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

Pandian, Kannan; Vijayakumar, Shanmugam; Mustaffa, Mohamed Roshan Abu Firnass; Subramanian, Ponmani; Chitraputhirapillai, Swaminathan

doi:10.3389/fsoil.2024.1376159

Front. Soil Sci.

2024

DOI: 10.3389/fsoil.2024.1376159

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

Kannan Pandian,

Shanmugam Vijayakumar,

Mohamed Roshan Abu Firnass Mustaffa

et al.

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 … Show more

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Cited by 6 publications

References 131 publications

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Positive sweet corn response with selected climate‐smart agricultural practices

Thapa,

Awal,

Fares

et al. 2024

Agrosystems Geosci & Env

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To sustain agriculture for future generations and reduce the adverse impacts on soil health and the environment, there is a need to adopt sustainable and climate‐smart agricultural practices. A field experiment was conducted to study the effects of organic amendments (chicken and dairy manures and biochar) on the soil physicochemical properties, sweet corn (Zea mays) growth, and yield parameters at Prairie View A&M University, Texas. Two rates of biochar (2.5 and 5 t ha−1) and two types of manure (chicken and dairy) applied at three rates (0, 224, and 448 kg total N ha−1) were used in a factorial design with three replications. Plant height, period for each vegetative growth stage, leaf soil plant analysis development, time to reach 50% tasseling and 50% silking stage, cob length, cob diameter, sugar content, and biomass were measured. The results showed that plant biomass was significantly affected by biochar rate, while plant height, cob length, and cob diameter were significantly affected by manure rates. Sweet corn reached tasseling and silking stages earlier in chicken manure‐treated plots than the dairy manure plots. However, the sugar content was significantly affected by both biochar and manure rates. Furthermore, results revealed a strong positive correlation between plant height and cob length, diameter, and biomass; however, there was a negative correlation with tasseling and silking days. Soil phosphorus, total nitrogen, and potassium had a relatively positive correlation with plant growth parameters. Findings showed that different types and rates of amendments significantly influenced sweet corn growth parameters and soil nutrient status, highlighting the importance of adopting climate‐smart agricultural practices for improved crop yield and soil health.

show abstract

Positive sweet corn response with selected climate‐smart agricultural practices

Thapa,

Awal,

Fares

et al. 2024

Agrosystems Geosci & Env

View full text Add to dashboard Cite

show abstract

Biochar in sustainable agriculture and Climate Mitigation: Mechanisms, challenges, and applications in the circular bioeconomy

Waheed,

Xu,

Qiao

et al. 2025

Biomass and Bioenergy

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Synergistic conservation approaches for nurturing soil, food security and human health towards sustainable development goals

Pandian,

Mustaffa,

Mahalingam

et al. 2024

Journal of Hazardous Materials Advances

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

Cited by 6 publications

References 131 publications

Positive sweet corn response with selected climate‐smart agricultural practices

Positive sweet corn response with selected climate‐smart agricultural practices

Biochar in sustainable agriculture and Climate Mitigation: Mechanisms, challenges, and applications in the circular bioeconomy

Synergistic conservation approaches for nurturing soil, food security and human health towards sustainable development goals

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