Alpine biodiversity and assisted migration: the case of the American pika (Ochotona princeps)

• Published in: Biodiversity (Nepean) Vol. 16; no. 4; pp. 224 - 236
• Main Authors: Wilkening, Jennifer L, Ray, Chris, Ramsay, Nathan, Klingler, Kelly
• Format: Journal Article
• Language: English
• Published: Nepean Taylor & Francis 02.10.2015; Taylor & Francis Ltd
• Subjects: alpine biodiversity; Animal migration; Assisted migration; Biodiversity; case studies; climate; Climate change; conservation strategy; Endangered & extinct species; environmental factors; genetic disorders; habitat requirements; habitats; mammals; Ochotona; Ochotona princeps; pikas; Rabbits; temperature; uncertainty; United States; wildlife diseases; United States; Alps
• ISSN: 2160-0651; 1488-8386; 2160-0651
• DOI: 10.1080/14888386.2015.1112304

Alpine mammals are predicted to be among the species most threatened by climate change, due to the projected loss and further fragmentation of alpine habitats. As temperature or precipitation regimes change, alpine mammals may also be faced with insurmountable barriers to dispersal. The slow rate or inability to adjust to rapidly shifting environmental conditions may cause isolated alpine species to become locally extirpated, resulting in reduced biodiversity. One proposed method for mitigating the impacts of alpine species loss is assisted migration. This method, which involves translocating a species to an area with more favourable climate and habitat characteristics, has become the subject of debate and controversy in the conservation community. The uncertainty associated with climate change projections, coupled with the thermal sensitivity of many alpine mammals, makes it difficult to a priori assess the efficacy of this technique as a conservation management tool. Here we present the American pika (Ochotona princeps) as a case study. American pikas inhabit rocky areas throughout the western US, and populations in some mountainous areas have become locally extirpated in recent years. We review known climatic and habitat requirements for this species, and also propose protocols designed to reliably identify favourable relocation areas. We present data related to the physiological constraints of this species and outline specific requirements which must be addressed for translocation of viable populations, including wildlife disease and genetic considerations. Finally, we discuss potential impacts on other alpine species and alpine communities, and overall implications for conserving alpine biodiversity in a changing climate.