Page 25 - 《水产学报》2025年第6期

P. 25

梁贺君，等水产学报, 2025, 49(6): 069302

brama amblycephala culture pond ecosystems in summer[J]. China, 2019, 43(1): 105-115 (in Chinese).
Journal of Shanxi Agricultural Sciences, 2015, 43(10): 1297- [90] 张凯, 王广军, 龚望宝, 等. 草鱼-鳙-鲫零换水池塘有机碳、氮、
1300 (in Chinese). 磷收支研究 [J]. 渔业科学进展, 2022, 43(6): 188-198.
[85] Silvennoinen H, Liikanen A, Torssonen J, et al. Denitrification Zhang K, Wang G J, Gong W B, et al. Study on organic carbon,
and N 2 O effluxes in the Bothnian Bay (northern Baltic Sea) nitrogen, and phosphorus budgets of zero-water exchange
river sediments as affected by temperature under different oxy- ponds of grass carp, bighead carp, and crucian carp[J]. Progress
gen concentrations[J]. Biogeochemistry, 2008, 88(1): 63-72. in Fishery Sciences, 2022, 43(6): 188-198 (in Chinese).
[86] 林海, 周刚, 李旭光, 等. 夏季池塘养殖中华绒螯蟹生态系统 [91] 李雪, 刘子飞, 赵明军, 等. 我国水产养殖与捕捞业“双碳”目
温室气体排放及综合增温潜势 [J]. 水产学报, 2013, 37(3): 标及实现路径 [J]. 中国农业科技导报, 2022, 24(11): 13-26.
417-424. Li X, Liu Z F, Zhao M J, et al. Carbon peak and carbon neutral-
Lin H, Zhou G, Li X G, et al. Greenhouse gases emissions from ization goals and realization paths of the aquaculture and fish-
pond culture ecosystem of Chinese mitten crab and their com- ing industry in China[J]. Journal of Agricultural Science and
prehensive global warming potentials in summer[J]. Journal of Technology, 2022, 24(11): 13-26 (in Chinese).
Fisheries of China, 2013, 37(3): 417-424 (in Chinese). [92] 程炳红, 郝庆菊, 江长胜. 水库温室气体排放及其影响因素研
[87] 李元正, 雷丹, 刘佳, 等. 天气状况对富营养化池塘水-气界面究进展 [J]. 湿地科学, 2012, 10(1): 121-128.
冬季二氧化碳通量的影响 [J]. 三峡大学学报 (自然科学版), Cheng B H, Hao Q J, Jiang C S. Research progress on the emis-
2018, 40(4): 33-38. sion of greenhouse gases from reservoir and its influence
Li Y Z, Lei D, Liu J, et al. Influence of weather condition on factors[J]. Wetland Science, 2012, 10(1): 121-128 (in Chinese).
CO 2 flux in eutrophic pond water-air interface in winter[J]. [93] Hammer A J, Millar C, Hennige S J. Reducing carbon emis-
Journal of China Three Gorges University (Natural Sciences), sions in aquaculture: using Carbon Disclosures to identify
2018, 40(4): 33-38 (in Chinese). unbalanced mitigation strategies[J]. Environmental Impact
[88] 张成, 龙丽, 吕新彪, 等. 某富营养化池塘夏季温室气体通量 Assessment Review, 2022, 96: 106816.
的昼夜变化 [J]. 长江科学院院报, 2016, 33(8): 28-33,47. [94] Yang P, He Q H, Huang J F, et al. Fluxes of greenhouse gases
Zhang C, Long L, Lü X B, et al. Diel greenhouse emissions at two different aquaculture ponds in the coastal zone of southea-
from an eutrophic pond in summer[J]. Journal of Yangtze River stern China[J]. Atmospheric Environment, 2015, 115: 269-277.
Scientific Research Institute, 2016, 33(8): 28-33, 47 (in Chinese). [95] 马煜春, 孙丽英, 刘翠英, 等. 太湖地区两种典型水产养殖系
[89] 董双林. 多维视角下的新时代水产养殖业发展 [J]. 水产学报, 统 CH 4 排放研究 [J]. 生态环境学报, 2018, 27(7): 1269-1275.
2019, 43(1): 105-115. Ma Y C, Sun L Y, Liu C Y, et al. Methane emission from two
Dong S L. The development of aquaculture in the new era from typical aquaculture ponds in Taihu Lake[J]. Ecology and Envir-
a multi-dimensional perspective[J]. Journal of Fisheries of onmental Sciences, 2018, 27(7): 1269-1275 (in Chinese).

https://www.china-fishery.cn 中国水产学会主办 sponsored by China Society of Fisheries
14

20 21 22 23 24 25 26 27 28 29 30