Fire alters soil bacterial and fungal communities and intensifies seasonal variation in subtropical forest ecosystem
文献类型: 外文期刊
第一作者: Shi, Ziyue
作者: Shi, Ziyue;Chen, Yaru;Li, Aogui;Liu, Weixing;Chen, Yaru;Hu, Mengjun
作者机构:
关键词: Bacteria; Burning; Community; Diversity; Fungi; Soil
期刊名称:EUROPEAN JOURNAL OF SOIL BIOLOGY ( 影响因子:3.3; 五年影响因子:4.1 )
ISSN: 1164-5563
年卷期: 2024 年 123 卷
页码:
收录情况: SCI
摘要: Soil microbes stand as pivotal constituents and perform important ecological functions in forest ecosystems due to their extensive diversity. The increasing frequency of forest fire, coupled with the accelerating global warming, has resulted in changes in environmental conditions and forest structure, consequently influencing soil microbial communities. Despite this, there is a lack of comprehensive understanding regarding the impacts of fire on soil bacterial and fungal communities. Based on a fire experimental study in subtropical forest ecosystem, we investigated the alterations in soil properties and microbial community across two seasons. The results showed that soil bacterial richness remained unchanged by fire in both seasons. In contrast, soil fungal richness decreased in spring but increased in autumn at burnt sites, indicating the amplified seasonal variation induced by fire. In addition, fire had a significant impact on soil microbial community composition. Specifically, it elevated the relative abundance of Actinobacteriota but reduced that of Acidobacteriota and Verrucomicrobiota, which was related to increased temperature, pH, and decreased nitrogen resulting from fire. The relative abundance of Ascomycota increased following fire, whereas the relative abundance of Basidiomycota decreased. These shifts in soil fungal community were mainly related to lower soil carbon:nitrogen ratio. Furthermore, bacterial community was more responsive to environmental changes than fungal community. Overall, our study demonstrates soil microbial diversity and community structure in response to forest fire and the driving factors, advancing our comprehension of soil microbial dynamics in forest ecosystems under environmental perturbations.
分类号:
- 相关文献
作者其他论文 更多>>
-
Plant species loss reduces rare soil microbes through diversity effects amplified by multitrophic interactions
作者:Li, Jie;Wei, Yanan;Lv, Ruixue;Niu, Kechang;Liu, Weixing;Niu, Kechang
关键词:above-ground-below-ground interactions; distinctive functionality; functional diversity; plant species loss; rarity; soil microbial diversity; species removal
-
Divergent responses of soil enzyme kinetics to altered precipitation across steppes with varying historical precipitation
作者:Chen, Yaru;Li, Aogui;Shi, Ziyue;Liu, Weixing;Chen, Yaru;Peng, Ziyang;Wan, Shiqiang;Liu, Lingli;Liu, Lingli
关键词:Drought; Belowground net primary productivity; Microbial biomass; Sensitivity; Rainfall; Soil moisture
-
Greater impacts of reduced than oxidized nitrogen enrichment on plant diversity losses in a temperate grassland
作者:Ren, Suxian;Huo, Tianci;Gou, Xiaowei;Sun, Xun;Liang, Junyi;Jing, Xin;Jing, Xin;Liu, Weixing;Gou, Xiaowei;Hou, Ru
关键词:Nitrogen deposition; Plant diversity; Nitrogen form; Light asymmetry; Acidification; NH4+ toxicity; Metal toxicity
-
Consecutive annual mowing reduces soil respiration and increases the proportion of autotrophic component in a meadow steppe
作者:Zhu, Wen;Legesse, Tsegaye Gemechu;Dong, Xiaobing;Li, Aogui;Shi, Ziyue;Tong, Qi;Shao, Changliang;Liu, Weixing;Dong, Xiaobing
关键词:Carbon allocation; Clipping; Microbial biomass; Microbial respiration; Plant biomass; Root respiration
-
Taxonomic turnover dominates changes in soil microbial communities and functions in response to wildfire in subtropical forest
作者:Shi, Ziyue;Chen, Yaru;Li, Aogui;Wang, Chao;Liu, Weixing;Chen, Yaru;Hu, Mengjun
关键词:Bacteria; Burning; Community dissimilarity; Ecological processes; Functional shift; Fungi
-
tsRNA-00764 Regulates Estrogen and Progesterone Synthesis and Lipid Deposition by Targeting PPAR-γ in Duck Granulosa Cells
作者:Chen, Yaru;Wu, Yan;Pi, Jinsong;Fu, Ming;Shen, Jie;Zhang, Hao;Du, Jinping;Chen, Yaru;Wu, Yan;Pi, Jinsong;Fu, Ming;Shen, Jie;Zhang, Hao;Du, Jinping
关键词:transfer RNA-derived small RNAs (tsRNAs); follicle selection; duck granulosa cells; progesterone synthesis; estrogen synthesis; lipid deposition
-
The grassland carbon cycle: Mechanisms, responses to global changes, and potential contribution to carbon neutrality
作者:Liu, Lingli;Deng, Meifeng;Li, Ping;Wang, Xin;Yang, Sen;Huang, Junsheng;Luo, Jie;Su, Yanjun;Liu, Lingli;Yang, Sen;Sayer, Emma J.;Sayer, Emma J.;Grunzweig, Jose M.;Jiang, Lin;Hu, Shuijin;Piao, Shilong;Liu, Weixing
关键词:Climate changes; Land -use change; Soil; Biotic and abiotic interactions; Grassland degradation; Grassland restoration; Carbon accounting; Carbon storage and sequestration mechanisms
