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    Carbon Footprint of a Large Yellow Croaker Mariculture Models Based on Life-Cycle Assessment

    New search for: Jingyi Liu
    New search for: Feng Gui
    New search for: Qian Zhou
    New search for: Huiwen Cai
    New search for: Kaida Xu
    New search for: Sheng Zhao

    According to the life-cycle assessment method, in this study, we took the traditional plate cage (TPC) mariculture and deep water wind wave-resistant cage (DWWWRC) mariculture of large yellow croaker in China as the research object. We counted and calculated the carbon footprint of the whole life cycle of large yellow croaker cultured in Zhoushan. By analyzing and comparing the advantages and disadvantages of the two according to a perspective of carbon emissions, we found that the carbon footprint of DWWWRC was smaller than that of TPC, which is more suitable for China’s large yellow croaker mariculture. We proposed corresponding measures to reduce carbon emissions, such as using clean energy, extending cage life, and improving feed utilization. This study fills the gap in the current research direction of the carbon footprint of large yellow croaker farming in China and provides strong technical support for the sustainable development of China’s large yellow croaker cage farming industry.

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    Carbon Footprint of a Large Yellow Croaker Mariculture Models Based on Life-Cycle Assessment

    New search for: Jingyi Liu
    New search for: Feng Gui
    New search for: Qian Zhou
    New search for: Huiwen Cai
    New search for: Kaida Xu
    New search for: Sheng Zhao

    According to the life-cycle assessment method, in this study, we took the traditional plate cage (TPC) mariculture and deep water wind wave-resistant cage (DWWWRC) mariculture of large yellow croaker in China as the research object. We counted and calculated the carbon footprint of the whole life cycle of large yellow croaker cultured in Zhoushan. By analyzing and comparing the advantages and disadvantages of the two according to a perspective of carbon emissions, we found that the carbon footprint of DWWWRC was smaller than that of TPC, which is more suitable for China’s large yellow croaker mariculture. We proposed corresponding measures to reduce carbon emissions, such as using clean energy, extending cage life, and improving feed utilization. This study fills the gap in the current research direction of the carbon footprint of large yellow croaker farming in China and provides strong technical support for the sustainable development of China’s large yellow croaker cage farming industry.

    Access

    Download

    Carbon Footprint of a Large Yellow Croaker Mariculture Models Based on Life-Cycle Assessment

    New search for: Jingyi Liu
    New search for: Feng Gui
    New search for: Qian Zhou
    New search for: Huiwen Cai
    New search for: Kaida Xu
    New search for: Sheng Zhao

    According to the life-cycle assessment method, in this study, we took the traditional plate cage (TPC) mariculture and deep water wind wave-resistant cage (DWWWRC) mariculture of large yellow croaker in China as the research object. We counted and calculated the carbon footprint of the whole life cycle of large yellow croaker cultured in Zhoushan. By analyzing and comparing the advantages and disadvantages of the two according to a perspective of carbon emissions, we found that the carbon footprint of DWWWRC was smaller than that of TPC, which is more suitable for China’s large yellow croaker mariculture. We proposed corresponding measures to reduce carbon emissions, such as using clean energy, extending cage life, and improving feed utilization. This study fills the gap in the current research direction of the carbon footprint of large yellow croaker farming in China and provides strong technical support for the sustainable development of China’s large yellow croaker cage farming industry.

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    Download

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    Title:

    Carbon Footprint of a Large Yellow Croaker Mariculture Models Based on Life-Cycle Assessment

    Contributors:

    Jingyi Liu (author) / Feng Gui (author) / Qian Zhou (author) / Huiwen Cai (author) / Kaida Xu (author) / Sheng Zhao (author)

    Published in:

    Sustainability, Vol 15, Iss 8, p 6658 (2023)

    Publication date:

    2023

    ISSN:

    2071-1050

    DOI:

    https://doi.org/10.3390/su15086658

    Type of media:

    Article (Journal)

    Type of material:

    Electronic Resource

    Language:

    Unknown

    Keywords:

    life-cycle assessment , large yellow croaker , cage mariculture , carbon footprint , sustainable environment , Environmental effects of industries and plants , TD194-195 , Renewable energy sources , TJ807-830 , Environmental sciences , GE1-350

    Metadata by DOAJ is licensed under ​CC BY-SA 1.0

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