Department of Anthropology, National Museum of Natural History, Smithsonian Institution, Washington, DC 20560, USA.
School of the Environment and Life Sciences, University of Portsmouth, Portsmouth PO1 2DY, UK.
Proc Biol Sci. 2024 Oct;291(2032):20241145. doi: 10.1098/rspb.2024.1145. Epub 2024 Oct 9.
Atlantic sturgeon ( ssp. ) has been a food resource in North America for millennia. However, industrial-scale fishing activities following the establishment of European colonies led to multiple collapses of sturgeon stocks, driving populations such as those in the Chesapeake area close to extinction. While recent conservation efforts have been successful in restoring census numbers, little is known regarding genomic consequences of the population bottleneck. Here, we characterize its effect on present-day population structuring and genomic diversity in James River populations. To establish a pre-collapse baseline, we collected genomic data from archaeological remains from Middle Woodland Maycock's Point (c. 200-900 CE), as well as Jamestown and Williamsburg colonial sites. Demographic analysis of recovered mitogenomes reveals a historical collapse in effective population size, also reflected in diminished present-day mitogenomic diversity and structure. We infer that James River fall- and spring-spawning populations likely took shape in recent years of population recovery, where genetic drift enhanced the degree of population structure. The mismatch of mitogenomic lineages to geographical-seasonal groupings implies that despite their homing instinct and differential adaptation manifested as season-specific behaviour, colonization of new rivers has been a key ecological strategy for Atlantic sturgeon over evolutionary timescales.
大西洋鲟(ssp.)在北美洲作为食物资源已有数千年的历史。然而,欧洲殖民地建立后,大规模的渔业活动导致鲟鱼种群多次崩溃,使切萨皮克地区等地区的种群濒临灭绝。尽管最近的保护努力成功地恢复了种群数量,但对于种群瓶颈对基因组的影响知之甚少。在这里,我们描述了它对詹姆斯河种群中当前种群结构和基因组多样性的影响。为了建立崩溃前的基线,我们从中伍德兰梅科克角(约公元前 200-900 年)的考古遗迹以及詹姆斯敦和威廉斯堡殖民地遗址中收集了基因组数据。回收的线粒体基因组的人口统计分析揭示了有效种群大小的历史崩溃,这也反映在当今线粒体基因组多样性和结构的减少。我们推断,詹姆斯河的秋季和春季产卵群体可能是在最近的种群恢复年形成的,其中遗传漂变增强了种群结构的程度。线粒体基因组谱系与地理-季节性分组的不匹配表明,尽管它们具有归巢本能和表现为季节性特定行为的差异适应,但在进化时间尺度上,大西洋鲟的新河流殖民化一直是其关键的生态策略。
