AIMS: Glyphosate-resistant (GR) soybean production increases each year because of the efficacy of glyphosate for weed management. A new or 'second' generation of GR soybean (GR2) is now commercially available for farmers that is being promoted as higher yielding relative to the previous, 'first generation' (GR1) cultivars. Recent reports show that glyphosate affects the biology and ecology of rhizosphere micro-organisms in GR soybean that affect yield. The objective of this research was to evaluate the microbiological interactions in the rhizospheres of GR2 and GR1 soybean and the performance of the cultivars with different rates of glyphosate applied at different growth stages. METHODS AND RESULTS: A greenhouse study was conducted using GR1 and GR2 soybean cultivars grown in a silt loam soil. Glyphosate was applied at V2, V4 and V6 growth stages at three rates. Plants harvested at R1 growth stage had high root colonization by Fusarium spp.; reduced rhizosphere fluorescent pseudomonads, Mn-reducing bacteria, and indoleacetic acid-producing rhizobacteria; and reduced shoot and root biomass. CONCLUSIONS: Glyphosate applied to GR soybean, regardless of cultivar, negatively impacts the complex interactions of microbial groups, biochemical activity and root growth that can have subsequent detrimental effects on plant growth and productivity. SIGNIFICANCE AND IMPACT OF THE STUDY: The information presented here will be crucial in developing strategies to overcome the potential detrimental effects of glyphosate in GR cropping systems. Journal of Applied Microbiology
AIMS: Glyphosate-resistant (GR) soybean production increases each year because of the efficacy of glyphosate for weed management. A new or 'second' generation of GR soybean (GR2) is now commercially available for farmers that is being promoted as higher yielding relative to the previous, 'first generation' (GR1) cultivars. Recent reports show that glyphosate affects the biology and ecology of rhizosphere micro-organisms in GR soybean that affect yield. The objective of this research was to evaluate the microbiological interactions in the rhizospheres of GR2 and GR1 soybean and the performance of the cultivars with different rates of glyphosate applied at different growth stages. METHODS AND RESULTS: A greenhouse study was conducted using GR1 and GR2 soybean cultivars grown in a silt loam soil. Glyphosate was applied at V2, V4 and V6 growth stages at three rates. Plants harvested at R1 growth stage had high root colonization by Fusarium spp.; reduced rhizosphere fluorescent pseudomonads, Mn-reducing bacteria, and indoleacetic acid-producing rhizobacteria; and reduced shoot and root biomass. CONCLUSIONS:Glyphosate applied to GR soybean, regardless of cultivar, negatively impacts the complex interactions of microbial groups, biochemical activity and root growth that can have subsequent detrimental effects on plant growth and productivity. SIGNIFICANCE AND IMPACT OF THE STUDY: The information presented here will be crucial in developing strategies to overcome the potential detrimental effects of glyphosate in GR cropping systems. Journal of Applied Microbiology
Authors: Daniel F Q Smith; Emma Camacho; Raviraj Thakur; Alexander J Barron; Yuemei Dong; George Dimopoulos; Nichole A Broderick; Arturo Casadevall Journal: PLoS Biol Date: 2021-05-12 Impact factor: 8.029
Authors: Ryan M Kepler; Dietrich J Epp Schmidt; Stephanie A Yarwood; Michel A Cavigelli; Krishna N Reddy; Stephen O Duke; Carl A Bradley; Martin M Williams; Jeffery S Buyer; Jude E Maul Journal: Appl Environ Microbiol Date: 2020-02-18 Impact factor: 4.792
Authors: Stephen O Duke; John Lydon; William C Koskinen; Thomas B Moorman; Rufus L Chaney; Raymond Hammerschmidt Journal: J Agric Food Chem Date: 2012-10-15 Impact factor: 5.279