Plant litter crust enhances nitrogen accumulation by regulating microbial diversity and urease activity in semi-arid sandy soils
文献类型: 外文期刊
第一作者: Cheng, Zhen
作者: Cheng, Zhen;Liu, Wei;Wu, Gao-Lin;Cheng, Zhen;Liu, Wei;Li, Zhigang;Wu, Gao-Lin;Li, Zhigang;Carpio, Maria Jose;Garcia-Gil, Juan Carlos;Wang, Zhanjun
作者机构:
关键词: Litter crust; Microbial network complexity; Nitrogen cycling; Bacteria; Fungi; Sandy soil
期刊名称:APPLIED SOIL ECOLOGY ( 影响因子:5.0; 五年影响因子:5.4 )
ISSN: 0929-1393
年卷期: 2025 年 205 卷
页码:
收录情况: SCI
摘要: Plant litter plays a crucial role in regulating soil nitrogen (N) cycling in dryland ecosystems. However, the mechanisms by which plant litter crust drives microbial community composition to influence N levels in sandy soils remain unclear. In this study, we examined the effects of litter crust on sandy soil microhabitat characteristics (temperature, moisture, and porosity), microbial diversity and composition, urease activity, and soil N variables (total-N, nitrate-N, and ammonium-N) across different stages of litter crust development (including early-, mid-, and post-term) in a field setting. We found that litter crust promotes bacterial and fungal alpha diversity in sandy soils, leading to a shift in bacterial community composition from oligotrophs (i.e., Actinobacteria) to copiotrophs (i.e., Proteobacteria and Bacteroidetes), and a shift in fungal community composition dominance from Ascomycota to Basidiomycota. Litter crust enhances the complexity and stability of bacterial and fungal co-occurrence networks in sandy soils, especially in early- and mid-term stages of crust development. Additionally, litter crust increases nitrification (aerobic ammonia oxidation) and decreases denitrification (nitrate reduction) in these soils. Notably, the increase in soil moisture and urease activity, along with the decrease in soil temperature due to litter crust, effectively promotes N accumulation in sandy soils. Our results demonstrate that N levels during the litter crust period are mainly influenced by a combination of bacterial beta diversity and fungal alpha diversity at the 0-5 cm depth, and bacterial alpha diversity along with soil properties (i. e., soil variables and urease activity) at the 5-10 cm depth. Overall, our results reveal that litter crust contributes to N accumulation in sandy soils by regulating bacterial and fungal community composition and diversity, as well as by buffering soil temperature and soil moisture, and enhancing urease activity. These findings provide new insights into the critical role of soil microbes in maintaining N functions during litter crust development in semiarid sandy ecosystems.
分类号:
- 相关文献
作者其他论文 更多>>
-
LACCASE35 enhances lignification and resistance against Pseudomonas syringae pv. actinidiae infection in kiwifruit
作者:Li, Yawei;Zhang, Dongle;Wang, Xiaojie;Wu, Shunyuan;Liu, Pu;Wang, Xiaojie;Zhou, Rongrong;Fang, Zemin;Bai, Fuxi;Li, Rui;Liu, Wei;Huang, Lili
关键词:
-
Multi-scale structural influence of starch on their interaction of caffeic acid and starch after freeze-thaw: Taking potato starch and lotus seed starch as examples
作者:Zhao, Renjie;Li, Chi;Liu, Qiannan;Liu, Wei;Zhang, Liang;Zhang, Zhenzhen;Zhao, Ruixuan;Hu, Honghai;Yao, Jia;Li, Chi
关键词:Caffeic acid; Starch; Interaction
-
Influence of the 'painless' TRP channel on temperature-dependent escape and humidity-related pupation in Bactrocera dorsalis larvae
作者:Zhang, Yan;Zhang, Panpan;Luo, Zhicai;Wang, Qi;Zhang, Jie;Yang, Minghuan;Yan, Shanchun;Liu, Wei;Wang, Guirong
关键词:Bactrocera dorsalis; Bdorpainless; CRISPR/Cas9; extreme environments; escape behavior
-
Multienzyme cascade for synthesis of hydroxytyrosol via engineered Escherichia coli
作者:Xiong, Tianzhen;Li, Xinmeng;Yue, Huidie;Liu, Junling;Bai, Dingyuan;Li, Wei;Fan, Guangyan;Xiong, Tianzhen;Li, Xinmeng;Yue, Huidie;Liu, Junling;Bai, Dingyuan;Li, Wei;Fan, Guangyan;Xiong, Tianzhen;Liu, Wei;Xiong, Tianzhen
关键词:Hydroxytyrosol;
Escherichia coli ; Cascade reaction; Whole cell biotransformation -
Divergent Flowering Time Responses to Increasing Temperatures Are Associated With Transcriptome Plasticity and Epigenetic Modification Differences at FLC Promoter Region of Arabidopsis thaliana
作者:Han, Yu;Liu, Li;Lei, Mengyu;Si, Huan;Ji, Yan;Du, Qiao;Zhang, Wenjia;Zan, Yanjun;Han, Yu;Liu, Wei;Du, Qiao;Liu, Jianquan;Han, Yu;Liu, Wei;Du, Qiao;Liu, Jianquan;Zhu, Mingjia;Liu, Jianquan;Dai, Yifei
关键词:ecological adaptation; flowering time; gene co-expression network; plasticity
-
A wheat phytohormone atlas spanning major tissues across the entire life cycle provides novel insights into cytokinin and jasmonic acid interplay
作者:Yin, Huanran;Liu, Wei;Hu, Xin;Jia, Jingqi;Liu, Mengmeng;Wei, Jiaqi;Cheng, Yikeng;Gong, Xin;Li, Qiang;Yan, Wenhao;Chen, Wei;Jia, Jizeng;Gao, Lifeng;Fernie, Alisdair R.
关键词:wheat; phytohormones; metabolic regulatory network; DOF
-
Identification of Wheat Stripe Rust Inoculum Sources and Dispersal Routes Responsible for Initial Rust Establishment in Southern Henan of China
作者:Wang, Aolin;Jiang, Ru;Zhang, Meihui;Nie, Xiao;Huang, Liang;Liu, Wei;Fan, Jieru;Zhou, Yilin;Wang, Aolin;Hu, Xiaoping;Wang, Aolin;Hu, Xiaoping;Cao, Shiqin;Sun, Zhenyu;Peng, Hong;Xu, Fei;Xu, Xiangming
关键词:aeromycology; backward-trajectory calculations; epidemiological investigation; migration routes; source identification; wheat stripe rust
