesting that strong sexual selection may drive morphological differentiation within populations. Together, my work shows the importance of animal-environment interactions as drivers of diversity and contributes to the broader fields of sexual selection, behavior and evolutionary ecology.

Author: Matthew S. Covill
Publisher:
ISBN:
Category : Lizards
Languages : en
Pages : 188

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