University of GuilanPlant Pest Research2322-24099220190823Effect of Fosfalim-k foliar spray in cucumber on some characteristics of host plant and life table parameters of two-spotted spider miteEffect of Fosfalim-k foliar spray in cucumber on some characteristics of host plant and life table parameters of two-spotted spider mite113361910.22124/iprj.2019.3619FAS.KhodayariDepartment of Plant Protection, Faculty of Agriculture, University of Maragheh, IranF.AbediniDepartment of Plant Protection, Faculty of Agriculture, University of Maragheh, IranJournal Article20190918IPM is a combination of crop protection practices to keep pests below economic threshold, and one of them is to make the host plants resistant. Various parameters such as the application of fertilizers, irrigation and providing optimum conditions for host plant can benefit its resistance to pests. In order to induce resistance on cucumber (Kish var.), the foliar spray of phosphorus and potassium were incorporated for observing the <em>Tetranychus urticae</em> performance. Therefore, four Fosfalim-k concentrations (i.e. 0, 1, 10 and 30 ml L<sup>-1</sup>) were sprayed on cucumber (Kish var.) in three time intervals and the life table parameters of <em>T. urticae</em> were studied in the laboratory conditions. The measured plant characteristics included fresh and dry mass, total protein, chlorophyll, carotenoid and the activity of antioxidant enzymes (CAT, APX and GPX). The age-stage, two-sex life table parameters of <em>T. urticae</em> were analyzed using TWOSEX-MSChart software. The 30 ml L<sup>-1</sup> concentration caused plant defoliation and was deleted from results. The results showed that CAT and APX enzymes activity and carotenoid concentration were significantly increased while fresh and dry mass and chlorophyll concentration were decreased in response to 10 ml L<sup>-1</sup>Fosfalim-k. In the studied life table parameters of <em>T. urticae</em>, <em>λ</em>, <em>R</em><sub>0 </sub>and <em>r </em>parameters were decreased significantly in this concentration. Hence, spraying cucumber with Fosfalim-k can decrease survival and fecundity of <em>T. urticae</em> and the suggested concentration could be 10 ml L<sup>-1</sup>.IPM is a combination of crop protection practices to keep pests below economic threshold, and one of them is to make the host plants resistant. Various parameters such as the application of fertilizers, irrigation and providing optimum conditions for host plant can benefit its resistance to pests. In order to induce resistance on cucumber (Kish var.), the foliar spray of phosphorus and potassium were incorporated for observing the <em>Tetranychus urticae</em> performance. Therefore, four Fosfalim-k concentrations (i.e. 0, 1, 10 and 30 ml L<sup>-1</sup>) were sprayed on cucumber (Kish var.) in three time intervals and the life table parameters of <em>T. urticae</em> were studied in the laboratory conditions. The measured plant characteristics included fresh and dry mass, total protein, chlorophyll, carotenoid and the activity of antioxidant enzymes (CAT, APX and GPX). The age-stage, two-sex life table parameters of <em>T. urticae</em> were analyzed using TWOSEX-MSChart software. The 30 ml L<sup>-1</sup> concentration caused plant defoliation and was deleted from results. The results showed that CAT and APX enzymes activity and carotenoid concentration were significantly increased while fresh and dry mass and chlorophyll concentration were decreased in response to 10 ml L<sup>-1</sup>Fosfalim-k. In the studied life table parameters of <em>T. urticae</em>, <em>λ</em>, <em>R</em><sub>0 </sub>and <em>r </em>parameters were decreased significantly in this concentration. Hence, spraying cucumber with Fosfalim-k can decrease survival and fecundity of <em>T. urticae</em> and the suggested concentration could be 10 ml L<sup>-1</sup>.https://iprj.guilan.ac.ir/article_3619_5132dc78890f5dc221e8f8840afc2afb.pdfUniversity of GuilanPlant Pest Research2322-24099220190823Intercropping effect of strawberry and coriander for controlling the two spotted spider mite, Tetranychus urticae (Acari: Tetranychidae)Intercropping effect of strawberry and coriander for controlling the two spotted spider mite, Tetranychus urticae (Acari: Tetranychidae)1524362010.22124/iprj.2019.3620FAS. A. A.FathiDepartment