Project description:Antarctic fur seal (Arctocephalus gazella) HiC genome assembly

Project description:Sequencing of 12 pooled samples of Arctocephalus gazella (Antarctic fur seal) transcriptome, using 454-Titanium

Project description:Arctocephalus gazella overview

Project description:Arctocephalus pusillus (Australian Fur Seal) gut microbiome Raw sequence reads

Project description:The Antarctic fur seal (Arctocephalus gazella) is an abundant Antarctic otariid. Here, we present the complete mitochondrial DNA sequence of this species, which includes 13 protein-coding genes, 22 transfer RNA genes, 2 ribosomal RNA genes, and the control region for a total length of 16,156 bp. A phylogenetic analysis including all 25 publically available pinniped mitogenomes nested the Antarctic fur seal within the Otariid clade, which was clearly resolved from the Phocidae and Odobenidae.

Project description:Arctocephalus gazella haplotype 2 genome sequencing

Project description:Arctocephalus gazella haplotype 1 genome sequencing

Project description:Arctocephalus gazella Genome sequencing and assembly

Project description:Subantarctic Fur Seal (Arctocephalus tropicalis) and South American Fur Seal (Arctocephalus australis) virome

Project description:In otariids, mother's recognition by pups is essential to their survival since females nurse exclusively their own young and can be very aggressive towards non-kin. Antarctic fur seal, Arctocephalus gazella, come ashore to breed and form dense colonies. During the 4-month lactation period, females alternate foraging trips at sea with suckling period ashore. On each return to the colony, females and pups first use vocalizations to find each other among several hundred conspecifics and olfaction is used as a final check. Such vocal identification has to be highly efficient. In this present study, we investigated the components of the individual vocal signature used by pups to identify their mothers by performing playback experiments on pups with synthetic signals. We thus tested the efficiency of this individual vocal signature by performing propagation tests and by testing pups at different playback distances. Pups use both amplitude and frequency modulations to identify their mother's voice, as well as the energy spectrum. Propagation tests showed that frequency modulations propagated reliably up to 64m, whereas amplitude modulations and spectral content greatly were highly degraded for distances over 8m. Playback on pups at different distances suggested that the individual identification is a two-step process: at long range, pups identified first the frequency modulation pattern of their mother's calls, and other components of the vocal signature at closer range. The individual vocal recognition system developed by Antarctic fur seals is well adapted to face the main constraint of finding kin in a crowd.