Effect of Different Organic and Chemical Compounds on Population Density of Trialeurodes vaporariorum Westwood and Some Secondary Metabolites of Bean Plant

M. Karamoozian, M. Yali, K. Ahmadi
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The utilization of plant extract and elicitors is an environmentally safe method that is used in the control recently. Therefore, alternative control strategies are required to minimize the harmful effects of insecticides. In order to control this pest, environmentally friendly methods, especially of plant origin are recently considered by researchers. For this regard, the effect of some organic compounds including methanolic and n-hexanic extract of walnut’s husk or dill’s seeds and salicylic acid, individually and in combination with spirotetramat on population density of greenhouse whitefly’s nymphs and some secondary compounds of bean plant were investigated.Materials and methods: Seeds of common bean, Phaseulus vulgaris L. (Berloty cultivar) were sown and grown in 15-cm-plastic pots in a greenhouse at 25 ± 3°C, 50 ± 10% RH, and a natural photoperiod. For the experiments, potted bean plants at 6-8 leaf stage, highly infested with T. vaporariorum nymphs, were sprayed with 12 different treatments, including: (1) spirotetramat (SP), (2) methanolic extract of walnut husk (MW), (3) n-hexanic extract of walnut husk (NW), (4) methanolic extract of dill seed (MD), (5) n-hexanic extract of dill seed (ND, (6) salicylic acid (SA), (7) spirotetramat in combination with salicylic acid (SP+SA), (8) spirotetramat in combination with methanolic extract of dill seed (SP+MD), (9) spirotetramat in combination with methanolic extract of walnut husk (SP+MW), (10) spirotetramat in combination with n-hexanic extract of dill seed (SP+ND), (11) spirotetramat in combination with n-hexanic extract of walnut husk (SP+NW), and (12) water as a control (CO). After five days, the population density of T. vaporariorum nymphs on bean plants leaves was recorded. Furthermore, the effects of tested treatments on the total phenol and flavonoid contents of bean plants were evaluated. For this reason, dried leaves (5 g) from each treatment were used for the preparation of extracts. The total phenolics of the extracts were determined using the Folin - Ciocalteu reagent. Sample and standard readings were made using a spectrophotometer (Lambda 45-UV/Visible) at 765 nm against the reagent blank. Furthermore, the aluminum chloride colorimetric method was used for determination of the total flavonoid content of treatments. For total flavonoid determination, quercetin was used to make the standard calibration curve. The absorbance was read using a spectrophotometer (Lambda 45-UV/Visible) in the wavelengths of 415 nm. Data were analyzed by one-way ANOVA using SPSS 23.0 software. Comparison of means for nymph density using SNK (Student-Newman-Keuls) multi-range test and comparison of means for secondary chemical compositions using Tukey's test at probability level five Percentage occurred.Results and Discussion: Results showed that the population density of greenhouse whitefly and the secondary metabolites of plant were significantly affected by the tested treatments. The lowest number of whitefly’s nymphs was on spirotetramat and spirotetramat in combination with methanolic extract of dill seed and the highest number was on control. Total phenolic contents ranged from 58.96 to 114.07 mg g-1 dry weight on different treatments, which the highest and lowest amount of it was obtained in spirotetramat in combination with methanolic extract of dill seed and spirotetramat in combination with n-hexanic extract of walnut husk, respectively. The highest amount of total flavonoid content of bean plants was in spirotetramat in combination with salicylic acid. The results of the present study showed that the density of greenhouse whitefly population in spirotetramate treatment was