How Many Ciscoes are Needed for Stocking in the Laurentian Great Lakes?

IF 0.9 4区 环境科学与生态学 Q4 BIODIVERSITY CONSERVATION Journal of Fish and Wildlife Management Pub Date : 2021-11-16 DOI:10.3996/jfwm-21-025
B. Rook, M. Hansen, C. Bronte
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引用次数: 1

Abstract

Historically, Cisco Coregonus artedi and deepwater ciscoes Coregonus spp. were the most abundant and ecologically important fish species in the Laurentian Great Lakes, but anthropogenic influences caused nearly all populations to collapse by the 1970s. Fishery managers have begun exploring the feasibility of restoring populations throughout the basin, but questions regarding hatchery propagation and stocking remain. We used historical and contemporary stock-recruit parameters previously estimated for Ciscoes in Wisconsin waters of Lake Superior, with estimates of age-1 Cisco rearing habitat (broadly defined as total ha ≤ 80 m depth) and natural mortality, to estimate how many fry (5.5 months post-hatch), fall fingerling (7.5 months post-hatch), and age-1 (at least 12 months post-hatch) hatchery-reared Ciscoes are needed for stocking in the Great Lakes to mimic recruitment rates in Lake Superior, a lake that has undergone some recovery. Estimated stocking densities suggested that basin-wide stocking would require at least 0.641-billion fry, 0.469-billion fall fingerlings, or 0.343-billion age-1 fish for a simultaneous restoration effort targeting historically important Cisco spawning and rearing areas in Lakes Huron, Michigan, Erie, Ontario, and Saint Clair. Numbers required for basin-wide stocking were considerably greater than current or planned coregonine production capacity, thus simultaneous stocking in the Great Lakes is likely not feasible. Provided current habitat conditions do not preclude Cisco restoration, managers could maximize the effectiveness of available production capacity by concentrating stocking efforts in historically important spawning and rearing areas, similar to the current stocking effort in Saginaw Bay, Lake Huron. Other historically important Cisco spawning and rearing areas within each lake (listed in no particular order) include: (1) Thunder Bay in Lake Huron, (2) Green Bay in Lake Michigan, (3) the islands near Sandusky, Ohio, in western Lake Erie, and (4) the area near Hamilton, Ontario, and Bay of Quinte in Lake Ontario. Our study focused entirely on Ciscoes but may provide a framework for describing future stocking needs for deepwater ciscoes.
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劳伦斯五大湖的放养需要多少西斯科?
历史上,北美Cisco Coregonus artedi和深水Cisco Coregonus spp.是劳伦森五大湖最丰富和生态最重要的鱼类,但到20世纪70年代,人为影响导致几乎所有的种群都崩溃了。渔业管理人员已经开始探索在整个盆地恢复种群的可行性,但关于孵化场繁殖和放养的问题仍然存在。我们使用了之前在苏必略湖威斯康辛水域估计的Cisco的历史和当代种群招募参数,以及1龄Cisco饲养栖息地(广泛定义为总面积≤80米深)和自然死亡率的估计,来估计在五大湖放养需要多少鱼苗(孵化后5.5个月)、秋季鱼种(孵化后7.5个月)和1龄(孵化后至少12个月)孵化的Cisco,以模拟苏必略湖的招募率。经过一些恢复的湖泊。估计的放养密度表明,在休伦湖、密歇根州、伊利湖、安大略省和圣克莱尔湖等历史上重要的Cisco产卵和饲养区,同时进行恢复工作,整个流域的放养至少需要6.41亿条鱼苗,4.69亿条秋季鱼苗,或3.43亿条1岁的鱼。全流域放养所需的数量远远大于目前或计划的区域生产能力,因此在五大湖同时放养可能是不可行的。如果目前的栖息地条件不排除思科恢复,管理者可以通过将放养工作集中在历史上重要的产卵和饲养区域来最大化现有生产能力的有效性,类似于目前在休伦湖萨吉诺湾的放养工作。每个湖内其他历史上重要的思科产卵和饲养区域(排名不分先后)包括:(1)休伦湖的桑德湾,(2)密歇根湖的绿湾,(3)伊利湖西部俄亥俄州桑达斯基附近的岛屿,以及(4)安大略省汉密尔顿和安大略湖昆特湾附近的地区。我们的研究完全集中在思科,但可能为描述深水思科未来的库存需求提供一个框架。
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来源期刊
Journal of Fish and Wildlife Management
Journal of Fish and Wildlife Management BIODIVERSITY CONSERVATION-ECOLOGY
CiteScore
1.60
自引率
0.00%
发文量
43
审稿时长
>12 weeks
期刊介绍: Journal of Fish and Wildlife Management encourages submission of original, high quality, English-language scientific papers on the practical application and integration of science to conservation and management of native North American fish, wildlife, plants and their habitats in the following categories: Articles, Notes, Surveys and Issues and Perspectives. Papers that do not relate directly to native North American fish, wildlife plants or their habitats may be considered if they highlight species that are closely related to, or conservation issues that are germane to, those in North America.
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