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Saltwater and nutrient legacies reduce net ecosystem carbon storage despite freshwater restoration: insights from experimental wetlands
Article
Lee, Dong Yoon, Kominoski, John S, Kline, Michael
et al
. (2022). Saltwater and nutrient legacies reduce net ecosystem carbon storage despite freshwater restoration: insights from experimental wetlands .
RESTORATION ECOLOGY,
30(7), 10.1111/rec.13524
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Lee, Dong Yoon, Kominoski, John S, Kline, Michael
et al
. (2022). Saltwater and nutrient legacies reduce net ecosystem carbon storage despite freshwater restoration: insights from experimental wetlands .
RESTORATION ECOLOGY,
30(7), 10.1111/rec.13524
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Identifiers
Additional Document Info
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Overview
cited authors
Lee, Dong Yoon; Kominoski, John S; Kline, Michael; Robinson, Michelle; Roebling, Suzy
sustainable development goals
SDG 13: Climate Action
SDG 14: Life Below Water
authors
Kominoski, John
publication date
September 1, 2022
published in
RESTORATION ECOLOGY
Journal
Research
keywords
ACCRETION
DECOMPOSITION
DRIVERS
ELEVATION
Ecology
Environmental Sciences & Ecology
Florida Coastal Everglades
INTRUSION
Life Sciences & Biomedicine
Long Term Ecological Research
PHOSPHORUS
RESPONSES
SALINITY
SEA-LEVEL RISE
Science & Technology
VEGETATION
biogeochemistry
carbon
phosphorus
saltwater intrusion
sea-level rise
soil elevation
Identifiers
Digital Object Identifier (DOI)
https://doi.org/10.1111/rec.13524
Additional Document Info
publisher
WILEY
volume
30
issue
7