Biochar influences the cane fields’ microbiota and the development of pre-sprouted sugarcane seedlings

Bruna Cristina Pinto, Adriana Barboza Alves, Osania Emerenciano Ferreira, Gustavo Henrique Gravatim Costa, Magno André de Oliveira, Augusto Cesar da Silva Bezerra, Alan Rodrigues Teixeira Machado
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Abstract

This research investigates the soil conditioning effect of sugar cane fields with biochar produced from sugarcane bagasse. Its influence on the physicochemical and microbiological conditions of the soil and the agronomic performance of sugarcane seedlings was verified. To this end, the biochar from sugarcane bagasse was produced by pyrolysis in a double drum oven and mixed with soil at rates of 0, 1%, 3%, and 5% (in weight). The experiment was installed in a greenhouse with two evaluation periods (30 days and 60 days) and five replicates. Each pot received a pre-sprouted cane seedling, and the analysis of colony-forming units (bacteria and fungi), physicochemical characteristics of the soil, and growth and development of sugarcane were performed per pot. The biochar showed a high fixed carbon content (72%) and a specific surface area estimated by the adsorption of methylene blue of 50 m2 g−1. Furthermore, its structure is porous and contains important nutrients (e.g., CaO, K2O, and P2O5). In the periods evaluated, the applications of the 3% and 5% (in weight) rates of biochar reduced most of the soil fertility parameters. However, the chemical analyses indicated that the sugarcane field soil collected already possessed high fertility. The microbiota was influenced, but only the application of the 3% (in weight) rate at 60 days after planting showed a significant positive effect on the number of bacteria forming units, with an increase of approximately 385%. On the other hand, no significant positive effect on sugarcane development was found. Therefore, biochar application in high-fertility sugarcane plantation soil did not result in gains for sugarcane development in the periods evaluated.

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生物炭对甘蔗田微生物群和预芽苗发育的影响
以甘蔗渣为原料,研究了生物炭对甘蔗田土壤的调节作用。验证了其对土壤理化、微生物条件和甘蔗幼苗农艺性能的影响。为此,将甘蔗渣中的生物炭在双滚筒烘箱中热解产生,并以0.1%、3%和5%(重量)的速率与土壤混合。试验设在温室内,分为2个评价期(30 d和60 d), 5个重复。每个盆栽中都有一株预发芽的甘蔗苗,并对每个盆栽进行菌落形成单位(细菌和真菌)、土壤理化特征和甘蔗生长发育分析。生物炭具有较高的固定碳含量(72%)和通过吸附亚甲蓝估算的50 m2 g−1的比表面积。此外,它的结构是多孔的,含有重要的营养物质(如CaO, K2O和P2O5)。在评估期内,施用3%和5%(重量)的生物炭降低了大部分土壤肥力参数。然而,化学分析表明,收集的甘蔗田土壤已具有较高的肥力。微生物群受到影响,但只有在种植后60天施用3%(重量)的比例对细菌形成单位数量有显著的正影响,增加了约385%。另一方面,对甘蔗生长发育没有显著的正向影响。因此,在评估期内,在高肥力甘蔗种植园土壤中施用生物炭并没有为甘蔗的发展带来收益。
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