of Plant Protection, University of Mohaghegh Ardabili, Ardabil, Iran.Journal Article20190918Coriander, <em>Coriandrum sativum</em> L. abbreviated here as Co, belongs to Apiaceae which is an aromatic herbaceous annual plant. In this study, intercropping coriander with strawberry, <em>Fragaria ananassa </em>Duchesne abbreviated as S, in the two patterns 2S: 2Co and 5S: 2Co (row ratios) were assessed for controlling the two-spotted spider mite,<em> Tetranychus urticae </em>Koch, compared to strawberry. The results indicated that intercropping coriander and strawberry reduced the density of <em>T. urticae </em>eggs compared with strawberry monocropping. Furthermore, the densities of mobile forms of <em>T. urticae </em>were significantly lower in intercropping systems, especially 2S: 2Co compared with strawberry monocropping. Moreover, the land equivalent ratio (LER), which is used to assess the yield benefit in intercropping systems, was greater than 1 in intercrops, especially 2S: 2Co (1.413 in 2017 and 1.430 in 2018). These results indicated that intercropping strawberry with coriander could be beneficial in integrated management of <em>T. urticae</em> by reducing two-spotted spider mite densities and increasing the crop yields.Coriander, <em>Coriandrum sativum</em> L. abbreviated here as Co, belongs to Apiaceae which is an aromatic herbaceous annual plant. In this study, intercropping coriander with strawberry, <em>Fragaria ananassa </em>Duchesne abbreviated as S, in the two patterns 2S: 2Co and 5S: 2Co (row ratios) were assessed for controlling the two-spotted spider mite,<em> Tetranychus urticae </em>Koch, compared to strawberry. The results indicated that intercropping coriander and strawberry reduced the density of <em>T. urticae </em>eggs compared with strawberry monocropping. Furthermore, the densities of mobile forms of <em>T. urticae </em>were significantly lower in intercropping systems, especially 2S: 2Co compared with strawberry monocropping. Moreover, the land equivalent ratio (LER), which is used to assess the yield benefit in intercropping systems, was greater than 1 in intercrops, especially 2S: 2Co (1.413 in 2017 and 1.430 in 2018). These results indicated that intercropping strawberry with coriander could be beneficial in integrated management of <em>T. urticae</em> by reducing two-spotted spider mite densities and increasing the crop yields.https://iprj.guilan.ac.ir/article_3620_02105f35e4da1db5417795139f58cc59.pdfUniversity of GuilanPlant Pest Research2322-24099220190823Survey on bromopropylate acaricide resistance in the citrus red spider mite, Panonychus citri and the effect of three synergists on its resistanceSurvey on bromopropylate acaricide resistance in the citrus red spider mite, Panonychus citri and the effect of three synergists on its resistance2537362110.22124/iprj.2019.3621FAH.EmamiDepartment of Plant Protection, Faculty of Agricultural Sciences, University of Guilan, Rasht-IranM.GhadamyariDepartment of Plant Protection, Faculty of Agricultural Sciences, University of Guilan, Rasht-IranJournal Article20190918Biological characteristics of <em>Panonychus citri </em>such as life cycle, abundant progeny and arrhenotoky, have provided the pest a high potential to develop acaricidal resistance. Bromopropylate is recommended by Iranian Plant Protection Organization to control <em>P. citri. </em>In this study, resistance of <em>p. citri</em> to bromopropylate was investigated. Bioassay and synergists tests were performed with a Potter spray tower method. Results showed a resistance of 10.63 fold to bromopropylate in resistant population (RP). Pre-treatment of susceptible population (SP) of <em>P. citri</em> adult with the cytochrome P<sub>450</sub> monooxygenase inhibitor, PBO, the esterase inhibitor, TPP, and glutathione-S-transferases inhibitor, DEM, increased bromopropylate toxicity by 5.58, 5.89 and 4.59-fold, respectively, while, these ratios were as 2.44, 2.51 and 2.38-fold, respectively, for RP. The overall lower synergism in RP compared with susceptible population by DEM, PBO and TPP suggests that glutathione-S-transferases, esterases and monooxygenase are not an important factor in resistance. The results of biochemical tests revealed that the activities of monoxygenase, α-naphthyl, β-naphthyl