Abstract
The migration of animals across long distances and between multiple habitats presents a major challenge for conservation. For the migratory Mexican free‐tailed bat (Tadarida brasiliensis mexicana), these challenges include identifying and protecting migratory routes and critical roosts in two countries, the United States and Mexico. Knowledge and conservation of bat migratory routes is critical in the face of increasing threats from climate change and wind turbines that might decrease migratory survival. We employ a new modeling approach for bat migration, network modeling, to simulate migratory routes between winter habitat in southern Mexico and summer breeding habitat in northern Mexico and the southwestern United States. We use the model to identify key migratory routes and the roosts of greatest conservation value to the overall population. We measure roost importance by the degree to which the overall bat population declined when the roost was removed from the model. The major migratory routes—those with the greatest number of migrants—were between winter habitat in southern Mexico and summer breeding roosts in Texas and the northern Mexican states of Sonora and Nuevo Leon. The summer breeding roosts in Texas, Sonora, and Nuevo Leon were the most important for maintaining population numbers and network structure – these are also the largest roosts. This modeling approach contributes to conservation efforts by identifying the most influential areas for bat populations, and can be used to as a tool to improve our understanding of bat migration for other species. We anticipate this approach will help direct coordination of habitat protection across borders.
Highlights
Species that migrate across long distances and between multiple habitats present a unique challenge for conservation because they require coordinated management of habitats and migratory pathways in multiple locations (Fleming and Eby 2003, Fischman 2011)
The limited input requirements of the network modeling approach make it well suited to deal with the lack of data and simplifying assumptions needed to model the migratory patterns of species such as Mexican free-tailed bats
An understanding of the relative importance of individual roosts and identification of migratory routes is critical for targeting conservation efforts, especially under the threats of climate change and wind turbine development
Summary
Species that migrate across long distances and between multiple habitats present a unique challenge for conservation because they require coordinated management of habitats and migratory pathways in multiple locations (Fleming and Eby 2003, Fischman 2011). Are vulnerable because of their tendency to congregate in large numbers at shared roost sites, along migratory routes. Bat migration is poorly studied (Cryan and Diehl 2009, Holland and Wikelski 2009, Popa-Lisseanu and Voigt 2009), and knowledge of migratory routes used by Mexican free-tailed bats is scant. To address our lack of understanding of bat migration, and to provide tools for tackling the unique conservation challenges of a migratory species, we developed a network model for the Mexican free-tailed bat (Tadarida brasiliensis mexicana). We use the model to identify key migratory routes and the roosts of greatest conservation value to the overall population
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