Add to ORKGThis thesis examines factors underlying habitat use of the sea snake Hydrophis elegans and nearshore fish in Shark Bay, Western Australia. Differences in morphology, life history and diet between H. elegans and a syrnpatric sea snake, Disteria major, may facilitate co-existence by reducing competition through inter-specific resource partitioning. Morphological differences between sexes of H. elegans may reduce intraspecific competition. Tidal state may cause changes in predation risk and prey availability. Field observations showed that at low tide H. elegans foraged over shallow sand flats, which are inaccessible to the predatory tiger shark (Galeocerdo cuvier). At high tide, snakes and their potential prey (small fish) moved to deeper sea...
Worldwide declines in populations of large elasmobranchs and the potential cascading effects on mari...
International audienceAbstract Life-history traits such as rates of growth, survival and reproductio...
The fitness of a predator depends upon its ability to locate and capture prey; and thus, increasing ...
Aquatic snakes are a diverse group that represent multiple evolutionary transitions from a terrestri...
Sea snakes are an important component of bycatch in commercial and small-scale trawl fisheries in tr...
Hydrophiine (true) sea snakes are large predatory live-bearing marine reptiles. Australia is a biodi...
Resource selection studies often use analytical techniques that provide information at either a popu...
A new species of viviparous sea snake, Hydrophis donaldi sp. nov. (Hydrophiinae), is described from ...
Synopsis Few species of snakes show extensive adaptations to aquatic environments and even fewer exp...
Aipysurus laevis and Emydocephalus annulatus typically occur in spatially discrete populations, char...
There is a need to explore, in an integrated and statistical manner, how the number of species, rela...
Viviparous sea snakes are an exceptionally diverse radiation of secondarily marine reptiles that inh...
The distributions of three species of sea snake (olive sea snake: Aipysurus laevis, spine-bellied se...
Marine environments show strong cycles at daily (tidal), monthly (lunar) and seasonal timeframes, an...
The viviparous sea snakes (Hydrophiinae) are a young radiation of at least 62 species that display s...
Worldwide declines in populations of large elasmobranchs and the potential cascading effects on mari...
International audienceAbstract Life-history traits such as rates of growth, survival and reproductio...
The fitness of a predator depends upon its ability to locate and capture prey; and thus, increasing ...
Aquatic snakes are a diverse group that represent multiple evolutionary transitions from a terrestri...
Sea snakes are an important component of bycatch in commercial and small-scale trawl fisheries in tr...
Hydrophiine (true) sea snakes are large predatory live-bearing marine reptiles. Australia is a biodi...
Resource selection studies often use analytical techniques that provide information at either a popu...
A new species of viviparous sea snake, Hydrophis donaldi sp. nov. (Hydrophiinae), is described from ...
Synopsis Few species of snakes show extensive adaptations to aquatic environments and even fewer exp...
Aipysurus laevis and Emydocephalus annulatus typically occur in spatially discrete populations, char...
There is a need to explore, in an integrated and statistical manner, how the number of species, rela...
Viviparous sea snakes are an exceptionally diverse radiation of secondarily marine reptiles that inh...
The distributions of three species of sea snake (olive sea snake: Aipysurus laevis, spine-bellied se...
Marine environments show strong cycles at daily (tidal), monthly (lunar) and seasonal timeframes, an...
The viviparous sea snakes (Hydrophiinae) are a young radiation of at least 62 species that display s...
Worldwide declines in populations of large elasmobranchs and the potential cascading effects on mari...
International audienceAbstract Life-history traits such as rates of growth, survival and reproductio...
The fitness of a predator depends upon its ability to locate and capture prey; and thus, increasing ...