esterases and glutathione-S-transferase in the resistant population was 1.39, 1.70, 1.83, and 1.34- fold higher than that of susceptible population, respectively. Estimation of kinetic parameters showed qualitative changes in esterase and GST. The increased activities of detoxification enzymes may be caused by application of different acaricides which are used for control of this pest in citrus gardens. Therefore, other resistance mechanisms such as reduced penetration and target site insensitivity likely is involved in the resistance. Reduced bromopropylate application as well as application of acaricides with different mode of actions are necessary for avoiding resistance development. Biological characteristics of <em>Panonychus citri </em>such as life cycle, abundant progeny and arrhenotoky, have provided the pest a high potential to develop acaricidal resistance. Bromopropylate is recommended by Iranian Plant Protection Organization to control <em>P. citri. </em>In this study, resistance of <em>p. citri</em> to bromopropylate was investigated. Bioassay and synergists tests were performed with a Potter spray tower method. Results showed a resistance of 10.63 fold to bromopropylate in resistant population (RP). Pre-treatment of susceptible population (SP) of <em>P. citri</em> adult with the cytochrome P<sub>450</sub> monooxygenase inhibitor, PBO, the esterase inhibitor, TPP, and glutathione-S-transferases inhibitor, DEM, increased bromopropylate toxicity by 5.58, 5.89 and 4.59-fold, respectively, while, these ratios were as 2.44, 2.51 and 2.38-fold, respectively, for RP. The overall lower synergism in RP compared with susceptible population by DEM, PBO and TPP suggests that glutathione-S-transferases, esterases and monooxygenase are not an important factor in resistance. The results of biochemical tests revealed that the activities of monoxygenase, α-naphthyl, β-naphthyl esterases and glutathione-S-transferase in the resistant population was 1.39, 1.70, 1.83, and 1.34- fold higher than that of susceptible population, respectively. Estimation of kinetic parameters showed qualitative changes in esterase and GST. The increased activities of detoxification enzymes may be caused by application of different acaricides which are used for control of this pest in citrus gardens. Therefore, other resistance mechanisms such as reduced penetration and target site insensitivity likely is involved in the resistance. Reduced bromopropylate application as well as application of acaricides with different mode of actions are necessary for avoiding resistance development. https://iprj.guilan.ac.ir/article_3621_2998e87011fc05146ce7050da513d1b2.pdfUniversity of GuilanPlant Pest Research2322-24099220190823Effects of bean plant density and its different cultivars on population of two spotted spider mite, Tetranychus urticae and onion thrips, Thrips tabaci in field conditionEffects of bean plant density and its different cultivars on population of two spotted spider mite, Tetranychus urticae and onion thrips, Thrips tabaci in field condition3948362210.22124/iprj.2019.3622FAA.KarimiDepartment of Plant Protection, Faculty of Agriculture, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Ahvaz, IranF.YarahmadiDepartment of Plant Protection, Faculty of Agriculture, Agricultural Sciences and Natural Resources University of Khuzestan, Mollasani, Ahvaz, IranA.Mohseni AminLorestan Agricultural and Natural Resources Research and Education Center, Boroujerd Agricultural Research and Education campus, Boroujerd, IranJournal Article20190918Common bean is cultivated for feeding in the whole world. The two-spotted spider mite, <em>Tetranychus urticae</em> Koch, and the onion thrips, <em>Thrips tabaci</em> Lindemann, are considered as the two important pests of bean and lots of pesticides are being used for their control. One of the most important strategies in integrated pest management programs is the cultural practice. In the present study the effects of cultivars and bean plant density has been taken into consideration to control these pests in a bean field in Boroujerd district, Lorestan province of Iran. This research was performed as per factorial in a completely randomized block design, with three cultivars (Akhtar, Derakhshan and 285) in five plant