Improved wheat performance with seed treatments under dry sowing on permanent raised beds

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Two strategies for seeding irrigation are used for irrigated wheat. Wet sowing utilizes pre-sowing irrigation to germinate weed seeds and thus control weeds, followed by sowing. Dry sowing plants into dry soil that is irrigated soon afterward, resulting in higher soil moisture during germination and...

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Detalles Bibliográficos
Otros Autores: Mulvaney, M. J., Verhulst, N., Herrera, Juan Manuel, Mezzalama, M., Govaerts, B.
Formato: Artículo
Lenguaje:Español
Materias:
ALTERNATIVE AGRICULTURE
CONSERVATION AGRICULTURE
CROP ENHANCEMENT
CROP YIELD
GERMINATION
GROWING SEASON
IRRIGATION SYSTEM
MEXICO [NORTH AMERICA]
NDVI
PESTICIDE APPLICATION
PRE-SOWING IRRIGATION
SEED TREATMENT
SOWING
THIAMETHOXAM
TRITICUM AESTIVUM
TRITICUM TURGIDUM SUBSP. DURUM
VERTISOL
WHEAT
YIELD RESPONSE
Acceso en línea:http://ri.agro.uba.ar/files/intranet/articulo/2014mulvaney.pdf
LINK AL EDITOR
Aporte de:Registro referencial: Solicitar el recurso aquí
Biblioteca Central (FAUBA) de Universidad de Buenos Aires
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245 1 0 |a Improved wheat performance with seed treatments under dry sowing on permanent raised beds 
520 |a Two strategies for seeding irrigation are used for irrigated wheat. Wet sowing utilizes pre-sowing irrigation to germinate weed seeds and thus control weeds, followed by sowing. Dry sowing plants into dry soil that is irrigated soon afterward, resulting in higher soil moisture during germination and emergence than wet sowing. Field observations have indicated reduced emergence, plant stands and yield in dry compared to wet sowing on a Vertisol in northwestern Mexico. This disadvantage is more acute when dry sowing is conducted in permanent beds with residue retention [conservation agriculture] compared to the conventional system involving tillage with residue incorporation. To identify the causes of reduced plant stand and yield and examine control options, chemical seed treatment effects on durum wheat [Triticum durum Desf.] and bread wheat [. Triticum aestivum L.] performance under wet and dry sowing were investigated over three seasons in a permanent bed system. Four seed treatments were applied: Control [no seed treatment]; Carboxin. +. thiram. +. chlorothalonil [Vit-Dac; fungicides]; Difenoconazole. +. mefenoxam [Dif-Mef; fungicides]; and Thiamethoxam. +. difenoconazole. +. mefenoxam [TMX-Dif-Mef; insecticide and fungicides]. Plant stands, root rot scores, normalized difference vegetative index [NDVI], and grain yield were determined. Under dry sowing, Dif-Mef and TMX-Dif-Mef increased plant stands by 87 percent and 104 percent, respectively, compared to Vit-Dac, and by 152 percent and 172 percent, respectively, compared to the control. Under dry sowing, TMX-Dif-Mef increased yield by 9.76 percent and 17.7 percent compared to Vit-Dac and the control, respectively. Bread and durum wheat were significantly different for both emergence and yield every growing season. Seed treatments effects were not significant under wet sowing. Treatment differences were not linked with root rot incidence later in the season. Several mechanistic hypotheses to explain the results were explored. TMX has been reported to alter genetic expression to enhance response to early season abiotic stresses, but this has not been reported for Dif-Mef. The different physical conditions during stand establishment, i.e. increased moisture and reduced temperature, under dry sowing compared to wet sowing, could have affected microbial populations which induced biological suppression of germination and/or emergence. Although more research is required to explain the underlying mechanism, wheat producers transitioning to a dry sowing system under conservation agriculture with permanent raised beds may avoid yield loss by utilization of a Dif-Mef or TMX-Dif-Mef seed treatment. 
