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Oxygen supply capacity in animals evolves to meet maximum demand at the current oxygen partial pressure regardless of size or temperature
Brad A. Seibel,
Curtis Deutsch
Research output
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Contribution to journal
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Article
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peer-review
44
Scopus citations
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Dive into the research topics of 'Oxygen supply capacity in animals evolves to meet maximum demand at the current oxygen partial pressure regardless of size or temperature'. Together they form a unique fingerprint.
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Earth & Environmental Sciences
partial pressure
79%
animal
51%
demand
49%
oxygen
49%
temperature
28%
tolerance
25%
body size
19%
rate
15%
hypoxia
10%
body mass
10%
biogeography
10%
atmospheric pressure
8%
tissue
6%
indicator
5%
cost
4%
Medicine & Life Sciences
Partial Pressure
90%
Temperature
54%
Oxygen
54%
Animals
38%
Thermotolerance
27%
Basal Metabolism
24%
Body Size
22%
Atmospheric Pressure
13%
Pressure
12%
Physiological Phenomena
9%
Hypoxia
7%
Maintenance
6%
Costs and Cost Analysis
5%
Agriculture & Biology
oxygen partial pressure
100%
oxygen
53%
animals
32%
temperature
30%
heat tolerance
22%
body size
18%
resting metabolic rate
14%
basal metabolic rate
14%
atmospheric pressure
12%
biogeography
11%
hypoxia
10%
extracts
5%
tissues
4%