Seasonal migration cues differ for dual spawning Atlantic Sturgeon in the Great Pee Dee River

IF 2 3区 农林科学 Q2 FISHERIES
Colby D. Denison, Amy Cottrell, Troy M. Farmer, Dewayne A. Fox, David M. Hood, William C. Post, Gregory Sorg, Ellen Waldrop, Brandon K. Peoples
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Abstract

Abstract Objective We investigated environmental variables associated with spawning migration behavior for a dual‐spawning population of endangered Atlantic Sturgeon Acipenser oxyrinchus oxyrinchus in the Great Pee Dee River, South Carolina. Methods From 2016 to 2021, 147 Atlantic Sturgeon were captured, implanted with acoustic transmitters, and monitored using a stationary array of 40 receivers located every 5–20 km along a 302‐km section of the Great Pee Dee River from the river mouth at Winyah Bay to the first movement barrier at Blewett Falls Dam, North Carolina. Result We observed 47 Atlantic Sturgeon attempting 74 spring migrations and 39 Atlantic Sturgeon attempting 76 fall migrations across 4 years of telemetry observations (2018–2021). Mixed‐effects models indicated that discharge interacted with water temperature to affect both migration initiation and upriver movement, and these interactions differed between the spring and fall runs. Spring runs were cued by rising temperatures and high river discharge, whereas fall runs were cued by falling temperatures and low discharge. Within migrations, spring‐run fish migrated further upriver when discharge was falling, and fall‐run fish moved further upriver when discharge was rising. Overall, fall‐run sturgeon migrated significantly further upriver than spring‐run sturgeon. Conclusion Differences in migratory behavior between the two runs suggest potentially unique adaptations to ambient river conditions during the respective spawning seasons. Identifying the environmental factors that drive—and thereby limit—Atlantic Sturgeon migrations in the Great Pee Dee River informs regional recovery efforts and highlights the importance of studying and managing this species at the population level.
在大皮迪河双产卵大西洋鲟鱼的季节迁徙线索不同
摘要目的研究南卡罗莱纳大皮迪河濒危大西洋鲟双产卵种群产卵迁移行为的相关环境变量。方法从2016年到2021年,捕获147条大西洋鲟鱼,植入声波发射器,并使用40个固定接收器阵列进行监测,这些接收器沿着大皮迪河302公里的河段每5-20公里放置一次,从Winyah湾河口到Blewett Falls大坝的第一运动屏障。结果在4年的遥测观测中(2018-2021),我们观察到47条大西洋鲟鱼尝试74次春季迁徙,39条大西洋鲟鱼尝试76次秋季迁徙。混合效应模型表明,流量与水温相互作用影响了迁移的开始和上游的运动,并且这些相互作用在春季和秋季之间有所不同。春季的径流是由气温上升和高流量引起的,而秋季的径流是由气温下降和低流量引起的。在洄游过程中,当流量下降时,春游鱼类向上游迁移,而当流量上升时,秋游鱼类向上游迁移。总的来说,秋季洄游的鲟鱼比春季洄游的鲟鱼向上游迁移得更远。结论两种迁徙行为的差异表明,在各自的产卵季节,它们可能对周围的河流条件有独特的适应。确定驱动并因此限制大西洋鲟鱼在大皮迪河迁徙的环境因素,为区域恢复工作提供信息,并强调在种群水平上研究和管理这一物种的重要性。
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来源期刊
CiteScore
2.90
自引率
7.10%
发文量
48
审稿时长
8-16 weeks
期刊介绍: Transactions of the American Fisheries Society is a highly regarded international journal of fisheries science that has been published continuously since 1872. It features results of basic and applied research in genetics, physiology, biology, ecology, population dynamics, economics, health, culture, and other topics germane to marine and freshwater finfish and shellfish and their respective fisheries and environments.
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