Get 20M+ Full-Text Papers For Less Than $1.50/day. Start a 14-Day Trial for You or Your Team.

Learn More →

Glyphosate and aminomethylphosphonic acid contents in field crops soils under various weed management practices

Glyphosate and aminomethylphosphonic acid contents in field crops soils under various weed... To avoid yield loss in field crops associated with glyphosate‐resistant weed and changes in their population dynamics, repeated applications of glyphosate‐based herbicides (GBH) and combination with other herbicides are weed management practices (WMP) increasingly used worldwide, and particularly so in southern Quebec (Canada). These practices affect soil biological activity as well as soil functions but could also influence glyphosate and its main degradation product, the aminomethylphosphonic acid (AMPA), persistence. This study was conducted in corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] field crops to evaluate the effects of single vs. repeated GBH applications, with or without the addition of other herbicides, on glyphosate and AMPA persistence in soils throughout a growing season. In corn plots, the highest glyphosate content (0.11 mg kg–1) was observed following two GBH applications combined with other herbicides (i.a. S‐metolachlor and mesotrione). In soybean plots, the highest glyphosate content (0.18 mg kg–1) was also measured following two GBH applications combined with other herbicides (i.a. imazethapyr and chlorimuron). AMPA contents in corn plots soils were similar whatever WMP employed, whereas differences were observed in soybean plots according to the WMP. Soybean plots thus seemed more responsive to variation in weed management practices than corn plots. This study highlights the persistence of glyphosate and AMPA in agricultural soils at least 8 wk after the last GBH application. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png "Agrosystems, Geosciences & Environment" Wiley

Glyphosate and aminomethylphosphonic acid contents in field crops soils under various weed management practices

Download PDF

Glyphosate and aminomethylphosphonic acid contents in field crops soils under various weed management practices

Samson‐Brais, Émile; Lucotte, Marc; Moingt, Matthieu; Tremblay, Gilles; Paquet, Serge
"Agrosystems, Geosciences & Environment" , Volume 5 (3) – Jan 1, 2022

Abstract

To avoid yield loss in field crops associated with glyphosate‐resistant weed and changes in their population dynamics, repeated applications of glyphosate‐based herbicides (GBH) and combination with other herbicides are weed management practices (WMP) increasingly used worldwide, and particularly so in southern Quebec (Canada). These practices affect soil biological activity as well as soil functions but could also influence glyphosate and its main degradation product, the aminomethylphosphonic acid (AMPA), persistence. This study was conducted in corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] field crops to evaluate the effects of single vs. repeated GBH applications, with or without the addition of other herbicides, on glyphosate and AMPA persistence in soils throughout a growing season. In corn plots, the highest glyphosate content (0.11 mg kg–1) was observed following two GBH applications combined with other herbicides (i.a. S‐metolachlor and mesotrione). In soybean plots, the highest glyphosate content (0.18 mg kg–1) was also measured following two GBH applications combined with other herbicides (i.a. imazethapyr and chlorimuron). AMPA contents in corn plots soils were similar whatever WMP employed, whereas differences were observed in soybean plots according to the WMP. Soybean plots thus seemed more responsive to variation in weed management practices than corn plots. This study highlights the persistence of glyphosate and AMPA in agricultural soils at least 8 wk after the last GBH application.

Loading next page...
 
/lp/wiley/glyphosate-and-aminomethylphosphonic-acid-contents-in-field-crops-cz0e2IsFZg
Publisher
Wiley
Copyright
© 2022 Crop Science Society of America and American Society of Agronomy.
eISSN
2639-6696
DOI
10.1002/agg2.20273
Publisher site
See Article on Publisher Site

