Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 dead zones recorded worldwide. By triggering cascading effects from the individual organism to the community-and ecosystem level, oxygen depletions threaten marine biodiversity and can alter ecosystem structure and function. By integrating both physiological function and ecological processes, animal behaviour is ideal for assessing the stress state of benthic macrofauna to low dissolved oxygen. The initial response of organisms can serve as an early warning signal, while the successive behavioural reactions of key species indicate hypoxia levels and help assess community degradation. Here we document the behavioural responses of a representati...
Marine ecosystems world-wide are threatened by oxygen deficiency, with potential serious consequence...
Hypoxia is one of the most important and faster spreading threats to marine life and its occurrence ...
Coastal hypoxia (defined here as <1.42 ml L−1; 62.5 μM; 2 mg L−1, approx. 30% oxygen saturation) ...
Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 d...
Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 d...
AbstractHermit crabs play an important role in the Northern Adriatic Sea due to their abundance, wid...
Hypoxia is occurring in the marine environment all around the world as a result of human activities...
International audienceCoastal hypoxia (defined here as <1.42 ml L−1; 62.5 μM; 2 mg L−1, approx. 3...
Traditionally, hypoxia has been defined as the situation where DO levels have fallen below 2.0 mg O2...
Coastal hypoxia (defined here as <1.42 ml L?1; 62.5 ?M; 2 mg L?1, approx. 30% oxygen saturation) ...
The impact of anoxia on meiobenthic copepod species was assessed by means of a field experiment. Fou...
The impact of anoxia on meiobenthic copepod species was assessed by means of a field experiment. Fou...
The frequency of seasonal and short-term hypoxia is increasing in coastal seas. How such repeated di...
<div><p>Disturbance-mediated species loss has prompted research considering how ecosystem functions ...
Disturbance-mediated species loss has prompted research considering how ecosystem functions are chan...
Marine ecosystems world-wide are threatened by oxygen deficiency, with potential serious consequence...
Hypoxia is one of the most important and faster spreading threats to marine life and its occurrence ...
Coastal hypoxia (defined here as <1.42 ml L−1; 62.5 μM; 2 mg L−1, approx. 30% oxygen saturation) ...
Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 d...
Coastal hypoxia and anoxia have become a global key stressor to marine ecosystems, with almost 500 d...
AbstractHermit crabs play an important role in the Northern Adriatic Sea due to their abundance, wid...
Hypoxia is occurring in the marine environment all around the world as a result of human activities...
International audienceCoastal hypoxia (defined here as <1.42 ml L−1; 62.5 μM; 2 mg L−1, approx. 3...
Traditionally, hypoxia has been defined as the situation where DO levels have fallen below 2.0 mg O2...
Coastal hypoxia (defined here as <1.42 ml L?1; 62.5 ?M; 2 mg L?1, approx. 30% oxygen saturation) ...
The impact of anoxia on meiobenthic copepod species was assessed by means of a field experiment. Fou...
The impact of anoxia on meiobenthic copepod species was assessed by means of a field experiment. Fou...
The frequency of seasonal and short-term hypoxia is increasing in coastal seas. How such repeated di...
<div><p>Disturbance-mediated species loss has prompted research considering how ecosystem functions ...
Disturbance-mediated species loss has prompted research considering how ecosystem functions are chan...
Marine ecosystems world-wide are threatened by oxygen deficiency, with potential serious consequence...
Hypoxia is one of the most important and faster spreading threats to marine life and its occurrence ...
Coastal hypoxia (defined here as <1.42 ml L−1; 62.5 μM; 2 mg L−1, approx. 30% oxygen saturation) ...