lower than other treatments but there was no significant difference with the combined treatments and methanolic extract of walnut husk. Also, all the treatments compared to the control significantly changed the population density of this pest and increased the amount of total phenolic compound in bean plant. Therefore, these compounds, especially the methanolic extract of walnut husk, can be used in integrated management programs of this pest.Conclusion: This research could provide valuable information for control of T. vaporariorum in other plants like ornamental plants in the field and greenhouse and thus can be useful for the production of healthy and organic crops. So it can be used in the IPM programs of this pest.Keywords: Salicylic acid, Plant extract, Total flavonoid, Total phenol, Whitefly","PeriodicalId":16965,"journal":{"name":"Journal of Plant Protection","volume":"82 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2021-07-20","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.2021.68750.1009","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
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Abstract

Introduction: Greenhouse whitefly, Trialeurodes vaporariorum Westwood (Hemiptera: Aleyrodidae), is a serious pest of a wide range of plants, such as common bean, cucumber, tomato, pepper, lettuce, etc, in both field and greenhouse production. It typically feeds on the underside of leaves, sucking phloem sap from the plant, which causes both direct damage, by overall weakening the plant and reducing yield, and indirect damage, by excreting honeydew, on which sooty mold grows, as well as transmission of several plant viruses. The widespread use of insecticides to control T. vaporariorum has resulted in developing resistance to the insecticides and affected human’s health and safety. The utilization of plant extract and elicitors is an environmentally safe method that is used in the control recently. Therefore, alternative control strategies are required to minimize the harmful effects of insecticides. In order to control this pest, environmentally friendly methods, especially of plant origin are recently considered by researchers. For this regard, the effect of some organic compounds including methanolic and n-hexanic extract of walnut’s husk or dill’s seeds and salicylic acid, individually and in combination with spirotetramat on population density of greenhouse whitefly’s nymphs and some secondary compounds of bean plant were investigated.Materials and methods: Seeds of common bean, Phaseulus vulgaris L. (Berloty cultivar) were sown and grown in 15-cm-plastic pots in a greenhouse at 25 ± 3°C, 50 ± 10% RH, and a natural photoperiod. For the experiments, potted bean plants at 6-8 leaf stage, highly infested with T. vaporariorum nymphs, were sprayed with 12 different treatments, including: (1) spirotetramat (SP), (2) methanolic extract of walnut husk (MW), (3) n-hexanic extract of walnut husk (NW), (4) methanolic extract of dill seed (MD), (5) n-hexanic extract of dill seed (ND, (6) salicylic acid (SA), (7) spirotetramat in combination with salicylic acid (SP+SA), (8) spirotetramat in combination with methanolic extract of dill seed (SP+MD), (9) spirotetramat in combination with methanolic extract of walnut husk (SP+MW), (10) spirotetramat in combination with n-hexanic extract of dill seed (SP+ND), (11) spirotetramat in combination with n-hexanic extract of walnut husk (SP+NW), and (12) water as a control (CO). After five days, the population density of T. vaporariorum nymphs on bean plants leaves was recorded. Furthermore, the effects of tested treatments on the total phenol and flavonoid contents of bean plants were evaluated. For this reason, dried leaves (5 g) from each treatment were used for the preparation of extracts. The total phenolics of the extracts were determined using the Folin - Ciocalteu reagent. Sample and standard readings