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Hypoxia: From molecular responses to ecosystem responses
Shiu Sun Rudolf WU
Department of Science and Environmental Studies (SES)
Research output
:
Contribution to journal
›
Articles
›
peer-review
632
Citations (Scopus)
Overview
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Dive into the research topics of 'Hypoxia: From molecular responses to ecosystem responses'. Together they form a unique fingerprint.
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Engineering & Materials Science
Ecosystems
86%
Animals
77%
Fish
55%
Phytoplankton
34%
Oxygen
24%
Genes
19%
Proteins
18%
Reactive oxygen species
17%
Molecular oxygen
17%
Glycolysis
17%
Phosphorylation
16%
Redox reactions
15%
Transcription factors
14%
Biodiversity
14%
Hemoglobin
14%
Fisheries
14%
Mammals
13%
Recovery
13%
Functional groups
13%
Hydrogen sulfide
12%
Sediments
12%
Transcription
11%
Enzymes
11%
Global warming
11%
Ammonia
10%
Deposits
9%
Molecules
9%
Cells
9%
Blood
9%
Chemical analysis
6%
Water
5%
Sensors
5%
Earth & Environmental Sciences
ecosystem response
100%
hypoxia
90%
animal
25%
benthos
13%
hypoxic conditions
13%
oxygen
12%
fish
8%
respiration
8%
phytoplankton
7%
sulfide (organic)
7%
gene
7%
protein
6%
fishery production
6%
regulation
6%
deposit feeder
6%
mass mortality
6%
macrobenthos
6%
demersal fish
6%
nanoplankton
6%
pelagic fish
5%
reactive oxygen species
5%
hemoglobin
5%
burrow
5%
marine organism
5%
hydrogen sulfide
5%
human population
4%
fitness
4%
functional group
4%
predation
4%
species diversity
4%
population growth
4%
mammal
4%
species richness
4%
global warming
4%
enzyme
3%
blood
3%
ammonia
3%
attribute
3%
effect
3%
sensor
3%
cell
2%
exposure
2%
world
2%
energy
2%
sediment
2%
material
1%
rate
1%
water
1%
Agriculture & Biology
hypoxia
74%
ecosystems
60%
hypoxia-inducible factor 1
17%
animals
15%
oxygen
15%
phytoplankton
11%
anaerobic conditions
10%
species diversity
8%
demersal fish
7%
pelagic fish
7%
redox reactions
7%
erythropoiesis
7%
benthic organisms
6%
trophic relationships
6%
angiogenesis
6%
hydrogen sulfide
6%
animal proteins
6%
fish communities
6%
anaerobiosis
6%
fish
6%
erythrocyte count
6%
burrows
5%
binding capacity
5%
human population
5%
global warming
5%
glycolysis
5%
particulates
5%
fisheries
5%
population growth
5%
sediments
4%
phosphorylation
4%
hemoglobin
4%
species richness
4%
breathing
4%
ammonia
4%
reactive oxygen species
4%
predation
4%
transcription factors
4%
protein synthesis
4%
transcription (genetics)
3%
mammals
3%
genes
3%
energy
3%
organisms
3%
enzymes
2%
Chemical Compounds
Ecosystem
96%
Dioxygen
39%
Ecological Effect
35%
Signalling Molecule
25%
Environment
22%
Protein Synthesis
21%
Hydrogen Sulfide
21%
Reactive Oxygen Metabolite
18%
Hemoglobin
18%
Redox Reactions
18%
Metabolic
16%
Ammonia
15%
Red
13%
Modification
11%
Energy
9%
Protein
8%
Surface
6%