Response of Microbial Recovery Rate to Straw Return after Calcium Cyanamide Soil Disinfection

IF 3.1 3区 农林科学 Q1 HORTICULTURE
Xuewen Xie, Lida Chen, Yanxia Shi, A. Chai, Tengfei Fan, Baoju Li, Lei Li
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Abstract

At present, returning vegetable straw in situ is an effective measure to solve environmental pollution and improve soil properties. However, the direct return of straw to the field can reduce the release rate of soil organic matter and cause serious soilborne diseases. The combined application of calcium cyanamide (CaCN2) and straw can solve this problem. The objective of this study was to determine the effect of CaCN2 combined with pepper straw return on cucumber yield, soil physicochemical properties, and soil microbial communities during 2020 to 2021 in Shandong Province, China. The treatments were designed as follows: (1) calcium cyanamide soil disinfection, CC; (2) fresh pepper straw return, LJ; (3) fresh pepper straw return combined with calcium cyanamide disinfection, LJ+CC; and (4) natural soil without straw return treatment, CK. Compared with CK, the LJ+CC treatment significantly improved cucumber production by 20%. The cultivable microbial community in the soil was temporarily inhibited during soil fumigation treatment, and the cultivable bacterial and actinomycete communities in the soil return to their initial levels after the film was removed (harvest period). The numbers of culturable bacteria and actinomycetes in the soil in the LJ+CC treatment were 4.68 × 107 CFU/g and 5.17 × 107 CFU/g, respectively, higher than those in the soil in the CC treatment. The contents of TN and OM in the LJ+CC treatment increased by 13.1% and 13.5%, respectively, compared with that in LJ. Therefore, the LJ+CC treatment enhanced soil fertility and cucumber yields. CaCN2 can promote straw decomposition and straw can promote soil microbial recovery, and their combined application is considered a feasible and sustainable technique for utilizing vegetable residues in the greenhouse. The combination of returning pepper straw to the field and calcium cyanamide technology achieves a win-win situation of resource circulation and economic circulation by converting agricultural waste into fertilizer before being put into production. Based on this, it is recommended that the straw returning technology receives strong policy support, stimulates researchers to explore the feasibility of different vegetable straw returning to the field, promotes the implementation of this technology achievement, and leverages the environmental benefits of the application of straw returning technology.
氰氨化钙土壤消毒后微生物恢复率对秸秆还田的响应
目前,蔬菜秸秆就地还田是解决环境污染、改善土壤性质的有效措施。但是,秸秆直接还田会降低土壤有机质的释放率,引发严重的土传病害。氰氨化钙(CaCN2)与秸秆的结合应用可以解决这一问题。本研究旨在确定 2020 年至 2021 年期间 CaCN2 与辣椒秸秆还田相结合对中国山东省黄瓜产量、土壤理化性质和土壤微生物群落的影响。处理设计如下(1)氰氨化钙土壤消毒,CC;(2)新鲜辣椒秸秆还田,LJ;(3)新鲜辣椒秸秆还田与氰氨化钙消毒相结合,LJ+CC;(4)不进行秸秆还田的自然土壤处理,CK。与 CK 相比,LJ+CC 处理可显著提高黄瓜产量 20%。在土壤熏蒸处理过程中,土壤中的可培养微生物群落暂时受到抑制,在揭膜后(收获期),土壤中的可培养细菌和放线菌群落恢复到初始水平。LJ+CC 处理土壤中的可培养细菌和放线菌数量分别为 4.68 × 107 CFU/g 和 5.17 × 107 CFU/g,高于 CC 处理土壤中的可培养细菌和放线菌数量。与 LJ 处理相比,LJ+CC 处理的 TN 和 OM 含量分别增加了 13.1%和 13.5%。因此,LJ+CC 处理提高了土壤肥力和黄瓜产量。CaCN2 可促进秸秆分解,秸秆可促进土壤微生物恢复,两者的结合应用被认为是温室中蔬菜残留物利用的一种可行且可持续的技术。辣椒秸秆还田与氰氨化钙技术相结合,将农业废弃物转化为肥料后再投入生产,实现了资源循环和经济循环的双赢。在此基础上,建议秸秆还田技术得到政策的大力支持,激励科研人员探索不同蔬菜秸秆还田的可行性,推动该技术成果的实施,发挥秸秆还田技术应用的环境效益。
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来源期刊
Horticulturae
Horticulturae HORTICULTURE-
CiteScore
3.50
自引率
19.40%
发文量
998
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