Abstract

To avoid yield loss in field crops associated with glyphosate‐resistant weed and changes in their population dynamics, repeated applications of glyphosate‐based herbicides (GBH) and combination with other herbicides are weed management practices (WMP) increasingly used worldwide, and particularly so in southern Quebec (Canada). These practices affect soil biological activity as well as soil functions but could also influence glyphosate and its main degradation product, the aminomethylphosphonic acid (AMPA), persistence. This study was conducted in corn (Zea mays L.) and soybean [Glycine max (L.) Merr.] field crops to evaluate the effects of single vs. repeated GBH applications, with or without the addition of other herbicides, on glyphosate and AMPA persistence in soils throughout a growing season. In corn plots, the highest glyphosate content (0.11 mg kg–1) was observed following two GBH applications combined with other herbicides (i.a. S‐metolachlor and mesotrione). In soybean plots, the highest glyphosate content (0.18 mg kg–1) was also measured following two GBH applications combined with other herbicides (i.a. imazethapyr and chlorimuron). AMPA contents in corn plots soils were similar whatever WMP employed, whereas differences were observed in soybean plots according to the WMP. Soybean plots thus seemed more responsive to variation in weed management practices than corn plots. This study highlights the persistence of glyphosate and AMPA in agricultural soils at least 8 wk after the last GBH application.

