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一种将液体猪粪转化为微生物肥料的合成微生物群落转化新策略。

A novel strategy for synthetic microbial community conversion of liquid pig manure into microbial fertilizer.

作者信息

Wang Bihui, Chang Chunling, Wang Zhigang, Hu Yunlong, Xu Weihui, Chen Wenjing, McLaughlin Neil

机构信息

College of Life Science and Agroforestry, Qiqihar University, Qiqihar, 161006, China.

Heilongjiang Provincial Technology Innovation Center of Agromicrobial Preparation Industrialization, Qiqihar, 161006, China.

出版信息

Microb Cell Fact. 2025 Aug 1;24(1):175. doi: 10.1186/s12934-025-02801-1.

Abstract

The pig industry generates copious amounts of liquid pig manure (LPM), which poses a great challenge to the environment; conventional treatment of the manure is often time-consuming and inefficient. We developed a novel technique for converting LPM into liquid microbial fertilizer with two steps: (1) screened ammonia nitrogen-degrading strains and synthetic microbial communities (SynCom) were used in combination with HO for the biological deodorization of LPM; and (2) the bio-deodorized and autoclaved LPM was then inoculated with screened SynCom2 to produce liquid microbial fertilizers. The results of bio-deodorization demonstrated that both single ammonia nitrogen-degrading strains and SynCom1 reduced over 90% of the odor and GHGs emissions (NH, HS, CO and CH) from LPM, and decreased the pH, chemical oxygen demand (COD), ammoniacal nitrogen (NH-N) and EC to varying extents. The SynCom1 was able to completely eliminate malodorous volatile organic compounds (p-methyl phenol) from LPM, outperforming single ammonia nitrogen-degrading strains. The deodorized LPM treated with SynCom2 exhibited high levels of nutrient concentration (31.58 g/L of total carbon and 3.81 g/L of total nitrogen), microbial biomass (up to 1.92 × 10 CFU/mL), plant safety and maturity (germination index > 100%), indicating suitability as microbial fertilizer. Cultivation experiments demonstrated a significant increase of over 70% in shoot length, root length, fresh weight and dry weight of rice seedlings when microbial fertilizers were applied in black soil. Overall, our study provided a valuable direction for the development of potential industrial applications.

摘要

养猪业产生大量的液态猪粪,这对环境构成了巨大挑战;传统的粪便处理方法往往耗时且效率低下。我们开发了一种将液态猪粪转化为液态微生物肥料的新技术,分两步进行:(1)筛选出的氨氮降解菌株和合成微生物群落(SynCom)与过氧化氢(HO)联合用于液态猪粪的生物除臭;(2)将经过生物除臭和高压灭菌的液态猪粪接种筛选出的SynCom2以生产液态微生物肥料。生物除臭结果表明,单一氨氮降解菌株和SynCom1都能减少液态猪粪中90%以上的气味和温室气体排放(NH₃、H₂S、CO₂和CH₄),并在不同程度上降低pH值、化学需氧量(COD)、氨氮(NH₃-N)和电导率(EC)。SynCom1能够完全消除液态猪粪中的恶臭挥发性有机化合物(对甲基苯酚),优于单一氨氮降解菌株。用SynCom2处理的除臭液态猪粪表现出高浓度养分(总碳31.58 g/L和总氮3.81 g/L)、微生物生物量(高达1.92×10⁸ CFU/mL)、对植物安全且成熟(发芽指数>100%),表明适合作为微生物肥料。栽培实验表明,在黑土中施用微生物肥料时,水稻幼苗的地上部分长度、根长、鲜重和干重显著增加了70%以上。总体而言,我们的研究为潜在工业应用的开发提供了有价值的方向。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4011/12315464/d5fdfe6c12c2/12934_2025_2801_Fig1_HTML.jpg

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