Effects of Adult Biomass and Environmental Conditions on Bigheaded Carp Reproductive Output

IF 0.9 4区 环境科学与生态学 Q4 BIODIVERSITY CONSERVATION
M. Weber, A. Matthews, C. L. Pierce
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引用次数: 0

Abstract

Bighead Carp Hypothalmichthys nobilis and Silver Carp Hypothalmichthys moltrix (hereafter collectively referred to as Bigheaded Carp) have spread throughout the majority of the Mississippi River since the 1970s. The current northern invasion edge of Bigheaded Carp in the Upper Mississippi River (UMR) spans between Pools 14 and 20 because of limited passage at Lock and Dam (LD) 19. Mechanisms limiting adult Bigheaded Carp abundance above LD19 are unknown but may be due in part to lack of reproductive success influenced by adult abundance and environmental factors. Our objective was to investigate how relative adult biomass and river temperature and discharge affect maximum annual Bigheaded Carp larval production in the UMR using a Ricker stock-recruitment model. Adult Bigheaded Carp relative biomass (kg/h) was estimated annually with boat electrofishing and larvae were collected every 10 d between May and August 2014–2017 in Pools 14–20 in the UMR. Adult relative biomass ranged from 0.0 to 880.9 kg/h, whereas maximum annual larval densities ranged from 0.0 to 2,869.4 larvae/m3. After accounting for variability among pools and years, the most supported linear Ricker stock-recruitment model indicated the number of recruits per spawner decreased with increasing adult relative biomass and increased with mean discharge. Our results highlight the importance of adult biomass and river discharge conditions for reproduction of Bigheaded Carp along leading edges of invasion. Management strategies that aim to maintain low adult abundance where reproduction is not yet occurring could help limit population increases via reproduction, whereas reducing high adult biomass (e.g., commercial harvest, barriers) may result in greater Bigheaded Carp reproductive output in the UMR.
成鱼生物量和环境条件对鳙鱼繁殖产量的影响
自20世纪70年代以来,白头鲤鱼和银鱼(以下统称为白头鲤鱼)已遍布密西西比河的大部分地区。由于船闸和大坝(LD)19的通道有限,目前密西西比河上游(UMR)大头鲤鱼的北部入侵边缘横跨14号水池和20号水池之间。限制成年大头鲤鱼丰度高于LD19的机制尚不清楚,但部分原因可能是受成年鲤鱼丰度和环境因素的影响,缺乏繁殖成功。我们的目的是使用Ricker种群补充模型研究相对成年生物量、河流温度和流量如何影响UMR中的最大年小头鲤鱼幼虫产量。2014年5月至2017年8月,每年通过渔船电捕鱼估计成年大头鲤鱼的相对生物量(kg/h),并每10天在UMR的14–20池中收集一次幼虫。成虫相对生物量在0.0至880.9 kg/h之间,而最大年幼虫密度在0.0至2869.4幼虫/m3之间。在考虑了水池和年份之间的可变性后,最受支持的线性Ricker种群招募模型表明,每个spawner的招募数量随着成年相对生物量的增加而减少,而随着平均流量的增加而增加。我们的研究结果强调了成年生物量和河流排放条件对入侵前缘白头翁繁殖的重要性。在尚未繁殖的地方,旨在保持低成体丰度的管理策略可能有助于通过繁殖限制种群数量的增加,而减少高成体生物量(例如,商业收获、障碍)可能会导致UMR中大头鲤鱼的繁殖产量增加。
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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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