653 0 |a ALTERNATIVE AGRICULTURE 
653 0 |a CONSERVATION AGRICULTURE 
653 0 |a CROP ENHANCEMENT 
653 0 |a CROP YIELD 
653 0 |a GERMINATION 
653 0 |a GROWING SEASON 
653 0 |a IRRIGATION SYSTEM 
653 0 |a MEXICO [NORTH AMERICA] 
653 0 |a NDVI 
653 0 |a PESTICIDE APPLICATION 
653 0 |a PRE-SOWING IRRIGATION 
653 0 |a SEED TREATMENT 
653 0 |a SOWING 
653 0 |a THIAMETHOXAM 
653 0 |a TRITICUM AESTIVUM 
653 0 |a TRITICUM TURGIDUM SUBSP. DURUM 
653 0 |a VERTISOL 
653 0 |a WHEAT 
653 0 |a YIELD RESPONSE 
700 1 |a Mulvaney, M. J.  |9 72685 
700 1 |a Verhulst, N.  |9 72512 
700 1 |9 12094  |a Herrera, Juan Manuel 
700 1 |a Mezzalama, M.  |9 72686 
700 1 |a Govaerts, B.  |9 72513 
773 |t Field Crops Research  |g vol.164, no.1 (2014), p.189-198 
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900 |a Mulvaney, M.J. International Maize and Wheat Improvement Center [CIMMYT], Apdo. Postal 6-641, 06600 Mexico, DF, Mexico 
900 |a Verhulst, N. International Maize and Wheat Improvement Center [CIMMYT], Apdo. Postal 6-641, 06600 Mexico, DF, Mexico 
900 |a Herrera, J.M. International Maize and Wheat Improvement Center [CIMMYT], Apdo. Postal 6-641, 06600 Mexico, DF, Mexico 
900 |a Herrera, J.M. Instituto de Investigaciones en Biociencias Agrícolas y Ambientales [INBA-CONICET], Facultad de Agronomía, Universidad de Buenos Aires, Buenos Aires, Argentina 
900 |a Mezzalama, M. International Maize and Wheat Improvement Center [CIMMYT], Apdo. Postal 6-641, 06600 Mexico, DF, Mexico 
900 |a Govaerts, B. International Maize and Wheat Improvement Center [CIMMYT], Apdo. Postal 6-641, 06600 Mexico, DF, Mexico 
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900 |a 189 
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900 |a Vol. 164, no. 1 
900 |a 198 
900 |a ALTERNATIVE AGRICULTURE 
900 |a CONSERVATION AGRICULTURE 
900 |a CROP ENHANCEMENT 
900 |a CROP YIELD 
900 |a GERMINATION 
900 |a GROWING SEASON 
900 |a IRRIGATION SYSTEM 
900 |a MEXICO [NORTH AMERICA] 
900 |a NDVI 
900 |a PESTICIDE APPLICATION 
900 |a PRE-SOWING IRRIGATION 
900 |a SEED TREATMENT 
900 |a SOWING 
900 |a THIAMETHOXAM 
900 |a TRITICUM AESTIVUM 
900 |a TRITICUM TURGIDUM SUBSP. DURUM 
900 |a VERTISOL 
900 |a WHEAT 
900 |a YIELD RESPONSE 
900 |a Two strategies for seeding irrigation are used for irrigated wheat. Wet sowing utilizes pre-sowing irrigation to germinate weed seeds and thus control weeds, followed by sowing. Dry sowing plants into dry soil that is irrigated soon afterward, resulting in higher soil moisture during germination and emergence than wet sowing. Field observations have indicated reduced emergence, plant stands and yield in dry compared to wet sowing on a Vertisol in northwestern Mexico. This disadvantage is more acute when dry sowing is conducted in permanent beds with residue retention [conservation agriculture] compared to the conventional system involving tillage with residue incorporation. To identify the causes of reduced plant stand and yield and examine control options, chemical seed treatment effects on durum wheat [Triticum durum Desf.] and bread wheat [. Triticum aestivum L.] performance under wet and dry sowing were investigated over three seasons in a permanent bed system. Four seed treatments were applied: Control [no seed treatment]; Carboxin. +. thiram. +. chlorothalonil [Vit-Dac; fungicides]; Difenoconazole. +. mefenoxam [Dif-Mef; fungicides]; and Thiamethoxam. +. difenoconazole. +. mefenoxam [TMX-Dif-Mef; insecticide and fungicides]. Plant stands, root rot scores, normalized difference vegetative index [NDVI], and grain yield were determined. Under dry sowing, Dif-Mef and TMX-Dif-Mef increased plant stands by 87 percent and 104 percent, respectively, compared to Vit-Dac, and by 152 percent and 172 percent, respectively, compared to the control. Under dry sowing, TMX-Dif-Mef increased yield by 9.76 percent and 17.7 percent compared to Vit-Dac and the control, respectively. Bread and durum wheat were significantly different for both emergence and yield every growing season. Seed treatments effects were not significant under wet sowing. Treatment differences were not linked with root rot incidence later in the season. Several mechanistic hypotheses to explain the results were explored. TMX has been reported to alter genetic expression to enhance response to early season abiotic stresses, but this has not been reported for Dif-Mef. The different physical conditions during stand establishment, i.e. increased moisture and reduced temperature, under dry sowing compared to wet sowing, could have affected microbial populations which induced biological suppression of germination and/or emergence. Although more research is required to explain the underlying mechanism, wheat producers transitioning to a dry sowing system under conservation agriculture with permanent raised beds may avoid yield loss by utilization of a Dif-Mef or TMX-Dif-Mef seed treatment. 
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