Nitrogen in the Yangtze River Basin: Pollution Reduction through Coupling Crop and Livestock Production

Livestock production poses a threat to water quality worldwide. A better understanding of the contribution of individual livestock species to nitrogen (N) pollution in rivers is essential to improve water quality. This paper aims to quantify inputs of dissolved inorganic nitrogen (DIN) to the Yangtz...

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Bibliographic Details
Published in:Environmental science & technology 2022-12, Vol.56 (24), p.17591-17603
Main Authors: Chen, Xuanjing, Wang, Mengru, Kroeze, Carolien, Chen, Xi, Ma, Lin, Chen, Xinping, Shi, Xiaojun, Strokal, Maryna
Format: Article
Language:English
Subjects:
Agricultural land
Animals
Basins
China
Contaminants in Aquatic and Terrestrial Environments
Coupling
Crop production
Crops
Environmental Monitoring - methods
Food chains
Livestock
Livestock production
Manure
Manures
Nitrogen
Nitrogen - analysis
Nutrients
Pollution
Pollution control
Recycling
River basins
Rivers
Stream pollution
Swine
Swine production
Water pollution
Water Quality
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Summary:Livestock production poses a threat to water quality worldwide. A better understanding of the contribution of individual livestock species to nitrogen (N) pollution in rivers is essential to improve water quality. This paper aims to quantify inputs of dissolved inorganic nitrogen (DIN) to the Yangtze River from different livestock species at multiple scales and explore ways for reducing these inputs through coupling crop and livestock production. We extended the previously developed model MARINA (Model to Assess River Input of Nutrient to seAs) with the NUFER (Nutrient flows in Food chains, Environment, and Resource use) approach for livestock. Results show that DIN inputs to the Yangtze River vary across basins, sub-basins, and 0.5° grids, as well as across livestock species. In 2012, livestock production resulted in 2000 Gg of DIN inputs to the Yangtze River. Pig production was responsible for 55–85% of manure-related DIN inputs. Rivers in the downstream sub-basin received higher manure-related DIN inputs than rivers in the other sub-basins. Around 20% of the Yangtze basin is considered as a manure-related hotspot of river pollution. Recycling manure on cropland can avoid direct discharges of manure from pig production and thus reduce river pollution. The potential for recycling manure is larger in cereal production than in other crop species. Our results can help to identify effective solutions for coupling crop and livestock production in the Yangtze basin.
ISSN:0013-936X
1520-5851
DOI:10.1021/acs.est.1c08808