Increasing imazapyr-resistant maize yield by increasing plant density under natural Striga hermonthica infestation

Illa, A. O.; Odhiambo, George D.; Dida, Mathews M.

doi:10.5251/abjna.2010.1.5.1061.1068

Cited by 3 publications

(2 citation statements)

References 11 publications

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“…Chlorsulfron affects the striga attachment negatively to the host and it indicates application of 15g ha -1 of chlorsulfron with Deber variety it increases the yield by 43.84% over the control chlorsulfron with Wediaker. This result agrees with [10] who reported that treated IR-maize and increasing plant population increases the yield under natural striga infestation. It also agrees with [11] tested chlorsulfuron formulation significantly increased sorghum grain yield.…”

Section: Grain Yieldsupporting

confidence: 93%

Effects of Chlorsulfuron 75% WDG Herbicide and Varieties on Striga Control and Sorghum Yield in Tigray, Ethiopia

Desta

Weldearegay

2020

AJRCS

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Sorghum [Sorghum bicolor (L.)Moench] is widely cultivated but the productivity is very low due to different factors such as Striga hermonthica. Field trails were carried out at Humera location to determine the management of striga to different rates of herbicide application to increase sorghum yield during 2017 cropping season. The trail consisted of eight treatments; 0 (control), 10, 15 and 20gha-1 rates of Chlorsulfron. The herbicide rates were assigned to the main plot while sorghum varieties were assigned to subplots, replicated three times in a split plot design. The data of days to 50%emergence, 50%flowering, plant height at maturity, Panicle length, panicle weight (g), yield per panicle (g), 1000 seed weight (g), grain yield (kg ha-1), above ground dry biomass (kg ha-1) and striga data days to first striga emergence, days to first flowering, number of striga count, branch number per striga plant, striga count per sorghum plant, striga height and biomass (kg/m2 respectively. Partial budget analysis was computed to assess the economic visibility of herbicide application where recorded. Result showed that application of herbicide rates and varieties increased plant height, panicle length, number of heads harvested per plot, panicle weight, yield per panicle, 1000 seed weight and grain yield over the control. Maximum grain yield (3725kg ha-1) was obtained from application of 15 g ha-1 Chlorsulfron with variety Deber. Days to first flowering, striga count per sorghum plant, stand counts of striga at 45DAP, 65 DAP and 85DAP M-2, branch number per plant, plant height and biomass of striga were significantly (P<0.01) affected with the application of herbicide rates and varieties. The partial budget showed that an investing of 1.0 birr on application of herbicide with varieties earn 2.34 birr. Generally, application of Chlorsulfuron75% WDG and use local variety with high yielder could be an advantage to obtain highest yield and profit for the farmers in striga infestation areas.

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Section: Grain Yieldsupporting

confidence: 93%

Effects of Chlorsulfuron 75% WDG Herbicide and Varieties on Striga Control and Sorghum Yield in Tigray, Ethiopia

Desta

Weldearegay

2020

AJRCS

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“…Other methods for Striga control include biological control using herbicide‐resistant maize variety (Imazapyr treatment), development of Striga‐resistant germplasm, use of fungus Fusarium isolation by applying strigolactones (Kanampiu et al., 2002; Ejeta, 2007; Illa et al., 2010; Nzioki et al., 2016; Uraguchi et al., 2018; Zwanenburg, & Blanco‐Ania, 2018; Kountche et al., 2019). All these approaches have been used with some degree of success to minimize the effect of Striga in maize production.…”

Section: Economic Impact Of Striga Infestation On Maize Production and Biology Of Striga Sppmentioning

confidence: 99%

Breeding maize (Zea mays) for Striga resistance: Past, current and prospects in sub‐saharan africa

et al. 2021

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Striga hermonthica, causes up to 100% yield loss in maize production in Sub-Saharan Africa. Developing Striga-resistant maize cultivars could be a major component of integrated Striga management strategies. This paper presents a comprehensive overview of maize breeding activities related to Striga resistance and its management.Scientific surveys have revealed that conventional breeding strategies have been used more than molecular breeding strategies in maize improvement for Striga resistance. Striga resistance genes are still under study in the International Institute for Tropical Agriculture (IITA) maize breeding programme. There is also a need to discover QTL and molecular markers associated with such genes to improve Striga resistance in maize. Marker Assistance Breeding is expected to increase maize breeding efficiency with complex traits such as resistance towards Striga because of the complex nature of the host-parasite relationship and its intersection with other environmental factors. Conventional alongside molecular tools and technical controls are promising methods to effectively assess Striga in Sub-Saharan Africa.

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Impact of IntegratedStrigaManagement (ISM) technology on maize productivity in northern Nigeria: A treatment effect approach

Baiyegunhi

Hassan

Ortmann

2018

African Journal of Science, Technology, Innovation and Developm

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Increasing imazapyr-resistant maize yield by increasing plant density under natural Striga hermonthica infestation

Cited by 3 publications

References 11 publications

Effects of Chlorsulfuron 75% WDG Herbicide and Varieties on Striga Control and Sorghum Yield in Tigray, Ethiopia

Effects of Chlorsulfuron 75% WDG Herbicide and Varieties on Striga Control and Sorghum Yield in Tigray, Ethiopia

Breeding maize (Zea mays) for Striga resistance: Past, current and prospects in sub‐saharan africa

Impact of IntegratedStrigaManagement (ISM) technology on maize productivity in northern Nigeria: A treatment effect approach

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