丛生菌根树对全球森林群落多样性的影响大于外养菌根树

Diversity Pub Date : 2024-09-17 DOI:10.3390/d16090587
Zihao Li, Wenxin Liu, Xinyu Xue, Rui Qi, Xueying Li, Qian Li, Nuonuo Xu, Fengqin Liu, Yizhen Shao, Yongzhong Ye, Yun Chen, Dongwei Wei, Zhiliang Yuan
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引用次数: 0

摘要

木本植物与菌根真菌之间的相互作用是一种重要的生物相互作用;然而,菌根真菌与木本植物共生形成的菌根树多样性背后的驱动因素仍不清楚。在这项研究中,我们收集并整理了 34 个森林动态地块的木本植物数据,其中包含来自世界各地栖息地的 3350 个物种,并将它们划分为 AM 树和 EcM 树。我们测试了AM树和EcM树对全球森林群落中树木多样性及其组成部分的贡献。结果表明,影响森林群落树木多样性的是AM树而非EcM树,而且AM树的多样性具有明显的纬度梯度模式。气候变量,尤其是温度,与AM树而非生态树木的多样性模式密切相关。地形是影响生态树木多样性的最重要因素。我们的研究结果凸显了AM树对全球森林群落树木多样性的重要性。我们的研究结果对于理解具有不同菌根共生类型的复杂木本植物群落对气候变化的响应具有重要意义。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effects of Arbuscular Mycorrhiza Trees on the Diversity of Forest Communities Worldwide Are Greater than Those of Ectotrophic Mycorrhiza Trees
The interaction between woody plants and mycorrhizal fungi is an important biological interaction; however, the driving factors behind the diversity of mycorrhizal trees formed through the symbiosis of mycorrhizal fungi and woody plants remain unclear. In this study, we collected and compiled the woody plant data of 34 forest dynamic plots containing 3350 species from habitats around the world and divided them into AM and EcM trees. We tested the contribution of AM and EcM trees to tree diversity and its components in forest communities worldwide. Our results showed that AM trees rather than EcM trees affect the tree diversity of forest communities, and that the diversity of AM trees has a significant latitudinal gradient pattern. Climate variables, especially temperature, are strongly correlated with the diversity patterns for AM trees rather than EcM trees. Topography is the most significant factor affecting the diversity of EcM trees. Our findings highlight the importance of AM trees for the tree diversity of forest communities worldwide. Our findings have important implications for understanding the response of complex woody plant communities with different types of mycorrhizal symbiosis to climate change.
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