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Nitrogen cycling in deeply oxygenated sediments: Results in Lake Superior and implications for marine sediments
Jiying Li,
Sergei Katsev
Physics & Astronomy (Duluth)
Research output
:
Contribution to journal
›
Article
›
peer-review
21
Scopus citations
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Dive into the research topics of 'Nitrogen cycling in deeply oxygenated sediments: Results in Lake Superior and implications for marine sediments'. Together they form a unique fingerprint.
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Agriculture & Biology
Lake Superior
100%
marine sediments
93%
nitrogen cycle
87%
sediments
60%
denitrification
23%
coastal sediments
22%
oxygen
18%
nitrification
15%
nitrates
11%
freshwater lakes
9%
nitrate reduction
8%
water
8%
oceans
7%
oxygen consumption
6%
ammonium
6%
lakes
5%
oxidation
4%
iron
4%
nitrogen
3%
Earth & Environmental Sciences
marine sediment
63%
nitrogen
39%
lake
38%
sediment
31%
denitrification
19%
oxygen
19%
coastal sediment
17%
nitrate
16%
nitrification
13%
budget
12%
sedimentation
10%
rate
9%
oxygen consumption
8%
water exchange
8%
global model
7%
porewater
6%
water depth
6%
ammonium
6%
penetration
6%
iron
4%
oxidation
4%
demand
4%
ocean
4%
removal
3%