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    The Potential of the Hose-bridge to Mitigate Snake Mortality on Low Volume Roadways

    Measuring Sexual Size Dimorphism and Sexual Body Component Dimorphism in Snakes: Sexual, Population, and Seasonal Variation in Body Size Relationships...

    Snakes in the Subarctic: Fall Phenology of the Red-Sided Garter Snake (Thamnophis sirtalis parietalis) at a Northern Range Extreme

    Seasonal Variation in Metabolism and Immunity in the Rubber Boa (Charina bottae)

    Influence of Prey Size on Reproduction among Populations of Diamond-backed Watersnakes (Nerodia rhombifer)

    Effects of Wildfires on Northern Pacific Rattlesnake (Crotalus oreganus) Growth and Microhabitat Use in Washington State

    Neuromuscular Activity and Prey Specificity of North American Coral Snake Venoms: Micrurus browni as a Case Study

    Genetic Diversity of the Eastern Massasauga (Sistrurus catenatus) in Berrien and Van Buren Counties, Southwest Michigan

    Do Free-ranging Rattlesnakes Use Thermal Cues to Detect and Evaluate Prey?

    Mind the Gap: Effects of Habitat and Climate on Northern Water Snake (Nerodia sipedon sipedon) Distribution in Maine

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    Accepted Abstracts

     

     

     

    The Season of the Snake

    Jones, Lawrence L. C.

    Southwest Zoologists' League

    Tucson, AZ USA

     

    As part of a larger project to unravel patterns of surface activity for amphibians and reptiles across the American Southwest, the behavior of snake taxa along the U.S.-Mexican borderlands is scrutinized. It has long been known how snakes generally respond to a temperature range, but surface activity due to moisture patterns and rainfall events is less clear. Along the border (primarily considering lowlands), reptiles respond differently to the diverse climate patterns, of which there are many classification systems; however, these do not align well with patterns of seasonal rainfall, temperature regimes, or reptile distribution and activity. From a herp-centric point of view, going from west to east, snakes are variously influenced by several climate regimes, including Mediterranean-maritime (coastal California), summer drought (western Sonoran Desert), bimodal with North American Monsoon (eastern Sonoran and Chihuahuan deserts), and humid subtropical (South and East Texas). Activity patterns of some species of snakes within these climate “zones” are well-studied, although there is a general dearth of information in the literature about most. Many reptiles are only surveyed during an active season assumed on an a priori basis, so negative patterns may be little more than hearsay. Because seasonal activity patterns are intrinsically linked with temperature and precipitation, climate change would likely affect activity, distribution, and survival of our native snake fauna, which is the most diverse in the U.S. However, trends in climate change are not clear for all climate regimes. For example, virtually all climatologists agree that the hottest, driest Southwest deserts will become hotter and drier, but while mean winter precipitation is decreasing, rainfall patterns during the Monsoon are uncertain. An emphasis of this project is to solicit long-term data sets to better predict activity patterns and effects of climate change.

     

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