Effects of Biochar and Straw Amendment on Soil Fertility and Microbial Communities in Paddy Soils
文献类型: 外文期刊
第一作者: Xia, Hao
作者: Xia, Hao;Shen, Jia;Zu, Chaolong;Jiang, Chaoqiang;Riaz, Muhammad;Jiang, Cuncang;Liu, Bo
作者机构:
关键词: biochar; straw; soil microorganism; soil DOM; carbon components
期刊名称:PLANTS-BASEL ( 影响因子:4.0; 五年影响因子:4.4 )
ISSN: 2223-7747
年卷期: 2024 年 13 卷 11 期
页码:
收录情况: SCI
摘要: Straw and biochar, two commonly used soil amendments, have been shown to enhance soil fertility and the composition of microbial communities. To compare the effects of straw and biochar on soil fertility, particularly focusing on soil dissolved organic matter (DOM) components, and the physiochemical properties of soil and microbial communities, a combination of high-throughput sequencing and three-dimensional fluorescence mapping technology was employed. In our study, we set up four treatments, i.e., without biochar and straw (B0S0); biochar only (B1S0); straw returning only (B0S1); and biochar and straw (B1S1). Our results demonstrate that soil organic matter (SOM), available nitrogen (AN), and available potassium (AK) were increased by 34.71%, 22.96%, and 61.68%, respectively, under the B1S1 treatment compared to the B0S0 treatment. In addition, microbial carbon (MBC), dissolved organic carbon (DOC), and particulate organic carbon (POC) were significantly increased with the B1S1 treatment, by 55.13%, 15.59%, and 125.46%, respectively. The results also show an enhancement in microbial diversity, the composition of microbial communities, and the degree of soil humification with the application of biochar and straw. Moreover, by comparing the differences in soil fertility, DOM components, and other indicators under different treatments, the combined treatments of biochar and straw had a more significant positive impact on paddy soil fertility compared to biochar. In conclusion, our study revealed the combination of straw incorporation and biochar application has significant impacts and is considered an effective approach to improving soil fertility.
分类号:
- 相关文献
作者其他论文 更多>>
-
Lipopeptides from Bacillus velezensis induced apoptosis-like cell death in the pathogenic fungus Fusarium concentricum
作者:Chen, Meichun;Deng, Yingjie;Xiao, Rongfeng;Liu, Bo;Wang, Jieping;Deng, Yingjie;Wang, Xun;He, Jin;Deng, Yingjie;Wang, Xun;He, Jin;Zheng, Meixia
关键词:crop protection; antifungal peptides; lipopeptides; pathogenic fungus; Fusarium concentricum; cell apoptosis
-
A Cucumber Leaf Disease Severity Grading Method in Natural Environment Based on the Fusion of TRNet and U-Net
作者:Yao, Hui;Wang, Chunshan;Liu, Bo;Liang, Fangfang;Yao, Hui;Wang, Chunshan;Liu, Bo;Liang, Fangfang;Wang, Chunshan;Zhang, Lijie;Li, Jiuxi
关键词:cucumber disease; disease spot; fusion of TRNet and U-Net; two-stage segmentation framework; disease severity grading
-
Molecular mechanism of emodin in inhibiting the activity of Aeromonas hydrophila via AtpE
作者:Zhang, Huimin;Zhou, Jun;Li, Xuguang;Deng, Yanfei;Ge, Xianping;Liu, Bo
关键词:Aeromonas hydrophila; AtpE; emodin; inhibition mechanism; molecular dynamics simulation
-
Transcriptome analysis reveals the oxidative damage and immune-suppression of leech (Whitmania pigra Whitman) intestine induced by high-temperature stress
作者:Xiong, Liangwei;Zheng, Yi;Wang, Shuaibing;Zheng, Xiaochuan;Li, Zhengzhong;Liu, Bo;Liu, Shijie;Wang, Haihua;Ma, Benhe;Liu, Shengli;Xiong, Liangwei
关键词:Whitmania pigra; High-temperature stress; Transcriptome analysis; Antioxidant capacity
-
An Earthworm Peptide Alters Soil Nematode, Microbial, and Nutrient Dynamics: A Novel Mechanism of Soil Food Web Feedbacks
作者:Yu, Fei;Qi, Yaocheng;Yan, Yifeng;Xia, Hao;Dong, Qing;Jiang, Chaoqiang;Zu, Chaolong;Shen, Jia
关键词:cyclic peptide; soil microbes; soil base respiration; nitrate nitrogen; diversity
-
Genetic population structure of the pen shell Atrina pectinata along the coastlines of China revealed by microsatellites
作者:Zhu, Peican;Wang, Fukai;Wang, Feng;Wang, Chunde;Zhang, Xiaotong;Yu, Kai;Liu, Bo;Wu, Biao
关键词:Atrina pectinate; Genetic diversity; population structure; genic SSR
-
Antibiotics suppress the expression of antimicrobial peptides and increase sensitivity of Cydia pomonella to granulosis virus
作者:Li, Zaiyuan;Ouyang, Lan;Lu, Yin;Peng, Qi;Qiao, Xi;Wu, Qiang;Liu, Bo;Wan, Fanghao;Qian, Wanqiang;Ouyang, Lan;Peng, Qi;Zhang, Bin;Wan, Fanghao;Lu, Yin;Lu, Yin
关键词:Cydia pomonella; Immune pathway; Antimicrobial peptide; Antiviral mechanism; Evolution
