Biochar – a sustainable soil conditioner for improving soil health, crop production and environment under changing climate: a review

IF 2.1 Q3 SOIL SCIENCE
Kannan Pandian, Shanmugam Vijayakumar, Mohamed Roshan Abu Firnass Mustaffa, Ponmani Subramanian, Swaminathan Chitraputhirapillai
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Abstract

Land degradation and climate change, two intricately intertwined phenomena, demand appropriate management solutions to effectively tackle the escalating issues of food and nutritional security. In this context, the realm of agriculture confronts formidable challenges in its pursuit of soil resource reclamation, improving water quality, mitigating climate change, and maintaining soil and natural resources for posterity. Central to these aspirations is the preservation of an optimum organic matter, serving as a linchpin threshold is crucial for protecting the physical, chemical, and biological integrity of the soil, while simultaneously sustaining agricultural productivity. To address these multifaceted challenges, the introduction of diverse organic amendments has emerged as a crucial strategy. Noteworthy among these is the application of biochar, which functions as a soil conditioner capable of bolstering soil health, mitigating the impact of climate change, and securing global food security. Biochar is a carbon-enriched substance produced through pyrolysis of assorted biomass waste. It has a larger surface area, higher cation exchange capacity, and an extended carbon storage capability. The strategic integration of biochar production and subsequent soil application engenders an array of benefits, encompassing the amelioration of soil physical properties, augmented retention and the availability of nutrients, and the enhancement of biological activity, resulting in higher agricultural yields and societal benefits through the curtailment of soil to atmosphere greenhouse gas emissions. Additionally, biochar demonstrates its efficacy in the realm of environmental restoration by serving as a medium for extraction and elimination of heavy metals, which often pervade aquatic ecosystems and soil matrices. This review addressed the need for biochar production, characterization, soil health, the possibility for environmental restoration, and crop yield fluctuations owing to climate change.
生物炭--在不断变化的气候条件下改善土壤健康、作物产量和环境的可持续土壤改良剂:综述
土地退化和气候变化这两种现象错综复杂地交织在一起,需要适当的管理解决方案来有效应对不断升级的粮食和营养安全问题。在此背景下,农业领域在追求土壤资源开垦、改善水质、减缓气候变化以及为子孙后代维护土壤和自然资源方面面临着严峻的挑战。保护土壤的物理、化学和生物完整性,同时维持农业生产力的关键是保持最佳的有机质。为了应对这些多方面的挑战,引入多种有机添加剂已成为一项重要战略。其中值得一提的是生物炭的应用,它是一种土壤改良剂,能够增强土壤健康,减轻气候变化的影响,确保全球粮食安全。生物炭是通过热解各种生物质废物产生的富碳物质。它具有更大的表面积、更高的阳离子交换能力和更强的碳储存能力。将生物炭的生产和后续的土壤施用进行战略整合可带来一系列益处,包括改善土壤的物理特性、提高养分的保留和可用性以及增强生物活性,从而提高农业产量,并通过减少从土壤到大气的温室气体排放来实现社会效益。此外,生物炭还可作为提取和消除重金属的介质,从而在环境恢复领域发挥功效,重金属通常弥漫在水生生态系统和土壤基质中。本综述探讨了生物炭生产的必要性、特征、土壤健康、环境恢复的可能性以及气候变化导致的作物产量波动。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
1.90
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