Add to ORKG© 2019, the authors. Benthic assemblages of the Antarctic continental shelf are dominated by sessile and slow-moving, epifaunal invertebrates. This community structure persists because shell-crushing (durophagous) predators are absent or ecologically insignificant in shelf habitats. Durophagous teleosts, elasmobranchs, and crustaceans have been excluded by cold waters over the Antarctic shelf for millions of years. Now, as shallow waters warm rapidly, predatory king crabs (Lithodidae) living in the upper bathyal zone could emerge onto the shelf and into nearshore habitats. To assess the potential for a bathymetric expansion, we genetically inferred the historical demography of a population of the most abundant durophagous predator found in ...
18 pagesInternational audienceThe potential for biological colonization of Antarctic shores is an in...
The fauna of decapod crustaceans in the Southern Ocean has historically been considered impoverished...
Species’ distributions are dynamic and are linked to the changing physical environment. Temperature ...
Benthic assemblages of the Antarctic continental shelf are dominated by sessile and slow-moving, epi...
Lithodid crabs (and other skeleton-crushing predators) may have been excluded from cold Antarctic co...
Predatory king crabs (Lithodidae) structure benthic communities in their native habitats and cause s...
Anthropogenic climate change resulting in warming of global oceanic temperatures will likely allow t...
Rising sea temperature, as a result of anthropogenic climate change, has contributed to dynamic ecol...
Cold-water conditions have excluded durophagous (skeleton-breaking) predators from the Antarctic sea...
Recent scientific interest following the “discovery” of lithodid crabs around Antarctica has centred...
© The Author(s), 2017. This article is distributed under the terms of the Creative Commons Attributi...
Recent records of lithodid crabs in deeper waters off the Antarctic continental slope raised the que...
Benthic communities living in shallow-shelf habitats in Antarctica (<100-m depth) are archaic in ...
<div><p>Recent scientific interest following the “discovery” of lithodid crabs around Antarctica has...
18 pagesInternational audienceThe potential for biological colonization of Antarctic shores is an in...
The fauna of decapod crustaceans in the Southern Ocean has historically been considered impoverished...
Species’ distributions are dynamic and are linked to the changing physical environment. Temperature ...
Benthic assemblages of the Antarctic continental shelf are dominated by sessile and slow-moving, epi...
Lithodid crabs (and other skeleton-crushing predators) may have been excluded from cold Antarctic co...
Predatory king crabs (Lithodidae) structure benthic communities in their native habitats and cause s...
Anthropogenic climate change resulting in warming of global oceanic temperatures will likely allow t...
Rising sea temperature, as a result of anthropogenic climate change, has contributed to dynamic ecol...
Cold-water conditions have excluded durophagous (skeleton-breaking) predators from the Antarctic sea...
Recent scientific interest following the “discovery” of lithodid crabs around Antarctica has centred...
© The Author(s), 2017. This article is distributed under the terms of the Creative Commons Attributi...
Recent records of lithodid crabs in deeper waters off the Antarctic continental slope raised the que...
Benthic communities living in shallow-shelf habitats in Antarctica (<100-m depth) are archaic in ...
<div><p>Recent scientific interest following the “discovery” of lithodid crabs around Antarctica has...
18 pagesInternational audienceThe potential for biological colonization of Antarctic shores is an in...
The fauna of decapod crustaceans in the Southern Ocean has historically been considered impoverished...
Species’ distributions are dynamic and are linked to the changing physical environment. Temperature ...