Ayoub Shafei, M. Rastgoo, E. I. Darbandi, A. Ghanbari
{"title":"Evaluation of induction of sethoxydim tolerance in maize (Zea mays L.) using salicylic acid as a safener","authors":"Ayoub Shafei, M. Rastgoo, E. I. Darbandi, A. Ghanbari","doi":"10.22067/JPP.2021.32832.0","DOIUrl":null,"url":null,"abstract":"Introduction Herbicide safeners are chemical compounds used in combination with herbicides to make them \"safer\" that is, to reduce the effect of the herbicide on crop plants, and to improve selectivity between crop plants versus weed species being targeted by the herbicide. Herbicide safeners can be used to pretreat crop seeds prior to planting, or they can be sprayed on plants as a mixture with the herbicide. Salicylic acid (SA) and other salicylates are known to affect various physiological and biochemical activities of plants and may play a key role in regulating their growth and productivity. This hormone is synthesized by many plants and is accumulated in the plant tissues as the impact of unfavorable abiotic factors, contributing to the increase of plants resistance to stress. The aim of this study was to evaluate the efficacy of salicylic acid as a safener in corn tolerance to non-selective herbicide; sethoxydim, and the response of two weed species of johnsongrass (Sorghum halepense (L.) Pers.) and junglerice (Echinochloa colona (L.) Link) to it. Materials and methods The effect of sethoxydim (0.5, 22.5, 45, 94, 187 and 375 grams of active ingredient per hectare), and salicylic acid (in concentrations of 0, 1 and 2 mM) as factorial experiment in a completely randomized design were investigated to evaluate the response of fresh weight of corn, johnsongrass and junglerice. Salicylic acid treatment was used in seed priming form also. Pre-treatment of salicylic acid was done three days before herbicide spraying. Spraying different doses of sethoxydim herbicide in a complete five-leaf stage, was done using a mobile rail sprayer (Matabi, Spain) equipped with a flat-fan nozzle (8002), a delivery of 220 L ha-1 and a spray pressure of 200 kPa. To investigate the changes in photosynthesis in the treated plants, chlorophyll fluorescence of the leaves was evaluated on the sixth day after application of herbicides by PEA model fluorometer. Three weeks after spraying the herbicide, the shoots of the plants were removed from the surface of the pot and their fresh weight was measured. Analysis of variance was performed using generalized linear models (GLM) in SAS 9.2 software environment. Before performing analysis of variance to determine the normality of the data from Anderson-Darling test in Minitab ver. 17 were used, and in cases of non-normal data, Box-cox two-way power transformation was used in the same software. Analysis of variance, was performed as a factorial experiment for each plant to investigate the effect of the herbicide dose of sethoxydim and the concentration of salicylic acid and their interaction. The trend of wet weight changes of different species under the influence of different amounts of herbicide sethoxydim was investigated using the four parameters log-logistic equation.Results and discussion Dose-response curves of fresh weight of the treated plants showed that weeds were significantly affected by sethoxydim compared to corn. In all species, by increasing the concentration of salicylic acid, the ED50 increased. For all three levels of salicylic acid treatment, this parameter was the greatest in salicylic acid treatment as seed priming than others, and the lowest values of this parameter were observed for jungle rice. The highest amount of ED50 was 210 gram of active ingredient per hectare for corn sown with 2 mM / L salicylic acid treatment, and the lowest value was 31.5 gram of active ingredient per hectare for non-salicylic acid treatment in jungle rice. Kutsky’s curves for corn and weeds showed that Fluorescence chlorophyll was increased with the use of steroids herbicide, but salicylic acid treatment could reduce the rate of chlorophyll fluorescence, so that weed and corn after weeding the control without grass was observed at the lowest salicylic acid treatment (2 mM / L).Conclusions: In general, the results of this experiment showed that under the influence of sethoxydim, all three species of maize, johnsongrass and junglerice showed a positive response to salicylic acid foliar application. Therefore, in order to use salicylic acid as a safener, its seed treatment in corn should be used. Overall, the results showed that salicylic acid can be used as a stress reducer due to the use of sethoxydim in narrow-leaved plants. But as a safener we cannot use it universally and foliar spraying, because there is no differentiation in the response of crops and weeds. Therefore, in the use of salicylic acid as an immunizer for the sethoxydim, its seed treatment will give better results.","PeriodicalId":16965,"journal":{"name":"Journal of Plant Protection","volume":"70 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-03-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of Plant Protection","FirstCategoryId":"1091","ListUrlMain":"https://doi.org/10.22067/JPP.2021.32832.0","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
