Page 19 - 《渔业研究》2025年第3期

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276 渔业研究第 47 卷

643. Sun W, Zhang J H, Wu W G, et al. Carbon footprint as-
［ 7 ］中华人民共和国农业农村部渔业渔政管理局，全国水 sessment of cultured kelp based on life cycle assess-
产技术推广总站，中国水产学会. 2024 中国渔业统计 ment[J]. Progress in Fishery Sciences, 2022, 43(5): 16 −
年鉴 [M]. 北京：中国农业出版社，2024. 23.

Bureau of Fisheries, Ministry of Agriculture and Rural ［15］ Madin E M P, Macreadie P I. Incorporating carbon foot-
Affairs of the People’s Republic of China, National Fish- prints into seafood sustainability certification and eco-la-
eries Technology Extension Center, China Society of bels[J]. Marine Policy, 2015, 57: 178 − 181.
Fisheries. 2024 China fisheries statistical yearbook[M]. ［16］于诗奇，韩自强，陈燕婷，等. 福建沿海巨蛎属
Beijing: China Agriculture Press, 2024. （Crassostrea）牡蛎的种类及其分布 [J]. 海洋与湖
［ 8 ］蒋增杰，方建光，毛玉泽，等. 滤食性贝类养殖碳汇沼，2023，54（6）：1682 − 1692.
功能研究进展及未来值得关注的科学问题 [J]. 渔业 Yu S Q, Han Z Q, Chen Y T, et al. The species and dis-
科学进展，2022，43（5）：106 − 114. tribution of Crassostrea oyster in Fujian Coast[J]. Ocea-
Jiang Z J, Fang J G, Mao Y Z, et al. Research progress nologia et Limnologia Sinica, 2023, 54(6): 1682 − 1692.
on the carbon sink function of filter-feeding shellfish ［17］张钰霆，吴镇，李聪，等. 福建省沿海葡萄牙牡蛎遗
mariculture and future scientific issues[J]. Progress in 传多样性和遗传结构分析 [J]. 大连海洋大学学报，
Fishery Sciences, 2022, 43(5): 106 − 114. 2024，39（2）：275 − 280.
［ 9 ］董双林，王芳，罗福凯，等. 鱼类养殖企业碳排放及 Zhang Y T, Wu Z, Li C, et al. Analysis of genetic diver-
其产污程度的比较分析 [J]. 中国渔业经济，2010， sity and genetic structure of Portuguese oyster (Crasso-
28（6）：38 − 43. strea angulata) from the coast of Fujian Province[J].
Dong S L, Wang F, Luo F K, et al. Calculation of the Journal of Dalian Ocean University, 2024, 39(2): 275 −
carbon emission and its comparison with the pollution in 280.
the fish-culture enterprise[J]. Chinese Fisheries Econo- ［18］林国清，林位琅，林楠，等. 福建三倍体牡蛎养殖业
mics, 2010, 28(6): 38 − 43. 发展现状分析与对策建议 [J]. 中国水产，2023（4）：
［10］ Henriksson P J G, Belton B, Jahan K M E, et al. Measur- 91 − 95.
ing the potential for sustainable intensification of aqua- Lin G Q, Lin W L, Lin N, et al. Development status ana-
culture in Bangladesh using life cycle assessment[J]. lysis and countermeasures of Fujian triploid oyster
Proceedings of the National Academy of Sciences of the breeding industry[J]. China Fisheries, 2023(4): 91 − 95.
United States of America, 2018, 115(12): 2958 − 2963. ［19］中华人民共和国自然资源部. 养殖大型藻类和双壳贝
［11］ Cao L, Diana J S, Keoleian G A. Role of life cycle as- 类碳汇计量方法碳储量变化法：HY/T 0305—2021[S].
sessment in sustainable aquaculture[J]. Reviews in 北京：中国标准出版社，2021：3 − 5.
Aquaculture, 2013, 5(2): 61 − 71. Ministry of Natural Resources of the People’s Republic
［12］ Philis G, Ziegler F, Gansel L C, et al. Comparing life of China. Estimation method of maricultural seaweed

cycle assessment (LCA) of salmonid aquaculture produc- and bivalve carbon sink—carbon stock variation method:
tion systems: status and perspectives[J]. Sustainability, HY/T 0305—2021[S]. Beijing: Standards Press of China,
2019, 11(9): 2517. 2021: 3 − 5.
［13］ Sun Y, Hou H C, Dong D P, et al. Comparative life cycle ［20］张智，雷灵逸，王飞鹏，等. 三沙湾海水养殖固碳潜
assessment of whiteleg shrimp (Penaeus vannamei) cul- 力评估与空间格局分析 [J]. 海洋开发与管理，2024，
tured in recirculating aquaculture systems (RAS), biof- 41（2）：28 − 37.
loc technology (BFT) and higher-place ponds (HPP) Zhang Z, Lei L Y, Wang F P, et al. Assessment and spa-
farming systems in China[J]. Aquaculture, 2023, 574: tial pattern of carbon sequestration potential of maricul-
739625. ture in Sansha Bay[J]. Ocean Development and Man-
［14］孙威，张继红，吴文广，等. 基于生命周期法的养殖 agement, 2024, 41(2): 28 − 37.
海带的碳足迹评估 [J]. 渔业科学进展，2022，43（5）：［21］ Randall P M, Meyer D E, Ingwersen W W, et al. Life
16 − 23. cycle inventory (LCI) data-treatment chemicals, constru-

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