Add to ORKGThe degree to which species can rapidly adapt is key to survival in the face of climatic and other anthropogenic changes. For little brown bats (Myotis lucifugus), whose populations have experienced declines of over 90% because of the introduced fungal pathogen that causes white-nose syndrome (WNS), survival of the species may ultimately depend upon its capacity for adaptive change. Here, we present evidence of selectively driven change (adaptation), despite dramatic nonadaptive genomic shifts (genetic drift) associated with population declines. We compared the genetic makeups of wild survivors versus non-survivors of WNS, and found significant shifts in allele frequencies of genes associated with regulating arousal from hibernation (GABARB...
White-nose syndrome (WNS) has devastated populations of hibernating bats in eastern North America, l...
Genetic diversity is an important contributor to the fitness of a species as variation allows specie...
Background White-nose syndrome (WNS) has devastated bat populations in North America, with millions ...
The degree to which species can rapidly adapt is key to survival in the face of climatic and other a...
Novel pathogens can cause massive declines in populations, and even extirpation of hosts. But diseas...
Abstract Novel pathogens can cause massive declines in populations, but seldom lead to extirpation o...
The persistence of populations declining from novel stressors depends, in part, on their ability to ...
Background Hibernation allows animals to survive periods of resource scarcity by reducing their ener...
The persistence of populations declining from novel stressors depends, in part, on their ability to ...
The widespread mortality of hibernating bats is associated with the emerging infectious disease whit...
1. The persistence of populations declining from novel stressors depends, in part, on their ability ...
Infectious disease dynamics are inherently shaped by the distribution, ecology, and genetic variatio...
White-nose syndrome (WNS) has devastated populations of hibernating bats in eastern North America, l...
Genetic diversity is an important contributor to the fitness of a species as variation allows specie...
Background White-nose syndrome (WNS) has devastated bat populations in North America, with millions ...
The degree to which species can rapidly adapt is key to survival in the face of climatic and other a...
Novel pathogens can cause massive declines in populations, and even extirpation of hosts. But diseas...
Abstract Novel pathogens can cause massive declines in populations, but seldom lead to extirpation o...
The persistence of populations declining from novel stressors depends, in part, on their ability to ...
Background Hibernation allows animals to survive periods of resource scarcity by reducing their ener...
The persistence of populations declining from novel stressors depends, in part, on their ability to ...
The widespread mortality of hibernating bats is associated with the emerging infectious disease whit...
1. The persistence of populations declining from novel stressors depends, in part, on their ability ...
Infectious disease dynamics are inherently shaped by the distribution, ecology, and genetic variatio...
White-nose syndrome (WNS) has devastated populations of hibernating bats in eastern North America, l...
Genetic diversity is an important contributor to the fitness of a species as variation allows specie...
Background White-nose syndrome (WNS) has devastated bat populations in North America, with millions ...