Plant roots alter microbial functional genes supporting root litter decomposition

Publication date: Available online 18 September 2018Source: Soil Biology and BiochemistryAuthor(s): Shengjing Shi, Donald J. Herman, Zhili He, Jennifer Pett-Ridge, Liyou Wu, Jizhong Zhou, Mary K. FirestoneAbstractDecomposition of soil organic carbon is central to the global carbon cycle and profoundly affected by plant roots. While root “priming” of decomposition has been extensively investigated, it is not known how plants alter the molecular ecology of soil microbial decomposers. We disentangled the effects of Avena fatua, a common annual grass, on 13C-labeled root litter decomposition and quantified multiple genetic characteristics of soil bacterial and fungal communities. In our study, plants consistently suppressed rates of root litter decomposition. Microbes from planted soils had relatively more genes coding for low molecular weight compound degradation enzymes, while those from unplanted had more macromolecule degradation genes. Higher abundances of “water stress” genes in planted soils suggested that microbes experienced plant-induced water stress. We developed a conceptual model based on Mantel analyses of our extensive data set. This model indicates that plant root effects on the multiple soil environmental and microbial mechanisms involved in root litter decomposition act through changing the functional gene profiles of microbial decomposers living near plant roots.
Source: Soil Biology and Biochemistry - Category: Biology Source Type: research