densities of 20, 30, 40, 50 and 60 plants per m<sup>2</sup>. Samplings were carried out weekly and in every sampling date, the number of each pest was recorded. Results showed that bean cultivars had significant impact on the number of eggs in spider mite and in total and 1<sup>st</sup> instar larval populations of onion thrips. The plant density also significantly affected populations of both the pests. Interactions between cultivar and plant density was not significant for both pests. Overall the highest and lowest population densities of the spider mite observed in the cultivar of Derakhshan with 60 plants density in every m<sup>2</sup> and then cultivar of 258 with a density of 20 plants per m<sup>2</sup> respectively. The lowest and highest total number of thrips was observed in Akhtar cultivar with 60 plants per m<sup>2</sup> and then Akhtar cultivar with a density of 20 per m<sup>2</sup>, respectively. The results of the present study could be recommended in IPM program for bean fields.Common bean is cultivated for feeding in the whole world. The two-spotted spider mite, <em>Tetranychus urticae</em> Koch, and the onion thrips, <em>Thrips tabaci</em> Lindemann, are considered as the two important pests of bean and lots of pesticides are being used for their control. One of the most important strategies in integrated pest management programs is the cultural practice. In the present study the effects of cultivars and bean plant density has been taken into consideration to control these pests in a bean field in Boroujerd district, Lorestan province of Iran. This research was performed as per factorial in a completely randomized block design, with three cultivars (Akhtar, Derakhshan and 285) in five plant densities of 20, 30, 40, 50 and 60 plants per m<sup>2</sup>. Samplings were carried out weekly and in every sampling date, the number of each pest was recorded. Results showed that bean cultivars had significant impact on the number of eggs in spider mite and in total and 1<sup>st</sup> instar larval populations of onion thrips. The plant density also significantly affected populations of both the pests. Interactions between cultivar and plant density was not significant for both pests. Overall the highest and lowest population densities of the spider mite observed in the cultivar of Derakhshan with 60 plants density in every m<sup>2</sup> and then cultivar of 258 with a density of 20 plants per m<sup>2</sup> respectively. The lowest and highest total number of thrips was observed in Akhtar cultivar with 60 plants per m<sup>2</sup> and then Akhtar cultivar with a density of 20 per m<sup>2</sup>, respectively. The results of the present study could be recommended in IPM program for bean fields.https://iprj.guilan.ac.ir/article_3622_f62042307142f23cdf9715dadb0d955d.pdfUniversity of GuilanPlant Pest Research2322-24099220190823Insecticidal effects of Moldavian dragonhead, Dracocephalum moldavica, essential oil on the parasitoid wasp Habrobracon hebetor and its hosts Anagasta kuehniella and Plodia interpunctellaInsecticidal effects of Moldavian dragonhead, Dracocephalum moldavica, essential oil on the parasitoid wasp Habrobracon hebetor and its hosts Anagasta kuehniella and Plodia interpunctella4961362310.22124/iprj.2019.3623FAA.EbadollahiDepartment of Plant Production, Moghan College of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardabil, IranV.MahdaviDepartment of Plant Protection, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili, Ardabil, Iran.Journal Article20190918<em>Habrobracon hebetor </em>Say is a larval ecto-parasitoid of several moths. In this study, toxicity of Moldavian dragonhead (<em>Dracocephalum moldavica </em>L.)essential oil on Mediterranean flour moth (<em>Anagasta kuehniella</em> Zeller), Indian meal moth (<em>Plodia interpunctella </em>Hubner) and <em>H. hebetor </em>parasitoid waspwere assessed. Essential oil of <em>D. moldavica </em>was extracted by hydrodistillation method using a Clevenger apparatus and its chemical constituents were detected by Gas Chromatography-Mass Spectrometry (GC-MS). Piperitenone Oxide (19.03%), Piperitone Oxide (13.74%) and Citral (9.79%) were identified as the main constituents of the essential oil. It was found that 50% lethal concentration (LC<sub>50</sub>) values of