Ying Zhang, Xiaohu Wu, Caijun Chen, Jun Xu, Fengshou Dong, Xingang Liu, Xiaogang Li*, Yongquan Zheng. Application of thifluzamide alters microbial network structure and affects methane cycle genes in rice-paddy soil. Science of The Total Environment, 2022,

https://doi: 10.1016/j.scitotenv.2022.155769.

Abstract

Thifluzamide is an effective agent for controlling rice sheath blight and has a long half-life in soil. However, the effects of thifluzamide on the abundance of microbes harboring methane-cycle genes and soil microbial community assembly patterns are not well known. Thus, we conducted a three-month indoor mesocosm experiment to ascertain the effects of thifluzamide (0.05, 0.5, and 5 mg kg^-1 soil; 0.05 mg kg^-1 soil being recommended) on bacterial and archaeal community structure and on the abundance of methanogen genes using two typical paddy soils: sandy soil from Hangzhou (HZ) and loam sandy soil from Jiansanjiang (JSJ). The effects of thifluzamide on soil microorganisms were related to soil type. In JSJ loam sandy soil, thifluzamide significantly increased bacterial α diversity after 7-30 d and archaeal α diversity at 30 and 60 d. In HZ sandy soil, however, α diversity did not change significantly. Network analysis showed that thifluzamide-treated soils possessed more complex networks with more total nodes and links, a higher average degree of connectivity, and more keystone species. Thifluzamide application increased the number of keystone species associated with methane production in both types of paddy soil. A relatively greater number of modules were significantly negatively correlated with  mcr A abundance in the HZ T10 network, but more modules were positively correlated with  mcr A abundance in the JSJ T100 network. The half-life of thifluzamide varied for the different doses, i.e., from 152.0 to 419.6 d. The results reveal that methane-cycle genes, soil microbiome assembly, and interactions among microbial species all change in response to thifluzamide stress.

Science of The Total Environment, IF="10.753

https://pubmed.ncbi.nlm.nih.gov/35526624/