Why are larger fish farther upstream? Testing multiple hypotheses using Silver Chub in two Midwestern United States riverscapes

IF 1.3 4区农林科学 Q3 FISHERIES

North American Journal of Fisheries Management Pub Date : 2023-08-07 DOI:10.1002/nafm.10903

J. Perkin, P. Kočovský, Zachary D. Steffensmeier, K. Gido

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引用次数: 3

Abstract

Three competing hypotheses might explain the widely documented intrapopulation larger‐fish‐upstream phenomenon. The age‐phased recruitment hypothesis posits that fish spawn downstream and move upstream as they age and grow, the static population with growth and mortality gradients hypothesis posits that fish spawn throughout a riverscape and growth is greater upstream while recruitment is greater downstream, and the colonization cycle hypothesis posits that fish spawn upstream, larvae drift downstream, and individuals move upstream as they age and grow.We tested for the larger‐fish‐upstream pattern using populations of Silver Chub Macrhybopsis storeriana in the Arkansas and Ohio rivers, as well as investigated longitudinal variation in reproductive investment (Arkansas River), age structure for adult fish (Arkansas River), and number and occurrence of age‐0 fish (Ohio River).The larger‐fish‐upstream pattern was temporally persistent in both riverscapes. In the Arkansas River, reproductive investment was greatest upstream, where initiation of spawning likely occurred based on gonadosomatic indices. Adult fish were most numerous in the Arkansas River 125–175 km upstream from Kaw Reservoir, with age‐2 fish numbers peaking farther upstream compared with age‐1 fish. In the Ohio River, age‐0 fish counts increased downstream and were rare among the shortest river fragments (<100 km) between lock‐and‐dam structures. These findings are inconsistent with the age‐phased recruitment hypothesis based on upstream spawning in the Arkansas River and inconsistent with the static population with growth and mortality gradients hypothesis based on virtual absence of age‐2 fish downstream (Arkansas River) and age‐0 fish upstream (Ohio River). The most likely explanation for longitudinal variation in Silver Chub size distribution is downstream drift of ichthyoplankton followed by net upstream movement (i.e., colonization cycle hypothesis), but formal assessments of movement and ova characteristics require more research.Managing multidimensional riverscapes requires insight into the mechanisms that regulate upstream‐to‐downstream patterns in fish populations, and our work underscores a potential size‐related benefit to maintaining broadscale longitudinal connectivity.

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为什么更大的鱼在上游？在美国中西部的两个河流景观中使用银丘测试多种假设

三个相互竞争的假设可能解释了被广泛记录的种群内较大鱼类上游现象。年龄阶段的补充假说假设鱼类随着年龄和生长而向下游产卵并向上游移动，具有生长和死亡率梯度的静态种群假说假设鱼类在整个河流景观中产卵，生长在上游更大，而补充在下游更大，定殖周期假说假设鱼类向上游产卵，幼虫向下游漂移，个体随着年龄的增长而向上游迁移。我们使用阿肯色河和俄亥俄河中的银Chub Macrhybopsis storeriana种群测试了较大的鱼类上游模式，并调查了繁殖投资（阿肯色河）、成鱼的年龄结构（阿肯色河水）以及0岁鱼类的数量和发生率（俄亥俄河）的纵向变化。较大的鱼类上游模式在两个河流景观中都暂时持续存在。在阿肯色河，繁殖投资最大的是上游，根据性腺指数，那里可能会开始产卵。成鱼在Kaw水库上游125-175公里的阿肯色河中数量最多，与1岁鱼相比，2岁鱼的数量在上游达到峰值。在俄亥俄河，0岁以下的鱼类数量在下游增加，在最短的河流碎片中很少见（<100 km）。这些发现与基于阿肯色河上游产卵的年龄阶段补充假说不一致，也与基于下游（阿肯色河）和上游（俄亥俄河）几乎没有2岁鱼类的静态种群增长和死亡率梯度假说不一致。银丘大小分布纵向变化的最可能解释是鱼类浮游生物的下游漂移，然后是净上游运动（即定殖周期假说），但对运动和卵母细胞特征的正式评估需要更多的研究。管理多层面的河流景观需要深入了解鱼类种群上下游模式的调节机制，我们的工作强调了维持大规模纵向连通性的潜在规模相关益处。

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

North American Journal of Fisheries Management 农林科学-渔业

CiteScore

2.60

自引率

18.20%

发文量

118

审稿时长

2 months

期刊介绍： The North American Journal of Fisheries Management promotes communication among fishery managers with an emphasis on North America, and addresses the maintenance, enhancement, and allocation of fisheries resources. It chronicles the development of practical monitoring and management programs for finfish and exploitable shellfish in marine and freshwater environments. Contributions relate to the management of fish populations, habitats, and users to protect and enhance fish and fishery resources for societal benefits. Case histories of successes, failures, and effects of fisheries programs help convey practical management experience to others.