Introduction Herbicide safeners are chemical compounds used in combination with herbicides to make them "safer" that is, to reduce the effect of the herbicide on crop plants, and to improve selectivity between crop plants versus weed species being targeted by the herbicide. Herbicide safeners can be used to pretreat crop seeds prior to planting, or they can be sprayed on plants as a mixture with the herbicide. Salicylic acid (SA) and other salicylates are known to affect various physiological and biochemical activities of plants and may play a key role in regulating their growth and productivity. This hormone is synthesized by many plants and is accumulated in the plant tissues as the impact of unfavorable abiotic factors, contributing to the increase of plants resistance to stress. The aim of this study was to evaluate the efficacy of salicylic acid as a safener in corn tolerance to non-selective herbicide; sethoxydim, and the response of two weed species of johnsongrass (Sorghum halepense (L.) Pers.) and junglerice (Echinochloa colona (L.) Link) to it. Materials and methods The effect of sethoxydim (0.5, 22.5, 45, 94, 187 and 375 grams of active ingredient per hectare), and salicylic acid (in concentrations of 0, 1 and 2 mM) as factorial experiment in a completely randomized design were investigated to evaluate the response of fresh weight of corn, johnsongrass and junglerice. Salicylic acid treatment was used in seed priming form also. Pre-treatment of salicylic acid was done three days before herbicide spraying. Spraying different doses of sethoxydim herbicide in a complete five-leaf stage, was done using a mobile rail sprayer (Matabi, Spain) equipped with a flat-fan nozzle (8002), a delivery of 220 L ha-1 and a spray pressure of 200 kPa. To investigate the changes in photosynthesis in the treated plants, chlorophyll fluorescence of the leaves was evaluated on the sixth day after application of herbicides by PEA model fluorometer. Three weeks after spraying the herbicide, the shoots of the plants were removed from the surface of the pot and their fresh weight was measured. Analysis of variance was performed using generalized linear models (GLM) in SAS 9.2 software environment. Before performing analysis of variance to determine the normality of the data from Anderson-Darling test in Minitab ver. 17 were used, and in cases of non-normal data, Box-cox two-way power transformation was used in the same software. Analysis of variance, was performed as a factorial experiment for each plant to investigate the effect of the herbicide dose of sethoxydim and the concentration of salicylic acid and their interaction. The trend of wet weight changes of different species under the influence of different amounts of herbicide sethoxydim was investigated using the four parameters log-logistic equation.Results and discussion Dose-response curves of fresh weight of the treated plants showed that weeds were significantly affected by sethoxydim compared to corn. In all species, by increasing the concentration of salicylic acid, the ED50 increased. For all three levels of salicylic acid treatment, this parameter was the greatest in salicylic acid treatment as seed priming than others, and the lowest values of this parameter were observed for jungle rice. The highest amount of ED50 was 210 gram of active ingredient per hectare for corn sown with 2 mM / L salicylic acid treatment, and the lowest value was 31.5 gram of active ingredient per hectare for non-salicylic acid treatment in jungle rice. Kutsky’s curves for corn and weeds showed that Fluorescence chlorophyll was increased with the use of steroids herbicide, but salicylic acid treatment could reduce the rate of chlorophyll fluorescence, so that weed and corn after weeding the control without grass was observed at the lowest salicylic acid treatment (2 mM / L).Conclusions: In general, the results of this experiment showed that under the influence of sethoxydim, all three species of maize, johnsongrass and junglerice showed a positive response to salicylic acid foliar application. Therefore, in order to use salicylic acid as a safener, its seed treatment in corn should be used. Overall, the results showed that salicylic acid can be used as a stress reducer due to the use of sethoxydim in narrow-leaved plants. But as a safener we cannot use it universally and foliar spraying, because there is no differentiation in the response of crops and weeds. Therefore, in the use of salicylic acid as an immunizer for the sethoxydim, its seed treatment will give better results.
