Seasonal interactions between Quagga Mussel grazing and phytoplankton in western Lake Erie: The view from different measuring technologies

IF 0.8 4区环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES

Aquatic Ecosystem Health & Management Pub Date : 2024-05-01 DOI:10.14321/aehm.026.04.111

Vanderploeg H.A., Glyshaw P.W., Carrick H.J., Carter G.S., Dahal N., Denef V.J., Fanslow D.L., Godwin C.M.

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引用次数: 0

Abstract

We measured Quagga Mussel grazing-induced changes in seston concentration in 20-L laboratory mesocosms containing lake water, during May-October, as part of a study to investigate the present role of mussel feeding and nutrient excretion in affecting phytoplankton composition. A variety of measuring methodologies including size-fractionated chlorophyll (< 2, 2-20, and >20 µm), phytoplankton groups by FluoroProbe, cyanobacterial genera by 16S rRNA gene sequencing, and particulate C, N, and P gave us different insights into seasonal phytoplankton dynamics and mussel selective feeding and assimilation. High clearance rates and/or high assimilation rates were seen during late May-early July across all size categories, with high rates seen particularly in cryptophytes and diatoms as revealed by FluoroProbe. Starting in late July cyanophytes dominated the phytoplankton and feeding rate on them was generally zero or low. Sequencing analyses suggested that there was a diverse cyanobacterial community present, with Microcystis, contrary to expectation, dominating only in late June. Cyanobium was the dominant genera at most times during summer-fall, and as expected, Microcystis was rejected by mussels relative to other cyanobacteria. Planktothrix, dominant in spring, was readily ingested as well as Anabaena in late June. We show that a combination of methods is helpful to make progress in understanding plankton succession and grazing. These methods were important adjuncts to microscopic analysis (Carrick et al, this issue). Our results support the hypothesis that dreissenid mussels, when abundant, can affect seasonal succession of phytoplankton shifting composition to cyanobacteria and even changes within the cyanobacterial community; however, impacts are likely modest now due low mussel biomass (Carter et al., this issue). Assimilation of C, N, and P was generally high, which is important for mussel population maintenance.

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伊利湖西部夸加贻贝食草与浮游植物之间的季节性相互作用：从不同测量技术看问题

我们于 5 月至 10 月期间在含有湖水的 20 升实验室中置池中测量了夸加贻贝摄食引起的浮游植物浓度变化，作为研究贻贝摄食和营养物质排泄对浮游植物组成的影响的一部分。我们采用了多种测量方法，包括叶绿素粒径分级（小于 2 微米、2-20 微米和大于 20 微米）、FluoroProbe 浮游植物群、16S rRNA 基因测序蓝藻属以及微粒 C、N 和 P，从而对浮游植物的季节性动态以及贻贝的选择性摄食和同化作用有了不同的认识。5 月下旬至 7 月上旬期间，所有大小类别的浮游植物都出现了高清除率和/或高同化率，其中隐藻和硅藻的清除率尤其高，这是由荧光探针（FluoroProbe）揭示的。从七月下旬开始，浮游植物中以蓝藻为主，蓝藻的摄食率一般为零或很低。测序分析表明，蓝藻群落种类繁多，与预期相反，微囊藻只在 6 月下旬才占据主导地位。在夏季和秋季的大多数时间里，蓝藻属都是优势菌属，而且正如预期的那样，相对于其他蓝藻，微囊藻被贻贝排斥。春季占优势的 Planktothrix 和 6 月下旬的 Anabaena 都很容易被贻贝摄取。我们的研究表明，综合使用多种方法有助于在了解浮游生物演替和食草方面取得进展。这些方法是显微分析的重要辅助手段（Carrick 等，本期）。我们的研究结果支持这样的假设，即当脂贻贝大量繁殖时，可影响浮游植物的季节性演替，使浮游植物的组成转向蓝藻，甚至影响蓝藻群落内部的变化；然而，由于贻贝生物量较低，目前的影响可能不大（Carter 等，本期）。C、N 和 P 的同化率普遍较高，这对贻贝种群的维持非常重要。

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

Aquatic Ecosystem Health & Management 环境科学-海洋与淡水生物学

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

18-36 weeks

期刊介绍： The journal publishes articles on the following themes and topics: • Original articles focusing on ecosystem-based sciences, ecosystem health and management of marine and aquatic ecosystems • Reviews, invited perspectives and keynote contributions from conferences • Special issues on important emerging topics, themes, and ecosystems (climate change, invasive species, HABs, risk assessment, models)