Arid
DOI10.1007/s42729-024-01668-2
Exploring the Potential of Straw and Biochar Application on Soil Quality Indicators and Crop Yield in Semi-arid Regions
Azim, Rizwan; Wang, Qi; Sadiq, Mahran; Zhou, Xujiao; Zhang, Dengkui; Zhao, Xiaole; Xu, Yanhua; Sun, Yuanwei; Qi, Wenjia; Zhu, Jinhui; Ma, Wen; Liu, Bing; Gillani, Syed Faheem Anjum; Ahmed, Sohail
通讯作者Wang, Q
来源期刊JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION
ISSN0718-9508
EISSN0718-9516
出版年2024
卷号24期号:2页码:1907-1923
英文摘要Plants being sessile entities are often subjected to varied environmental stresses. In semi-arid regions, abiotic factors like soil erosion, low soil fertility, lack of water-saving strategies, and prolonged drought curtail crop growth and yield by impairing morphological, biological, and physiological functions and cause major threats to dryland agriculture. Adopting improved technologies and suitable agricultural practices are crucial for soil water conservation and soil fertility improvement for sustainable agricultural development in low rainfall areas. Therefore, the present study was preferred to investigate the effect of straw and biochar application on soil quality, water use efficiency (WUE), and crop yield in semi-arid regions. Articles published from 2008 to 2023 were considered to examine the role of organic amendments in improving degraded soils for soil organic carbon (SOC), pH, nitrogen, phosphorus, potassium (N/P/K), microorganisms, enzyme activity, better WUE, and higher yields. The present study showed that rice straw and rice straw-derived biochar have more elemental composition and have greater effect when applied to different soil types in different crop cultivation than wheat and maize straw and biochar. Straw-derived biochar is preferred over the sole application of straw. Rice biochar has higher nutrient levels and is advocated for soil fertility and long-term carbon sequestration. Rice biochar is labile for microbial biomass enhancing microbe's physiological efficiency for enzyme activities. Integrating suitable cultivation technology like ridge-furrow rainwater harvesting with rice straw and rice straw-derived biochar can mitigate the issues of land degradation, low fertility, WUE, and crop yield in semi-arid regions. In summary, the present study quantitatively assessed the impact of organic materials on soil quality improvement and higher crop yield, offering a scientific foundation for optimizing these factors under semi-arid conditions.
英文关键词Crop production Drought Food security Organic amendments Soil fertility
类型Review
语种英语
收录类别SCI-E
WOS记录号WOS:001172269600001
WOS关键词ORGANIC-CARBON SEQUESTRATION ; RICE-WHEAT ROTATION ; USE EFFICIENCY ; WINTER-WHEAT ; MICROBIAL COMMUNITY ; SOYBEAN GROWTH ; TOTAL NITROGEN ; AMENDED SOILS ; MAIZE BIOCHAR ; WATER CONTENT
WOS类目Plant Sciences ; Environmental Sciences ; Soil Science
WOS研究方向Plant Sciences ; Environmental Sciences & Ecology ; Agriculture
资源类型期刊论文
条目标识符http://119.78.100.177/qdio/handle/2XILL650/404689
推荐引用方式
GB/T 7714
Azim, Rizwan,Wang, Qi,Sadiq, Mahran,et al. Exploring the Potential of Straw and Biochar Application on Soil Quality Indicators and Crop Yield in Semi-arid Regions[J],2024,24(2):1907-1923.
APA Azim, Rizwan.,Wang, Qi.,Sadiq, Mahran.,Zhou, Xujiao.,Zhang, Dengkui.,...&Ahmed, Sohail.(2024).Exploring the Potential of Straw and Biochar Application on Soil Quality Indicators and Crop Yield in Semi-arid Regions.JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION,24(2),1907-1923.
MLA Azim, Rizwan,et al."Exploring the Potential of Straw and Biochar Application on Soil Quality Indicators and Crop Yield in Semi-arid Regions".JOURNAL OF SOIL SCIENCE AND PLANT NUTRITION 24.2(2024):1907-1923.
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