Cookies help us deliver our services. By using our services, you agree to our use of cookies. Learn more.

Choose a location

    Crop Protection and Seeds Literatur database

    Literature database

      BERIAULT J.N., HORSMAN, G.P., DEVINE M.D. (1999):
      Phloem transport of D,L-glufosinate and acetyl-L-glufosinate in glufosinate-resistant and -susceptible Brassica napus.
      Plant Physiology 121, 619-627

      KÖCHER H., LÖTZSCH K. (1985):
      Uptake, translocation and mode of action of the herbicide glufosinate-ammonium in warm climate weed species.
      Proc. Asian-Pacifi c Weed Science Society, Tenth Conference, 193-198

      KÖCHER H.; (1989):
      The mode of action of glufosinate under special consideration of Japanese weed species and environmental factors.
      Weed Research Japan 34 (Suppl.), 19-20

      DORN E., GOERLITZ G., HEUSEL R., STUMPF K. (1992):
      Verhalten von Glufosinat-ammonium in der Umwelt - Abbau und Einfluss auf das Oekosystem.
      Z Pfl anzenkrankh Pfl anzenschutz, Sonderheft 13, 459-468

      EBERT E., LEIST K.H., MAYER D. (1990):
      Summary of safety evaluation toxicity studies of glufosinate ammonium.
      Food Chem Toxicol 28, 339-349

      HACK R., EBERT E., EHLING G., LEIST K.H. (1994):
      Glufosinate-ammonium - some aspects of mode of action in mammals.
      Fd Chem. Toxic. 32 (5), 461-470

      HOERLEIN G. (1994):
      Glufosinate (Phosphinothricin) - A Natural Amino Acid with Unexpected Herbicidal Properties.
      Reviews of Environmental Contamination and Toxicology 138

      KOMOSSA D., SANDERMANN H. (1992):
      Plant Metabolism of Herbicides with C-P Bonds: Phosphinothricin.
      Pesticide Biochemistry and Physiology 43, 95-102

      LACUESTA M.; GONZALEZ-MORO B.; GONZALEZ-MURUA, C., APARICIO-TEJO T.,
      MUNOZ-RUEDA A. (1989):
      Effect of phosphinothricin (glufosinate) on activities of glutamine synthetase and glutamate dehydrogenase in Medicago sativa L.
      J. Plant Physiol. 134, 304-307

      LANGELÜDDEKE P., TAKAGAKI T., ARCEO M.B. (1987):
      Use of Basta for weed control in vegetables.
      Proc. Asian-Pacifi c Weed Science Society, Eleventh Conference, 63-71

      LANGELÜDDEKE P.; PURUSOTMAN R., SALLEHHUDDIN M., KASSEBEER H. (1983):
      Glufosinate-ammonium (Hoe 39866) - A new herbicide for lmperata cylindrica (L.) Beauv. and for general weed control in tropical plantation crops.
      Proc. Asian-Pacifi c Weed Science Society, Ninth Conference, 413-423

      LANGELÜDDEKE P., RÖTTELE M., BIER B., KOCUR J.; (1989):
      Methods of improving the effi cacy of glufosinate-ammonium.
      Proc. Brighton Crop Protection Conference - Weeds, 1033-1038

      MANDERSCHEID R., WILD A. (1986):
      Studies on the mechanism of inhibition by phosphinothricin of glutamine synthetase isolated from Triticum estivum L.
      J. Plant. Physiol. 123, 135-142

      MATHIASSEN S.K., KUDSK P. (1993):
      The infl uence of adjuvants on the activity, rainfastness and response to climatic conditions of glufosinate. Proc. 8th EWRS Symposium, 243-250

      MERSEY B.G., HALL J.C., ANDERSON D.M., SWANTON C.J. (1990):
      Factors affecting the herbicidal activity of glufosinate-ammonium: absorption, translocation, and metabolism in barley and green foxtail.
      Pesticide Biochem. Physiol. 37, 90-98

      SAUER H., WILD A., RÜHLE W. (1987):
      The effect of phosphinothricin (glufosinate) on photosynthesis II. The causes of inhibition of photosynthesis.
      Zeitschrift f. Naturforschung 42c, 263-269

      TEBBE C.C., REBER H. H. (1988):
      Utilisation of the Herbicide Phosphinothricin as Nitrogen Source by Soil Bacteria.
      Appl. Microbiol. Biotechnol. 29, 103-105.

      WENDLER C., BARNISKE M., WILD A. (1990):
      Effect of phosphinothricin (glufosinate) on photosynthesis and photorespiration of C3
      and C4 plants. Photosynthesis Research 24, 55-61

      WENDLER C., PUTZER A., WILD A. (1992):
      Effect of glufosinate (phosphinothricin) and inhibitors of photorespiration on
      photosynthesis and ribulose-1,5-bisphosphate carboxylase activity.
      J. Plant Physiol. 139, 666-671

      WILD A., MANDERSCHEID R. (1984):
      The effect of phosphinothricin on the assimilation of ammonia in plants.
      Zeitschrift f. Naturforschung 39c, 500-504

      WILD A., WENDLER C. (1992):
      Inhibitory action of glufosinate on photosynthesis.
      Zeitschrift f. Naturforschung 48c, 369-373

    Basics

    Glufosinate-ammonium is one of the most widely-applied broad-spectrum herbicides, controlling weeds in a huge variety of crops worldwide.

    Safety

    The use of a plant protection product is only authorized if the resulting exposure of the consumer to residues is shown to be less than a toxicological limit which always includes a safety factor of at least 100.

    Benefits

    For more than 30 years, Glufosinate-ammonium has become one of the key herbicides in global agriculture. For farmers, the product offers a unique, simple and effective weed control in a variety of crops, while preserving a balance between the needs of the environment, economy and society.

    TOP
    PROD-AEM