Bacteriophage–Bacteria Interactions Promote Ecological Multifunctionality in Compost‐Applied Soils

堆肥 生物 生物地球化学循环 噬菌体 蚯蚓粪 土壤水分 细菌 生态系统 环境生物技术 土壤细菌 生态学 微生物生态学 营养物 基因 大肠杆菌 生物化学 遗传学
作者
Shimao Wu,Wen Zhang,Danrui Wang,José Luís Balcázar,Guanghao Wang,Mao Ye,Huizhen Chao,Mingming Sun,Feng Hu
出处
期刊:Environmental Microbiology [Wiley]
卷期号:27 (3): e70074-e70074 被引量:2
标识
DOI:10.1111/1462-2920.70074
摘要

Bacteriophages (phages) influence biogeochemical cycling in soil ecosystems by mediating bacterial metabolism. However, the participation of phages in soil's overall ecological functions (multifunctionality) remains unclear. Hence, this study investigated the potential for phages and bacterial communities to shape the multifunctionality of compost-applied soils. The findings revealed that cow compost and vermicompost applications enhanced the soil's multifunctionality; consequently, the highest multifunctionality was observed in the soil with vermicompost application (p < 0.05). The composition and diversity of bacteria and phages, as well as the abundance of functional genes of bacteria and phages related to carbon, nitrogen, phosphorus and sulphur metabolism, were dramatically altered following the application of both compost types. Moreover, the impact of phage diversity on soil multifunctionality is crucial for multi-threshold calculations. Structural equation modelling indicated that the effects of bacterial diversity on soil multifunctionality following compost application were paramount, with a path coefficient of 0.88 (p < 0.01). The rise in phage diversity and the enrichment of functional genes indirectly led to a dramatic increase in the soil's ecological multifunctionality by affecting the host bacteria's metabolic processes. These results offer a novel avenue to improve soil's functions and environmental services by transforming the phage community composition and functions of soils.
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