Perspective comes with time: What do long-term egg and juvenile indices say about Chesapeake Bay Striped Bass productivity?

IF 1.8 3区 农林科学 Q2 FISHERIES Marine and Coastal Fisheries Pub Date : 2023-10-20 DOI:10.1002/mcf2.10248
James H. Uphoff Jr.
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Abstract

Objective

Three hypotheses about poor recruitment and collapse of Striped Bass Morone saxatilis in Chesapeake Bay during the 1970s and 1980s (excessive larval mortality related to water quality, recruitment overfishing, or a combination) emerged from intense investigations during the mid-1980s into the early 1990s. Stock collapse during the 1970s and 1980s and recovery in 1995 were largely attributed to fishing mortality and this premise largely drives management. Stock and larval habitat assessments were not available before the early 1980s and habitat assessments were discontinued after recovery. I used egg and juvenile index time-series that extended back to 1955 to test these three hypotheses about changes in productivity.

Methods

Long-term (1955–2019) indices of recruitment (juvenile index [JI]), spawning dispersion in time and space (Ep, proportion of plankton net samples with eggs), and an index of relative larval survival (RLS = JI/Ep) for spawning areas in Maryland’s portion of Chesapeake Bay were used to investigate whether larval survival patterns were stable (supported the overfishing hypothesis) or changed (supported the larval mortality hypothesis).

Result

Baywide Ep estimates were within similar higher ranges during 1957–1981 and 1989–2019, and were low enough to affect recruitment during 1982–1988. While there was a strong relationship of baywide Ep to spawning stock biomass (SSB) estimated by the stock assessment during recovery (1982–1995), estimates of Ep went from depleted to a high level earlier than SSB estimates. Estimates of postrecovery Ep and SSB were both high, but did not have a relationship. A decline in SSB that began in 2012 was not evident with Ep. A shift to low JIs in the early 1970s was followed by a decline in baywide Ep after 1979. Estimates of RLS were higher in 1960s, declined in the early to mid-1970s, were mostly low into the early 1990s, and became higher afterward. Recovery of Ep after 1988 was accompanied by recovery of larval survival a few years later. Strong correlations of juvenile indices of Striped Bass, White Perch Morone americana, and Yellow Perch Perca flavescens further supported the larval survival hypothesis; these anadromous fish share larval nurseries in space and time, but have different life histories and fisheries that make simultaneous overfishing unlikely.

Conclusion

Deterioration of larval survival initiated the collapse of Chesapeake Bay Striped Bass and improvement contributed to recovery. The hypothesis that collapse and recovery was solely driven by fishing was not supported, but excessive fishing pressure lowered Ep and SSB and contributed to poor recruitment during 1982–1988. Long-term climate patterns and warming, deterioration and improvement in acidic deposition, concurrent increases in freshwater salinization and alkalinization, and shifts in agriculture and watershed management indicated shifts in larval habitat suitability were plausible.

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观点随着时间的推移而来:长期的鸡蛋和幼仔指数对切萨皮克湾条纹鲈鱼的生产力有什么影响?
目的在20世纪80年代中期至90年代初的深入调查中,出现了三种关于20世纪70年代和80年代切萨皮克湾条纹鲈鱼繁殖不良和崩溃的假说(与水质、繁殖过度捕捞或两者结合有关的幼虫死亡率过高)。1970年代和1980年代的种群崩溃以及1995年的恢复在很大程度上归因于渔业死亡率,而这一前提在很大程度上将推动管理。在20世纪80年代初之前,种群和幼虫的栖息地评估不可用,栖息地评估在恢复后停止。我使用追溯到1955年的鸡蛋和青少年指数时间序列来检验这三个关于生产力变化的假设。方法招募的长期(1955–2019)指数(幼鱼指数[JI])、产卵在时间和空间上的分散度(Ep,浮游生物网样品与卵的比例),和切萨皮克湾马里兰州部分产卵区的相对幼虫存活指数(RLS=JI/Ep)用于调查幼虫存活模式是稳定的(支持过度捕捞假说)还是变化的(支持幼虫死亡率假说)。结果1957年至1981年和1989年至2019年期间,Baywide Ep估计值在类似的较高范围内,并且在1982年至1988年期间低到足以影响招募。虽然在恢复期间(1982-1995年),根据种群评估估计,整个海湾的Ep与产卵种群生物量(SSB)之间存在着密切的关系,但Ep的估计值比SSB的估计值更早从枯竭到高水平。恢复后Ep和SSB的估计值都很高,但没有关系。2012年开始的SSB下降在Ep中并不明显。20世纪70年代初向低JI的转变之后,1979年后海湾Ep下降。RLS的估计在20世纪60年代较高,在70年代初至中期下降,在20世纪90年代初大多较低,之后变得更高。1988年以后Ep的恢复伴随着几年后幼虫存活率的恢复。条纹鲈鱼、美洲白鲈鱼和黄鲈鱼幼鱼指数的强相关性进一步支持了幼虫存活假说;这些溯河产卵鱼类在空间和时间上都有共同的幼体孵化场,但它们的生活史和渔业不同,因此不太可能同时进行过度捕捞。结论切萨皮克湾条纹鲈鱼幼虫存活率的下降引发了其崩溃,其存活率的提高有助于其恢复。崩溃和恢复完全由捕鱼驱动的假设没有得到支持,但过度的捕鱼压力降低了Ep和SSB,并导致1982-1988年间招募不力。长期气候模式和变暖、酸性沉积的恶化和改善、淡水盐碱化和碱化的同时增加以及农业和流域管理的变化表明,幼虫栖息地适宜性的变化是合理的。
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来源期刊
Marine and Coastal Fisheries
Marine and Coastal Fisheries FISHERIES-MARINE & FRESHWATER BIOLOGY
CiteScore
3.40
自引率
5.90%
发文量
40
审稿时长
>12 weeks
期刊介绍: Marine and Coastal Fisheries: Dynamics, Management, and Ecosystem Science publishes original and innovative research that synthesizes information on biological organization across spatial and temporal scales to promote ecologically sound fisheries science and management. This open-access, online journal published by the American Fisheries Society provides an international venue for studies of marine, coastal, and estuarine fisheries, with emphasis on species'' performance and responses to perturbations in their environment, and promotes the development of ecosystem-based fisheries science and management.
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