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Academic & Professional Books  Conservation & Biodiversity  Conservation & Biodiversity: General

Conservation Physiology Applications for Wildlife Conservation and Management

Coming Soon
By: Christine L Madliger(Editor), Craig E Franklin(Editor), Oliver P Love(Editor), Steven J Cooke(Editor)
352 pages, 70 b/w illustrations
NHBS
From monitoring stress levels to toxicology to wildlife diseases, this edited collection shines a light on the undervalued role and study of physiology in the context of wildlife conservation.
Conservation Physiology
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  • Conservation Physiology ISBN: 9780198843627 Paperback Nov 2020 Available for pre-order : Due Nov 2020
    £37.99
    #250820
  • Conservation Physiology ISBN: 9780198843610 Hardback Oct 2020 Available for pre-order : Due Oct 2020
    £74.99
    #250821
Selected version: £37.99
About this book Contents Customer reviews Biography Related titles

About this book

Conservation physiology is a rapidly expanding, multidisciplinary field that utilizes physiological knowledge and tools to understand and solve conservation challenges. This novel text provides the first consolidated overview of its scope, purpose, and applications, with a focus on wildlife. It outlines the major avenues and advances by which conservation physiology is contributing to the monitoring, management, and restoration of wild animal populations. Conservation Physiology also defines opportunities for further growth in the field and identifies critical areas for future investigation. By using a series of global case studies, contributors illustrate how approaches from the conservation physiology toolbox can tackle a diverse range of conservation issues including the monitoring of environmental stress, predicting the impact of climate change, understanding disease dynamics, improving captive breeding, and reducing human-wildlife conflict. Moreover, by acting as practical road maps across a diversity of sub-disciplines, these case studies serve to increase the accessibility of this discipline to new researchers. The diversity of taxa, biological scales, and ecosystems highlighted illustrate the far-reaching nature of the discipline and allow readers to gain an appreciation for the purpose, value, applicability, and status of the field of conservation physiology.

Conservation Physiology is an accessible supplementary textbook suitable for graduate students, researchers, and practitioners in the fields of conservation science, eco-physiology, evolutionary and comparative physiology, natural resources management, ecosystem health, veterinary medicine, animal physiology, and ecology.

Contents

1: The history, goals, and application of conservation physiology / Christine L. Madliger, Oliver P. Love, Steven J. Cooke, and Craig E. Franklin
2: Using physiology to infer the reproductive status and breeding performance of cryptic or at-risk bird species / Glenn T. Crossin and Tony D. Williams
3: On conducting management-relevant mechanistic science for upriver migrating adult Pacific salmon / Steven J. Cooke, Graham D. Raby, Nolan N. Bett, Amy K. Teffer, Nicholas J. Burnett, Kenneth M. Jeffries, Erica J. Eliason, Eduardo G. Martins, Kristina M. Miller, David A. Patterson, Vivian M. Nguyen, Nathan Young, Anthony P. Farrell, and Scott G. Hinch
4: Integrating physiological and ecological data to increase the effectiveness of bee protection and conservation / Cedric Alaux, Jean-Luc Brunet, and Mickael Henry
5: Applying isotopic clocks to identify prior migration patterns and critical habitats in mobile marine predators / Daniel J. Madigan, Oliver N. Shipley, and Nigel E. Hussey
6: Using physiological tools to unlock barriers to fish passage in freshwater ecosystems / Rebecca L. Cramp, Essie M. Rodgers, Christopher Myrick, James Sakker, and Craig E. Franklin
7: Transcriptome profiling in conservation physiology and ecotoxicology: mechanistic insights into organism-environment interactions to both test and generate hypotheses / Marisa L. Trego, Charles A. Brown, Benjamin Dubansky, Chelsea D. Hess, Fernando Galvez, and Andrew Whitehead
8: The role of conservation physiology in mitigating social-ecological traps in wildlife-provisioning tourism: A case study of feeding stingrays in the Cayman Islands / Christina A. D. Semeniuk
9: Applying conservation physiology in response to a devastating wildlife disease, White-nose Syndrome in bats / Yvonne A. Dzal and Craig K.R. Willis
10: Physiology provides a window into how the multi-stressor environment contributes to amphibian declines / Michel Ohmer, Lesley Alton, and Rebecca Cramp
11: Improving "shark park" protections under threat from climate change using the conservation physiology toolbox / Ian A. Bouyoucos and Jodie L. Rummer
12: A tale of two whales: putting physiological tools to work for North Atlantic and southern right whales / Kathleen E. Hunt, Alejandro Fernández Ajó, Carley Lowe, Elizabeth A. Burgess, and C. Loren Buck
13: Weathering the impacts of climate change: methods for measuring the environment at scales relevant to conservation physiology / Brian Helmuth
14: A veterinary perspective on the conservation physiology and rehabilitation of sea turtles / Charles Innis and Kara Dodge
15: Applications of minimally invasive immune response and glucocorticoid biomarkers of physiological stress responses in rescued wild koalas (Phascolarctos cinereus) / Edward J. Narayan and Renae Charalambous
16: How thermal ecophysiology assists the conservation of reptiles: Case studies from New Zealand's endemic fauna / Alison Cree, Kelly M. Hare, Nicola J. Nelson, Christian Chukwuka, and Jo Virens
17: Using applied physiology to better manage and conserve the white rhinoceros (Ceratotherium simum) / Anna J Haw, Andrea Fuller and Leith CR Meyer
18: Communication in conservation physiology: linking diverse stakeholders, promoting public engagement, and encouraging application / Taryn D. Laubenstein and Jodie L. Rummer
19: Optimism and opportunities for conservation physiology in the Anthropocene: a synthesis and conclusions / Steven J. Cooke, Christine L. Madliger, Jordanna N. Bergman, Vivian M. Nguyen, Sean J. Landsman, Oliver P. Love, Jodie L. Rummer, and Craig E. Franklin

