营养状态改变堪萨斯州水库中浮游动物驱动的清水阶段

Luke Ungerer, Ted Harris, Javier Omar Morales, Atefeh Hosseini
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引用次数: 0

摘要

浮游动物的丰度、群落组成和大小可推动温带湖泊的清水期(CWP)。CWP 事件通过减少藻类暂时提高了水体透明度,因此,更好地了解 CWP 事件的机制可改善水质。在此,我们评估了堪萨斯州三个具有不同营养状态(即中营养、富营养或高营养)的水库中浮游动物的丰度、群落组成(桡足类、栉水母类)和大小(仅水蚤)与 CWP 的关系。使用塞奇盘测量水体透明度,而浮游动物样本则通过垂直网拖网在整个水体中收集,用乙醇保存,随后使用立体镜进行分析。结果表明,所有水库的春末夏初都会出现 CWP。浮游动物的总丰度随营养状态的变化而增加,在所有水库中,桡足类通常是浮游动物群落的主宰(占总丰度的 70%以上)。在所有水库中,桡足类的丰度具有相对相似的时间趋势,并随着塞奇水深的增加而减少。相比之下,桡足类丰度和水蚤长度与 Secchi 深度的关系取决于水库的营养状态。尽管有报道称桡足类是影响水体透明度的广泛因素,但我们只在中营养水库中发现了丰度与CWP之间的联系,这表明营养状态可能会改变浮游动物与CWP之间的关系。因此,在营养状态相对较低和营养状态较高的水库中,通过浮游动物驱动的 CWPs 改善水质的效果可能不同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trophic Status Alters Zooplankton-Driven Clear-Water Phases in Kansas Reservoirs
Zooplankton abundance, community composition, and size can drive clear-water phases (CWPs) in temperate lakes. CWP events temporarily improve water transparency by decreasing algae, and thus better understanding the mechanisms of CWP events could lead to improvements in water quality. Here, we evaluate how zooplankton abundance, community composition (copepods, cladocerans), and size (only Daphnia) relate to CWPs in three Kansas reservoirs with different trophic states (i.e. mesotrophic, eutrophic, or hypereutrophic). Water transparency was measured using a Secchi disk, whereas zooplankton samples were collected with vertical net hauls throughout the water column, preserved with ethanol, and subsequently analyzed using a stereoscope. Results indicated that CWPs occurred in late Spring/early Summer in all reservoirs. Total zooplankton abundance increased with trophic state, with copepods typically dominating zooplankton communities (>70% of total abundance) in all reservoirs. Copepod abundance had relatively similar temporal trends and decreased with Secchi depth in all reservoirs. In contrast, cladoceran abundance and Daphnia length relations with Secchi depth were dependent on reservoir trophic state. Although cladocerans are widely reported drivers of water transparency, we only found links between abundance and CWPs in the mesotrophic reservoir, indicating that trophic state may alter zooplankton-CWP relationships. Therefore, water quality improvements via zooplankton driven CWPs may be different in relatively low and high trophic state reservoirs.
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