Greenhouse gas emissions hotspots and drivers of urban freshwater bodies in areas of the Yangtze River delta, China

Zhou, Xudong; Kumar, Amit; Wang, Hong‐Yan; Knorr, Klaus‐Holger; Chen, Yuan‐Bo; Liu, Yixuan; Lin, Junjie; Han, Lei; Yu, Zhiguo

doi:10.1002/eco.2498

Ecohydrology

2022

DOI: 10.1002/eco.2498

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Greenhouse gas emissions hotspots and drivers of urban freshwater bodies in areas of the Yangtze River delta, China

Xudong Zhou

Amit Kumar

Hong‐Yan Wang

et al.

Abstract: In the modern era, urban freshwater bodies play a significant role in global carbon (C) budgeting, therefore, impacting climate change under rising global mean temperature. However, the trend, magnitude and drivers of greenhouse gas (GHG) emissions in these urban freshwater bodies of China remain uncertain. This study investigated temporal changes in GHG emissions in urban water bodies, including artificial lakes, reservoirs, aquaculture ponds and rivers, within a year in Nanjing city in the areas of the Yangt… Show more

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Cited by 9 publications

References 84 publications

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Accounting for Land Use Carbon Emissions Considering Differences in Wetland Types to Support the Achievement of SDG 13.2.2

Zhang,

Lin,

et al. 2024

Land Degrad Dev

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In recent years, the relentless rise in global greenhouse gas (GHG) emissions has escalated climate change. Land‐use changes, particularly those involving wetlands, significantly impact GHG emissions. However, previous studies on land‐use carbon emissions often overlooked the specific contributions of different wetland types. This study aims to assess these differential contributions and explore strategies for managing GHG emissions (SDG 13.2.2) within the United Nation's sustainable development goals. The study used the Demonstration Zone of Green and Integrated Ecological Development of the Yangtze River Delta (demonstration area) in China as a case study to accurately classify wetland types from 2016 to 2022. Wetland classification was achieved using Sentinel‐2 remote sensing imagery and parameters such as NDVI and NDWI with the application of machine learning algorithms. To explore effective carbon management strategies, a scenario analysis method was employed to simulate future carbon emission trends under various management measures based on current emission status. The results revealed significant differences in carbon emissions among wetland types. From 2016 to 2022, ponds exhibited the highest total and growth rate of carbon emissions among all wetland types, while paddy fields alone showed a decreasing trend. Through enhanced natural wetland protection, optimized management, and reduced use of chemical fertilizers and pesticides, direct carbon emissions in the demonstration area were reduced by 2.61 × 105 t. Accurate wetland classification and differentiated management are crucial for carbon accounting and formulating effective reduction strategies. This study offers new insights into the sustainable development of the Yangtze River Delta.

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Accounting for Land Use Carbon Emissions Considering Differences in Wetland Types to Support the Achievement of SDG 13.2.2

Zhang,

Lin,

et al. 2024

Land Degrad Dev

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Greenhouse gas emissions from hydroelectric reservoirs: mechanistic understanding of influencing factors and future prospect

Kumar

Chaturvedi

Joshi

et al. 2023

Environ Sci Pollut Res

Self Cite

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Since the pre-industrial era (1990s), greenhouse gas (GHG) emissions from hydroelectric reservoirs have been a debatable subject of interest due to a substantial contribution to global warming. Rising demand for various renewable and nonrenewable energy resources became necessary for rapid economic growth to the exponentially rising population in developing countries. Reducing GHG emissions is the key target of COP-26 for climate change mitigation. However, precise methodologies for quanti cation of GHG, key parameters affecting emission rate is a challenging task attributed to limited tools, techniques for GHG measurement, uncertainty rate in measurement, insu cient GHG database, and huge spatiotemporal variability of emission in global reservoirs. This work highlights the present scenario of GHG emissions from renewable energy with targeted approach on hydroelectric reservoirs, methodological know-how, interrelation between parameters affecting GHG emission, and mitigation strategies. Apart from this, major tools and techniques to predict GHG emissions from hydroelectric reservoirs, accounting of GHG emissions, life cycle assessment, sources of uncertainty, and knowledge gaps have been discussed in detail.

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The impact of the acidic polysaccharides pool on CO2 concentrations and fluxes: A case study on urban waters of China

Liu,

Huang,

et al. 2024

Ecological Indicators

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Greenhouse gas emissions hotspots and drivers of urban freshwater bodies in areas of the Yangtze River delta, China

Cited by 9 publications

References 84 publications

Accounting for Land Use Carbon Emissions Considering Differences in Wetland Types to Support the Achievement of SDG 13.2.2

Accounting for Land Use Carbon Emissions Considering Differences in Wetland Types to Support the Achievement of SDG 13.2.2

Greenhouse gas emissions from hydroelectric reservoirs: mechanistic understanding of influencing factors and future prospect

The impact of the acidic polysaccharides pool on CO2 concentrations and fluxes: A case study on urban waters of China

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