Microbial community coalescence and nitrogen cycling in simulated mortality decomposition hotspots

IF 4.6 2区 环境科学与生态学 Q1 ECOLOGY
Sarah W. Keenan, Alexandra L. Emmons, Jennifer M. DeBruyn
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Abstract

Abstract Background The pulsed introduction of dead plant and animal material into soils represents one of the primary mechanisms for returning organic carbon (C) and nitrogen (N) compounds to biogeochemical cycles. Decomposition of animal carcasses provides a high C and N resource that stimulates indigenous environmental microbial communities and introduces non-indigenous, carcass-derived microbes to the environment. However, the dynamics of the coalesced microbial communities, and the relative contributions of environment- and carcass-derived microbes to C and N cycling are unknown. To test whether environment-derived, carcass-derived, or the combined microbial communities exhibited a greater influence on C and N cycling, we conducted controlled laboratory experiments that combined carcass decomposition fluids and soils to simulate carcass decomposition hotspots. We selectively sterilized the decomposition fluid and/or soil to remove microbial communities and create different combinations of environment- and carcass-derived communities and incubated the treatments under three temperatures (10, 20, and 30 °C). Results Carcass-derived bacteria persisted in soils in our simulated decomposition scenarios, albeit at low abundances. Mixed communities had higher respiration rates at 10 and 30 °C compared to soil or carcass communities alone. Interestingly, at higher temperatures, mixed communities had reduced diversity, but higher respiration, suggesting functional redundancy. Mixed communities treatments also provided evidence that carcass-associated microbes may be contributing to ammonification and denitrification, but that nitrification is still primarily carried out by native soil organisms. Conclusions Our work yields insight into the dynamics of microbial communities that are coalescing during carcass decomposition, and how they contribute to recycling carcasses in terrestrial ecosystems.
模拟死亡分解热点微生物群落聚结与氮循环
植物和动物死亡物质的脉冲进入土壤是有机碳(C)和氮(N)化合物返回生物地球化学循环的主要机制之一。动物尸体的分解提供了高碳氮资源,刺激了本地环境微生物群落,并将非本地的、来源于尸体的微生物引入环境。然而,合并的微生物群落的动态,以及环境和尸体来源的微生物对C和N循环的相对贡献是未知的。为了测试环境源、尸体源或组合微生物群落对C和N循环的影响是否更大,我们进行了对照实验室实验,将尸体分解流体和土壤结合起来模拟尸体分解热点。我们选择性地对分解液和/或土壤进行灭菌,以去除微生物群落,并创建环境和尸体来源群落的不同组合,并在三种温度(10、20和30°C)下孵育处理。结果在我们模拟的分解情景中,尸体来源的细菌持续存在于土壤中,尽管丰度很低。混合群落在10°C和30°C时的呼吸速率高于单独的土壤或胴体群落。有趣的是,在较高的温度下,混合群落的多样性减少,但呼吸作用增加,表明功能冗余。混合群落处理也提供了证据,表明与尸体相关的微生物可能有助于氨化和反硝化,但硝化作用仍然主要由原生土壤生物进行。我们的工作深入了解了在尸体分解过程中聚集的微生物群落的动态,以及它们如何在陆地生态系统中促进尸体的循环利用。
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来源期刊
Ecological Processes
Ecological Processes Environmental Science-Ecological Modeling
CiteScore
8.50
自引率
4.20%
发文量
64
审稿时长
13 weeks
期刊介绍: Ecological Processes is an international, peer-reviewed, open access journal devoted to quality publications in ecological studies with a focus on the underlying processes responsible for the dynamics and functions of ecological systems at multiple spatial and temporal scales. The journal welcomes manuscripts on techniques, approaches, concepts, models, reviews, syntheses, short communications and applied research for advancing our knowledge and capability toward sustainability of ecosystems and the environment. Integrations of ecological and socio-economic processes are strongly encouraged.
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