Picophytoplankton prevail year-round in the Elbe estuary.

Q3 Agricultural and Biological Sciences
Plant-environment interactions (Hoboken, N.J.) Pub Date : 2024-10-27 eCollection Date: 2024-10-01 DOI:10.1002/pei3.70014
Nele Martens, Johanna Biederbick, C-Elisa Schaum
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Abstract

Picophytoplankton are important primary producers, but not always adequately recognized, for example, due to methodological limitations. In this study, we combined flow cytometry and metabarcoding to investigate seasonal and spatial patterns of picophytoplankton abundance and community composition in the Elbe estuary. Due to the mixing of freshwater and seawater and the tidal currents this ecosystem is characterized by typical estuarine features such as salinity gradients and high turbidity. Picophytoplankton (mostly picoeukaryotes such as Mychonastes and Minidiscus) contributed on average 70% (SD = 14%) to the total phytoplankton counts. In summer picocyanobacteria (e.g., Synechococcus) played a more significant role. The contributions of picophytoplankton to the total phytoplankton were particularly high from summer to winter as well as in the mid estuary. However, at salinities of around 10 PSU in the mixing area of freshwater and seawater, the proportion of picophytoplankton was comparably low (average 49%, SD = 13%). Our results indicate that picophytoplankton prevail in the Elbe estuary year-round with respect to cell counts. Picophytoplankton could occupy important niche positions to maintain primary production under extreme conditions where larger phytoplankton might struggle (e.g., at high or low temperature, high turbidity, and in areas with high grazing pressure) and also benefit from high nutrient availability here. However, we did not find evidence that they played a particularly significant role at the salinity interface. Our study highlights the importance of including picophytoplankton when assessing estuarine phytoplankton as has been suggested for other ecosystems such as oceans.

易北河口常年盛产浮游植物。
浮游微藻是重要的初级生产者,但由于方法的局限性等原因,并不总能得到充分的认识。在这项研究中,我们将流式细胞仪和代谢编码相结合,研究了易北河口浮游微藻丰度和群落组成的季节和空间模式。由于淡水和海水的混合以及潮汐流,该生态系统具有典型的河口特征,如盐度梯度和高浊度。浮游微藻(主要是微小核藻,如 Mychonastes 和 Minidiscus)平均占浮游植物总数的 70%(SD = 14%)。在夏季,微囊藻(如 Synechococcus)的作用更大。从夏季到冬季以及在河口中部,微囊藻对浮游植物总数的贡献率特别高。然而,在淡水和海水混合区的盐度约为 10 PSU 时,皮藻浮游植物的比例较低(平均为 49%,标准差 = 13%)。我们的研究结果表明,就细胞数量而言,易北河口全年都盛产皮藻浮游生物。在大型浮游植物可能难以生存的极端条件下(如高温或低温、高浊度和放牧压力大的地区),皮藻可能占据重要的生态位,以维持初级生产,并从这里的高营养供应中获益。然而,我们并没有发现证据表明它们在盐度交界处发挥了特别重要的作用。我们的研究强调了在评估河口浮游植物时将皮浮游植物包括在内的重要性,就像对海洋等其他生态系统一样。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.70
自引率
0.00%
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审稿时长
15 weeks
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