文献类型: 外文期刊
第一作者: Song, Alin
作者: Song, Alin;Si, Zhiyuan;Wei, Buqing;Wang, Enzhao;Fan, Fenliang;Xu, Duanyang;Chong, Fayao
作者机构:
关键词: Carbon cycling; Functional genes; Metagenomics; N cycling; Rare earth elements
期刊名称:JOURNAL OF ENVIRONMENTAL MANAGEMENT ( 影响因子:8.4; 五年影响因子:8.6 )
ISSN: 0301-4797
年卷期: 2025 年 373 卷
页码:
收录情况: SCI
摘要: The soil microbiome plays an important role in carbon (C) and nitrogen (N) processing and storage and is influenced by rare earth elements (REEs), which can have both direct and indirect effects on plant metabolic processes. Using conventional physicochemical methods and metagenomic-based analyses, we investigated REEs effects on soil respiration, soil mineral N, soil microbial community structure and functional genes related to C and N metabolism. High doses of cerium (0.16 and 0.32 mmol kg- 1 soil) increased CO2 net production rate by 59 and 42%, and N2O net production rate by 255 and 609%, respectively, compared to no REEs. Similarly, high doses of lanthanum (0.16 and 0.32 mmol kg- 1 soil) increased CO2 net production rate by 47 and 39%, and N2O net production rate by 105 and 187%, respectively. Increased soil respiration from altered relative abundances of key soil microorganisms associated with soil N cycling and organic matter degradation and functional genes encoding enzymes involved in C and N metabolism, accelerated N mineralization. Elevated REEs levels substantially increased the relative abundances of functional genes related to cellulose, chitin, glucans, hemicellulose, lignin, and peptidoglycan degradation. REEs also influenced multiple functional genes associated with the N cycle. The abundance of genes responsible for organic N degradation and synthesis, such as asnB, gdh_K15371, glsA, and gs, increased with elevated cerium and lanthanum concentrations. Similarly, the abundances of denitrification genes, including narl, narJ, narZ, and nosZ, also rose with increasing amounts of cerium and lanthanum. However, the decrease in narB and nirB gene abundance with increasing REE concentrations was attributed to the reduction of nitrate to amino groups. Our findings highlight the influence of REEs on key soil microorganisms associated with soil N cycling and organic matter degradation and key functional genes in soil C and N metabolism, with implications for agriculture, environmental protection, and human health.
分类号:
- 相关文献
作者其他论文 更多>>
-
Long-term effects of nitrogen fertilization and Bradyrhizobium inoculation on diazotrophic community structure and diversity in soybean cultivation
作者:Wei, Wanling;Ma, Mingchao;Jiang, Xin;Fan, Fenliang;Cao, Fengming;Chen, Huijun;Guan, Dawei;Li, Li;Li, Jun;Ma, Mingchao;Jiang, Xin;Cao, Fengming;Li, Li;Li, Jun;Meng, Fangang
关键词:Diazotrophs; Bradyrhizobium; nifH gene; Soil diversity
-
Organic Manure Amendment Fortifies Soil Health by Enriching Beneficial Metabolites and Microorganisms and Suppressing Plant Pathogens
作者:Wei, Buqing;Bi, Jingjing;Sun, Miaomiao;Liu, Xingyan;Zeng, Xian;Feng, Huaqi;Song, Alin;Fan, Fenliang;Qian, Xueyan;Peng, Chang;Wang, Enzhao
关键词:organic manure; beneficial microorganisms; pathogen suppression; metabolites; soil health
-
A novel layered culture device reveals spatial dynamics of root element uptake and optimal silicon application site for mitigating chromium uptake by rice
作者:Pang, Zhihao;Qiu, Li-Xue;Guan, Dong-Xing;Peng, Hongyun;Liang, Yongchao;Pang, Zhihao;Zeng, Xian;Song, Alin;Wang, Yuxiao
关键词:Layered culture device; Root segments; chromium; Silicon; Rice
-
A Global Relationship Between Genome Size and Encoded Carbon Metabolic Strategies of Soil Bacteria
作者:Wu, Xingjie;Peng, Jingjing;Malik, Ashish Anil;Peng, Ziheng;Wei, Gehong;Jiao, Shuo;Luo, Yu;Fan, Fenliang;Lu, Yahai;Delgado-Baquerizo, Manuel;Liesack, Werner
关键词:bacterial strategies; carbon cycle; genome size; metagenomics; microbial traits
-
Both AOA and AOB contribute to nitrification and show linear correlation with nitrate leaching in purple soils with a wide nitrogen gradient
作者:Liu, Yuanyuan;Chen, Yuanxue;Penttinen, Petri;Tang, Xiaoyan;Peng, Dandan;Xu, Kaiwei;Chen, Xiaohui;Chen, Xiaohui;Duan, Pengpeng;Fan, Fenliang;Xiong, Weiyi;Liu, Mingpeng
关键词:Long-term N fertilization; Ammonia-oxidizing communities; Nitrification; Potential nitrification rate; Leaching
-
Microbial mediation of soil carbon loss at the potential climax of alpine grassland under warming
作者:Liang, Zhengxiong;Liu, Suo;Su, Yifan;Zeng, Yufei;Xie, Changyi;Gao, Qun;Lei, Jiesi;Li, Baochan;Dai, Tianjiao;Yang, Yunfeng;Liu, Xuehua;Guo, Xue;Wang, Mei;Dai, Tianjiao;Ma, Liyuan;Fan, Fenliang;Zhou, Jizhong;Zhou, Jizhong;Zhou, Jizhong
关键词:Climate warming; Climax; Soil organic carbon; Microbial community; Cold regions
-
Low Carbon Loss from Long-Term Manure-Applied Soil during Abrupt Warming Is Realized through Soil and Microbiome Interplay
作者:Wang, Enzhao;Yu, Bing;Zhang, Jiayin;Wei, Buqing;Bi, Jingjing;Sun, Miaomiao;Feng, Huaqi;Song, Alin;Fan, Fenliang;Gu, Songsong;Deng, Ye;Yang, Yunfeng;Guo, Xue
关键词:abrupt warming; manure substitution; recalcitranceof SOC; warm-stimulated microorganisms; microbialnetwork; carbon sequestration; stable isotope probing
