The Germplasm Bank of Wild Species & Yunnan Key Laboratory for Fungal Diversity and Green Development, Kunming Institute of Botany, Chinese Academy of Sciences, Kunming, 650201, Yunnan, China.
Crops, Environment, And Land Use Department, Environment Research Centre, Teagasc, Johnstown Castle, Wexford, Y35TC98, Ireland.
J Environ Manage. 2024 May;358:120895. doi: 10.1016/j.jenvman.2024.120895. Epub 2024 Apr 15.
Microbial inoculation plays a significant role in promoting the efficiency of biowaste conversion. This study investigates the function of Streptomyces-Bacillus Inoculants (SBI) on carbon (C) and nitrogen (N) conversion, and microbial dynamics, during cow manure (10% and 20% addition) and corn straw co-composting. Compared to inoculant-free controls, inoculant application accelerated the compost's thermophilic stage (8 vs 15 days), and significantly increased compost total N contents (+47%) and N-reductase activities (nitrate reductase: +60%; nitrite reductase: +219%). Both bacterial and fungal community succession were significantly affected by DOC, urease, and NH-N, while the fungal community was also significantly affected by cellulase. The contribution rate of Cupriavidus to the physicochemical factors of compost was as high as 83.40%, but by contrast there were no significantly different contributions (∼60%) among the top 20 fungal genera. Application of SBI induced significant correlations between bacteria, compost C/N ratio, and catalase enzymes, indicative of compost maturation. We recommend SBI as a promising bio-composting additive to accelerate C and N turnover and high-quality biowaste maturation. SBI boosts organic cycling by transforming biowastes into bio-fertilizers efficiently. This highlights the potential for SBI application to improve plant growth and soil quality in multiple contexts.
微生物接种在促进生物废物转化效率方面发挥着重要作用。本研究调查了链霉菌-芽孢杆菌接种剂(SBI)在牛粪(添加 10%和 20%)和玉米秸秆共堆肥过程中对碳(C)和氮(N)转化以及微生物动态的作用。与无接种剂对照相比,接种剂的应用加速了堆肥的高温阶段(8 天对 15 天),并显著增加了堆肥总 N 含量(增加 47%)和 N 还原酶活性(硝酸盐还原酶:增加 60%;亚硝酸盐还原酶:增加 219%)。细菌和真菌群落的演替都受到 DOC、脲酶和 NH-N 的显著影响,而真菌群落也受到纤维素酶的显著影响。Cupriavidus 对堆肥理化因素的贡献率高达 83.40%,但前 20 个真菌属之间的贡献(约 60%)没有显著差异。SBI 的应用诱导了细菌、堆肥 C/N 比和过氧化氢酶之间的显著相关性,表明堆肥成熟。我们推荐 SBI 作为一种有前途的生物堆肥添加剂,以加速 C 和 N 的转化和高质量生物废物的成熟。SBI 通过有效地将生物废物转化为生物肥料来促进有机物质的循环。这突出了 SBI 在多种情况下应用于提高植物生长和土壤质量的潜力。
