Lane M. Atmore, Inge van der Jagt, Aurélie Boilard, Simone Häberle, Rachel Blevis, Katrien Dierickx, Liz M. Quinlan, David Orton, A. Hufthammer, J. H. Barrett, Bastiaan Star
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引用次数: 0
Abstract
Atlantic herring populations have been the target of highly profitable coastal and pelagic fisheries in northern Europe for well over a thousand years. Their complex and intermingled population dynamics have sparked extensive debate over the impacts of historical overfishing and have complicated their sustainable management today. Recently developed tools – including diagnostic SNP panels for mixed-stock analysis – aim to improve population assignment for fisheries management, however, the biological relevance of such tools over long periods of time remains unknown. Here, we demonstrate the millennium-long applicability of diagnostic SNP panels and identify population perturbations associated with increasing exploitation pressure and climate change by analyzing whole genome data from modern and ancient herring specimens. We find that herring demographic cycles were likely within healthy ecosystem boundaries until the dramatic disruption of these cycles in the 20th century. We find only autumn-spawning herring in our archaeological remains spanning 900 years from 8 sites across Europe, supporting observations that the numerical dominance of specific spawning populations can demographically outcompete other herring types. We also obtain pre-archival aDNA evidence for the famous, cyclical “Bohuslän periods,” during which mass quantities of North Sea autumn-spawning herring congregated in the Skagerrak. Finally, the long-term applicability of diagnostic SNP panels underscores their highly cost-effective application for the genetic monitoring of herring stocks. Our results highlight the utility of ancient DNA and genomic analysis to obtain historical and natural insights in herring ecology and population dynamics with relevance for sustainable fisheries management.
一千多年来,大西洋鲱鱼种群一直是北欧沿海和远洋渔业的高利润目标。其复杂而交错的种群动态引发了有关历史上过度捕捞影响的广泛讨论,并使其如今的可持续管理变得复杂。最近开发的工具--包括用于混合种群分析的诊断性 SNP 面板--旨在改进用于渔业管理的种群分配,然而,这些工具在很长一段时间内的生物学相关性仍然未知。在这里,我们通过分析现代和古代鲱鱼标本的全基因组数据,证明了诊断性 SNP 面板的千年适用性,并确定了与日益增长的开发压力和气候变化相关的种群扰动。我们发现,鲱鱼的种群周期很可能一直处于健康的生态系统边界内,直到 20 世纪这些周期被严重破坏。我们在欧洲 8 个遗址的考古遗存中发现,900 年来只有秋季产卵的鲱鱼,这支持了特定产卵种群的数量优势可以在人口统计学上超越其他类型鲱鱼的观点。我们还获得了著名的周期性 "Bohuslän 期 "的考古前 aDNA 证据,在此期间,大量北海秋季产卵的鲱鱼聚集在斯卡格拉克海峡。最后,诊断性 SNP 面板的长期适用性凸显了其在鲱鱼种群遗传监测方面极具成本效益的应用。我们的研究结果凸显了古 DNA 和基因组分析在鲱鱼生态学和种群动态方面的历史和自然洞察力,对可持续渔业管理具有重要意义。