Synthesizing Nanoencapsulated Sulfentrazone Herbicide and Optimizing Time and Dose for Season Long Weed Management in Irrigated Blackgram (Vigna mungo L.)

IF 0.8 4区 生物学 Q3 AGRONOMY
Legume Research Pub Date : 2021-04-22 DOI:10.18805/LR-4447
Vikram Kannamreddy, C. Chinnamuthu, S. Marimuthu, C. Bharathi
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引用次数: 2

Abstract

Background: Pulses are nutritious edible seeds of leguminous plants, have become an essential part of the human diet. Among the pulses, blackgram (Vigna mungo L.) is an important legume crop cultivated in tropical and subtropical regions of the world. Even though there are so many factors responsible for the lower yield of blackgram, weeds play a major role. Sulfentrazone is a broad spectrum herbicide belongs to the family of phenyl triazolinone. Sulfentrazone has high persistence and mobility with mean partition coefficient Koc = 43 and sorption coefficient Kd less than 1 and also has high horizontal and vertical leaching potential. Even though generally used herbicides in blackgram like pendimethalin, imazethapyr and quizalofop-ethyl are helpful in managing weeds, they have to apply multiple times or have to integrate with other methods of weed management which is expensive. So as to reduce the usage of multiple herbicides, to avoid manual weeding and to achieve season long weed control without affecting the environment the nano-encapsulated sulfentrazone is the better alternative and it gives better solution for the above constraints besides increasing the productivity.Methods: Laboratory and field experiments were conducted in the Department of Agronomy, Tamil Nadu Agricultural University, Coimbatore during 2019-2020. Laboratory experiment was conducted to prepare nano-encapsulated sulfentrazone herbicide using solvent evaporation method. Screening trial was conducted in field with 17 treatments in randomized block design. Main trial was conducted with nine treatments of randomized block design by selecting the best performing treatments in screening trial. A confirmatory trial was also conducted by using same treatments.Result: The encapsulated sulfentrazone particles were characterized in SEM (Scanning electron microscope) and also analysed with EDAX (Energy dispersive X-ray analysis) for elemental analysis, which is followed by particle size analysis and zeta potential to know the size and stability respectively. All these tests concluded that the sulfentrazone particles were encapsulated correctly and might be useful for slow release of the particle and also for reducing vertical and horizontal leachability. The field trials revealed that sulfentrazone @ 0.30 kg a.i. ha-1 with encapsulation applied at 1 DBS is better alternative for the season long weed management in blackgram without affecting the soil and ground water, as well as increasing the productivity.
纳米磺胺菊酮类除草剂的合成及其对水田长季杂草管理的时间和剂量优化
背景:豆类是豆科植物营养丰富的可食用种子,已成为人类饮食的重要组成部分。在豆类中,黑豆(Vigna mungo L.)是世界上热带和亚热带地区重要的豆科作物。尽管有很多因素导致黑豆的低产量,但杂草起了主要作用。磺胺曲酮是一种广谱除草剂,属于苯基三唑啉酮家族。磺胺酮具有较高的持久性和迁移率,平均分配系数Koc = 43,吸附系数Kd小于1,具有较高的水平和垂直浸出潜力。尽管在黑格兰中常用的除草剂,如戊二甲基灵、吡唑乙酯和吡唑乙酯对控制杂草有帮助,但它们必须多次施用,或者必须与其他昂贵的杂草管理方法相结合。为了减少多种除草剂的使用,避免人工除草,在不影响环境的情况下实现全季杂草控制,纳米胶囊化磺胺酮是较好的替代方案,在提高产量的同时,也较好地解决了上述制约因素。方法:2019-2020年在哥印拜陀泰米尔纳德邦农业大学农学系进行室内和田间试验。采用溶剂蒸发法制备了磺胺曲酮纳米包封除草剂。田间筛选试验采用随机区组设计,共17个处理。主试验采用随机区组设计,筛选试验中表现最佳的9个治疗。采用相同的治疗方法也进行了验证性试验。结果:用SEM(扫描电子显微镜)和EDAX(能量色散x射线分析)对包封的磺胺曲酮颗粒进行了表征,并进行了元素分析、粒度分析和zeta电位分析,分别了解了颗粒的大小和稳定性。所有这些试验都表明,磺胺曲酮颗粒被正确封装,可能有助于颗粒的缓慢释放,也有助于降低垂直和水平浸出率。田间试验结果表明,1 DBS时施用0.30 kg a.i. ha-1的磺胺酮包埋处理是黑格兰长季杂草管理的较好选择,且不影响土壤和地下水,并能提高生产力。
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来源期刊
Legume Research
Legume Research AGRONOMY-
CiteScore
1.30
自引率
37.50%
发文量
256
审稿时长
6-12 weeks
期刊介绍: Legume Research An International Journal. The Journal is an official publication of Agricultural Research Communication Centre. It is designed to bring out the original research articles on genetics, breeding, physiology, bacterial avtivity, production, quality, biochemistry and seeds of legumes crops. The objective of the journal is to serve as a forum for scientific community to publish their research findings on legumes ans to provide basis for new research. Journal is being scanned in the important indexing and abstracting services.
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