Fungal richness does not buffer the effects of streams salinization on litter decomposition

IF 0.9 4区环境科学与生态学 Q4 LIMNOLOGY

Annales De Limnologie-international Journal of Limnology Pub Date : 2021-01-01 DOI:10.1051/LIMN/2021003

J. Pereira da Silva, Aingeru Martínez, A. L. Gonçalves, F. Bärlocher, C. Canhoto

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引用次数: 4

Abstract

Freshwater salinization is a world-wide phenomenon threatening stream communities and ecosystem functioning. In these systems, litter decomposition is a main ecosystem-level process where fungi (aquatic hyphomycetes) play a central role linking basal resource and higher levels of food-web. The current study evaluated the impact of aquatic hyphomycete richness on leaf litter decomposition when subjected to salinization. In a microcosm study, we analysed leaf mass loss, fungal biomass, respiration and sporulation rate by fungal assemblages at three levels of species richness (1, 4, 8 species) and three levels of salinity (0, 8, 16 g NaCl L‑1). Mass loss and sporulation rate were depressed at 8 and 16 g NaCl L‑1, while fungal biomass and respiration were only negatively affected at 16 g L‑1. A richness effect was only observed on sporulation rates, with the maximum values found in assemblages of 4 species. In all cases, the negative effects of high levels of salinization on the four tested variables superimposed the potential buffer capacity of fungal richness. The study suggests functional redundancy among the fungal species even at elevated salt stress conditions which may guarantee stream functioning at extreme levels of salinity. Nonetheless, it also points to the possible importance of salt induced changes on fungal diversity and identity in salinized streams able to induce bottom-up effects in the food webs.

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真菌丰富度不能缓冲河流盐碱化对凋落物分解的影响

淡水盐碱化是威胁河流群落和生态系统功能的世界性现象。在这些系统中，凋落物分解是一个主要的生态系统水平过程，真菌(水生菌丝菌)在连接基础资源和更高水平的食物网中起着核心作用。本研究评估了盐渍化条件下水生菌丝丰富度对凋落叶分解的影响。在微观环境研究中，我们分析了3种物种丰富度水平(1、4、8种)和3种盐度水平(0、8、16 g NaCl L - 1)下真菌组合的叶片质量损失、真菌生物量、呼吸和产孢率。8和16 g NaCl L - 1抑制了质量损失和产孢率，而16 g NaCl L - 1仅对真菌生物量和呼吸产生负影响。丰度效应仅在产孢率上存在，在4种组合中达到最大值。在所有情况下，高水平盐碱化对四个测试变量的负面影响叠加了真菌丰富度的潜在缓冲能力。该研究表明，即使在高盐胁迫条件下，真菌物种之间的功能冗余也可能保证溪流在极端盐度水平下的功能。尽管如此，它也指出了盐引起的真菌多样性和特征变化的可能重要性，这些变化能够在食物网中引起自下而上的效应。

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

Annales De Limnologie-international Journal of Limnology 地学-湖沼学

CiteScore

2.20

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： Annales de Limnologie - International Journal of Limnology publishes papers on the ecology of freshwater systems, ranging from studies of aquatic organisms, physical and chemical works which relate to the biological environment, to ecological applications and frameworks for water management directives. Main topics: Ecology of freshwater systems ; biodiversity, taxonomy, distribution patterns in space and time, biology of animals and plants ; experimental and conceptual studies which integrate laboratory and/or field work on physiology, population dynamics, biogeochemistry and nutrient dynamics, management, mathematical modelling ; techniques for sampling and chemical analyses, ecological applications, procedures which provide frameworks for environmental legislation.