The balance between accumulation and loss of soil organic matter in subarctic forest is related to ratios of saprotrophic, ecto- and ericoid mycorrhizal fungal guilds

IF 1.9 3区环境科学与生态学 Q3 ECOLOGY Fungal Ecology Pub Date : 2024-06-07 DOI:10.1016/j.funeco.2024.101359

K.E. Clemmensen , A. Michelsen , R.D. Finlay , B.D. Lindahl

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Abstract

Free-living saprotrophic fungi and symbiotic mycorrhizal fungi affect organic matter dynamics differently because of contrasting ecological adaptations. We investigated how mass-loss, C:N-ratio and stable isotope dynamics of leaf litter and humus substrates depended on presence of living tree roots and associated fungal communities in a forest-to-tundra ecotone over three years. Litter mass-loss was stimulated by tree roots, contrary to a Gadgil effect. Increases in the litter nitrogen pool and δ¹⁵N suggested import of nitrogen from deeper soil by the dominating saprotrophic fungi. Over time, humus first lost, then gained, mass, and corresponding shifts in δ¹⁵N and δ¹³C suggested fluctuating pools of fine roots and fungal mycelium. Ectomycorrhizal tree roots consistently reduced longer-term humus mass-gain, counteracting positive effects of ericoid roots and associated fungi. Across all substrates, mass dynamics correlated with the balance between ectomycorrhizal and litter-saprotrophic fungi, both linked to mass-loss, and ericaceous shrubs and associated fungi, linked to mass-gain.

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亚北极森林土壤有机质的积累和流失平衡与嗜渍菌根真菌、外生菌根真菌和啮蚀菌根真菌的比例有关

自由生活的嗜渍真菌和共生菌根真菌对有机物动态的影响不同，因为它们的生态适应性截然不同。我们研究了森林-苔原生态区三年来枯落叶和腐殖质基质的质量损失、碳氮比和稳定同位素动态如何取决于活树根和相关真菌群落的存在。树根刺激了枯落物的大量流失，这与加吉尔效应相反。枯落物氮库和δ15N的增加表明，主要的食腐真菌从更深的土壤中输入了氮。随着时间的推移，腐殖质先流失后增加，δ15N 和 δ13C也发生了相应的变化，这表明细根和真菌菌丝池在波动。外生菌根持续减少了长期腐殖质的增加，抵消了麦饭石根和相关真菌的积极作用。在所有基质中，质量动态与外生菌根真菌和枯落物营养真菌之间的平衡有关，两者都与质量损失有关，而麦角灌木和相关真菌则与质量增加有关。

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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.