Biochar Improves Soil Fertility and Crop Performance: A Case Study of Nigeria

IF 2.9 Q2 SOIL SCIENCE
Abdulrahman Maina Zubairu, Erika Michéli, Caleb Melenya Ocansey, Norbert Boros, Gabriella Rétháti, Éva Lehoczky, Miklós Gulyás
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Abstract

Africa, specifically Nigeria, has witnessed a dramatic increase in population over the last century, prompting efforts to ensure sustainable food production and quality. Concerns for soil sustainability and food security have led to the exploration of cost-effective methods, such as biochar, to enhance soil quality. Researchers in Nigeria and Africa as a whole have investigated biochar’s potential to improve soil fertility and crop performance across various agroecological zones. This paper aims to review recent biochar research priorities on soil fertility and crop performance with an emphasis on various sole biochar applications and combinations with fertilizers to determine the research gaps that need to be developed more in biochar research in Nigeria. From the papers reviewed, sole biochar applications and biochar + macronutrients and biochar + manure combinations were studied more dominantly, while biochar + micronutrients research projects were scanty despite their low content in the semi-arid soils of Nigeria. The studies were spread across the country with the majority taking place in derived savanna and humid forest, while Sudan savanna and Sahel savanna received less research attention despite being characterized by a low-fertile soil and vast area of land. Research involving BC in the context of Sahel savanna (SLS) and Sudan savanna (SS) soils is strongly encouraged in Nigeria. This research should encompass a wide range of investigations, including sole BC applications and combinations of BC with macronutrients, micronutrients, and manure, as well as exploring its potential as a slow-release fertilizer. Incorporating exclusive biochar in substantial amounts appears economically unfeasible within the context of local biochar production. However, it can be utilized in the synthesis of slow-release fertilizers, requiring smaller quantities and potentially offering cost-effectiveness. This approach enhances soil condition and crop productivity. Challenges are faced due to less commercial production as a result of inadequate power and structural facilities. Exploring the modification of local biochar for slow-release fertilizers through future research offers potential profitability.
生物炭提高土壤肥力和作物产量:尼日利亚案例研究
非洲,特别是尼日利亚,在上个世纪人口急剧增加,促使人们努力确保可持续的粮食生产和质量。对土壤可持续性和粮食安全的关注促使人们探索生物炭等具有成本效益的方法来提高土壤质量。尼日利亚和整个非洲的研究人员已经调查了生物炭在不同农业生态区域提高土壤肥力和作物产量的潜力。本文旨在回顾近期生物炭在土壤肥力和作物表现方面的研究重点,重点是各种单一生物炭应用以及与肥料的组合,以确定尼日利亚生物炭研究中需要进一步发展的研究空白。在所审查的论文中,主要研究了单一生物炭应用、生物炭+大量营养元素和生物炭+肥料的组合,而生物炭+微量营养元素的研究项目很少,尽管它们在尼日利亚半干旱土壤中的含量很低。这些研究分布在全国各地,其中大部分发生在衍生热带稀树草原和湿润森林中,而苏丹热带稀树草原和萨赫勒热带稀树草原尽管具有土壤肥力低和土地面积广阔的特点,但受到的研究关注较少。尼日利亚大力鼓励在萨赫勒稀树草原(SLS)和苏丹稀树草原(SS)土壤背景下开展生物多样性研究。这项研究应涵盖广泛的调查内容,包括单一生物碳的应用,生物碳与常量营养元素、微量营养元素和粪肥的组合,以及探索其作为缓释肥料的潜力。在当地生物炭生产的背景下,大量掺入专用生物炭在经济上似乎并不可行。不过,生物炭可用于合成缓释肥料,所需数量较少,可能具有成本效益。这种方法可以改善土壤条件,提高作物产量。由于电力和结构设施不足,商业生产较少,因此面临挑战。通过今后的研究,探索将当地生物炭改良为缓释肥料,将带来潜在的利润。
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来源期刊
Soil Systems
Soil Systems Earth and Planetary Sciences-Earth-Surface Processes
CiteScore
5.30
自引率
5.70%
发文量
80
审稿时长
11 weeks
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