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Effects of hypoxia on fish reproduction and development
Shiu Sun Rudolf WU
Department of Science and Environmental Studies (SES)
Research output
:
Contribution to journal
›
Articles
›
peer-review
107
Citations (Scopus)
Overview
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Dive into the research topics of 'Effects of hypoxia on fish reproduction and development'. Together they form a unique fingerprint.
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Biochemistry, Genetics and Molecular Biology
Blastomere
50%
Cell Cycle
100%
Cell Proliferation
50%
Downregulation
50%
Embryogenesis
50%
Enzyme
50%
Estradiol
50%
G2 Phase
50%
Gene Expression
50%
Hatching
100%
In Vivo Study
50%
Mate Choice
50%
Metabolic Pathway
50%
Neurotransmitter
50%
Ovary Development
50%
Reproduction
50%
Reproductive Effort
50%
S Phase
50%
Steroid Biosynthesis
50%
Testis Development
50%
Vitellogenesis
50%
Zebra Fish
100%
Immunology and Microbiology
Blastomere
50%
Cell Cycle
100%
Cell Cycle G2 Phase
50%
Cell Proliferation
50%
Downregulation
50%
Embryo Development
50%
Gene Expression
50%
Hatching
100%
Ovary Development
50%
Reproduction
50%
Reproductive Effort
50%
Steroidogenesis
50%
Testis Development
50%
Vitellogenesis
50%
Zebra Fish
100%
Keyphrases
Anoxia
22%
Apoptosis
11%
Behavioral Studies
11%
Blastomere
11%
Cell Apoptosis
11%
Cell Proliferation
11%
Changes in Gene Expression
11%
Courtship Behavior
11%
CYP19
11%
Developmental Arrest
11%
Early Sexual Initiation
11%
Egg Quality
11%
Embryonic Development
11%
Estradiol
11%
Expression Level
11%
F1 Generation
11%
Fertilization Success
11%
Fish Development
100%
Fish Embryo
22%
Fish Reproduction
100%
Fish Species
11%
G2 Phase
11%
Hatching Success
11%
Hypoxia
100%
Hypoxic Condition
11%
Hypoxic Inducible Factor
11%
Larval Survival
11%
Malformation
11%
Mate Choice
11%
Metabolism Function
11%
Neurotransmitters
11%
Ovarian Development
11%
Reproductive Effort
11%
Reproductive Function
11%
Reproductive Impairment
11%
Reproductive Processes
11%
Sexual Development
11%
Sigma Phase
11%
Sperm Quality
11%
Steroidogenesis
11%
Testicular Development
11%
Testosterone
11%
Vascular Development
11%
Vitellogenesis
11%
Zebrafish
11%
Zebrafish Embryo
11%
Medicine and Dentistry
Anoxia
22%
Blastomere
11%
Cell Cycle
22%
Cell Proliferation
11%
Congenital Malformation
11%
Cytochrome P450 Family 19
11%
Diethylstilbestrol
11%
Downregulation
11%
Embryo Development
11%
Fertilization
11%
G2 Phase
11%
Gene Expression
11%
Hatching
22%
Hypoxia
100%
In Vitro
11%
Mate Choice
11%
Neurotransmitter
11%
Ovary Development
11%
Programmed Cell Death
22%
Reproductive Effort
11%
Reproductive Medicine
100%
S Phase
11%
Steroidogenesis
11%
Survivorship in Cancer Care
11%
Testis Development
11%
Vitellogenesis
11%
Agricultural and Biological Sciences
Blastomere
9%
Cell Cycle
18%
Cell Proliferation
9%
Estradiol
9%
G2 Phase
9%
Gene Expression
9%
Hatching
18%
Hypoxemia
100%
in Vivo Studies
9%
Neurotransmitter
9%
Ovarian Development
9%
Programmed Cell Death
18%
Reproductives
45%
S Phase
9%
Steroidogenesis
9%
Testicular Development
9%
Vascular Development
9%
Vitellogenesis
9%
Veterinary Science and Veterinary Medicine
Estradiol
100%
Steroidogenesis
100%