Seasonal spatial ecology of Lake Trout in Lake Erie

IF 2 3区 农林科学 Q2 FISHERIES Transactions of The American Fisheries Society Pub Date : 2023-09-01 DOI:10.1002/tafs.10430
Tyler R. Funnell, Travis O. Brenden, Richard Kraus, Tom MacDougall, James Markham, Charles Murray, Jason Robinson, Christopher S. Vandergoot
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Abstract

Abstract Objective Lake Trout Salvelinus namaycush are native coldwater apex predators that play an important role in maintaining ecosystem functionality and diversity in the Laurentian Great Lakes. Following population collapses, rehabilitation efforts were widely initiated in the Great Lakes to reestablish self‐sustaining Lake Trout populations. Lake Erie may pose a challenge to these rehabilitation efforts due to limited availability of appropriate oxythermal habitat. Our goal was to investigate seasonal habitat use of adult Lake Trout in Lake Erie to inform management and rehabilitation efforts. Methods We used acoustic telemetry in Lake Erie, which was equiped with a lake‐wide acoustic receiver grid, to quantify Lake Trout seasonal region occupancy, dispersal distances, bottom depth occupancy, space use extent, and space use overlap. Result We found that 32% of fish tagged in the eastern basin and all fish from the western basin dispersed more than 100 km from their tagging location, which represents a greater proportion of the population moving long distances than what has been previously documented in the Great Lakes. During stratification, Lake Trout were detected almost exclusively in the offshore eastern basin in areas where water depth exceeded 25 m. During nonstratified seasons, fish used other regions of the lake, occupying areas of highly variable depths. During fall, most fish tagged in the eastern basin occupied habitat along the southern shore of the eastern basin. Fish tagged in the western basin returned to this region in the fall of subsequent years despite occupying the offshore eastern basin during stratification and having depth occupancy, home range size, and overlap similar to that of eastern basin‐tagged fish. Fish size was positively correlated with receiver depth during winter and spring, and with home range overlap during spring and summer. Conclusion The results of this study can begin to inform management decisions regarding stocking locations, harvest regulations, and habitat restoration to facilitate the continued rehabilitation of this important native species.
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伊利湖鳟鱼的季节空间生态
摘要:目的湖鳟鱼是Laurentian五大湖的原生冷水顶端捕食者,在维持生态系统功能和多样性方面发挥着重要作用。随着种群数量的减少,在五大湖广泛开展了恢复工作,以重建自我维持的湖鳟鱼种群。伊利湖可能会对这些恢复工作构成挑战,因为适当的氧热栖息地的可用性有限。我们的目标是调查伊利湖成年湖鳟鱼的季节性栖息地利用情况,为管理和恢复工作提供信息。方法采用声遥测技术,在伊利湖设置全湖范围的声接收网格,量化湖鳟鱼的季节性区域占用、扩散距离、底深度占用、空间利用程度和空间利用重叠。结果发现,东部盆地有32%的被标记鱼类和西部盆地的所有鱼类分散在距离其标记位置100公里以上的地方,这比以前在五大湖记录的长距离移动的种群比例更大。在分层过程中,几乎只在近海东部盆地水深超过25 m的区域检测到湖鳟鱼。在非分层季节,鱼类使用湖泊的其他区域,占据高度变化的深度区域。在秋季,大部分在东部盆地被标记的鱼类占据了东部盆地南岸的栖息地。在西部盆地被标记的鱼类在随后几年的秋季返回该地区,尽管在分层期间占据了近海东部盆地,并且具有与东部盆地被标记的鱼类相似的深度占用、范围大小和重叠。鱼的大小在冬、春季与接收深度呈正相关,春、夏季与家园范围重叠呈正相关。结论本研究结果可以开始为有关放养地点、采伐规定和栖息地恢复的管理决策提供信息,以促进这一重要本土物种的持续恢复。
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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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