Response of Soil Fungal Community in Coastal Saline Soil to Short-Term Water Management Combined with Bio-Organic Fertilizer
文献类型: 外文期刊
第一作者: Xiao, Meng
作者: Xiao, Meng;Chen, Cheng;Xiao, Meng;Yao, Rongjiang;Liu, Guangming;Wang, Xiuping
作者机构:
关键词: dry land to water field; biological organic fertilizer; coastal saline soil; soil fungal community structure; functional gene prediction
期刊名称:AGRONOMY-BASEL ( 影响因子:3.3; 五年影响因子:3.7 )
ISSN:
年卷期: 2024 年 14 卷 7 期
页码:
收录情况: SCI
摘要: This study aimed to elucidate the response of soil microbial communities to saline soil amelioration via biological organic fertilizer. A year-long experiment was conducted on coastal saline soil, employing water and fertilizer strategies. Three treatments were compared: dry field (control, CK), paddy field (W), and combined dry and irrigated fields with biological organic fertilizer (BW). Soil DNA was extracted and sequenced using high-throughput methods, revealing significant reductions in soil electrical conductivity (EC) and pH with W and BW treatments. Moreover, the BW treatment notably increased soil organic carbon content by 17.2%, as well as soil urease and alkaline phosphatase activity. Fungal community richness increased, with the BW treatment showing a 36% rise in the ACE index and a 24% increase in the Shannon index, while the Simpson index decreased by 59%. Dominant fungal phyla were Ascomycota, Mortierellomycota, and Basidiomycota, with Basidiomycota prevailing at the genus level. Redundancy analysis (RDA) indicated that soil pH, EC, and organic carbon were key determinants of fungal community distribution, with the BW treatment correlating negatively with pH and salt and positively with soil organic carbon (SOC). Fungal functional groups varied among treatments, with saprophytic fungi predominating, but the BW treatment showed a higher relative abundance of animal pathogenic fungi. In summary, the integration of biological organic fertilizer with flooding ameliorates soil properties and influences the changes in soil fungal community structure and function in the short term. These results could enhance the scientific basis for the efficient utilization and development of saline soil resources in coastal areas.
分类号:
- 相关文献
作者其他论文 更多>>
-
Comprehensive metabolite profiling reveals the dynamic changes of volatile and non-volatile metabolites in albino tea cultivar 'Ming guan' (MG) during white tea withering process☆
作者:Huang, Ting;Zhang, Yinggen;Wang, Xiuping;Zhang, Hui;Chen, Changsong;Chen, Quanbin;Zhong, Qiusheng
关键词:Albino tea cultivar; White tea; Metabolomics analysis; Dynamic changes; ROAVs
-
Assembly and analysis of the first complete mitochondrial genome sequencing of main Tea-oil Camellia cultivars Camellia drupifera (Theaceae): revealed a multi-branch mitochondrial conformation for Camellia
作者:Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liu, Moyang;Chen, Cheng;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Feng, Xuejie;Zheng, Daojun;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Chen, Jiali;Sun, Xiuxiu;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Feng, Shiling;Wang, Yidan
关键词:Mitochondrial genome; Tea-oil Camellia; Comparative genomics
-
Natural Variation of PH8 Allele Improves Architecture and Cold Tolerance in Rice
作者:Chen, Cheng;Zhang, Xia;Xu, Mingjia;Zhao, Weiying;Wang, Yangkai;Xiong, Jiawei;Yuan, Hua;Chen, Weilan;Tu, Bin;Li, Ting;Kang, Liangzhu;Tang, Shiwen;Wang, Yuping;Ma, Bingtian;Li, Shigui;Qin, Peng;Chen, Cheng;Zhang, Xia;Chen, Jialin;Chen, Zhuo
关键词:Rice; Plant height; Cold tolerance; GWAS; Selection
-
Taraxacum sinicum Kitag. (Binpu-3) root extract inhibits tumor invasion via Notch signaling in Drosophila and human breast cancer MDA-MB-231 cells
作者:Wu, Jiawei;Zhang, Jianbo;Shu, Wanyu;Cao, Huijuan;Jiang, Chunhua;Wang, Sitong;Wu, Fanwu;Wu, Chenxi;Feng, Wei;Meng, Ran;Wang, Xiuping;Kong, Lingyu;Wu, Chenxi
关键词:Taraxacum sinicum Kitag; root extract; tumor invasion; Notch; Drosophila; breast cancer
-
A Study of Variation in the Major Phenolic Acid Components of Dandelions Across Different Regions, and the Potential Molecular Mechanisms of Their Anti-Inflammatory Activity
作者:Li, Zhaojia;Meng, Ran;Feng, Wei;Wu, Zhe;Lu, Xuelin;Wang, Xiuping;Sun, Liangdan
关键词:dandelion; chlorogenic acid; caffeic acid; lipopolysaccharides; MD-2
-
Analysis of the complete mitogenomes of three high economic value tea plants (Tea-oil Camellia) provide insights into evolution and phylogeny relationship
作者:Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Qi, Huasha;Wang, Chunmei;Chen, Jiali;Sun, Xiuxiu;Xia, Tengfei;Zheng, Daojun;Wang, Yidan;Liu, Moyang;Chen, Cheng;Feng, Shiling
关键词:mitochondrial genome; Tea-oil Camellia; comparative genomics; homologous fragments; phylogeny
-
Comparative analysis of mitochondrial and chloroplast genomes of Dracaena cambodiana from contrasting island habitats
作者:Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Liang, Heng;Sun, Xiuxiu;Qi, Huasha;Chen, Jiali;Wang, Chunmei;Xia, Tengfei;Zheng, Daojun;Wang, Yidan;Liu, Moyang;Chen, Cheng;Feng, Shiling
关键词:organelle genome; D. cambodiana; comparative genomics; adaptive evolution; genomic resources
