Add to ORKGDNA sequences extracted from preserved remains can add considerable resolution to inference of past population dynamics. For example, coalescent-based methods have been used to correlate declines in some arctic megafauna populations with habitat fragmentation during the last ice age. These methods, however, often fail to detect population declines preceding extinction, most likely owing to a combination of sparse sampling, uninformative genetic markers, and models that cannot account for the increasingly structured nature of populations as habitats decline. As ancient DNA research expands to include full-genome analyses, these data will provide greater resolution of the genomic consequences of environmental change and the genetic signatures...
Isolating and studying degraded DNA from preserved organismal remains and environmental samples allo...
The causes of the late Pleistocene megafaunal extinctions are still enigmatic. Although the fossil r...
Environmental DNA can identify the presence of species, even from the distant past. Surveying three ...
Ancient DNA provides a unique means to record genetic change through time and directly observe evolu...
DNA sequences extracted from ancient remains are increasingly used to generate large population data...
The application ancient genetic information to management practices can provide a critical understan...
Mitochondrial phylogeographic analyses of modern populations can be used to make inferences about th...
Much of what we know about extinct organisms comes from traits that are not preserved in the fossil ...
Although most ancient DNA studies have focused on the last 50,000 years, paleogenomic approaches can...
Although most ancient DNA studies have focused on the last 50,000 years, paleogenomic approaches can...
© 2005 The Royal Society Review paperIn the past two decades, ancient DNA research has progressed fr...
Biodiversity is declining globally. Yet, the biological and genetic processes associated with these ...
The persistence of DNA over archaeological and paleontological timescales in diverse environments ha...
DNA obtained from environmental samples such as sediments, ice or water (environmental DNA, eDNA), r...
Ancient DNA has revolutionised our ability to study past evolutionary processes by enabling direct o...
Isolating and studying degraded DNA from preserved organismal remains and environmental samples allo...
The causes of the late Pleistocene megafaunal extinctions are still enigmatic. Although the fossil r...
Environmental DNA can identify the presence of species, even from the distant past. Surveying three ...
Ancient DNA provides a unique means to record genetic change through time and directly observe evolu...
DNA sequences extracted from ancient remains are increasingly used to generate large population data...
The application ancient genetic information to management practices can provide a critical understan...
Mitochondrial phylogeographic analyses of modern populations can be used to make inferences about th...
Much of what we know about extinct organisms comes from traits that are not preserved in the fossil ...
Although most ancient DNA studies have focused on the last 50,000 years, paleogenomic approaches can...
Although most ancient DNA studies have focused on the last 50,000 years, paleogenomic approaches can...
© 2005 The Royal Society Review paperIn the past two decades, ancient DNA research has progressed fr...
Biodiversity is declining globally. Yet, the biological and genetic processes associated with these ...
The persistence of DNA over archaeological and paleontological timescales in diverse environments ha...
DNA obtained from environmental samples such as sediments, ice or water (environmental DNA, eDNA), r...
Ancient DNA has revolutionised our ability to study past evolutionary processes by enabling direct o...
Isolating and studying degraded DNA from preserved organismal remains and environmental samples allo...
The causes of the late Pleistocene megafaunal extinctions are still enigmatic. Although the fossil r...
Environmental DNA can identify the presence of species, even from the distant past. Surveying three ...