A Lagrangian particle-tracking approach to modelling larval drift in rivers

IF 4.6 Q2 ENVIRONMENTAL SCIENCES
R. McDonald, J. Nelson
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引用次数: 11

Abstract

Abstract The migration of larval fish from spawning to rearing habitat in rivers is not well understood. This paper describes a methodology to predict larval drift using a Lagrangian particle-tracking (LPT) model with passive and active behavioural components loosely coupled to a quasi-three-dimensional hydraulic model. In the absence of measured larval drift, a heuristic approach is presented for the larval drift of two species of interest, white sturgeon (Acipenser transmontanus) and burbot (Lota lota), in the Kootenai River, Idaho. Previous studies found that many fish species prefer certain vertical zones within the water column; sturgeon tend to be found near the bottom and burbot close to the water surface. Limiting the vertical movement of larvae is incorporated into the active component of the LPT model. The results illustrate a pattern of drift where secondary flow in meander bends and other zones of flow curvature redistributes particles toward the outside of the bend for surface drifters and toward the inside of the bend for bottom drifters. This pattern periodically reinforces the intersection of drifting larvae with channel margins in meander bends. In the absence of measured larval drift data, the model provides a tool for hypothesis testing and a guide to both field and laboratory experiments to further define the role of active behaviour in drifting larvae.
拉格朗日粒子跟踪方法模拟河流中幼虫漂移
摘要河流中幼鱼从产卵地到饲养地的洄游尚不清楚。本文描述了一种使用拉格朗日粒子跟踪(LPT)模型预测幼虫漂移的方法,该模型具有被动和主动行为成分松散耦合到准三维水力模型。在没有测量幼虫漂移的情况下,提出了一种启发式方法,用于两种感兴趣的物种,白鲟(acpenser transmontanus)和白鲟(Lota Lota),在库特奈河,爱达荷州。先前的研究发现,许多鱼类更喜欢水柱内的某些垂直区域;鲟鱼往往在靠近水底的地方被发现,而白颊鳕则靠近水面。限制幼虫垂直运动被纳入LPT模型的主动成分。结果表明了一种漂移模式,即曲流弯道和其他流动曲率区域的二次流将颗粒重新分配给表面漂浮者的弯道外侧,以及底部漂浮者的弯道内侧。这种模式周期性地加强了漂流的幼虫在曲流弯曲处与河道边缘的相交。在没有测量到的幼虫漂移数据的情况下,该模型为假设检验提供了工具,并为现场和实验室实验提供了指导,以进一步确定主动行为在漂流幼虫中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.10
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