Page 132 - 《水产学报》2026年第01期

P. 132

1 期水产学报 50 卷

artificial reef complex in the gulf of Mexico[J]. Bulletin of Mar- using the acoustic technology in China: a review[J]. Journal of
ine Science, 2010, 86(4): 879-889. Dalian Ocean University, 2023, 38(2): 185-195 (in Chinese).
[48] Egerton J P, Johnson A F, Turner J, et al. Hydroacoustics as a [56] Knudsen F R, Sægrov H. Benefits from horizontal beaming dur-
tool to examine the effects of Marine Protected Areas and hab- ing acoustic survey: application to three Norwegian lakes[J].
itat type on marine fish communities[J]. Scientific Reports, Fisheries Research, 2002, 56(2): 205-211.
2018, 8(1): 47. [57] Kubecka J, Duncan A. Diurnal changes of fish behaviour in a
[49] Furuichi S, Kamimura Y, Suzuki M, et al. Density-dependent lowland river monitored by a dual-beam echosounder[J]. Fish-
attributes of schooling in small pelagic fishes[J]. The Science of eries Research, 1998, 35(1-2): 55-63.
Nature, 2022, 109(5): 49. [58] Ye S, Lian Y, Godlewska M, et al. Day-night differences in
[50] Jůza T, Muška M, Blabolil P, et al. Spatial fish distribution in hydroacoustic estimates of fish abundance and distribution in
autumn in a shallow mesotrophic lake, assessed by hydroacous- Lake Laojianghe, China[J]. Journal of Applied Ichthyology,
tic surveys, trawling, and beach seining[J]. Journal of Fish Bio- 2013, 29(6): 1423-1429.
logy, 2024, 104(5): 1525-1536. [59] 孟子豪, 杨德国, 胡飞飞, 等. 禁渔初期鄱阳湖流域柘林水库
[51] Zhu J, Wen L X. Hydroacoustic study of fin whales around the 鱼类资源时空分布格局及影响因子 [J]. 湖泊科学, 2023,
Southern Wake Island: type, vocal behavior, and temporal evol- 35(6): 2071-2081.
ution from 2010 to 2022[J]. The Journal of the Acoustical Soci- Meng Z H, Yang D G, Hu F F, et al. Fish resources spatio-tem-
ety of America, 2024, 155(5): 3037-3050. poral distribution patterns and controlling factors in Zhelin
[52] Li J Y, Zhang H, Lin D Q, et al. Spatiotemporal distribution Reservoir, Lake Poyang Basin during early fishing ban
and assemblages of fishes below the lowermost dam in protec- period[J]. Journal of Lake Sciences, 2023, 35(6): 2071-2081 (in
ted reach in the Yangtze River main stream: implications for Chinese).
river management[J]. Biomed Research International, 2016, [60] 李慧峰, 王珂, 余绪俊, 等. 禁渔初期鄱阳湖鱼类时空分布特
2016: 4290793. 征 [J]. 水生生物学报, 2023, 47(1): 147-155.
[53] Ricci S W, Eggleston D B, Bohnenstiehl D R. Use of passive Li H F, Wang K, Yu X J, et al. Hydroacoustic surveys on spa-
acoustic monitoring to characterize fish spawning behavior and tial-temporal distribution of fishes during early fishing ban
habitat use within a complex mosaic of estuarine habitats[J]. period in Poyang Lake[J]. Acta Hydrobiologica Sinica, 2023,
Bulletin of Marine Science, 2017, 93(2): 439-453. 47(1): 147-155 (in Chinese).
[54] Li D L, Du Z Z, Wang Q, et al. Recent advances in acoustic [61] 何仕文, 倪达富, 谢伟, 等. 十年禁渔初期三峡库区干流鱼类
technology for aquaculture: a review[J]. Reviews in Aquacul- 分布特征及变化 [J]. 水生生物学报, 2025, 49(2): 13-25.
ture, 2024, 16(1): 357-381. He S W, Ni D F, Xie W, et al. Characteristics and changes of
[55] 汤勇. 中国渔业资源声学评估研究与进展 [J]. 大连海洋大学 fish distribution in the mainstem of the Three Gorges Reservoir
学报, 2023, 38(2): 185-195. during the early stage of the ten-year fishing ban[J]. Acta
Tang Y. Research advance in fisheries resources assessment by Hydrobiologica Sinica, 2025, 49(2): 13-25 (in Chinese).

https://www.china-fishery.cn 中国水产学会主办 sponsored by China Society of Fisheries
12

127 128 129 130 131 132 133 134 135 136 137