the essential oil against <em>H. hebetor</em>, <em>A. kuehniella </em>and <em>P. interpunctella</em> adults estimated were 0.995, 9.631 and 10.252 μl/l air, respectively. In order to assess the sub-lethal effects, adult wasps were exposed to LC<sub>25</sub> of <em>D. moldavica</em> essential oil and then the demographic parameters of live parasitoids were evaluated. The intrinsic rate of increase (<em>r</em>), finite rate of increase (<em>λ</em>), net reproductive rate (<em>R<sub>0</sub></em>), gross reproductive rate (<em>GRR</em>) and mean generation time (<em>T</em>) were significantly decreased by essential oil. Results of the present study indicated that the essential oil of <em>D. moldavica</em> can be effective in the management of <em>A. kuehniella </em>and <em>P. interpunctella</em>. However, simultaneous application of <em>D. moldavica</em> essential oil and the parasitoid wasp <em>H. hebetor</em> in the management of aforementioned pests, based on toxicity and negative demographic effects of essential oil on this parasitoid wasp is not recommended. <em>Habrobracon hebetor </em>Say is a larval ecto-parasitoid of several moths. In this study, toxicity of Moldavian dragonhead (<em>Dracocephalum moldavica </em>L.)essential oil on Mediterranean flour moth (<em>Anagasta kuehniella</em> Zeller), Indian meal moth (<em>Plodia interpunctella </em>Hubner) and <em>H. hebetor </em>parasitoid waspwere assessed. Essential oil of <em>D. moldavica </em>was extracted by hydrodistillation method using a Clevenger apparatus and its chemical constituents were detected by Gas Chromatography-Mass Spectrometry (GC-MS). Piperitenone Oxide (19.03%), Piperitone Oxide (13.74%) and Citral (9.79%) were identified as the main constituents of the essential oil. It was found that 50% lethal concentration (LC<sub>50</sub>) values of the essential oil against <em>H. hebetor</em>, <em>A. kuehniella </em>and <em>P. interpunctella</em> adults estimated were 0.995, 9.631 and 10.252 μl/l air, respectively. In order to assess the sub-lethal effects, adult wasps were exposed to LC<sub>25</sub> of <em>D. moldavica</em> essential oil and then the demographic parameters of live parasitoids were evaluated. The intrinsic rate of increase (<em>r</em>), finite rate of increase (<em>λ</em>), net reproductive rate (<em>R<sub>0</sub></em>), gross reproductive rate (<em>GRR</em>) and mean generation time (<em>T</em>) were significantly decreased by essential oil. Results of the present study indicated that the essential oil of <em>D. moldavica</em> can be effective in the management of <em>A. kuehniella </em>and <em>P. interpunctella</em>. However, simultaneous application of <em>D. moldavica</em> essential oil and the parasitoid wasp <em>H. hebetor</em> in the management of aforementioned pests, based on toxicity and negative demographic effects of essential oil on this parasitoid wasp is not recommended. https://iprj.guilan.ac.ir/article_3623_b7b4304a1f66b89f2243f9f88b283962.pdfUniversity of GuilanPlant Pest Research2322-24099220190823Interaction of hexaflumuron and flubendiamide mixture against the larvae of diamondback moth Plutella xylostellaInteraction of hexaflumuron and flubendiamide mixture against the larvae of diamondback moth Plutella xylostella6374362410.22124/iprj.2019.3624FAF.AfsariDepartment of Plant Protection, Science and Research Branch, Islamic Azad University, Tehran, IranA.SheikhigarjanIranian Research Institute of Plant Protection, Agricultural Research, Education and Extension Organization (AREEO), Tehran, Iran.S.ImaniDepartment of Plant Protection, Science and Research Branch, Islamic Azad University, Tehran, IranY.OstadiDepartment of Plant Protection, Science and Research Branch, Islamic Azad University, Tehran, IranJournal Article20190918Diamondback moth has a high potential for insecticide resistance. Usage of insecticides with different modes of action as a mixture is one of the strategies of insecticide resistance management. It can reduce the resistance development rate. In this study, hexaflumuron and flubendiamide were tested as alone and their mixture against the third instar larva of diamondback moth. Three concentrations of each insecticide were used in the mixture. The LC<sub>50</sub>’s values of hexaflumuron and flubendiamide were calculated