188-1 Effects of Management Including Glyphosate Applications on Microbial Communities of Soil.

See more from this Division: SSSA Division: Soil Biology & Biochemistry
See more from this Session: Strategies for Managing Microbial Communities and Soil Health (Pathogen Control, Cover Crops and Tillage): I

Tuesday, November 17, 2015: 8:05 AM
Minneapolis Convention Center, M100 A

Jude E Maul1, Michel A. Cavigelli2, Stephanie A. Yarwood3, Sarah Emche4 and Jeffrey S. Buyer2, (1)Bldg. 001 rm. 140, USDA-ARS, Beltsville, MD
(2)USDA-ARS, Beltsville, MD
(3)Environmental Science and Technology, University of Maryland, College Park, MD
(4)USDA-ARS, BELTSVILLE, MD
Abstract:
Background/Question/Methods

Our objective was to determine if the application of the herbicide glyphosate to resistant corn or soybean plants indirectly shifts the structure of the plant associated microbial community.  To achieve these goals we utilized the USDA Beltsville LTAR site, Farming Systems Project (FSP), a site that has maintained 20 years of organic and conventional corn/soybean/wheat cropping systems in field scale replicated plots.  Microplots were established within rotations of either Chisel-till (CT), No-till, Organic 3 year or Organic 6 year.  Bulk and rhizosphere soils, roots, shoots and nodules were collected prior to glyphosate application and again 20 days after application.  Roots were assessed for endophytic fungal community.  DNA/RNA was extracted from the bulk and rhizosphere soils, soybean nodules and xylem and phloem from shoots over two years among four cropping rotations. Metagenomic libraries were constructed from extracts of soil and plant tissues and illumina high throughput sequencing was used to asses the fungal and bacterial community structure before and after glyphosate treatment among this diverse array of farming systems which represent the highest acreage management regime among organic and conventional farmers in the Mid-Atlantic region.

Results/Conclusions

We detected increases in root endophytic density of both fungi and bacteria over two seasons. Early season measurements of root fungal endophytes revealed an average of 10 colony forming unit (CFU)/ 100 cm of root, whereas when the plants reached reproductive stages the average endophyte density had increased to 40-60 CFU/ 100 cm of root.  Analysis of soybean nodule endophyte community using 16s gene amplification, classified by the Ribosomal Database Project, revealed 12 nitrogen fixing species among soybean in our field sites with Bradyrhizobium, Rhizobium, Pseudomonas being among the most common genera.  Xylem and phloem 16s clone library construction and selective media based culturing identified 30-40 genera of bacteria living within the vasculature of the corn and soybean plants.  Metagenomic sequencing of microbial 16s and ITS genes from plow layer (Ap horizon) or deeper soils demonstrated that among organic and conventional systems soil depth is a primary driver of microbial community structure. Glyphosate application to crops had minimal effect on shifting the microbial community structure within the rhizosphere of these crops.

See more from this Division: SSSA Division: Soil Biology & Biochemistry
See more from this Session: Strategies for Managing Microbial Communities and Soil Health (Pathogen Control, Cover Crops and Tillage): I

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