The effect of climate warming on microbial loop function in peat pools and Sphagnum hollows: Mesocosm experiments

IF 0.9 3区 生物学 Q3 MARINE & FRESHWATER BIOLOGY
Tomasz Mieczan, Monika Tarkowska-Kukuryk
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引用次数: 1

Abstract

Climate change models predict a possible increase in air temperature of 2–8°C. This means that global warming will significantly affect the functioning of various types of hydrogenic ecosystems. However, the effect of the temperature increase on microbial loop function in small water bodies associated with peat ecosystems (peat pools and Sphagnum hollows) is still unknown. We used mesocosm experiments (control and treatments with a 2°C, 4°C and 8°C temperature increase) to determine the response of bacterioplankton, flagellates, testate amoebae and ciliates to simulated temperature changes, taking into account seasonal variation in the temperate climate zone. The simulated increase in climate warming increased the species richness of ciliates and the abundance of bacteria, flagellates and ciliates. In contrast, there was a decrease in the species number and abundance of testate amoebae, the top predators in peat ecosystems. The sensitivity of the various microbial groups to temperature was size-dependent; large-sized testate amoebae declined under warming. These shifts caused a decrease in the predator–prey mass ratio. An increase in the abundance of top predators promotes increased abundance of ciliates, and thus changes the architecture of the food web. At the same time, we observed the increase in phycoflora biomass thus can cancel the potential negative effects of warming on heterotrophic microbial activity. So, the potential effect of warming on the C budgets of peat pools and hollows is evident. A better understanding of what regulates microbial populations and activity in small reservoirs in peat bogs and unravelling of these fundamental mechanisms are particularly critical to more accurately predict how peat bogs will respond to climate disturbances.

气候变暖对泥炭池和洼地微生物环功能的影响:中观实验
气候变化模型预测气温可能上升2-8°C。这意味着全球变暖将显著影响各类含氢生态系统的功能。然而,温度升高对泥炭生态系统相关的小水体(泥炭池和泥炭洼地)微生物环功能的影响尚不清楚。在考虑温带气候季节变化的情况下,采用中生态实验(对照和温度升高2°C、4°C和8°C处理)确定浮游细菌、鞭毛虫、变形虫和纤毛虫对模拟温度变化的响应。模拟的气候变暖增加增加了纤毛虫的物种丰富度以及细菌、鞭毛虫和纤毛虫的丰度。相比之下,泥炭生态系统的顶级捕食者——无性变形虫的种类数量和丰度都有所减少。不同微生物群对温度的敏感性呈大小依赖性;大型遗存变形虫因气候变暖而减少。这些变化导致捕食者与猎物的质量比下降。顶级捕食者数量的增加促进了纤毛虫数量的增加,从而改变了食物网的结构。同时,藻菌生物量的增加可以抵消变暖对异养微生物活性的潜在负面影响。因此,变暖对泥炭池和洼地碳收支的潜在影响是显而易见的。更好地了解是什么调节了泥炭沼泽小型储层中的微生物种群和活动,并揭示了这些基本机制,对于更准确地预测泥炭沼泽如何应对气候干扰尤为重要。
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来源期刊
International Review of Hydrobiology
International Review of Hydrobiology 生物-海洋与淡水生物学
CiteScore
4.10
自引率
10.50%
发文量
15
审稿时长
3 months
期刊介绍: As human populations grow across the planet, water security, biodiversity loss and the loss of aquatic ecosystem services take on ever increasing priority for policy makers. International Review of Hydrobiology brings together in one forum fundamental and problem-oriented research on the challenges facing marine and freshwater biology in an economically changing world. Interdisciplinary in nature, articles cover all aspects of aquatic ecosystems, ranging from headwater streams to the ocean and biodiversity studies to ecosystem functioning, modeling approaches including GIS and resource management, with special emphasis on the link between marine and freshwater environments. The editors expressly welcome research on baseline data. The knowledge-driven papers will interest researchers, while the problem-driven articles will be of particular interest to policy makers. The overarching aim of the journal is to translate science into policy, allowing us to understand global systems yet act on a regional scale. International Review of Hydrobiology publishes original articles, reviews, short communications, and methods papers.
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