Glyphosate management strategies, weed diversity and soybean yield in Argentina

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From their introduction in 1996, glyphosate resistant [GR] soybean cultivars have been rapidly adopted by farmers in Argentina and in other countries in the world. The high rate of adoption of this technology seems to be based on the simplicity of use provided by a single herbicide [glyphosate], its...

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Detalles Bibliográficos
Autor principal: Scursoni, Julio Alejandro
Otros Autores: Satorre, Emilio Horacio
Formato: Artículo
Lenguaje:Inglés
Materias:
GLYPHOSATE MANAGEMENT
HERBICIDE-RESISTANT SOYBEAN
LARGE CRABGRASS
NUTSEDGES
SPURRED ANODA
ABUNDANCE
CROP YIELD
CULTIVAR
FECUNDITY
FIELD SURVEY
GRASS
HERBICIDE
PESTICIDE APPLICATION
SOYBEAN
SPECIES DIVERSITY
SPECIES RICHNESS
SURVIVAL
WEED CONTROL
ZERO TILLAGE
ARGENTINA
ANODA CRISTATA
CHENOPODIUM ALBUM
CYPERUS
CYPERUS ROTUNDUS
DIGITARIA SANGUINALIS
GLYCINE MAX
HORDEUM
STELLARIA
STELLARIA MEDIA
TRITICUM AESTIVUM
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2010Scursoni1.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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520 |a From their introduction in 1996, glyphosate resistant [GR] soybean cultivars have been rapidly adopted by farmers in Argentina and in other countries in the world. The high rate of adoption of this technology seems to be based on the simplicity of use provided by a single herbicide [glyphosate], its high efficacy to control many weeds and, the low costs of the technology relative to that used in conventional crops. During 2001-2002, 2002-2003 and 2003-2004 soybean growing seasons, field surveys and field experiments were performed with the aim of studying the effect of different glyphosate management strategies on the diversity of soybean weed communities, weed control, individual survival, fecundity and crop yield. In addition, the emergence pattern of three important weeds, Digitaria sanguinalis, Cyperus rotundus and Anoda cristata, was also studied. Both field surveys and field experiments were carried out on no-till soybean crops sown immediately after wheat or barley harvest [double cropped system]. Experiments were set up in commercial soybean crops and consisted of different times of a single glyphosate application, two glyphosate applications and also the application of glyphosate plus a residual herbicide imazethapyr. A. cristata, D. sanguinalis, Stellaria media, Chenopodium album and Cyperus sp. were the most prevalent weeds recorded at pre-harvest of the soybean crops, showing regional constancy higher than 80 percent in both years. In three out of four field experiments, crop yield was not increased when glyphosate was applied twice compared with a single application of the herbicide. In addition there was a lower negative effect on weed species richness when glyphosate was applied once during the crop cycle than with two applications of glyphosate or glyphosate plus imazethapyr. D. sanguinalis escaped the glyphosate early treatment because of the long weed emergence period, while A. cristata and C. rotundus survived treatments due to their high individual tolerance. The results suggest that it is possible to manage glyphosate application to get high crop yield with a low impact on weed diversity, depending on the weed species and their abundance. 
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