Site and Clone Effects on the Potato Root-Associated Core Microbiome and its Relationship to Tuber Yield and Nutrients

被引:0
作者
Brittany A. Barnett
David G. Holm
Jeffery W. Koym
Robert G. Wilson
Daniel K. Manter
机构
[1] United States Department of Agriculture,San Luis Valley Research Center
[2] Agricultural Research Service,ANR Intermountain Research & Extension Center
[3] Soil-Plant-Nutrient Research,undefined
[4] Fort Collins,undefined
[5] Colorado State University,undefined
[6] Texas A&M University Agricultural Research and Extension Center,undefined
[7] University of California,undefined
来源
American Journal of Potato Research | 2015年 / 92卷
关键词
Soil microbiome; Rhizosphere; Solanum tuberosum; 454 DNA pyrosequencing; Tuber nutrients; Bacteria;
D O I
暂无
中图分类号
学科分类号
摘要
The aim of this study was to describe the variability in the root-associated bacterial community due to location and clone, and to determine whether an underlying core bacterial community exists that might benefit the quality of the potato crop. Root-associated bacterial communities from one growing season were examined with 454 sequencing. Variance analysis using perMANOVA attributed 45.4 % and 24.1 % of the community variability to site and clone effects, respectively. A total of 123 bacterial operational taxonomic units were correlated with tuber yield and/or tuber nutrient content, a majority belong to the order Rhizobiales. Rhizobiales bacteria are recognized contributors to crop nitrogen needs for many legumes; however, no known symbiotic relationship between potato roots and nitrogen fixing bacteria exists. Within the Rhizobiales order, the genus Devosia is a major contributor to both the presence/absence core “bacteriome” and the sparse partial least squares core “bacteriome,” thus further exploration into this unknown relationship is warranted.
引用
收藏
页码:1 / 9
页数:8
相关论文
共 194 条
[1]  
Adesemoye AO(2009)Plant growth-promoting thizobacteria allow reduced application rates of chemical fertilizers Microbial Ecology 58 921-929
[2]  
Torbert HA(2009)An ABC transporter mutation alters root exudation of phytochemicals that provoke an overhaul of natural soil microbiota Plant Physiology 151 2006-2017
[3]  
Kloepper JW(2013)Effects of plant host species and plant community richness on streptomycete community structure FEMS Microbiology Ecology 83 596-606
[4]  
Badri DV(2001)Characterization of plant growth promoting rhizobacteria isolated from polluted soils and containing 1-aminocyclopropane-1-carboxylate deaminase Canadian Journal of Microbiology 47 642-652
[5]  
Quintana N(1998)Determinants of soil microbial communities: Effects of agricultural management, season, and soil type on phospholipid fatty acid profiles Microbial Ecology 36 1-12
[6]  
El Kassis EG(2007)Soil fungal abundance and diversity: another victim of the invasive plant Centaurea maculosa The ISME Journal 1 763-765
[7]  
Kim HK(2005)Isolation and characterization of endophytic streptomycete antagonists of fusarium wilt pathogen from surface-sterilized banana roots FEMS Microbiology Letters 247 147-152
[8]  
Choi YH(1998)Influence of plant development, cultivar and soil type on microbial colonization of maize roots Applied Soil Ecology 8 11-18
[9]  
Sugiyama A(2010)Sparse partial least squares regression for simultaneous dimension reduction and variable selection. Statistical Methodology 72 3-25
[10]  
Verpoorte R(1997)A gnotobiotic bioassay for studying interactions between potatoes and plant growth-promoting rhizobacteria Canadian Journal of Microbiology 43 801-808
12345678910