as 1.48 and 10.27 mg L<sup>-1</sup> against the third larvae, respectively. Bioassay of both insecticide mixtures showed that the mixture at the low concentrations had a synergistic effect, whereas it was cumulative effect at the highest concentration mixture. Binary combination of flubendiamide at the lower concentration with hexaflumuron can increase larval mortality. It reduces latent effectiveness of hexaflumuron and causes to decrease crop loss after treatment. Therefore, the use of mixed insecticides in IPM of diamondback moth is possible only with expert advice in the limited concentrations of them.Diamondback moth has a high potential for insecticide resistance. Usage of insecticides with different modes of action as a mixture is one of the strategies of insecticide resistance management. It can reduce the resistance development rate. In this study, hexaflumuron and flubendiamide were tested as alone and their mixture against the third instar larva of diamondback moth. Three concentrations of each insecticide were used in the mixture. The LC<sub>50</sub>’s values of hexaflumuron and flubendiamide were calculated as 1.48 and 10.27 mg L<sup>-1</sup> against the third larvae, respectively. Bioassay of both insecticide mixtures showed that the mixture at the low concentrations had a synergistic effect, whereas it was cumulative effect at the highest concentration mixture. Binary combination of flubendiamide at the lower concentration with hexaflumuron can increase larval mortality. It reduces latent effectiveness of hexaflumuron and causes to decrease crop loss after treatment. Therefore, the use of mixed insecticides in IPM of diamondback moth is possible only with expert advice in the limited concentrations of them.https://iprj.guilan.ac.ir/article_3624_1e710c3ff67d4d1cc60a306e69f8bb39.pdfUniversity of GuilanPlant Pest Research2322-24099220190823First report of damage caused by yellow broad mite Polyphagotarsonemus latus (Acari: Tarsonemidae) from tea gardens in Guilan provinceFirst report of damage caused by yellow broad mite Polyphagotarsonemus latus (Acari: Tarsonemidae) from tea gardens in Guilan province7579362510.22124/iprj.2019.3625FAS.RamziTea Research center, Horticultural Science Research Institute, Agricultural Research, Education and Extension organization (AREEO), Lahijan, IranJ.HajizadehDepartment of Plant Protection, Faculty of Agricultural sciences, University of Guilan, Rasht, IranE.DaghighiDoctoral graduate of University of Bremen, GermanyJournal Article20190918During 2018- 2019 in a research entitled the identification of arthropods associated with tea, some samples of leaves and branches of tea plant infected by broad mite (Tarsonemidae) were collected. Mites were separated from infected plant parts, cleared in Nesbit’s fluid and mounted on microscopic slides in Hoyer’s medium. Mites were identified by using valid references. Among collected mites, <em>Polyphagotarsonemus latus</em> (Banks, 1904) was identified for the first time from Guilan province on tea plant. The symptoms of damage are diagnosed by deformity, curling, darkening and thickness of leaves and deformation of tip branches and buds. The damage of broad mite is so severe on tip branches and buds of tea plant. This is the first report of yellow broad mite (<em>Polyphagotarsonemus latus</em>) on tea plant in Northern Iran tea gardens.During 2018- 2019 in a research entitled the identification of arthropods associated with tea, some samples of leaves and branches of tea plant infected by broad mite (Tarsonemidae) were collected. Mites were separated from infected plant parts, cleared in Nesbit’s fluid and mounted on microscopic slides in Hoyer’s medium. Mites were identified by using valid references. Among collected mites, <em>Polyphagotarsonemus latus</em> (Banks, 1904) was identified for the first time from Guilan province on tea plant. The symptoms of damage are diagnosed by deformity, curling, darkening and thickness of leaves and deformation of tip branches and buds. The damage of broad mite is so severe on tip branches and buds of tea plant. This is the first report of yellow broad mite (<em>Polyphagotarsonemus latus</em>) on tea plant in Northern Iran tea gardens.https://iprj.guilan.ac.ir/article_3625_cdff9c27be1001993fbe23cd0c540ac6.pdf