Journal

"Agrosystems, Geosciences & Environment"Wiley

Published: Jan 1, 2022

References

  • Determination of glyphosate and (aminomethyl)phosphonic acid in soil, plant and animal matrixes, and water by capillary gas chromatography with mass‐selective detection
    Alferness, P. L.; Iwata, Y.
  • Simpósio internacional de iniciação científica da Universidade de São Paulo ‐ SIICUSP
    Alves, P. A. d. T.; Ricord Alberto, H.; Tornisielo, V. L.
  • Nutrient limitations on microbial respiration in peat soils with different total phosphorus content
    Amador, J.; Jones, R. D.
  • The metabolic quotient for CO2 (qCO2) as a specific activity parameter to assess the effects of environmental conditions, such as pH, on the microbial biomass of forest soils
    Anderson, T.; Domsch, K.
  • Influence of repeated applications of glyphosate on its persistence and soil bioactivity
    Andréa, M. M. D. e.; Peres, T. B.; Luchini, L. C.; Bazarin, S.; Papini, S.; Matallo, M. B.; Savoy, V. L. T.
  • Environmental fate of glyphosate and aminomethylphosphonic acid in surface waters and soil of agricultural basins
    Aparicio, V. C.; De Gerónimo, E.; Marino, D.; Primost, J.; Carriquiriborde, P.; Costa, J. L.
  • Sorption‐desorption behavior of pesticides and their degradation products in volcanic and nonvolcanic soils: Interpretation of interactions through two‐way principal component analysis
    Báez, M. E.; Espinoza, J.; Silva, R.; Fuentes, E.
  • Limit of detection values in data analysis: Do they matter?
    Barescut, J.; Lariviere, D.; Stocki, T.; Wood, M. D.; Beresford, N. A.; Copplestone, D.
  • Oxidative degradation of glyphosate and aminomethylphosphonate by manganese oxide
    Barrett, K.; McBride, M.
  • Glyphosate and its degradation product AMPA occur frequently and widely in US soils, surface water, groundwater, and precipitation
    Battaglin, W. A.; Meyer, M. T.; Kuivila, K. M.; Dietze, J. E.
  • Herbicide‐resistant weeds: Management tactics and practices
    Beckie, H. J.
  • Trends in glyphosate herbicide use in the United States and globally
    Benbrook, C. M.
  • Persistence of glyphosate and aminomethylphosphonic acid in loess soil under different combinations of temperature, soil moisture and light/darkness
    Bento, C. P. M.; Yang, X.; Gort, G.; Xue, S.; Van Dam, R.; Zomer, P.; Mol, H. G. J.; Ritsema, C. J.; Geissen, V.
  • Assessment of the potential toxicity of herbicides and their degradation products to nontarget cells using two microorganisms, the bacteria Vibrio fischeri and the ciliate Tetrahymena pyriformis
    Bonnet, J.‐L.; Bonnemoy, F.; Dusser, M.; Bohatier, J.
  • Fate of glyphosate in soil and the possibility of leaching to ground and surface waters: A review
    Borggaard, O. K.; Gimsing, A. L.
  • New methods for determination of glyphosate and (aminomethyl) phosphonic acid in water and soil
    Börjesson, E.; Torstensson, L.
  • Single and sequential applications of dicamba for the control of glyphosate‐resistant common ragweed in glyphosate‐ and dicamba‐resistant soybean
    Byker, H. P.; Van Wely, A. C.; Soltani, N.; Lawton, M. B.; Robinson, D. E.; Sikkema, P. H.
  • Effect of glyphosate application timing and row spacing on weed growth in corn (Zea mays) and soybean (Glycine max)
    Caleb, D. D.; James, J. K.; Karen, A. R.
  • Meta‐analysis of glyphosate contamination in surface waters and dissipation by biofilms
    Carles, L.; Gardon, H.; Joseph, L.; Sanchís, J.; Farré, M.; Artigas, J.
  • Effect of the herbicide glyphosate on respiration and hydrogen consumption in soil
    Carlisle, S. M.; Trevors, J. T.
  • Occurrence and Fate of the Herbicide Glyphosate and Its Degradate Aminomethylphosphonic Acid in the Atmosphere
    Chang, F.‐C.; Simcik, M. F.; Capel, P. D.
