Sea-ice melt determines seasonal phytoplankton dynamics and delimits the habitat of temperate Atlantic taxa as the Arctic Ocean atlantifies.

IF 5.1 Q1 ECOLOGY ISME communications Pub Date : 2024-02-27 eCollection Date: 2024-01-01 DOI:10.1093/ismeco/ycae027
Ellen Oldenburg, Ovidiu Popa, Matthias Wietz, Wilken-Jon von Appen, Sinhue Torres-Valdes, Christina Bienhold, Oliver Ebenhöh, Katja Metfies
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Abstract

The Arctic Ocean is one of the regions where anthropogenic environmental change is progressing most rapidly and drastically. The impact of rising temperatures and decreasing sea ice on Arctic marine microbial communities is yet not well understood. Microbes form the basis of food webs in the Arctic Ocean, providing energy for larger organisms. Previous studies have shown that Atlantic taxa associated with low light are robust to more polar conditions. We compared to which extent sea ice melt influences light-associated phytoplankton dynamics and biodiversity over two years at two mooring locations in the Fram Strait. One mooring is deployed in pure Atlantic water, and the second in the intermittently ice-covered Marginal Ice Zone. Time-series analysis of amplicon sequence variants abundance over a 2-year period, allowed us to identify communities of co-occurring taxa that exhibit similar patterns throughout the annual cycle. We then examined how alterations in environmental conditions affect the prevalence of species. During high abundance periods of diatoms, polar phytoplankton populations dominated, while temperate taxa were weakly represented. Furthermore, we found that polar pelagic and ice-associated taxa, such as Fragilariopsis cylindrus and Melosira arctica, were more common in Atlantic conditions, while temperate taxa, such as Odontella aurita and Proboscia alata, were less abundant under polar conditions. This suggests that sea ice melt may act as a barrier to the northward expansion of temperate phytoplankton, preventing their dominance in regions still strongly influenced by polar conditions. Our findings highlight the complex interactions between sea ice melt, phytoplankton dynamics, and biodiversity in the Arctic.

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海冰融化决定了浮游植物的季节性动态,并随着北冰洋大陆化而划定了大西洋温带类群的栖息地。
北冰洋是人为环境变化最为迅速和剧烈的地区之一。人们对气温升高和海冰减少对北冰洋海洋微生物群落的影响还不甚了解。微生物是北冰洋食物网的基础,为大型生物提供能量。以前的研究表明,与弱光相关的大西洋类群在更极地的条件下也很强大。我们比较了海冰融化对弗拉姆海峡两个系泊点两年来与光有关的浮游植物动力学和生物多样性的影响程度。一个系泊点部署在纯净的大西洋水域,另一个部署在间歇性冰覆盖的边缘冰区。通过对两年内的扩增子序列变体丰度进行时间序列分析,我们确定了在整个年度周期中表现出相似模式的共生类群。然后,我们研究了环境条件的变化对物种流行的影响。在硅藻高丰度时期,极地浮游植物种群占主导地位,而温带类群则表现微弱。此外,我们还发现,在大西洋条件下,极地浮游和与冰相关的类群,如圆柱藻(Fragilariopsis cylindrus)和北极藻(Melosira arctica)更为常见,而在极地条件下,温带类群,如曙光藻(Odontella aurita)和长鼻藻(Proboscia alata)的数量较少。这表明,海冰融化可能成为温带浮游植物向北扩展的障碍,阻止它们在仍受极地条件强烈影响的地区占据主导地位。我们的研究结果突显了海冰融化、浮游植物动态和北极生物多样性之间复杂的相互作用。
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