Using barcoding to reveal ecological patterns of nivicolous myxomycetes in the German Alps: How do they deal with varying snow conditions?

IF 1.9 3区环境科学与生态学 Q3 ECOLOGY Fungal Ecology Pub Date : 2024-07-16 DOI:10.1016/j.funeco.2024.101374

Maho Inoue , Jan Woyzichovski , Ángela López-Villalba , Oleg Shchepin , Anja Klahr , Yuri K. Novozhilov , Martin Schnittler

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Abstract

A transect in the German limestone Alps was monitored over ten years for nivicolous myxomycetes to test if species display stable altitudinal belts for fruiting. The data set comprised 1368 barcoded specimens assigned to 112 ribotypes forming 51 ribogroups. Ribogroups were largely consistent with 35 identified morphospecies, although in eleven cases a morphospecies included several ribogroups. Fructification abundance correlated with duration of the snow cover inferred from data loggers placed at ground height. Morphospecies, ribogroups, and ribotypes showed a peak of fructification abundance at different elevations in different years. Species composition, not abundances, showed a high overlap with soil metabarcoding data. Thirteen ribogroups detected in the metabarcoding data set were never found as fructifications. This survey demonstrates that nivicolous myxomycetes are opportunists, which are likely to persist as trophic or resting stages independent from snow cover, but fruit only in altitudes and years with snow cover stable over several months.

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利用条形码揭示德国阿尔卑斯山裸裂真菌的生态模式：它们如何应对不同的积雪条件？

对德国阿尔卑斯山石灰岩地区的一个横断面进行了长达十年的裸裂真菌监测，以检验物种是否显示出稳定的结果海拔带。数据集包括 1368 个条形码标本，这些标本被归入 112 个核型，形成 51 个核型组。核苷酸组与 35 个已确定的形态种基本一致，但有 11 个形态种包含多个核苷酸组。果化丰度与放置在地面高度的数据记录器推断出的雪覆盖持续时间相关。形态种、核苷酸组和核苷酸型在不同年份的不同海拔高度显示出果实丰度的高峰。物种组成（而非丰度）与土壤代谢编码数据高度重合。代谢编码数据集中检测到的 13 个核糖群从未发现果化现象。这项调查表明，裸裂真菌是一种机会主义者，它们很可能作为营养阶段或休眠阶段持续存在，不受积雪覆盖的影响，但只有在积雪覆盖稳定数月的海拔高度和年份才会结果。

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来源期刊

Fungal Ecology 环境科学-生态学

CiteScore

5.80

自引率

3.40%

发文量

审稿时长

3 months

期刊介绍： Fungal Ecology publishes investigations into all aspects of fungal ecology, including the following (not exclusive): population dynamics; adaptation; evolution; role in ecosystem functioning, nutrient cycling, decomposition, carbon allocation; ecophysiology; intra- and inter-specific mycelial interactions, fungus-plant (pathogens, mycorrhizas, lichens, endophytes), fungus-invertebrate and fungus-microbe interaction; genomics and (evolutionary) genetics; conservation and biodiversity; remote sensing; bioremediation and biodegradation; quantitative and computational aspects - modelling, indicators, complexity, informatics. The usual prerequisites for publication will be originality, clarity, and significance as relevant to a better understanding of the ecology of fungi.