  • Degradation of four commonly used pesticides in Malaysian agricultural soils
    Cheah, U.‐B.; Kirkwood, R. C.; Lum, K.‐Y.
  • Photodegradation of glyphosate in the ferrioxalate system
    Chen, Y.; Wu, F.; Lin, Y.; Deng, N.; Bazhin, N.; Glebov, E.
  • Effect of glyphosate application time on yield parameters of South African glyphosate‐resistant maize cultivars
    Craven, M.; Mokoena, P.; Morey, L.; Saayman‐Du Toit, A. E. J.
  • Soil water content and temperature as independent or confounded factors controlling soil respiration in a temperate mixed hardwood forest
    Davidson, E. A.; Belk, E.; Boone, R. D.
  • Simultaneous esterification and acylation of pesticides for analysis by gas chromatography. 1. Derivatization of glyphosate and (aminomethyl) phosphonic acid with fluorinated alcohols‐perfluorinated anhydrides
    Deyrup, C. L.; Chang, S. M.; Weintraub, R. A.; Moye, H. A.
  • Toxicity of AMPA to the earthworm Eisenia andrei Bouché, 1972 in tropical artificial soil
    Domínguez, A.; Brown, G. G.; Sautter, K. D.; Ribas De Oliveira, C. M.; De Vasconcelos, E. C.; Niva, C. C.; Bartz, M. L. C.; Bedano, J. C.
  • Comparing conventional and biotechnology‐based pest management
    Duke, S. O.
  • Glyphosate: A once‐in‐a‐century herbicide
    Duke, S. O.; Powles, S. B.
  • Memorandum: Glyphosate: Response to comments, usage, and benefits
  • Fate of glyphosate in a Canadian forest watershed. 2. Persistence in foliage and soils
    Feng, J. C.; Thompson, D. G.
  • Response of broadleaf and grass cover crop species to soil residues of glyphosate and aminomethylphosphonic acid (AMPA)
    Ganie, Z. A.; Jhala, A. J.
  • Reviews of environmental contamination and toxicology
    Giesy, J. P.; Dobson, S.; Solomon, K. R.
  • Competitive adsorption and desorption of glyphosate and phosphate on clay silicates and oxides
    Gimsing, A. L.; Borggaard, O. K.
  • Phosphate and glyphosate adsorption by hematite and ferrihydrite and comparison with other variable‐charge minerals
    Gimsing, A. L.; Borggaard, O. K.
  • Impact of phosphate on glyphosate uptake and toxicity in willow
    Gomes, M. P.; Le Manac'h, S. G.; Moingt, M.; Smedbol, E.; Paquet, S.; Labrecque, M.; Lucotte, M.; Juneau, P.
  • Alteration of plant physiology by glyphosate and its by‐product aminomethylphosphonic acid: An overview
    Gomes, M. P.; Smedbol, E.; Chalifour, A.; Hénault‐Ethier, L.; Labrecque, M.; Lepage, L.; Lucotte, M.; Juneau, P.
  • AminoMethylPhosphonic acid (AMPA) in natural waters: Its sources, behavior and environmental fate
    Grandcoin, A.; Piel, S.; Baurès, E.
  • DNA and chromosomal damage induced in fish (Anguilla anguilla L.) by aminomethylphosphonic acid (AMPA)—The major environmental breakdown product of glyphosate
    Guilherme, S.; Santos, M. A.; Gaivão, I.; Pacheco, M.
  • Effect of glyphosate on soil microbial activity and biomass
    Haney, R. L.; Senseman, S. A.; Hons, F. M.; Zuberer, D. A.
  • Herbaceous or Salix miyabeana ‘SX64’narrow buffer strips as a means to minimize glyphosate and aminomethylphosphonic acid leaching from row crop fields
    Hénault‐Ethier, L.; Lucotte, M.; Moingt, M.; Paquet, S.; Maccario, S.; Smedbol, É.; Gomes, M. P.; Lepage, L.; Juneau, P.; Labrecque, M.
  • THE SHIKIMATE PATHWAY
    Herrmann, K. M.; Weaver, L. M.
  • Transport and attenuation of dissolved glyphosate and AMPA in a stormwater wetland
    Imfeld, G.; Lefrancq, M.; Maillard, E.; Payraudeau, S.
  • Metabolism of glyphosate in Pseudomonas sp. strain LBr
    Jacob, G. S.; Garbow, J. R.; Hallas, L. E.; Kimack, N. M.; Kishore, G. M.; Schaefer, J.
  • Influence of glyphosate‐resistant cropping systems on weed species shifts and glyphosate‐resistant weed populations
    Johnson, W. G.; Davis, V. M.; Kruger, G. R.; Weller, S. C.
