复合菌剂提高青藏高原羊粪和尾菜混合堆肥微生物多样性并加快堆肥腐熟

杨紫祎; 黄祎晨; 杨妞; 梅燕; 张琨; 徐丽萍; 吴明; 王海英

doi:10.11674/zwyf.2023363

复合菌剂提高青藏高原羊粪和尾菜混合堆肥微生物多样性并加快堆肥腐熟

Composite bacterial agent increases microbial diversity and speeds up the composting procession of sheep manure and tailed vegetables on Tibetan Plateau

摘要

摘要:
目的研究添加自行筛选制备的复合菌剂对青藏地区羊粪尾菜混合堆肥进程和发酵品质的作用效果，为高原地区羊粪尾菜的资源化利用提供高效菌剂。
方法将羊板粪和尾菜以质量比8∶1混合组成堆料，分为3份用于设置处理：自然发酵(CK)，添加市售堆肥菌剂(T2)，添加自行筛选制备的复合菌剂(T3)，堆体均为锥形，高度在1.5 m左右，每个堆体堆料量5 t，发酵持续60天。在开始发酵后测定堆肥温度，在0、7、14、20、25、50、60天，取样分析pH、含水率、电导率 (EC)值及总氮、铵态氮、硝态氮和亚硝态氮含量，腐熟期样品用于种子发芽率(GI)试验。在0、20、60天取样，结合扩增子测序，分析堆肥细菌群落结构。
结果添加复合菌剂的T3处理升温速度最快，在发酵第3天就达到47.8℃，在发酵第17天，T3处理首先进入高温期(>50℃)，比CK处理提前5天；复合菌剂加速了羊粪尾菜堆肥中有机碳的分解，对有机质降解有一定的促进作用。发酵结束时CK、T2、T3处理全氮含量分别为21.4、23.1、19.7 g/kg, NH₄⁺-N含量分别为155、144、45.6 mg/kg，NO₃⁻-N含量分别为218、283、344 mg/kg，T3处理堆肥全氮和铵态氮含量较CK组与T2组下降明显，但硝态氮含量高于CK和T2组，最终其GI值达到129.2%，高于CK组与T2组处理。菌群分析发现高原环境中Psychrobacter在堆肥初始阶段有着优势地位。加入自制的复合菌剂改变了堆肥过程中微生物的群落结构，增加了细菌多样性和特定细菌丰度，T3处理中Actinobacteriota水平明显升高。
结论与不使用菌剂和使用商品菌剂相比，添加自行筛选制备的复合菌剂有效促进了青藏地区富含纤维素的羊粪尾菜混合堆肥的腐熟，延长了高温期，促进了有机质降解，同时减弱腐熟阶段的反硝化作用。加入的复合菌剂增加了堆肥中的细菌多样性，较高的嗜冷杆菌(Psychrobacter)相对丰度有助于堆肥初始阶段的升温，具有高效纤维素降解能力的放线菌(Streptomyces sp.)的加入有助于纤维素的降解。因此，使用复合菌剂是实现西藏地区羊粪及尾菜混合堆肥处理的有效措施。

Abstract:
Objectives A composite bacterial agent was prepared using the strains screened in Tibetan Plateau. Its effect on the compost quality of sheep manure and tailed vegetables was studied, to provide an efficient tool for the utilization of sheep manure and tailed vegetables in Tibetan Plateau area.
Methods Three compost cones, each 1.5 m in height and 5 t in weight, were made by mixing sheep manure and tailed vegetables in mass ratio of 8∶1. One cone was under natural fermentation (CK), one was added with a commercial compost fermenter (T2), and one was added with self-prepared composite fungicide (T3). The fermentation lasted for 60 days, and the compost temperatures were monitored. At 0, 7, 14, 20, 25, 50, and 60 days of fermentation, the compost samples were collected for measurement of pH, electrical conductivity (EC), water content, total organic carbon (TOC), total N, NH₄⁺-N, NO₃⁻-N, and NO₂⁻-N content. At 0, 20 and 60 days of fermentation, composts were sampled for analysis of microbial community structure, combined with amplicon sequencing. Seed germination index (GI) was determined to assess the quality of compost.
Results T3 treatment was monitored the fastest warming rate, reaching 47.8℃ on the 3rd day, and reached high temperature period (>50℃) on the 17th day, which was 5 days earlier than the CK and T2 treatment did. In addition, T3 maintained high temperature period 6 days longer than the CK did. The composite fungi agent showed strong ability to utilize sheep manure and taille TOC, speed up their degradation. At the end of fermentation, the total N contents in CK, T2, and T3 treatments were 21.4, 23.1, and 19.7 g/kg, NH₄⁺-N contents were 155, 144, and 45.6 mg/kg, NO₃⁻-N contents were 218, 283, and 344 mg/kg. The addition of composite bacterial agents changed the community structure of microorganisms in the composting process, increased bacterial diversity and specific bacterial abundance, and found the dominance of Psychrobacter in the initial stage of composting. The Actinobacteriota level increased significantly in the T3 group.
Conclusions Compared with commercial agent, the addition of self-prepared composite bacterial agent could accelerate the composting process of sheep manure and tail vegetables, as the rapidly temperature increase and prolonged high-temperature period, and increase the available N content in compost product. Addition of the composite bacterial agent could cause the change of microbial community diversity and structures in the compost, as the relative higher abundance of contained Psychrobacter contributes to warming the composting at the initial stages, and the Streptomyces sp. with efficient cellulose degradation capacity contribute the cellulose degradation. Thus, the composite bacterial agent is recommended for the production of sheep manure and taille compost in Tibetan Plateau.

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