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Modeling amphibian energetics, habitat suitability, and movements of western toads, Anaxyrus (=Bufo) boreas, across present and future landscapes

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  • Bartelt, Paul E.
  • Klaver, Robert W.
  • Porter, Warren P.

Abstract

Effective conservation of amphibian populations requires the prediction of how amphibians use and move through a landscape. Amphibians are closely coupled to their physical environment. Thus an approach that uses the physiological attributes of amphibians, together with knowledge of their natural history, should be helpful. We used Niche Mapper™ to model the known movements and habitat use patterns of a population of Western toads (Anaxyrus (=Bufo) boreas) occupying forested habitats in southeastern Idaho. Niche Mapper uses first principles of environmental biophysics to combine features of topography, climate, land cover, and animal features to model microclimates and animal physiology and behavior across landscapes. Niche Mapper reproduced core body temperatures (Tc) and evaporation rates of live toads with average errors of 1.6±0.4°C and 0.8±0.2g/h, respectively. For four different habitat types, it reproduced similar mid-summer daily temperature patterns as those measured in the field and calculated evaporation rates (g/h) with an average error rate of 7.2±5.5%. Sensitivity analyses indicate these errors do not significantly affect estimates of food consumption or activity. Using Niche Mapper we predicted the daily habitats used by free-ranging toads; our accuracy for female toads was greater than for male toads (74.2±6.8% and 53.6±15.8%, respectively), reflecting the stronger patterns of habitat selection among females. Using these changing to construct a cost surface, we also reconstructed movement paths that were consistent with field observations. The effect of climate warming on toads depends on the interaction of temperature and atmospheric moisture. If climate change occurs as predicted, results from Niche Mapper suggests that climate warming will increase the physiological cost of landscapes thereby limiting the activity for toads in different habitats.

Suggested Citation

  • Bartelt, Paul E. & Klaver, Robert W. & Porter, Warren P., 2010. "Modeling amphibian energetics, habitat suitability, and movements of western toads, Anaxyrus (=Bufo) boreas, across present and future landscapes," Ecological Modelling, Elsevier, vol. 221(22), pages 2675-2686.
    • Handle: RePEc:eee:ecomod:v:221:y:2010:i:22:p:2675-2686
    DOI: 10.1016/j.ecolmodel.2010.07.009
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    Citations

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    Cited by:

    1. Banerjee, Simanti & Kwasnica, Anthony M. & Shortle, James S., 2012. "Agglomeration bonus in small and large local networks: A laboratory examination of spatial coordination," Ecological Economics, Elsevier, vol. 84(C), pages 142-152.
    2. Banerjee, Simanti & Shortle, James S. & Kwasnica, Anthony M., 2011. "An Iterative Auction for Spatially Contiguous Land Management: An Experimental Analysis," 2011 Annual Meeting, July 24-26, 2011, Pittsburgh, Pennsylvania 103220, Agricultural and Applied Economics Association.
    3. Simanti Banerjee & Anthony Kwasnica & James Shortle, 2015. "Information and Auction Performance: A Laboratory Study of Conservation Auctions for Spatially Contiguous Land Management," Environmental & Resource Economics, Springer;European Association of Environmental and Resource Economists, vol. 61(3), pages 409-431, July.
    4. Nukazawa, Kei & Shiraiwa, Jun-ichi & Kazama, So, 2011. "Evaluations of seasonal habitat variations of freshwater fishes, fireflies, and frogs using a habitat suitability index model that includes river water temperature," Ecological Modelling, Elsevier, vol. 222(20), pages 3718-3726.
    5. Krawczyk, Michał & Bartczak, Anna & Hanley, Nick & Stenger, Anne, 2016. "Buying spatially-coordinated ecosystem services: An experiment on the role of auction format and communication," Ecological Economics, Elsevier, vol. 124(C), pages 36-48.
    6. Glenk, Klaus & Schaafsma, Marije & Moxey, Andrew & Martin-Ortega, Julia & Hanley, Nick, 2014. "A framework for valuing spatially targeted peatland restoration," Ecosystem Services, Elsevier, vol. 9(C), pages 20-33.
    7. Banerjee, Simanti & Kwasnica, Anthony M & Shortle, James S, 2011. "Agglomeration Bonus in Local Networks: A laboratory examination of spatial coordination failure," Stirling Economics Discussion Papers 2011-18, University of Stirling, Division of Economics.
    8. Bogosian III, Victor & Hellgren, Eric C. & Sears, Michael W. & Moody, Raymond W., 2012. "High-resolution niche models via a correlative approach: Comparing and combining correlative and process-based information," Ecological Modelling, Elsevier, vol. 237, pages 63-73.
    9. Fuentes, M.M.P.B. & Porter, W.P., 2013. "Using a microclimate model to evaluate impacts of climate change on sea turtles," Ecological Modelling, Elsevier, vol. 251(C), pages 150-157.

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