Add to ORKGThis present study investigated the evolution of population genetic structure of two closely related cetacean species, bottlenose (Tursiops truncatus) and common dolphins (Delphinus spp.) within the Gulf of California (GC) and along the West Coast of Baja California. In this study, we found evidence of strong genetic differentiation in both bottlenose and common dolphin populations in the absence of physical barriers. The comparison of the patterns of population genetic differentiation found here for bottlenose and common dolphins supports the hypothesis of local habitat dependence and resource specialization at both the population and putative species level. Fine-geographic scale structure was detected in coastal bottlenose dolphins, which...
Due to their worldwide distribution and occupancy of different types of environments, bottlenose dol...
Bottlenose (Tursiops sp.) and common dolphins (Delphinus sp.) are amongst the most common small ceta...
Abstract Aim: In the marine environment, where there are few physical boundaries to gene flow, ther...
This present study investigated the evolution of population genetic structure of two closely related...
Bottlenose (Tursiops sp.) and common dolphins (Delphinus sp.) are amongst the most common small ceta...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
International audienceDespite no obvious barrier to gene flow, historical environmental processes an...
. Habitat diversity plays a signi\ufb01cant role in shaping the genetic structure of cetacean popula...
The genetic structure of bottlenose dolphin communities found along the southern Brazilian coast is ...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
Due to their worldwide distribution and occupancy of different types of environments, bottlenose do...
This study was designed to examine the social and genetic structure of bottlenose dolphins inhabitin...
The common bottlenose dolphin, Tursiops truncatus, is widely distributed along the western coast of ...
Globally distributed, the bottlenose dolphin (Tursiops truncatus) is found in a range of offshore an...
Due to their worldwide distribution and occupancy of different types of environments, bottlenose dol...
Bottlenose (Tursiops sp.) and common dolphins (Delphinus sp.) are amongst the most common small ceta...
Abstract Aim: In the marine environment, where there are few physical boundaries to gene flow, ther...
This present study investigated the evolution of population genetic structure of two closely related...
Bottlenose (Tursiops sp.) and common dolphins (Delphinus sp.) are amongst the most common small ceta...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
International audienceDespite no obvious barrier to gene flow, historical environmental processes an...
. Habitat diversity plays a signi\ufb01cant role in shaping the genetic structure of cetacean popula...
The genetic structure of bottlenose dolphin communities found along the southern Brazilian coast is ...
Despite no obvious barrier to gene flow, historical environmental processes and ecological specializ...
Due to their worldwide distribution and occupancy of different types of environments, bottlenose do...
This study was designed to examine the social and genetic structure of bottlenose dolphins inhabitin...
The common bottlenose dolphin, Tursiops truncatus, is widely distributed along the western coast of ...
Globally distributed, the bottlenose dolphin (Tursiops truncatus) is found in a range of offshore an...
Due to their worldwide distribution and occupancy of different types of environments, bottlenose dol...
Bottlenose (Tursiops sp.) and common dolphins (Delphinus sp.) are amongst the most common small ceta...
Abstract Aim: In the marine environment, where there are few physical boundaries to gene flow, ther...