Page 226 - 《水产学报》2025年第7期

P. 226

石小涛，等水产学报, 2025, 49(7): 079517

at the Changzhou fishway (Pearl River, China) during the flood [13] 陈庆光, 徐忠, 张永建. RNG 湍流模型在冲击射流数值计算
season[J]. Journal of Applied Ichthyology, 2015, 31(3): 451- 中的应用 [J]. 力学与实践, 2002, 24(6): 21-24.
458. Chen Q G, Xu Z, Zhang Y J. Application of RNG turbulence
[ 3 ] 祁昌军, 曹晓红, 温静雅, 等. 我国鱼道建设的实践与问题研 models on numerical computations of an impinging jet flow[J].
究 [J]. 环境保护, 2017, 45(6): 47-51. Mechanics and Engineering, 2002, 24(6): 21-24 (in Chinese).
Qi C J, Cao X H, Wen J Y, et al. The practice and problems of [14] Newto M, Dodd J A, Barry J, et al. The impact of a small-scale
the fishway construction in China[J]. Environmental Protection, riverine obstacle on the upstream migration of Atlantic
2017, 45(6): 47-51 (in Chinese). Salmon[J]. Hydrobiologia, 2018, 806(1): 251-264.
[ 4 ] 柯森繁, 金志军, 李志敏, 等. 我国 8 个水电站 15 种过鱼对象 [15] Castro-Santos T, Shi X T, Haro A. Migratory behavior of adult
游泳能力研究 [J]. 湖泊科学, 2022, 34(5): 1608-1619. sea lamprey and cumulative passage performance through four
Ke S F, Jin Z J, Li Z M, et al. Swimming ability of fifteen tar- fishways[J]. Canadian Journal of Fisheries and Aquatic Sci-
get fish from eight hydropower stations in China[J]. Journal of ences, 2017, 74(5): 790-800.
Lake Sciences, 2022, 34(5): 1608-1619 (in Chinese). [16] Mesa M G, Magie C D. Evaluation of energy expenditure in
[ 5 ] Hu X Z, Zhang Y Y, Yang F, et al. An efficiency analysis of adult spring Chinook salmon migrating upstream in the
Columbia River Basin: an assessment based on sequential prox-
the low-head gate Dam Fishway for freshwater fish ascending
imate analysis[J]. River Research and Applications, 2006,
Liuxi River in South China[J]. Ecological Engineering, 2020,
22(10): 1085-1095.
158: 106018.
[17] 陈柏宇, 袁浩, 何小泷. 坡度变化对竖缝式鱼道水力特性的影
[ 6 ] Vera A F, Rivera R, Romero-Maltrana D, et al. Negative pres-
响研究 [J]. 中国农村水利水电, 2022(10): 242-248.
sures and the first water siphon taller than 10.33 meters[J].
Chen B Y, Yuan H, He X L. Research on the effect of the slope
PLoS One, 2016, 11(4): 0153055.
gradient variation on the hydraulic characteristics of the ver-
[ 7 ] Ota Y, Akashi N, Saraswati S P. Flow fluctuation of siphon sys-
tical slot fishway[J]. China Rural Water and Hydropower,
tem pipe-type fishway and its influence on fish behavior[J].
2022(10): 242-248 (in Chinese).
Nishinippon Institute of Technology, 2014, 44: 97-106.
[18] Wu S, Rajaratnam N, Katopodis C. Structure of flow in vertical
[ 8 ] Wad A K, Otab Y. Development of the siphon system pipe-
slot fishway[J]. Journal of Hydraulic Engineering, 1999,
fishway and monitoring of fish migration[C]//Institute Tekno-
125(4): 351-360.
logi Bandung in collaboration with Gifu National College of
[19] Cai L, Liu G Y, Taupier R, et al. Effect of temperature on
Technology and Japan Science and Technology Agency. The
swimming performance of juvenile Schizothorax prenanti[J].
Third Joint Seminar of Japan and Indonesia Environmental Sus-
tainability and Disaster Prevention. Indonesia: Institut Tekno- Fish Physiology and Biochemistry, 2014, 40(2): 491-498.
logi Bandung, 2015. [20] Kennedy R J, Moffett I, Allen M M, et al. Upstream migratory
[ 9 ] Castro-Santos T, Haro A. Quantifying migratory delay: a new behaviour of wild and ranched Atlantic salmon Salmo salar at a
application of survival analysis methods[J]. Canadian Journal of natural obstacle in a coastal spate river[J]. Journal of Fish Bio-
Fisheries and Aquatic Sciences, 2003, 60(8): 986-996. logy, 2013, 83(3): 515-530.
[10] Hardin J, Garcia S R, Golan D. A method for generating real- [21] Forty M, Spees J, Lucas C M. Not just for adults! Evaluating
istic correlation matrices[J]. The Annals of Applied Statistics, the performance of multiple fish passage designs at low-head
2013, 7(3): 1733-1762. barriers for the upstream movement of juvenile and adult trout
[11] Goerig E, Castro-Santos T. Is motivation important to brook Salmo trutta[J]. Ecological Engineering, 2016, 94: 214-224.
trout passage through culverts?[J]. Canadian Journal of Fisher- [22] 石小涛, 白天翔, 许家炜, 等. 金沙江下游支流黑水河松新电
ies and Aquatic Sciences, 2017, 74(6): 885-893. 站鱼道过鱼效果监测与评估 [J]. 湖泊科学, 2023, 35(3): 972-
[12] 刘然钰. 波纹钢管涵洞式鱼道内水气两相流的大涡模拟 [D]. 984.
沈阳: 沈阳农业大学, 2021. Shi X T, Bai T X, Xu J W, et al. Monitoring and evaluation of
Liu R Y. Large eddy simulation of water-gas two-phase flow in effectiveness through fishway in Songxin Hydropower Station
a culvert fishway with corrugated steel tubes[D]. Shenyang: of Heishui River, lower reaches of Jinsha River[J]. Journal of
Shenyang Agricultural University, 2021 (in Chinese). Lake Sciences, 2023, 35(3): 972-984 (in Chinese).

中国水产学会主办 sponsored by China Society of Fisheries https://www.china-fishery.cn
9

221 222 223 224 225 226 227 228 229 230 231