除草剂安全剂是与除草剂联合使用以使其“更安全”的化合物,即减少除草剂对作物的影响,并提高作物与除草剂所针对的杂草物种之间的选择性。除草剂安全剂可用于在播种前对作物种子进行预处理,也可与除草剂混合喷洒在植物上。水杨酸(Salicylic acid, SA)和其他水杨酸类化合物影响植物的多种生理生化活性,可能在调节植物生长和生产力方面发挥关键作用。该激素由多种植物合成,在不利的非生物因素的影响下在植物组织中积累,有助于提高植物的抗逆性。本研究的目的是评价水杨酸作为一种安全剂对玉米非选择性除草剂的耐受性;四羟乙基醚(sethoxydim)及其对两种强生草(Sorghum halepense (L.))的响应棘球蚴(棘球蚴)和棘球蚴(棘球蚴)链接)。材料与方法采用完全随机设计的析因试验,以乙氧基肟(0.5、22.5、45、94、187和375 g /公顷)和水杨酸(浓度分别为0、1和2 mM)对玉米、强johngrass和山茱萸鲜重的影响进行研究。水杨酸处理也用于种子激发形式。在喷洒除草剂前3天对水杨酸进行预处理。采用移动式导轨式喷雾器(西班牙Matabi),在完整的五叶期喷洒不同剂量的乙氧基醚除草剂,喷雾器配备扁平扇形喷嘴(8002),喷施量为220 L ha-1,喷雾压力为200 kPa。为了研究施用除草剂后植株光合作用的变化,采用PEA模型荧光仪测定了施用除草剂后第6天叶片的叶绿素荧光。喷洒除草剂三周后,将植株的芽从花盆表面取出,并测量其鲜重。在SAS 9.2软件环境下,采用广义线性模型(GLM)进行方差分析。在进行方差分析以确定Minitab - ver中安德森-达林检验数据的正态性之前。在非正态数据情况下,在同一软件中使用Box-cox双向功率变换。采用方差分析作为析因试验,考察了乙氧基肟除草剂用量与水杨酸浓度的影响及其交互作用。采用四参数logistic方程研究了不同除草剂乙氧基肟用量对不同种属植物湿重变化的影响趋势。结果与讨论结果表明,与玉米相比,乙氧基肟对杂草鲜重的影响显著。在所有物种中,随着水杨酸浓度的增加,ED50增加。在所有三个水平水杨酸处理中,水杨酸作为引种处理的该参数最大,而丛林水稻的该参数最小。在2 mM / L水杨酸处理下,ED50的最高有效成分含量为210 g /公顷,在丛林水稻中,非水杨酸处理的ED50最低有效成分含量为31.5 g /公顷。玉米和杂草的Kutsky曲线显示,使用类固醇除草剂后,荧光叶绿素增加,但水杨酸处理会降低叶绿素荧光率,因此,在水杨酸处理最低(2 mM / L)的情况下,杂草和玉米在除草后没有草的对照中观察到。总的来说,本试验结果表明,在乙氧基肟的作用下,玉米、约翰逊草和丛林草3种植物对水杨酸叶面施用均表现出正响应。因此,为了使水杨酸作为一种安全剂,应在玉米中进行水杨酸种子处理。综上所述,水杨酸由于在窄叶植物中有乙氧基醚的使用,可以作为一种抗旱性物质。但作为一种安全剂,由于对作物和杂草的反应没有区别,不能与叶面喷施一样普遍使用。因此,在使用水杨酸作为乙氧基醚的免疫剂时,其种子处理效果较好。