Pollution controls in Lake Tai with the reduction of the watershed nitrogen footprint

To feed an increasingly affluent population, the nitrogen input into global food production systems is currently two times the safe planetary boundary leading to adverse impacts on the local and global environments. The nitrogen footprint is an important index to understand the impact of human activ...

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Bibliographic Details
Published inJournal of cleaner production Vol. 332; p. 130132
Main Authors Wu, Mingqian, Zhang, Xiuming, Reis, Stefan, Ge, Shengxiu, Gu, Baojing
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 15.01.2022
Subjects
Agriculture
Lake Tai
Land use
Nitrogen footprint
Wastewater
Water pollution
Watershed
Lake Tai
Watershed
Water pollution
Agriculture
Wastewater
Nitrogen footprint
Land use
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Summary:To feed an increasingly affluent population, the nitrogen input into global food production systems is currently two times the safe planetary boundary leading to adverse impacts on the local and global environments. The nitrogen footprint is an important index to understand the impact of human activities on the environment, however, it is rarely applied at a watershed scale. By using the Coupled Human And Natural System (CHANS) model, it was found that the total nitrogen input to the Lake Tai watershed has increased from 141.1 Gg N yr−1 in 1995 to 244.3 Gg N yr−1 in 2010, and then decreased again to 201.2 Gg N yr−1 in 2015. The study findings are consistent with the change in the total nitrogen concentration observed in Lake Tai. While the per capita nitrogen footprint remained stable at around 30 kg N yr−1 before 2010, a substantial decrease to approximately 25 and 20 kg N yr−1 in 2010 and 2015, respectively, has occurred. Dominant sources of nitrogen emissions contributing to the nitrogen footprint gradually have changed from agricultural production to wastewater and nitrogen oxides emissions from fossil fuel combustion. A reduction of the nitrogen footprint is beneficial for effective nitrogen pollution control strategies and better wastewater treatment techniques should be prioritized for future policymaking. •The nitrogen footprint has been reduced in the Lake Tai watershed.•The nitrogen footprint can link water pollution and human activities.•Urban areas have become new hotspots of the nitrogen footprint for Lake Tai.•Optimization of the nitrogen footprint of urban areas can achieve sustainable development in the watershed.
ISSN:0959-6526
1879-1786
DOI:10.1016/j.jclepro.2021.130132