浅水水库浮游动物沿浊度梯度的适应模式

IF 2.7 4区 环境科学与生态学 Q2 ECOLOGY Ecohydrology & Hydrobiology Pub Date : 2024-01-01 DOI:10.1016/j.ecohyd.2023.08.005
Anna Maria Goździejewska , Marek Kruk , Martin Bláha
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引用次数: 0

摘要

浊度是水生生态系统中多种生物现象的先兆,包括浮游动物群体的分化。我们测试了这样一个假设:浅层人工水库中的浊度梯度可以控制浮游动物中分布最均匀(即适应性最好)的种群的生物量。该物种可依次与其他浮游动物类群联系起来,以显示特定的浊度梯度。我们假定,高浊度(HT)、中浊度(MT)和低浊度(LT)这三个水体浊度等级中的每一个等级都可以由与其他物种建立联系的最佳适应物种来代表。这些网络可以表明对该等级中较高和较低浊度水平的适应性。使用了随机森林分类和回归模型。浮游动物适应性分类表明,桡足类甲壳动物生物量的变化最能反映浊度分类。在网络的连续层次上,形成了 Daphnia cucullata Sars, 1862、Difflugia spp.和 Cephalodella spp.(LT)、Keratella cochlearis (Gosse, 1851) (MT) 和 K. cochlearis and Filinia longiseta (Ehrenberg, 1834) (HT) 的物种出现模式。三个浊度等级中每个等级的适应模式都是基于浮游动物功能特征、满足食物需求的能力和种间关系的最佳集合和序列。随机森林建模支持对结果的全面解释,创新性地扩展了现有关于浊水生态系统功能的知识。
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The zooplankton adaptation patterns along turbidity gradient in shallow water reservoirs

Turbidity is a precursor of several biotic phenomena in aquatic ecosystems, including differentiation of the zooplankton ensemble. We tested the hypothesis that the turbidity gradient in shallow artificial reservoirs can control the biomass of the most evenly distributed, i.e. the best adapted, population of a zooplankton species. This species can be sequentially linked to other zooplankton taxa to indicate a particular turbidity gradient. We assumed that each of the three water turbidity classes: high turbidity (HT), moderate turbidity (MT) and low turbidity (LT) can be represented by the best adapted species that establishes relationships with other species. These networks can indicate adaptation to the higher and lower levels of turbidity in the class. Random forest classification and regression models were used. The classification of zooplankton adaptation showed that variation in copepod nauplii biomass best reflected the turbidity classifications. Patterns of species occurrence by Daphnia cucullata Sars, 1862, Difflugia spp. and Cephalodella spp. (LT), Keratella cochlearis (Gosse, 1851) (MT), and K. cochlearis and Filinia longiseta (Ehrenberg, 1834) (HT) were formed at successive levels of the network. The adaptation patterns in each of the three turbidity classes were based on an optimal set and sequence of zooplankton functional traits, the ability to satisfy food needs, and interspecific relationships. Random forest modelling supported a comprehensive interpretation of the results, innovatively expanding existing knowledge on the functioning of turbid water ecosystems.

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来源期刊
Ecohydrology & Hydrobiology
Ecohydrology & Hydrobiology Agricultural and Biological Sciences-Aquatic Science
CiteScore
5.40
自引率
3.80%
发文量
51
期刊介绍: Ecohydrology & Hydrobiology is an international journal that aims to advance ecohydrology as the study of the interplay between ecological and hydrological processes from molecular to river basin scales, and to promote its implementation as an integrative management tool to harmonize societal needs with biosphere potential.
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