Effectiveness of Imazapyr Coated Hybrids and Selected Striga-tolerant Varieties on S. hermonthica Management and Maize Yield Performance in Western Part of Kenya

Sibuti Mwita Samwel, K. Paul, O. Joshua
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引用次数: 2

Abstract

Striga hermonthica, an obligate root hemi-parasite, is a massive biological constraint that hinders maize (Zea mays L.) production in western part of Kenya particularly when susceptible varieties are used. Use of Imazapyr resistant hybrids coated with small doses of imazapyr herbicide offers potential for management of Striga hermonthica and increase maize production. A study was conducted to evaluate the effectiveness of Imazapyr Resistant Maize (IRM) and selected striga tolerant varieties on S. hermonthica management and yield of maize. Field trials were conducted during two successive cropping seasons (2018 and 2019) at Alupe Research Station (artificial inoculation), farmer’s field in Rangwe (natural infestation) and Koibatek Agricultural Training College (striga free) in Busia, Homa Bay and Baringo Counties respectively. The genotypes were evaluated in randomized complete block design with three replication. Test materials comprised of two IRM (H528IR, FRC425IR), two striga tolerant (KSTP94, GAF4), five susceptible commercial hybrids (DK8031, H513, DUMA43, DH04, Haraka 101) and two local landraces (Shipindi, Nya Uyoma). All striga and crop data collected were subjected to analysis of variance and means separated using Tukey’s HSD test. Results showed that IRM varieties significantly (P≤0.05) reduced number of emerged striga plants by 56 and 69% compared to the local landraces and commercial hybrids, respectively. Similarly, IRM varieties produced 50.3 and 79.5% higher grain yields compared to striga tolerant (KSTP94 and GAF 4) and susceptible hybrids, respectively under striga infestation. However, the grain yields recorded at Koibatek ATC (striga free) were 67 and 70% higher than at the Rangwe and Alupe sites, respectively. These findings show that use of Imazapyr resistant technology in maize production contributes to improved striga management and enhances maize grain yields. This technology can be integrated with other measures to contain striga in infested areas.
依马唑吡包衣杂交种和抗曲菌病选种对肯尼亚西部稻月曲菌管理和玉米产量的影响
稻月Striga是一种专性根半寄生虫,是肯尼亚西部玉米(Zea mays L.)生产的巨大生物制约因素,特别是在使用易感品种时。使用涂有小剂量伊马唑吡尔除草剂的抗伊马唑吡尔杂交种,为管理稻月曲菌和提高玉米产量提供了潜力。本研究评价了抗Imazapyr玉米(IRM)和选定的耐思特里加玉米品种对稻月曲菌管理和玉米产量的影响。田间试验于2018年和2019年连续两个种植季分别在布希亚县、霍马湾县和巴林戈县的Alupe研究站(人工接种)、Rangwe农民田间(自然侵染)和Koibatek农业培训学院(无striga)进行。采用3个重复的随机完全区组设计评估基因型。试验材料包括两个IRM (H528IR, FRC425IR),两个耐striga (KSTP94, GAF4),五个敏感的商业杂交(DK8031, H513, DUMA43, DH04, Haraka 101)和两个地方品种(Shipindi, Nya Uyoma)。收集到的所有striga和crop数据均采用Tukey’s HSD检验进行方差分析和均值分离。结果表明,IRM品种与地方杂交种和商业杂交种相比,分别显著(P≤0.05)减少了56%和69%的反曲体植株出苗数量。同样,IRM品种在stristria侵染下的粮食产量比耐stristria品种(KSTP94和gaf4)和敏感品种分别高出50.3%和79.5%。然而,Koibatek ATC(无striga)记录的粮食产量分别比Rangwe和Alupe站点高67%和70%。这些研究结果表明,在玉米生产中使用抗Imazapyr技术有助于改善曲菌病管理,提高玉米产量。该技术可与其他措施相结合,在疫区遏制斯特里格原虫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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