  • Impact of maize formulated herbicides mesotrione and S‐metolachlor, applied alone and in mixture, on soil microbial communities
    Joly, P.; Besse‐Hoggan, P.; Bonnemoy, F.; Batisson, I.; Bohatier, J.; Mallet, C.
  • Microbial metabolism of sulfurand phosphorus‐containing xenobiotics
    Kertesz, M. A.; Cook, A. M.; Leisinger, T.
  • The use of glyphosate as the sole source of phosphorus or carbon for the selection of soil‐borne fungal strains capable to degrade this herbicide
    Krzyśko‐Łupicka, T.; Orlik, A.
  • Glyphosate and phosphorus leaching and residues in boreal sandy soil
    Laitinen, P.; Rämö, S.; Nikunen, U.; Jauhiainen, L.; Siimes, K.; Turtola, E.
  • Leaching of glyphosate and AMPA under two soil management practices in Burgundy vineyards (Vosne‐Romanée, 21‐France)
    Landry, D.; Dousset, S.; Fournier, J.‐C.; Andreux, F.
  • The effect of glyphosate on soil microbial activity, microbial community structure, and soil potassium
    Lane, M.; Lorenz, N.; Saxena, J.; Ramsier, C.; Dick, R. P.
  • Glyphosate runoff and its occurrence in rainwater and subsurface soil in the nearby area of agricultural fields in Argentina
    Lupi, L.; Bedmar, F.; Puricelli, M.; Marino, D.; Aparicio, V. C.; Wunderlin, D.; Miglioranza, K. S. B.
  • Soil microbial biomass and diversity after herbicide application
    Lupwayi, N. Z.; Harker, K. N.; Clayton, G. W.; Turkington, T. K.; Rice, W. A.; O'donovan, J. T.
  • Utilization of organophosphonates by environmental micro‐organisms
    McGrath, J. W.; Ternan, N. G.; Quinn, J. P.
  • Bilan des ventes de pesticides au Québec
  • A statistical overview of standard (IUPAC and ACS) and new procedures for determining the limits of detection and quantification: Application to voltammetric and stripping techniques (technical report)
    Mocak, J.; Bond, A. M.; Mitchell, S.; Scollary, G.
  • Dual element (15N/14N, 13C/12C) isotope analysis of glyphosate and AMPA by derivatization‐gas chromatography isotope ratio mass spectrometry (GC/IRMS) combined with LC/IRMS
    Mogusu, E. O.; Wolbert, J. B.; Kujawinski, D. M.; Jochmann, M. A.; Elsner, M.
  • Semiconductor‐mediated photocatalyzed degradation of a pesticide derivative, glyphosate in aqueous suspensions
    Muneer, M.; Boxall, C.
  • Effect of temperature, pH and total organic carbon variations on microbial turnover of (13)C(3)(15)N‐glyphosate in agricultural soil
    Muskus, A. M.; Krauss, M.; Miltner, A.; Hamer, U.; Nowak, K. M.
  • Glyphosate effects on soil rhizosphere‐associated bacterial communities
    Newman, M. M.; Hoilett, N.; Lorenz, N.; Dick, R. P.; Liles, M. R.; Ramsier, C.; Kloepper, J. W.
  • Leaching of glyphosate and aminomethylphosphonic acid from an agricultural field over a twelve‐year period
    Norgaard, T.; Moldrup, P.; Ferré, T. y. P. A.; Olsen, P.; Rosenbom, A. E.; De Jonge, L. W.
  • Crop losses to pests
    Oerke, E.‐C.
  • Herbicide‐resistant crops and weed resistance to herbicides
    Owen, M. D. k.; Zelaya, I. A.
  • Updated world map of the Köppen‐Geiger climate classification
    Peel, M. C.; Finlayson, B. L.; Mcmahon, T. A.
  • Levels of glyphosate in surface waters, sediments and soils associated with direct sowing soybean cultivation in north pampasic region of Argentina
    Peruzzo, P. J.; Porta, A. A.; Ronco, A. E.
  • Glyphosate and AMPA,“pseudo‐persistent” pollutants under real‐world agricultural management practices in the Mesopotamic Pampas agroecosystem, Argentina
    Primost, J. E.; Marino, D. J. G.; Aparicio, V. C.; Costa, J. L.; Carriquiriborde, P.
  • New ways to break an old bond: The bacterial carbon–phosphorus hydrolases and their role in biogeochemical phosphorus cycling
    Quinn, J. P.; Kulakova, A. N.; Cooley, N. A.; Mcgrath, J. W.
  • Adsorption of glyphosate and aminomethylphosphonic acid in soils
