Tiered Approach for Assessing the Effective and Safe Applicability of Beech Wood Biochar for Soil Improvement

IF 1.4 4区 工程技术 Q3 ENGINEERING, CHEMICAL Periodica Polytechnica Chemical Engineering Pub Date : 2023-11-16 DOI:10.3311/ppch.22844
Szabina Molnár, Dalma Szombathy, E. Vaszita, Mónika Molnár
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Abstract

The soil degradation processes may cause long-term serious problems in various areas of life on Earth, thus mitigation of these processes by environmental-friendly, innovative soil protection methods is necessary. Biochar produced from organic wastes or by-products by pyrolysis may have several positive properties as additive in soil improvement technologies. In our complex research applying a tiered approach we assessed the main properties of a beech-wood biochar produced from a high volume by-product of a food industry technology. Then we studied in 4-months microcosm experiments the applicability of this biochar as amendment mixed into an acidic, degraded sandy soil. In addition, to forecast the long-term effects of the biochar, artificial physical and biological aging experiments were conducted.Based on the results, the beech-wood biochar was able to shift the acidic pH of the soil to the alkaline range and the electric conductivity of the soil increased with incremental biochar doses. Biochar addition significantly increased the microbial activity, as well. The results had clearly shown that during the mid-term experiment not even the highest biochar dose (15%) had inhibitive effect, but it rather improved several soil parameters. Furthermore, the biochar had positive effect on the soil water holding capacity, and the available soil nutrient and organic matter content. The results of the aging experiments generally showed also favourable effects and demonstrated that the aging-mediated changes differed according to the soil types. Therefore, we have concluded that biochar application requires a char by char and soil by soil testing prior to field application.
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评估榉木生物炭在土壤改良中的有效和安全应用的分层方法
土壤退化过程可能会给地球上的各个生活领域带来长期的严重问题,因此有必要采用环保、创新的土壤保护方法来缓解这些过程。由有机废物或热解副产品制成的生物炭可以作为土壤改良技术的添加剂,具有多种积极的特性。在我们采用分层方法进行的综合研究中,我们评估了从食品工业技术的大量副产品中生产的榉木生物炭的主要特性。然后,我们在为期 4 个月的微观世界实验中研究了将这种生物炭混合到酸性退化沙质土壤中作为改良剂的适用性。根据实验结果,榉木生物炭能够将土壤的酸性 pH 值转移到碱性范围,土壤的电导率随着生物炭剂量的增加而增加。生物炭的添加也大大提高了微生物的活性。结果清楚地表明,在中期实验中,即使是最高剂量的生物炭(15%)也没有抑制作用,反而改善了多项土壤参数。此外,生物炭还对土壤持水能力、可用土壤养分和有机物含量产生了积极影响。陈化实验的结果总体上也显示出了良好的效果,并证明了不同类型土壤的陈化变化是不同的。因此,我们得出结论,生物炭的应用需要在实地应用前进行逐炭和逐土测试。
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来源期刊
CiteScore
3.10
自引率
7.70%
发文量
44
审稿时长
>12 weeks
期刊介绍: The main scope of the journal is to publish original research articles in the wide field of chemical engineering including environmental and bioengineering.
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