Soil pH and precipitation controls on organic carbon retention from organic amendments across soil orders: A meta-analysis
文献类型: 外文期刊
第一作者: Wu, Bin
作者: Wu, Bin;Bai, Tongshuo;Ye, Chenglong;Yu, Wenjuan;Zhu, Tongbin;Li, Daming;Liu, Manqiang;Hu, Shuijin
作者机构:
关键词: Agroecosystem; Microbial transformation; Organic input; Soil carbon stock; Soil order; Soil pH
期刊名称:SOIL BIOLOGY & BIOCHEMISTRY ( 影响因子:10.3; 五年影响因子:11.5 )
ISSN: 0038-0717
年卷期: 2025 年 207 卷
页码:
收录情况: SCI
摘要: One central goal of global change research is to explore the potential to mitigate rising atmospheric CO2 by promoting carbon (C) sequestration in terrestrial ecosystems, particularly in low-C agricultural soils in tropical and subtropical regions. Existing evidence suggests that the application of organic amendments is not effective in promoting accrual of soil organic carbon (SOC) in weathered tropical soils like Acrisols, but the specific causes that constrain SOC sequestration are not exactly clear. Here, we synthesized data from 224 publications to assess changes in SOC stocks in response to organic amendments across Acrisols and five other soil orders (Anthrosols, Cambisols, Fluvisols, Luvisols, and Phaeozems). We found that Acrisols, characterized by the lowest soil pH, exhibited the lowest C retention efficiency of organic amendments among the six soil orders, whereas no significant differences were observed among the other five soil orders. Initial soil pH and mean annual precipitation (MAP) were key predictors of SOC retention efficiency, which increased with initial soil pH and decreased with MAP. In addition, low soil pH and high MAP also suppressed microbial growth in response to organic amendments, limiting the retention of mineral-associated organic C (MAOC), which was strongly linked to SOC retention efficiency. Together, these findings suggest that limited SOC accumulation in Acrisols likely results from rapid decomposition and inefficient microbial transformation under acidic and humid conditions. Developing viable practices to improve SOC retention in weathered tropical soils with high acidity should focus on both enhancing the microbial pathway of SOC formation (e.g., through liming) and reducing C decomposition (e. g., through reduced tillage or deep residue incorporation).
分类号:
- 相关文献
作者其他论文 更多>>
-
Comparative Analysis of Chemical Composition and Antibacterial Activity of Essential Oils from Five Varieties of Lavender Extracted via Supercritical Fluid Extraction
作者:Lin, Lijing;Wang, Meiyu;Liu, Jiameng;Zhu, Lin;Lv, Zhencheng;Zou, Songling;Wang, Meiyu;Kan, Ankang;Wu, Bin;Guo, Limin;Edirs, Salamet
关键词:antibacterial activity; essential oil;
Lavender ; supercritical fluid extraction; volatile components -
Sulfur dioxide enhances the resistance of postharvest grape berries to gray mold through hydrogen peroxide signaling
作者:Xing, Shijun;Tian, Quanming;Zhang, Yu;Zheng, Yige;Yuan, Yuyao;Zhang, Zheng;Zhang, Hao;Wei, Jia;Wu, Bin
关键词:Postharvest grape berries; Botrytis cinerea resistance; H 2 O 2 signaling; Antioxidant system
-
Milk vetch (Astragalus sinicus L.) affects microbial-driven rice straw decomposition in multiple stages
作者:Ma, Xinling;Liu, Xiaoli;Chen, Ling;Fan, Jianbo;Wu, Meng;Liu, Ming;Ma, Xinling;Liu, Xiaoli;Chen, Ling;Fan, Jianbo;Wu, Meng;Liu, Ming;Dai, Qingjun;Qin, Wenjing;Liu, Jia;Li, Daming
关键词:Residue co-decomposition; Lignocellulose; Microbial community; Niche breadth
-
Ameliorative Effects of Raisin Polyphenol Extract on Oxidative Stress and Aging In Vitro and In Vivo via Regulation of Sirt1-Nrf2 Signaling Pathway
作者:Gao, Wenjing;Zhao, Caiyun;Shang, Xin;Li, Bin;Guo, Jintian;Wang, Jingteng;Fu, Yinghua;Wu, Bin
关键词:raisin polyphenols; oxidative stress; oxidatively damaged HepG2 cells; aging mice; Sirt1-Nrf2 signaling pathway
-
Elimination of mycotoxins in dried apricots: The role of nitric oxide in suppressing production and facilitating degradation mechanisms
作者:Chen, Yan;Bi, Shunxin;Chen, Die;Ying, Shangcheng;Chen, Chen;Lei, Wenxuan;Zhao, Yadong;Zhang, Jian;Wu, Bin;Wang, Jide;Wang, Chuanxing
关键词:Nitric oxide; AFT; OTA; Degradation; Elimination mechanism; Dried apricots
-
Bioactive pterostilbene encapsulated in zein via an in-situ co-precipitation strategy for efficient antimicrobial and fruit preservative
作者:Fang, Chunli;Guo, Xuhong;Fang, Chunli;Wei, Nan;Wei, Jia;Li, Shuying;Feng, Ting;Tan, Zicheng;Wu, Bin;Fu, Zhinan;Wang, Junyou;Guo, Xuhong
关键词:Zein; Biobased nanopreservative; In-situ co-precipitation; Antimicrobial; Fruit protection
-
Deepened snow promotes temporal stability of semi-arid grasslands via improving water acquisition-and-use strategies
作者:Li, Ping;Jia, Zhou;Wu, Yuntao;Chang, Pengfei;Jalaid, Nairsag;Guo, Lulu;Pan, Shengnan;Liu, Lingli;Li, Ping;Jia, Zhou;Wu, Yuntao;Chang, Pengfei;Jalaid, Nairsag;Guo, Lulu;Pan, Shengnan;Liu, Lingli;Jia, Zhou;Wu, Yuntao;Chang, Pengfei;Jalaid, Nairsag;Guo, Lulu;Pan, Shengnan;Liu, Lingli;Jia, Zhou;Wang, Shaopeng;Jiang, Lin;Hu, Shuijin
关键词:community composition; functional stability; mowing disturbance; physiological response; water use efficiency; winter snow cover