were made using a spectrophotometer (Lambda 45-UV/Visible) at 765 nm against the reagent blank. Furthermore, the aluminum chloride colorimetric method was used for determination of the total flavonoid content of treatments. For total flavonoid determination, quercetin was used to make the standard calibration curve. The absorbance was read using a spectrophotometer (Lambda 45-UV/Visible) in the wavelengths of 415 nm. Data were analyzed by one-way ANOVA using SPSS 23.0 software. Comparison of means for nymph density using SNK (Student-Newman-Keuls) multi-range test and comparison of means for secondary chemical compositions using Tukey's test at probability level five Percentage occurred.Results and Discussion: Results showed that the population density of greenhouse whitefly and the secondary metabolites of plant were significantly affected by the tested treatments. The lowest number of whitefly’s nymphs was on spirotetramat and spirotetramat in combination with methanolic extract of dill seed and the highest number was on control. Total phenolic contents ranged from 58.96 to 114.07 mg g-1 dry weight on different treatments, which the highest and lowest amount of it was obtained in spirotetramat in combination with methanolic extract of dill seed and spirotetramat in combination with n-hexanic extract of walnut husk, respectively. The highest amount of total flavonoid content of bean plants was in spirotetramat in combination with salicylic acid. The results of the present study showed that the density of greenhouse whitefly population in spirotetramate treatment was lower than other treatments but there was no significant difference with the combined treatments and methanolic extract of walnut husk. Also, all the treatments compared to the control significantly changed the population density of this pest and increased the amount of total phenolic compound in bean plant. Therefore, these compounds, especially the methanolic extract of walnut husk, can be used in integrated management programs of this pest.Conclusion: This research could provide valuable information for control of T. vaporariorum in other plants like ornamental plants in the field and greenhouse and thus can be useful for the production of healthy and organic crops. So it can be used in the IPM programs of this pest.Keywords: Salicylic acid, Plant extract, Total flavonoid, Total phenol, Whitefly
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不同有机化合物和化学物质对西木三分叶蛾种群密度及部分豆植物次生代谢物的影响
温室粉虱(Trialeurodes vaporariorum Westwood,半翅目:粉虱科)是一种严重危害菜豆、黄瓜、番茄、辣椒、生菜等多种作物的田间和温室生产的害虫。它通常以叶子的背面为食,从植物中吸取韧皮部的汁液,这既会造成直接损害,因为它会使植物整体变弱并降低产量,也会造成间接损害,因为它会排出甘露,而甘露是烟霉生长的地方,还会传播几种植物病毒。杀虫剂的广泛使用已导致白斑胸蚜产生抗药性,影响了人类的健康和安全。利用植物提取物和诱导剂是近年来应用于防治的一种环境安全的方法。因此,需要其他控制策略来尽量减少杀虫剂的有害影响。为了控制这种害虫,近年来研究人员正在考虑环境友好的方法,特别是植物来源的方法。为此,研究了核桃壳或莳萝种子的甲醇和正己烷提取物、水杨酸等有机化合物单独或与螺虫碱联用对温室白蝇若虫和豆科植物次生化合物种群密度的影响。材料与方法:将菜豆Phaseulus vulgaris L. (Berloty品种)种子种在温室内,在25±3°C、50±10% RH、自然光周期条件下,种植于15 cm塑料盆中。在试验中,对6-8叶期的盆栽豆苗进行了12种不同的处理,其中包括:(1)螺曲霉(SP),(2)核桃壳甲醇提取物(MW),(3)核桃壳正己烷提取物(NW),(4)莳萝籽甲醇提取物(MD),(5)莳萝籽正己烷提取物(ND),(6)水杨酸(SA),(7)螺曲霉与水杨酸(SP+SA),(8)螺曲霉与莳萝籽甲醇提取物(SP+MD),(9)螺曲霉与核桃壳甲醇提取物(SP+MW),(10)螺虫素与莳萝籽正己烷提取物(SP+ND)配用,(11)螺虫素与核桃壳正己烷提取物(SP+NW)配用,(12)水作为对照(CO)。5 d后,记录蒸发螟若虫在豆科植物叶片上的种群密度。此外,还评价了不同处理对大豆植株总酚和总黄酮含量的影响。因此,每个处理的干叶(5 g)用于制备提取物。用Folin - Ciocalteu试剂测定提取物的总酚类物质。使用分光光度计(Lambda 45-UV/Visible)在765 nm处对试剂空白进行样品和标准读数。采用氯化铝比色法测定各处理的总黄酮含量。测定总黄酮时,用槲皮素制作标准校准曲线。使用分光光度计(Lambda 45-UV/Visible)在415 nm波长范围内读取吸光度。采用SPSS 23.0软件对数据进行单因素方差分析。用SNK (Student-Newman-Keuls)多量程检验比较稚虫密度的均值,用Tukey's检验比较次生化学成分的均值,概率水平为5%。结果与讨论:结果表明,不同处理对温室粉虱种群密度和植物次生代谢产物有显著影响。粉虱若虫数量以螺虫剂和与莳萝种子甲醇提取物联合施用的最少,以对照最多。不同处理的总酚含量在58.96 ~ 114.07 mg g-1干重之间,以与莳萝种子甲醇提取物和与核桃壳正己烷提取物配用的螺虫液含量最高、最低。大豆植株中总黄酮含量最高的是与水杨酸配伍的螺螺旋体。本研究结果表明,螺虫酯处理的温室白蝇种群密度低于其他处理,但与联合处理和核桃壳甲醇提取物的差异不显著。与对照相比,各处理均显著改变了该害虫的种群密度,提高了大豆植株中总酚类化合物的含量。因此,这些化合物,特别是核桃壳甲醇提取物,可用于该害虫的综合治理方案。结论:本研究可为血吸虫病的防治提供有价值的信息。
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