Customer Reviews

Biography

Christine L. Madliger is an integrative biologist and conservation physiologist working as an NSERC Postdoctoral Research Fellow at Carleton University, Ottawa, Canada. Craig E. Franklin is Professor of Zoology at The University of Queensland, Brisbane, Australia. Oliver P. Love is Associate Professor and Canada Research Chair at the Department of Integrative Biology, University of Windsor, Canada. Steven J. Cooke is a Canada Research Professor at Carleton University, Ottawa, Canada.


Contributors:
- Alejandro Fernández Ajó, Northern Arizona University, USA; Instituto de Conservación de Ballenas, Argentina
- Cedric Alaux, INRA, France
- Lesley Alton, Monash University, Australia
- Jordanna Bergman, Carleton University, Canada
- Nolan Bett, University of British Columbia, Canada
- Ian Bouyoucos, James Cook University, Australia; PSL Research University, France
- Charles Brown, Louisiana State University, USA
- Jean-Luc Brunet, INRA, France
- C. Loren Buck, Northern Arizona University, USA
- Elizabeth Burgess, New England Aquarium, USA
- Nicholas Burnett, BC Hydro, Canada
- Renae Charalambous, Western Sydney University, Australia
- Christian Chukwuka, University of Otago, New Zealand
- Steven Cooke, Carleton University, Canada
- Rebecca Cramp, The University of Queensland, Australia
- Alison Cree, University of Otago, New Zealand
- Glenn Crossin, Dalhousie University, Canada
- Kara Dodge, New England Aquarium, USA
- Benjamin Dubansky, University of North Texas, USA
- Yvonne Dzal, University of Winnipeg, Canada
- Erica Eliason, University of California Santa Barbara, USA
- Anthony Farrell, University of British Columbia, Canada
- Craig Franklin, The University of Queensland, Australia
- Andrea Fuller, University of the Witwatersrand, South Africa
- Fernando Galvez, Louisiana State University, USA
- Kelly Hare, University of Waikato, New Zealand
- Anna Haw, University of Veterinary Medicine Vienna, Austria
- Brian Helmuth, Northeastern University, USA
- Mickael Henry, INRA, France
- Chelsea Hess, Louisiana State University, USA
- Scott Hinch, University of British Columbia, Canada
- Kathleen Hunt, George Mason University, USA
- Nigel Hussey, University of Windsor, Canada
- Charles Innis, New England Aquarium, USA
- Kenneth Jeffries, University of Manitoba, Canada
- Sean Landsman, Carleton University, Canada
- Taryn Laubenstein, James Cook University, Australia
- Oliver Love, University of Windsor, Canada
- Carley Lowe, Northern Arizona University, USA
- Daniel Madigan, Harvard University, USA
- Christine Madliger, Carleton University, Canada
- Eduardo Martins, University of Northern British Columbia, Canada
- Leith Meyer, University of Pretoria, South Africa
- Kristina Miller, Fisheries and Oceans Canada, Canada
- Christopher Myrick, Colorado State University, USA
- Edward Narayan, The University of Queensland, Australia
- Nicola Nelson, Victoria University of Wellington, New Zealand
- Vivian Nguyen, Carleton University, Canada
- Michel Ohmer, University of Pittsburgh, USA
- David Patterson, Fisheries and Oceans Canada, Simon Fraser University, Canada
- Graham Raby, Trent University, Canada
- Essie Rodgers, The Australian National University, Australia
- Jodie Rummer, James Cook University, Australia
- James Sakker, Department of Primary Industries Fisheries, Australia
- Christina Semeniuk, University of Windsor, Canada
- Oliver Shipley, Stony Brook University, USA
- Amy Teffer, University of British Columbia, Canada
- Marisa Trego, University of California Davis, USA
- Jo Virens, University of Otago, New Zealand
- Andrew Whitehead, University of California Davis, USA
- Tony Williams, Simon Fraser University, Canada
- Craig Willis, University of Winnipeg, Canada
- Nathan Young, University of Ottawa, Canada

Coming Soon
By: Christine L Madliger(Editor), Craig E Franklin(Editor), Oliver P Love(Editor), Steven J Cooke(Editor)
352 pages, 70 b/w illustrations
NHBS
From monitoring stress levels to toxicology to wildlife diseases, this edited collection shines a light on the undervalued role and study of physiology in the context of wildlife conservation.
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