Add to ORKGThe hyperiid amphipod Phronima sedentaria experiences a temperature change of 15 °C during diel migration in the Eastern Tropical North Pacific (ETNP) from 8–10 °C at depth to 25–27 °C at night in the surface waters. The aim of this study was to determine if the natural temperature gradient experienced by P. sedentaria results in a thermal stress response. Individuals were initially exposed to their night time temperatures (23 °C) and subsequently subjected to temperatures within and above the range they typically experience. In the Eastern Tropical North Pacific P. sedentaria tolerates its normal night-time temperature (~ 23 °C), but only for the duration of its stay there (~ 9 h). Longer exposures (24 h) result in elevated heat shock prot...
<p><b>The figure includes data on gradually increasing hypothermia and hyperthermia experiments.</b>...
We thank the chief scientists, crew and company of the Japanese RV Hakuho-Maru (KH0703 and KH0803), ...
Heat shock proteins are a family of genes classically used to measure levels of organism stress. We ...
The hyperiid amphipod Phronima sedentaria experiences a temperature change of 15 °C during diel migr...
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...
This study examined high temperature survival and heat shock protein 70 (Hsp70) responses to tempera...
This study examined high temperature survival and heat shock protein 70 (Hsp70) responses to tempera...
Temperature is the most pervasive abiotic environmental factor for aquatic organisms. Fluctuations i...
Thermal tolerance was determined in two closely related amphipod species from contrasting environmen...
Marine animals are increasingly threatened by a combination of reduced environmental oxygen (hypoxia...
Understanding physiological responses of organisms to warming and ocean acidification is the first s...
Heat shock proteins (HSPs) are a family of genes classically used to measure levels of organism stre...
The previously undescribed dynamics of the heat shock protein HSP70 and subsequent lipid peroxidatio...
Temperature is the most pervasive abiotic environmental factor for aquatic organisms. Fluctuations i...
<p><b>The figure includes data on gradually increasing hypothermia and hyperthermia experiments.</b>...
We thank the chief scientists, crew and company of the Japanese RV Hakuho-Maru (KH0703 and KH0803), ...
Heat shock proteins are a family of genes classically used to measure levels of organism stress. We ...
The hyperiid amphipod Phronima sedentaria experiences a temperature change of 15 °C during diel migr...
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...
This study examined high temperature survival and heat shock protein 70 (Hsp70) responses to tempera...
This study examined high temperature survival and heat shock protein 70 (Hsp70) responses to tempera...
Temperature is the most pervasive abiotic environmental factor for aquatic organisms. Fluctuations i...
Thermal tolerance was determined in two closely related amphipod species from contrasting environmen...
Marine animals are increasingly threatened by a combination of reduced environmental oxygen (hypoxia...
Understanding physiological responses of organisms to warming and ocean acidification is the first s...
Heat shock proteins (HSPs) are a family of genes classically used to measure levels of organism stre...
The previously undescribed dynamics of the heat shock protein HSP70 and subsequent lipid peroxidatio...
Temperature is the most pervasive abiotic environmental factor for aquatic organisms. Fluctuations i...
<p><b>The figure includes data on gradually increasing hypothermia and hyperthermia experiments.</b>...
We thank the chief scientists, crew and company of the Japanese RV Hakuho-Maru (KH0703 and KH0803), ...
Heat shock proteins are a family of genes classically used to measure levels of organism stress. We ...