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Castle, L.A., Siehl, D.L., Gorton, R., Ratten, P.A., Chen, Y.H., Bertain, S., Cho, H.J., Duck, N., Wong, J., Liu, D. and Lassner, M.W. (2004) Discovery and Directed Evolution of a Glyphosate Tolerance Gene. Science, 304, 1151-1154.
https://doi.org/10.1126/science.1096770

has been cited by the following article:

• TITLE: Effect of New Auxin Herbicide Formulations on Control of Herbicide Resistant Weeds and on Microbial Activities in the Rhizosphere

  AUTHORS: Vijay K. Nandula, Heather L. Tyler

  KEYWORDS: 2, 4-D, Dicamba, Glyphosate, Resistance, Soil Microbiology, Soybean

  JOURNAL NAME: American Journal of Plant Sciences, Vol.7 No.17, December 13, 2016

  ABSTRACT: Widespread distribution of glyphosate-resistant weeds in soybean-growing areas across Mississippi has economically affected soybean planting and follow-up crop management operations. New multiple herbicide-resistant crop (including soybean) technologies with associated formulations will soon be commercialized. The objectives of this research were to determine the efficacy of new 2,4-D + glyphosate and dicamba formulations on herbicide resistant weeds, and to determine the impact of the new 2,4-D + glyphosate formulation on microbial communities in the soybean rhizosphere involved in nutrient cycling. New 2,4-D + glyphosate and dicamba formulations registered for use on 2,4-D and dicamba-resistant soybean, respectively, adequately controlled glyphosate resistant and susceptible pigweeds (Palmer amaranth and tall waterhemp) and common ragweed. The 2,4-D + glyphosate formulation did not significantly impact soil microbial activities linked to nutrient cycling in the soybean rhizosphere. These results indicate these new 2,4-D + glyphosate and dicamba formulations can be effective in controlling glyphosate resistant and other herbicide resistant weeds while not having adverse effects on the activities of beneficial soil microorganisms.