利用微生物产品进行田间秸秆处理实现可持续农业发展：越南的一个案例研究

Sustainable Agricultural Development Through Straw Treatment on Fields Using Microbial Products: A Case Study in Vietnam.

作者信息

Dinh Van-Phuc, Duong Bich-Ngoc, Tran Thanh, Tran-Vu Hoai-An, Dang-Thi Ngoc-Mai, Phan-Van Hoai-Luan, Tran Tuan-Kiet, Nguyen Thanh Q

机构信息

Institute of Interdisciplinary Sciences, Nguyen Tat Thanh University, Ho Chi Minh City, Viet Nam.

Research and Development Institute Advanced Agrobiology, Nguyen Tat Thanh University, Ho Chi Minh City, Viet Nam.

出版信息

Environ Health Insights. 2025 Jun 21;19:11786302251343765. doi: 10.1177/11786302251343765. eCollection 2025.

DOI:10.1177/11786302251343765

PMID:40548299

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12182624/

Abstract

Straw burning remains a significant environmental and agricultural challenge, releasing harmful pollutants and depleting soil fertility. This study evaluates the effectiveness of 2 novel microbial formulations, NTT-02 and NTT-03, in promoting straw decomposition and enhancing soil quality. Field experiments demonstrated that NTT-02 application resulted in a 15% increase in total organic carbon (TOC), a 12% increase in total nitrogen (TN), and a 10% increase in total phosphorus (TP) compared to untreated controls. Additionally, total aerobic microbial counts increased by 1.5 times, and cellulose-decomposing microorganisms doubled in population, indicating enhanced soil microbial activity. The microbial treatments accelerated straw decomposition, reducing the breakdown period from 28 days to 14 to 18 days. Furthermore, rice yield improved by 8% to 10% relative to conventional practices. These results highlight the potential of microbial-based straw treatments as a sustainable alternative to open-field burning, promoting improved soil health, enhanced crop productivity, and environmentally responsible agricultural practices.

摘要

秸秆焚烧仍然是一个重大的环境和农业挑战，它会释放有害污染物并消耗土壤肥力。本研究评估了两种新型微生物制剂NTT - 02和NTT - 03在促进秸秆分解和改善土壤质量方面的有效性。田间试验表明，与未处理的对照相比，施用NTT - 02使总有机碳（TOC）增加了15%，总氮（TN）增加了12%，总磷（TP）增加了10%。此外，好氧微生物总数增加了1.5倍，纤维素分解微生物数量翻倍，表明土壤微生物活性增强。微生物处理加速了秸秆分解，将分解时间从28天缩短至14至18天。此外，与传统做法相比，水稻产量提高了8%至10%。这些结果凸显了基于微生物的秸秆处理方法作为露天焚烧的可持续替代方案的潜力，有助于促进土壤健康改善、作物生产力提高以及环境友好型农业实践。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b74c/12182624/3c4d9b5c691b/10.1177_11786302251343765-fig1.jpg

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利用微生物产品进行田间秸秆处理实现可持续农业发展：越南的一个案例研究

Sustainable Agricultural Development Through Straw Treatment on Fields Using Microbial Products: A Case Study in Vietnam.

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