中国北方森林大型真菌多样性与森林特征的关系：保护效应、森林类型间差异及关联解耦

Relating macrofungal diversity and forest characteristics in boreal forests in China: Conservation effects, inter-forest-type variations, and association decoupling.

作者信息

Wang Wenjie, Sun Jingxue, Zhong Zhaoliang, Xiao Lu, Wang Yuanyuan, Wang Huimei

机构信息

Urban Forests and Wetlands group Northeast Institute of Geography and Agroecology Chinese Academy of Science Changchun China.

Key Laboratory of Forest Plant Ecology Ministry of Education Northeast Forestry University Harbin China.

出版信息

Ecol Evol. 2021 Aug 27;11(19):13268-13282. doi: 10.1002/ece3.8049. eCollection 2021 Oct.

DOI:10.1002/ece3.8049

PMID:34646468

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8495802/

Abstract

QUESTION

How conservation and forest type affect macrofungal compositional diversity is not well understood. Even less is known about macrofungal associations with plants, soils, and geoclimatic conditions.

LOCATION

Southern edge of boreal forest distribution in China, named as Huzhong Nature Reserve.

METHODS

We surveyed a total of 72 plots for recording macrofungi, plants, and topography in 2015 and measured soil organic carbon, nitrogen, and bulk density. Effects of conservation and forest types on macrofungi and plants were compared, and their associations were decoupled by structural equation modeling (SEM) and redundancy ordination (RDA).

RESULTS

Conservation and forest type largely shaped macrofungal diversity. Most of the macrofungal traits declined with the conservation intensities or peaked at the middle conservation region. Similarly, 91% of macrofungal traits declined or peaked in the middle succession stage of birch-larch forests. Forest conservation resulted in the observation of sparse, larch-dominant, larger tree forests. Moreover, the soil outside the Reserve had more water, higher fertility, and lower bulk density, showing miscellaneous wood forest preference. There is a complex association between conservation site characteristics, soils, plants, and macrofungi. Variation partitioning showed that soil N was the top-one factor explaining the macrofungal variations (10%). As shown in SEM coefficients, conservation effect to macrofungi (1.1-1.2, < .05) was like those from soils (1.2-1.6, < .05), but much larger than the effect from plants (0.01-0.14, > .10). For all tested macrofungal traits, 89%-97% of their variations were from soils, and 5%-21% were from conservation measures, while plants compensated 1%-10% of these effects. Our survey found a total of 207 macrofungal species, and 65 of them are new updates in this Reserve, indicating data shortage for the macrofungi list here.

CONCLUSION

Our findings provide new data for the joint conservation of macrofungi and plant communities, highlighting the crucial importance of soil matrix for macrofungal conservation in boreal forests.

摘要

问题

保护和森林类型如何影响大型真菌的组成多样性，目前还不太清楚。关于大型真菌与植物、土壤和地球气候条件之间的关联，了解得更少。

地点

中国北方森林分布的南缘，名为呼中自然保护区。

方法

2015年，我们总共调查了72个样地，记录大型真菌、植物和地形，并测量了土壤有机碳、氮和容重。比较了保护和森林类型对大型真菌和植物的影响，并通过结构方程模型（SEM）和冗余排序（RDA）分析了它们之间的关联。

结果

保护和森林类型在很大程度上塑造了大型真菌的多样性。大多数大型真菌的特征随着保护强度的增加而下降，或在中等保护区域达到峰值。同样，91%的大型真菌特征在白桦-落叶松林的中等演替阶段下降或达到峰值。森林保护导致观察到稀疏、以落叶松为主、树木较大的森林。此外，保护区外的土壤水分更多、肥力更高、容重更低，显示出对混交林的偏好。保护地特征、土壤、植物和大型真菌之间存在复杂的关联。变异分解表明，土壤氮是解释大型真菌变异的首要因素（10%）。如SEM系数所示，保护对大型真菌的影响（1.1 - 1.2，< 0.05）与土壤的影响（1.2 - 1.6，< 0.05）相似，但远大于植物的影响（0.01 - 0.14，> 0.10）。对于所有测试的大型真菌特征，其变异的89% - 97%来自土壤，5% - 21%来自保护措施，而植物补偿了这些影响的1% - 10%。我们的调查共发现207种大型真菌，其中65种是该保护区的新记录，表明这里大型真菌名录的数据不足。

结论

我们的研究结果为大型真菌和植物群落的联合保护提供了新的数据，突出了土壤基质在北方森林大型真菌保护中的关键重要性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b7ae/8495802/4dbafc3aaffc/ECE3-11-13268-g007.jpg

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中国北方森林大型真菌多样性与森林特征的关系：保护效应、森林类型间差异及关联解耦

Relating macrofungal diversity and forest characteristics in boreal forests in China: Conservation effects, inter-forest-type variations, and association decoupling.

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出版信息

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LOCATION

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CONCLUSION

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方法

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