Page 174 - 《水产学报》2025年第7期

P. 174

杨梓静，等水产学报, 2025, 49(7): 079513

集，提高进口处的鱼类集群规模，从而利用鱼 [ 6 ] Laborde A, González A, Sanhueza C, et al. Hydropower devel-
群内个体间的吸引与引导作用提高其过坝效率。 opment, riverine connectivity, and non-sport fish species: cri-
在过鱼通道内池室休息区部分位置设置束窄拦 teria for hydraulic design of fishways[J]. River Research and
Applications, 2016, 32(9): 1949-1957.
网，在不改变水流条件的同时，使鱼类形成纵
[ 7 ] Tang M F, Xu T J, Dong G H, et al. Numerical simulation of
向“一字”形集群游动。在确保不影响上溯效率
the effects of fish behavior on flow dynamics around net
的情况下，增加上溯鱼类的运动分散度，使其 cage[J]. Applied Ocean Research, 2017, 64: 258-280.
既能利用吸引和引导作用，又避免受排斥作用 [ 8 ] Wei C, Hu Q, Li S J, et al. Hydrodynamic interactions and
过多的负面影响。 wake dynamics of fish schooling in rectangle and diamond
值得注意的是，水电过鱼设施环境多变， formations[J]. Ocean Engineering, 2023, 267: 113258.
[ 9 ] 杨宇, 高勇, 韩昌海, 等. 鱼类水力学试验研究进展 [J]. 水生
过鱼通道中的水力要素与集群特征极为复杂。
态学杂志, 2013, 34(4): 70-75.
后续研究在营造实验流场时，不仅要考虑流速
YangY, Gao Y, Han C H, et al. Advance of hydraulic tests con-
大小、流速方向、流速梯度、湍动能、湍动耗 cerning about fishes[J]. Journal of Hydroecology, 2013, 34(4):
散率等水力指标，更应根据野外实际情况，进 70-75 (in Chinese).
一步分析各指标不同组合模式下鱼类的运动特 [10] Gilja G, Ocvirk E, Fliszar R. Experimental investigation of the
性。此外，在刻画鱼类集群行为时，可针对集 reynolds shear stress exceedance rate for the injury and disori-
entation biocriteria boundary in the pool-orifice and vertical slot
群个体进行精细分析，精确量化各相邻个体间
type fishways[J]. Applied Sciences, 2021, 11(16): 7708.
的交互作用。在此基础上，将水流影响与集群
[11] 李丹, 林小涛, 朱志明, 等. 不同流速下杂交鲟幼鱼游泳状态
影响相结合，精准解析鱼类溯流运动过程中的与活动代谢研究 [J]. 水生生物学报, 2011, 35(4): 578-585.
“水力-集群”协同行为效应，为过鱼设施的设计、 Li D, Lin X T, Zhu Z M, et al. Effects of flow rate on swim-
运行与管理提供更加有力的理论依据和数据 ming states and activity metabolism in juvenile hybrid
支持。 sturgeon[J]. Acta Hydrobiologica Sinica, 2011, 35(4): 578-585
(in Chinese).
[12] 李丹, 林小涛, 李想, 等. 水流对杂交鲟幼鱼游泳行为的影响
参考文献
(References)：
[J]. 淡水渔业, 2008, 38(6): 46-51.
[ 1 ] 陈求稳, 张建云, 莫康乐, 等. 水电工程水生态环境效应评价
Li D, Lin X T, Li X, et al. Effects of water current on swim-
方法与调控措施 [J]. 水科学进展, 2020, 31(5): 793-810. ming performance of juvenile hybrid sturgeon (Huso duricus
Chen Q W, Zhang J Y, Mo K L, et al. Effects of hydropower Georgi ♂× Acipenser schrencki Brandt ♀)[J]. Freshwater Fish-
development on aquatic eco-environment and adaptive manage- eries, 2008, 38(6): 46-51 (in Chinese).
[13] 雷青松, 涂志英, 李志敏, 等. 马口鱼自主上溯游泳行为及对
ments[J]. Advances in Water Science, 2020, 31(5): 793-810 (in
流场选择策略研究 [J]. 武汉大学学报 (工学版), 2020, 53(6):
Chinese).
483-491.
[ 2 ] Morita K, Yamamoto S. Effects of habitat fragmentation by
Lei Q S, Tu Z Y, Li Z M, et al. Swimming performance and
damming on the persistence of stream-dwelling charr popula-
flow-field selection strategy of Opsariichthys bidend during
tions[J]. Conservation Biology, 2002, 16(5): 1318-1323. upstream migration[J]. Engineering Journal of Wuhan Uni-
[ 3 ] Santos J M, Ferreira M T, Pinheiro A N, et al. Effects of small versity, 2020, 53(6): 483-491 (in Chinese).
hydropower plants on fish assemblages in medium-sized [14] Liu H, Lin J Q, Wang D S, et al. Experimental study of the
streams in central and northern Portugal[J]. Aquatic Conserva- behavioral response of fish to changes in hydrodynamic indicat-
tion: Marine and Freshwater Ecosystems, 2006, 16(4): 373-388. ors in a near-natural environment[J]. Ecological Indicators,
[ 4 ] 白音包力皋, 郭军, 吴一红. 国外典型过鱼设施建设及其运行 2023, 154: 110813.
情况 [J]. 中国水利水电科学研究院学报, 2011, 9(2): 116-120. [15] Silva A T, Bærum K M, Hedger R D, et al. The effects of
Bai Y B L G, Guo J, Wu Y H. Analysis of the design, construc- hydrodynamics on the three-dimensional downstream migrat-
tion and operation of typical fish passages in overseas ory movement of Atlantic salmon[J]. Science of The Total
projects[J]. Journal of China Institute of Water Resources and Environment, 2020, 705: 135773.
Hydropower Research, 2011, 9(2): 116-120 (in Chinese). [16] Tan J J, Gao Z, Dai H C, et al. Effects of turbulence and velo-
[ 5 ] Katopodis C, Williams J G. The development of fish passage city on the movement behaviour of bighead carp (Hypophthal-
research in a historical context[J]. Ecological Engineering, michthys nobilis) in an experimental vertical slot fishway[J].
2012, 48: 8-18. Ecological Engineering, 2019, 127: 363-374.

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

169 170 171 172 173 174 175 176 177 178 179