    Rampazzo, N.; Rampazzo Todorovic, G.; Mentler, A.; Blum, W. E. H.
  • Influence of soil tillage and erosion on the dispersion of glyphosate and aminomethylphosphonic acid in agricultural soils
    Rampazzo Todorovic, G.; Rampazzo, N.; Mentler, A.; Blum, W.; Eder, A.; Strauss, P.
  • Aminomethylphosphonic acid, a metabolite of glyphosate, causes injury in glyphosate‐treated, glyphosate‐resistant soybean
    Reddy, K. N.; Rimando, A. M.; Duke, S. O.
  • Impact of weed management practices on soil biological activity in corn and soybean field crops in Québec (Canada)
    Samson‐Brais, É.; Lucotte, M.; Moingt, M.; Tremblay, G.; Paquet, S.
  • Glyphosate in runoff waters and in the root‐zone: A review
    Saunders, L.; Pezeshki, R.
  • Herbicide resistance and biodiversity: Agronomic and environmental aspects of genetically modified herbicide‐resistant plants
    Schütte, G.; Eckerstorfer, M.; Rastelli, V.; Reichenbecher, W.; Restrepo‐Vassalli, S.; Ruohonen‐Lehto, M.; Saucy, A.‐G. W.; Mertens, M.
  • Distribution of glyphosate and aminomethylphosphonic acid (AMPA) in agricultural topsoils of the European Union
    Silva, V.; Montanarella, L.; Jones, A.; Fernández‐Ugalde, O.; Mol, H. G.; Ritsema, C. J.; Geissen, V.
  • Fate and availability of glyphosate and AMPA in agricultural soil
    Simonsen, L.; Fomsgaard, I.; Svensmark, B.; Spliid, N.
  • Steady‐state aerobic microbial activity as a function of soil water content
    Skopp, J.; Jawson, M. D.; Doran, J. W.
  • Glyphosate and aminomethylphosphonic acid content in glyphosate‐resistant soybean leaves, stems, and roots and associated phytotoxicity following a single glyphosate‐based herbicide application
    Smedbol, É.; Lucotte, M.; Maccario, S.; Gomes, M. P.; Paquet, S.; Moingt, M.; Mercier, L. L. C.; Sobarzo, M. R. P.; Blouin, M.‐A.
  • Weed management strategies effect on glyphosate‐tolerant maize and soybean yields and quality
    Smedbol, É.; Lucotte, M.; Tremblay, G.; Moingt, M.; Paquet, S.; Bernier Brillon, J.; Samson‐Brais, É.
  • Microbial degradation of glyphosate herbicides (Review)
    Sviridov, A. V.; Shushkova, T. V.; Ermakova, I. T.; Ivanova, E. V.; Epiktetov, D. O.; Leontievsky, A. A.
  • Effects of chlorimuron‐ethyl application with or without urea fertilization on soil ammonia‐oxidizing bacteria and archaea
    Tan, H.; Xu, M.; Li, X.; Zhang, H.; Zhang, C.
  • Determination of glyphosate and AMPA in three representative agricultural Austrian soils with a HPLC‐MS/MS method
    Todorovic, G. R.; Mentler, A.; Popp, M.; Hann, S.; Köllensperger, G.; Rampazzo, N.; Blum, W. E. H.
  • Benefit of tank mixing dicamba with glyphosate applied after emergence for weed control in dicamba‐ and glyphosate‐resistant soybean
    Underwood, M. G.; Soltani, N.; Hooker, D. C.; Robinson, D. E.; Vink, J. P.; Swanton, C. J.; Sikkema, P. H.
  • Glyphosate detection: Methods, needs and challenges
    Valle, A.; Mello, F.; Balvedi, R.; Rodrigues, L.; Goulart, L.
  • Weed Management in Glyphosate‐Resistant Corn with Glyphosate, Halosulfuron, and Mesotrione
    Walter, E. T.; Ian, C. B.; John, W. W.
  • Influence of the herbicides 2,4‐D and glyphosate on soil microbial biomass and activity: A field experiment
    Wardle, D. A.; Parkinson, D.
  • What do farmers' weed control decisions imply about glyphosate resistance? Evidence from surveys of US corn fields
    Wechsler, S. J.; Mcfadden, J. R.; Smith, D. J.
  • Decay characteristics and erosion‐related transport of glyphosate in Chinese loess soil under field conditions
    Yang, X.; Wang, F.; Bento, C. P. M.; Meng, L.; Van Dam, R.; Mol, H.; Liu, G.; Ritsema, C. J.; Geissen, V.
  • Glyphosate affects micro‐organisms in rhizospheres of glyphosate‐resistant soybeans
    Zobiole, L. H. S.; Kremer, R. J.; Oliveira, R. S.; Constantin, J.