Add to ORKGMarine animals are increasingly threatened by a combination of reduced environmental oxygen (hypoxia) and chronically rising sea temperatures. Our current understanding of the effects of temperature on hypoxic performance is based predominantly upon studies of acute warming demonstrating reductions in hypoxic performance in numerous species. However, these studies do not take account of the possibility for altered performance via thermal acclimation. They are also largely focused at the organismal level with integration of different levels of biological organisation just beginning to appear. This thesis takes an integrative approach to investigate the effects of thermal acclimation on hypoxia thresholds using gammarid amphipods as models. T...
The survival of oceanic organisms in oxygen minimum zones (OMZs) depends on their total oxygen deman...
Lake Baikal is inhabited by more than 300 endemic amphipod species, which are narrowly adapted to ce...
The minimum O2 needed to fuel the demand of aquatic animals is commonly observed to increase with te...
This work investigates the ecophysiology of marine amphipods. Amphipods are an important part of the...
This work investigates the ecophysiology of marine amphipods. Amphipods are an important part of the...
Areas of hypoxia are becoming more frequent throughout the world’s oceans as a result of climate cha...
Abstract The prevalence of hypoxic areas in coastal waters is predicted to increase and lead to redu...
Thesis (Master's)--University of Washington, 2021Recent measurements of critical O2 thresholds (‘Pcr...
Coastal ecosystems, including estuaries, are increasingly pressured by expanding hypoxic regions as ...
Elevated surface temperatures exacerbate the threat of hypoxia within coastal ecosystems. These two ...
In order to examine the physiological capabilities of marine invertebrates in their natural environm...
Depth zonation of fauna on continental margins is well documented. Whilst increasing hydrostatic pre...
Phronima sedentaria is a hyperiid amphipod that diel migrates into a pronounced oxygen minimum zone ...
Ocean warming and eutrophication-driven hypoxia are two key threats marine organisms face with clima...
The effect of warming on the oxygen requirements and the survival of benthic organisms under hypoxia...
The survival of oceanic organisms in oxygen minimum zones (OMZs) depends on their total oxygen deman...
Lake Baikal is inhabited by more than 300 endemic amphipod species, which are narrowly adapted to ce...
The minimum O2 needed to fuel the demand of aquatic animals is commonly observed to increase with te...
This work investigates the ecophysiology of marine amphipods. Amphipods are an important part of the...
This work investigates the ecophysiology of marine amphipods. Amphipods are an important part of the...
Areas of hypoxia are becoming more frequent throughout the world’s oceans as a result of climate cha...
Abstract The prevalence of hypoxic areas in coastal waters is predicted to increase and lead to redu...
Thesis (Master's)--University of Washington, 2021Recent measurements of critical O2 thresholds (‘Pcr...
Coastal ecosystems, including estuaries, are increasingly pressured by expanding hypoxic regions as ...
Elevated surface temperatures exacerbate the threat of hypoxia within coastal ecosystems. These two ...
In order to examine the physiological capabilities of marine invertebrates in their natural environm...
Depth zonation of fauna on continental margins is well documented. Whilst increasing hydrostatic pre...
Phronima sedentaria is a hyperiid amphipod that diel migrates into a pronounced oxygen minimum zone ...
Ocean warming and eutrophication-driven hypoxia are two key threats marine organisms face with clima...
The effect of warming on the oxygen requirements and the survival of benthic organisms under hypoxia...
The survival of oceanic organisms in oxygen minimum zones (OMZs) depends on their total oxygen deman...
Lake Baikal is inhabited by more than 300 endemic amphipod species, which are narrowly adapted to ce...
The minimum O2 needed to fuel the demand of aquatic animals is commonly observed to increase with te...