From regional imbalances to latecomer advantage: Phosphorus pollution and economic development in the Yangtze economic belt

•Identifies two inflection points in the NAPI-GDP relationship within the YREB.•Reveals regional disparities in phosphorus input dynamics and EKC turning points.•Demonstrates the effectiveness of targeted environmental policies in reducing NAPI.•Provides a replicable framework for balancing economic...

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Published inEcological indicators Vol. 173; p. 113423
Main Authors Li, Jincheng, Zhang, Xinyue, Kahil, Taher, Chen, Dongni, Wang, Guangyao, Xu, Shasha, Zhang, Yang, Chen, Yan
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2025
Elsevier
Subjects
economic development
Economic development and environmental impact
economic threshold
Environmental Kuznets curve
fertilizer application
humans
Net anthropogenic phosphorus input
phosphorus
Phosphorus management and sustainability
pollution
sustainable technology
Yangtze River
Yangtze River economic belt
Yangtze River
Yangtze River economic belt
Economic development and environmental impact
Environmental Kuznets curve
Net anthropogenic phosphorus input
Phosphorus management and sustainability
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Abstract •Identifies two inflection points in the NAPI-GDP relationship within the YREB.•Reveals regional disparities in phosphorus input dynamics and EKC turning points.•Demonstrates the effectiveness of targeted environmental policies in reducing NAPI.•Provides a replicable framework for balancing economic growth and environmental sustainability. Phosphorus pollution from human activities threatens ecosystems, especially in rapidly developing regions. This study aims to assess the spatiotemporal dynamics of net anthropogenic phosphorus input (NAPI) in the Yangtze River Economic Belt (YREB) from 1980 to 2020, focusing on the balance between economic growth and environmental sustainability. Employing the Logarithmic Mean Divisia Index (LMDI) and Environmental Kuznets Curve (EKC) frameworks, the study identifies two key inflection points in the NAPI-GDP per capita relationship, marking shifts in phosphorus input trends. Results indicate that NAPI in the YREB increased significantly from 1980 to 2020, mainly due to fertilizer application (62.36%) and economic growth (77.8%). Regional disparities persist: the eastern region reached its EKC turning point earlier, while the western region benefited a “latecomer advantage,” achieving reductions at a lower economic threshold. By 2020, most YREB regions had crossed their EKC turning points, signaling a transition to coordinated economic and environmental progress. Policies such as the “Ten Water Regulations” significantly reduced phosphorus inputs, particularly in high-pollution areas. Continued investment in sustainable agricultural practices, green technology, and targeted regional strategies is essential to bridge phosphorus management gaps. The findings provide critical insights into phosphorus pollution dynamics in a major economic corridor and demonstrates a replicable framework for integrating environmental considerations into economic planning. These results contribute to developing actionable strategies for cleaner production and long-term sustainability in rapidly developing regions.
AbstractList Phosphorus pollution from human activities threatens ecosystems, especially in rapidly developing regions. This study aims to assess the spatiotemporal dynamics of net anthropogenic phosphorus input (NAPI) in the Yangtze River Economic Belt (YREB) from 1980 to 2020, focusing on the balance between economic growth and environmental sustainability. Employing the Logarithmic Mean Divisia Index (LMDI) and Environmental Kuznets Curve (EKC) frameworks, the study identifies two key inflection points in the NAPI-GDP per capita relationship, marking shifts in phosphorus input trends. Results indicate that NAPI in the YREB increased significantly from 1980 to 2020, mainly due to fertilizer application (62.36%) and economic growth (77.8%). Regional disparities persist: the eastern region reached its EKC turning point earlier, while the western region benefited a “latecomer advantage,” achieving reductions at a lower economic threshold. By 2020, most YREB regions had crossed their EKC turning points, signaling a transition to coordinated economic and environmental progress. Policies such as the “Ten Water Regulations” significantly reduced phosphorus inputs, particularly in high-pollution areas. Continued investment in sustainable agricultural practices, green technology, and targeted regional strategies is essential to bridge phosphorus management gaps. The findings provide critical insights into phosphorus pollution dynamics in a major economic corridor and demonstrates a replicable framework for integrating environmental considerations into economic planning. These results contribute to developing actionable strategies for cleaner production and long-term sustainability in rapidly developing regions.
•Identifies two inflection points in the NAPI-GDP relationship within the YREB.•Reveals regional disparities in phosphorus input dynamics and EKC turning points.•Demonstrates the effectiveness of targeted environmental policies in reducing NAPI.•Provides a replicable framework for balancing economic growth and environmental sustainability. Phosphorus pollution from human activities threatens ecosystems, especially in rapidly developing regions. This study aims to assess the spatiotemporal dynamics of net anthropogenic phosphorus input (NAPI) in the Yangtze River Economic Belt (YREB) from 1980 to 2020, focusing on the balance between economic growth and environmental sustainability. Employing the Logarithmic Mean Divisia Index (LMDI) and Environmental Kuznets Curve (EKC) frameworks, the study identifies two key inflection points in the NAPI-GDP per capita relationship, marking shifts in phosphorus input trends. Results indicate that NAPI in the YREB increased significantly from 1980 to 2020, mainly due to fertilizer application (62.36%) and economic growth (77.8%). Regional disparities persist: the eastern region reached its EKC turning point earlier, while the western region benefited a “latecomer advantage,” achieving reductions at a lower economic threshold. By 2020, most YREB regions had crossed their EKC turning points, signaling a transition to coordinated economic and environmental progress. Policies such as the “Ten Water Regulations” significantly reduced phosphorus inputs, particularly in high-pollution areas. Continued investment in sustainable agricultural practices, green technology, and targeted regional strategies is essential to bridge phosphorus management gaps. The findings provide critical insights into phosphorus pollution dynamics in a major economic corridor and demonstrates a replicable framework for integrating environmental considerations into economic planning. These results contribute to developing actionable strategies for cleaner production and long-term sustainability in rapidly developing regions.
ArticleNumber 113423
Author Zhang, Yang
Zhang, Xinyue
Kahil, Taher
Xu, Shasha
Chen, Dongni
Chen, Yan
Li, Jincheng
Wang, Guangyao
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  email: chenyan@caep.org.cn
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Keywords Yangtze River economic belt
Economic development and environmental impact
Environmental Kuznets curve
Net anthropogenic phosphorus input
Phosphorus management and sustainability
Language English
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Snippet •Identifies two inflection points in the NAPI-GDP relationship within the YREB.•Reveals regional disparities in phosphorus input dynamics and EKC turning...
Phosphorus pollution from human activities threatens ecosystems, especially in rapidly developing regions. This study aims to assess the spatiotemporal...
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SubjectTerms economic development
Economic development and environmental impact
economic threshold
Environmental Kuznets curve
fertilizer application
humans
Net anthropogenic phosphorus input
phosphorus
Phosphorus management and sustainability
pollution
sustainable technology
Yangtze River
Yangtze River economic belt
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Title From regional imbalances to latecomer advantage: Phosphorus pollution and economic development in the Yangtze economic belt
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