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Nutrient fate in aquacultural systems for waste treatment
J. H. Dontje,
Chuck Clanton
Bioproducts and Biosystems Engineering
Research output
:
Contribution to journal
›
Article
›
peer-review
11
Scopus citations
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Dive into the research topics of 'Nutrient fate in aquacultural systems for waste treatment'. Together they form a unique fingerprint.
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Agriculture & Biology
aquaculture systems
97%
waste treatment
96%
aquaculture tanks
80%
sand
47%
nutrients
42%
fish
40%
tomatoes
21%
Phalaris arundinacea
19%
biofilters
19%
animal wastes
18%
nutrient balance
18%
denitrification
17%
tilapia (common name)
16%
fingerlings
16%
nutrient availability
14%
aeration
14%
photoperiod
11%
potassium
10%
phosphorus
10%
plant growth
10%
greenhouses
10%
swine
9%
fruits
8%
nitrogen
8%
leaves
6%
water
5%
temperature
5%
Engineering & Materials Science
Waste treatment
100%
Nutrients
88%
Fish
77%
Sand
27%
Biofilters
12%
Denitrification
11%
Potassium
9%
Greenhouses
9%
Phosphorus
9%
Fruits
9%
Nitrogen
7%
Availability
5%
Water
4%
Temperature
3%
Experiments
2%
Earth & Environmental Sciences
waste treatment
76%
nutrient
46%
fish
42%
sand
19%
day length
11%
nutrient balance
11%
reed
9%
nutrient removal
8%
nutrient availability
8%
foliage
8%
fruit
7%
livestock
7%
aeration
7%
denitrification
7%
grass
6%
potassium
6%
phosphorus
5%
rate
5%
nitrogen
4%
calculation
4%
removal
4%
temperature
2%
water
2%
Medicine & Life Sciences
Fishes
65%
Nutrients
60%
Sand
43%
Lycopersicon esculentum
21%
Phalaris
16%
Typhaceae
15%
Denitrification
13%
Tilapia
11%
Livestock
9%
Phosphorus
8%
Growth
7%
Nitrogen
7%
Fruit
7%
Potassium
7%
Swine
6%
Temperature
5%
Water
5%