Add to ORKGFrom the Washington University Office of Undergraduate Research Digest (WUURD), Vol. 13, 05-01-2018. Published by the Office of Undergraduate Research. Joy Zalis Kiefer, Director of Undergraduate Research and Associate Dean in the College of Arts & Sciences; Lindsey Paunovich, Editor; Helen Human, Programs Manager and Assistant Dean in the College of Arts and Sciences Mentor(s): Bruce Carlso
Ocean warming and eutrophication-driven hypoxia are two key threats marine organisms face with clima...
A comparative phylogenetically independent contrast (PIC) analysis was employed to investigate the ...
Dissolved oxygen is one of the most important environmental factors affecting survival of fishes tha...
Aerobic metabolism generates 15–20 times more energy (ATP) than anaerobic metabolism, which is cruci...
The mormyrids are well known for their remarkable electrogenic and electrolocation capabilities and ...
From the Washington University Undergraduate Research Digest: WUURD, Volume 10, 2014-2015. Published...
Animals rely on O₂ to balance cellular ATP supply and demand. In O₂-limited hypoxic environments, su...
Vertebrate life is sustained by aerobic metabolism and temporary bouts of anaerobic metabolism. Stea...
A large brain can offer several cognitive advantages. However, brain tissue has an especially high m...
Hypoxia is common in marine environments and fishes use a suite of cardiorespiratory adjustments to ...
It has been long suggested that hypoxia tolerant species should have a great capacity to generate en...
International audienceHypoxia is a common occurrence in aquatic habitats, and it is becoming an incr...
Hypoxia is a common occurrence in aquatic habitats, and it is becoming an increasingly frequent and ...
International audienceOne outcome of contemporary climate trends is that the involvement of hypoxia ...
Hypoxia (low dissolved oxygen) is a mounting concern for aquatic ecosystems as its prevalence increa...
Ocean warming and eutrophication-driven hypoxia are two key threats marine organisms face with clima...
A comparative phylogenetically independent contrast (PIC) analysis was employed to investigate the ...
Dissolved oxygen is one of the most important environmental factors affecting survival of fishes tha...
Aerobic metabolism generates 15–20 times more energy (ATP) than anaerobic metabolism, which is cruci...
The mormyrids are well known for their remarkable electrogenic and electrolocation capabilities and ...
From the Washington University Undergraduate Research Digest: WUURD, Volume 10, 2014-2015. Published...
Animals rely on O₂ to balance cellular ATP supply and demand. In O₂-limited hypoxic environments, su...
Vertebrate life is sustained by aerobic metabolism and temporary bouts of anaerobic metabolism. Stea...
A large brain can offer several cognitive advantages. However, brain tissue has an especially high m...
Hypoxia is common in marine environments and fishes use a suite of cardiorespiratory adjustments to ...
It has been long suggested that hypoxia tolerant species should have a great capacity to generate en...
International audienceHypoxia is a common occurrence in aquatic habitats, and it is becoming an incr...
Hypoxia is a common occurrence in aquatic habitats, and it is becoming an increasingly frequent and ...
International audienceOne outcome of contemporary climate trends is that the involvement of hypoxia ...
Hypoxia (low dissolved oxygen) is a mounting concern for aquatic ecosystems as its prevalence increa...
Ocean warming and eutrophication-driven hypoxia are two key threats marine organisms face with clima...
A comparative phylogenetically independent contrast (PIC) analysis was employed to investigate the ...
Dissolved oxygen is one of the most important environmental factors affecting survival of fishes tha...