溪流生境和微生物群对云杉芽虫落叶的响应:疫情管理的新考虑。

IF 4.3 2区 环境科学与生态学 Q1 ECOLOGY
Madison L. McCaig, Karen A. Kidd, Emily E. Smenderovac, Brittany G. Perrotta, Caroline E. Emilson, Michael Stastny, Lisa Venier, Erik J. S. Emilson
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引用次数: 0

摘要

东部云杉芽虫的落叶是加拿大北方和半北方森林中最重要的自然干扰之一,每年受影响的面积超过火灾和采伐的总和,预计在未来气候条件下,其影响的频率、严重程度和范围都会增加。决定采取积极的管理策略来控制疫情爆发并最大限度地减少对经济、生态和社会的广泛影响正变得越来越重要。这些策略在抑制落叶的程度上有所不同,但人们对落叶的下游后果知之甚少,因此对管理的影响也知之甚少。鉴于源头溪流及其微生物组在整个森林景观中对河流净生产力的作用不成比例,我们研究了云杉芽虫落叶对源头溪流生境及微生物组结构和功能的影响,以便为管理决策提供信息。在加拿大魁北克省加斯佩西半岛爆发云杉芽虫疫情期间,我们通过实验操纵了12个流域的落叶梯度。从 2019 年 5 月到 2021 年 10 月,我们对溪流生境(流速、溶解有机物 [DOM]、水化学和营养物质)、藻类生物量和水温进行了评估。在每个流域的一条溪流中,通过对六个叶片包进行为期五周(八月中旬至九月下旬)的培养,对细菌和真菌生物膜群落进行了检测。利用 16S 和 ITS rRNA 基因的代谢编码确定了微生物群落结构,并利用胞外酶测定、落叶分解率和分类功能分配检查了群落功能。我们发现,累积落叶与溪流流速和温度的增加以及更多的芳香族 DOM(以 254 纳米波长处的紫外线吸收率衡量)相关,但与营养浓度无关。累积落叶还与微生物群落组成的改变、碳水化合物生物合成的增加以及芳香化合物降解的减少有关,这表明微生物正在转向优先利用简单的碳水化合物,而不是更复杂的芳香化合物。这些结果表明,高水平的落叶会影响上游溪流的微生物群落,以至于改变溪流生态系统的生产力和碳循环潜力,突出了将更广泛的生态过程纳入云杉芽虫管理决策的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Response of stream habitat and microbiomes to spruce budworm defoliation: New considerations for outbreak management

Response of stream habitat and microbiomes to spruce budworm defoliation: New considerations for outbreak management

Defoliation by eastern spruce budworm is one of the most important natural disturbances in Canadian boreal and hemi-boreal forests with annual area affected surpassing that of fire and harvest combined, and its impacts are projected to increase in frequency, severity, and range under future climate scenarios. Deciding on an active management strategy to control outbreaks and minimize broader economic, ecological, and social impacts is becoming increasingly important. These strategies differ in the degree to which defoliation is suppressed, but little is known about the downstream consequences of defoliation and, thus, the implications of management. Given the disproportionate role of headwater streams and their microbiomes on net riverine productivity across forested landscapes, we investigated the effects of defoliation by spruce budworm on headwater stream habitat and microbiome structure and function to inform management decisions. We experimentally manipulated a gradient of defoliation among 12 watersheds during a spruce budworm outbreak in the Gaspésie Peninsula, Québec, Canada. From May through October of 2019–2021, stream habitat (flow rates, dissolved organic matter [DOM], water chemistry, and nutrients), algal biomass, and water temperatures were assessed. Bacterial and fungal biofilm communities were examined by incubating six leaf packs for five weeks (mid-August to late September) in one stream reach per watershed. Microbiome community structure was determined using metabarcoding of 16S and ITS rRNA genes, and community functions were examined using extracellular enzyme assays, leaf litter decomposition rates, and taxonomic functional assignments. We found that cumulative defoliation was correlated with increased streamflow rates and temperatures, and more aromatic DOM (measured as specific ultraviolet absorbance at 254 nm), but was not correlated to nutrient concentrations. Cumulative defoliation was also associated with altered microbial community composition, an increase in carbohydrate biosynthesis, and a reduction in aromatic compound degradation, suggesting that microbes are shifting to the preferential use of simple carbohydrates rather than more complex aromatic compounds. These results demonstrate that high levels of defoliation can affect headwater stream microbiomes to the point of altering stream ecosystem productivity and carbon cycling potential, highlighting the importance of incorporating broader ecological processes into spruce budworm management decisions.

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来源期刊
Ecological Applications
Ecological Applications 环境科学-环境科学
CiteScore
9.50
自引率
2.00%
发文量
268
审稿时长
6 months
期刊介绍: The pages of Ecological Applications are open to research and discussion papers that integrate ecological science and concepts with their application and implications. Of special interest are papers that develop the basic scientific principles on which environmental decision-making should rest, and those that discuss the application of ecological concepts to environmental problem solving, policy, and management. Papers that deal explicitly with policy matters are welcome. Interdisciplinary approaches are encouraged, as are short communications on emerging environmental challenges.
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