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W2898492568 endingPage "751" @default.
W2898492568 startingPage "738" @default.
W2898492568 abstract "Microorganisms associated with roots are thought to be part of the so-called extended plant phenotypes with roles in the acquisition of nutrients, production of growth hormones, and defense against diseases. Since the crops selectively enrich most rhizosphere microbes out of the bulk soil, we hypothesized that changes in the composition of bulk soil communities caused by agricultural management affect the extended plant phenotype. In the current study, we performed shotgun metagenome sequencing of the rhizosphere microbiome of the peanut (Arachis hypogaea) and metatranscriptome analysis of the roots of peanut plants grown in the soil with different management histories, peanut monocropping and crop rotation. We found that the past planting record had a significant effect on the assembly of the microbial community in the peanut rhizosphere, indicating a soil memory effect. Monocropping resulted in a reduction of the rhizosphere microbial diversity, an enrichment of several rare species, and a reduced representation of traits related to plant performance, such as nutrients metabolism and phytohormone biosynthesis. Furthermore, peanut plants in monocropped soil exhibited a significant reduction in growth coinciding with a down-regulation of genes related to hormone production, mainly auxin and cytokinin, and up-regulation of genes related to the abscisic acid, salicylic acid, jasmonic acid, and ethylene pathways. These findings suggest that land use history affects crop rhizosphere microbiomes and plant physiology." @default.
W2898492568 created "2018-11-02" @default.
W2898492568 creator A5005465000 @default.
W2898492568 creator A5016551835 @default.
W2898492568 creator A5023214008 @default.
W2898492568 creator A5029763049 @default.
W2898492568 creator A5041581408 @default.
W2898492568 creator A5051219312 @default.
W2898492568 creator A5066177046 @default.
W2898492568 date "2018-10-27" @default.
W2898492568 modified "2023-10-18" @default.
W2898492568 title "Legacy of land use history determines reprogramming of plant physiology by soil microbiome" @default.
W2898492568 cites W1483414785 @default.
W2898492568 cites W1970329447 @default.
W2898492568 cites W1979538315 @default.
W2898492568 cites W1997163392 @default.
W2898492568 cites W1998491042 @default.
W2898492568 cites W2005671057 @default.
W2898492568 cites W2016753373 @default.
W2898492568 cites W2017387862 @default.
W2898492568 cites W2018674001 @default.
W2898492568 cites W2019075610 @default.
W2898492568 cites W2020871643 @default.
W2898492568 cites W2021032609 @default.
W2898492568 cites W2021997853 @default.
W2898492568 cites W2030112765 @default.
W2898492568 cites W2030405935 @default.
W2898492568 cites W2031712212 @default.
W2898492568 cites W2040689977 @default.
W2898492568 cites W2040862291 @default.
W2898492568 cites W2045228806 @default.
W2898492568 cites W2053001676 @default.
W2898492568 cites W2053087257 @default.
W2898492568 cites W2053715107 @default.
W2898492568 cites W2054600557 @default.
W2898492568 cites W2054987137 @default.
W2898492568 cites W2058096782 @default.
W2898492568 cites W2058561964 @default.
W2898492568 cites W2059284297 @default.
W2898492568 cites W2062307117 @default.
W2898492568 cites W2065408167 @default.
W2898492568 cites W2069689025 @default.
W2898492568 cites W2070826422 @default.
W2898492568 cites W2071841602 @default.
W2898492568 cites W2073317869 @default.
W2898492568 cites W2074856830 @default.
W2898492568 cites W2080573718 @default.
W2898492568 cites W2082376470 @default.
W2898492568 cites W2083083541 @default.
W2898492568 cites W2089061833 @default.
W2898492568 cites W2091048477 @default.
W2898492568 cites W2091588254 @default.
W2898492568 cites W2102471114 @default.
W2898492568 cites W2102942796 @default.
W2898492568 cites W2105326716 @default.
W2898492568 cites W2110131310 @default.
W2898492568 cites W2111175831 @default.
W2898492568 cites W2113261048 @default.
W2898492568 cites W2113747766 @default.
W2898492568 cites W2114625709 @default.
W2898492568 cites W2114697401 @default.
W2898492568 cites W2115240885 @default.
W2898492568 cites W2116631077 @default.
W2898492568 cites W2121289551 @default.
W2898492568 cites W2121854298 @default.
W2898492568 cites W2130555550 @default.
W2898492568 cites W2132618796 @default.
W2898492568 cites W2134341660 @default.
W2898492568 cites W2137137447 @default.
W2898492568 cites W2141697160 @default.
W2898492568 cites W2142874901 @default.
W2898492568 cites W2143875037 @default.
W2898492568 cites W2145151319 @default.
W2898492568 cites W2151236267 @default.
W2898492568 cites W2151516010 @default.
W2898492568 cites W2153109441 @default.
W2898492568 cites W2154056576 @default.
W2898492568 cites W2154431984 @default.
W2898492568 cites W2157855183 @default.
W2898492568 cites W2158488809 @default.
W2898492568 cites W2160712199 @default.
W2898492568 cites W2160800125 @default.
W2898492568 cites W2161685667 @default.
W2898492568 cites W2163250554 @default.
W2898492568 cites W2287592844 @default.
W2898492568 cites W2310896399 @default.
W2898492568 cites W2435619613 @default.
W2898492568 cites W2531447348 @default.
W2898492568 cites W2592495682 @default.
W2898492568 cites W2596895947 @default.
W2898492568 cites W2619354544 @default.
W2898492568 cites W2736428453 @default.
W2898492568 cites W2775404857 @default.
W2898492568 cites W2784903903 @default.
W2898492568 cites W2792251593 @default.
W2898492568 cites W2803421186 @default.
W2898492568 doi "https://doi.org/10.1038/s41396-018-0300-0" @default.
W2898492568 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6461838" @default.