Details

Title

An evaluation of the effect of botanical insecticide, palizin in comparison with chemical insecticide, imidacloprid on the black citrus aphid, Toxoptera aurantii Boyer de Fonscolombe and its natural enemy, Aphidius colemani Viereck

Journal title

Journal of Plant Protection Research

Yearbook

2017

Numer

No 2

Publication authors

Divisions of PAS

Nauki Biologiczne i Rolnicze

Publisher

Polish Society of Plant Protection ; Committee of Plant Protection PAS ; Institute of Plant Protection – National Research Institute

Date

2017

Identifier

ISSN 1427–4345 ; eISSN 1899–007X

References

Gholamzadeh (2015), Effects of sublethal concentration of diazinon fenitrothion and chlorpyrifos on demographic and some biochemical parameters of predatory bug Andrallus spinidensFabricius in laboratory conditions of, International Journal Pest Management, 61, 204. ; Carver (1978), The black citrus aphidsToxoptera citridus andT aurantii de Fonscolombe ) of the Australian Entomological, Journal Society, 17, 263. ; Baniameri (2008), Study of the efficacy of different concentrations of insecticidal soap in comparison oxydemeton - methyl to controlAphis gossypiiin greenhouse cucumber IOBC WPRS, Bulletin, 32, 13. ; Sohail (2012), Efficacy of different botanical materials against aphidToxoptera aurantiion tea ( Camellia sinensisL ) cuttings under high shade nursery of Materials and Environmental, Journal Science, 3, 1065. ; Erdogan (2016), Insecticidal activity of three different plant extracts on the green peach aphid persicaeSulzer of Entomology Research, Journal Society, 18, 27. ; Henderson (1955), Test with acaricides against the brown wheat mite of, Journal Economic Entomology, 48, 157. ; Galvan (2005), Toxicity of commonly used insecticides in sweet corn and soybean to multicolored Asian lady beetle of, Journal Economic Entomology, 98, 780. ; Erdogan (2012), Investigations on the effects of five different plant extracts on the two - spotted miteTetranychus urticaeKoch ID pp http / dx doi org, Psyche, 5. ; Irshaid (2011), Bioresidual effect of two insecticides on melon aphidAphis gossypiiGlover and its parasitoidAphidius colemaniVerick American - Eurasian Journal of Agriculture and Environmental, Sciences, 11, 228. ; Pirali (2010), Lavandula angustifoliaessential oil as a novel and promising natural candidate for tick annulatus ) control, Experimental Parasitology, 126, 184. ; Isman (2006), Botanical insecticides deterrents and repellents in modern agriculture and an increasingly regulated world of, Annual Review Entomology, 51, 45. ; Ahmadi (2012), Evaluating the effect of some botanical insecticides on the citrus mealybugPlanococcus citri of, African Journal Biotechnology, 11, 11620. ; Helmy (2012), The usage of mineral oils to control insects Egyptian Academic Journal of Biological, Sciences, 5, 167. ; Lai (2010), Antifeedant and toxic avctivities ofAllium sativumethanol extracts againstMyzus persicae of Fujian Agriculture and Foresty University, Journal, 39, 15. ; Pavela (2009), Effectiveness of some botanical insecticides againstSpodoptera littoralisBoisduvala Myzus persicaeSulzer andTetranychus urticae Plant Protection, Science, 45, 161. ; Kim (2005), Screening of some crude plant extracts for their acaricidal and insecticidal efficacies of Asia - Pasific Entomology, Journal, 8, 93. ; Abbott (1925), A method of comparing the effectiveness of an insecticide of, Journal Economic Entomology, 18, 265. ; Sheibani (2014), The toxicity investigation of the botanical insecticides on the common pistachio psyllid Agonoscena pistaciaeBurckhardt and Lauterer of, Journal Nuts, 5, 57. ; Kabiri (2012), Toxicity of palizin mospilan and consult onAgonoscena pistaciaeBurckhardt and Lauterer Oenopia conglobataL andPsyllaephagus pistaciaeFerrière Academic Journal of, Entomology, 5, 99. ; Bhathal (1994), Insecticidal activity ofAgeratum conyzoidesLinnaeus againstLipaphis erysimiKalt of Insect, Journal Science, 7, 35. ; Moore (1979), Soaps for home landscape insect control, California Agriculture, 37, 13. ; Rouhani (2013), Toxicity of new insecticides against pomegranate aphid Aphis punicae International Research Journal of Applied and Basic, Science, 4, 496. ; Pike (1993), Compatibility of imidacloprid with fungicides as a seed - treatment control of Russian wheat aphid and effect on germination growth and yield of wheat and barley of, Journal Economic Entomology, 86, 586. ; Gholamzadeh (2012), Effects of amitraz buprofezin and propargite on some fitness parameters of the parasitoidEncarsia formosa using life table and IOBC methods of Entomological Society of Iran, Journal, 31, 1. ; Gaber (2015), Field efficiency and selectivity effects of selected insecticides on cotton aphid Aphis gossypiiGlover and its predators of Phytopathology Pest, Journal Management, 2, 22. ; Khattak (2004), Efficacy of certain insecticides against some sucking insect pests of mungbean radiataL Pakistan Entomology, Journal, 26, 75. ; Abdel (2007), Toxicity of selected insecticides to green peach aphid Myzus persicae and its parasitoid Aphidius matricariae American - Eurasian Journal of Agricultural and Environmental, Sciences, 2, 498. ; Gholamzadeh (2012), Effects of amitraz on the parasitoidEncarsia formosa for control ofTrialeurodes vaporariorumWestwood : IOBC methods of Entomological Research, Journal Society, 14, 61. ; Shivanna (2011), Bioefficacy of new insecticides against sucking insect pests of transgenic cotton of Natural, International Journal Science, 2, 79. ; Golmohammadi (2015), To study the effect of imidacloprid on parasitoid waspAphidius colemaniViereck under laboratory conditions Pesticides in Plant Protection ( in Persian with English summary, Sciences, 2, 350. ; Sertkaya (2010), Acaricidal activities of the essential oils from several medicinal plants against the carmine spider mite cinnabarinusBoisd and, Industrial Crops Products, 31, 107.

DOI

10.1515/jppr-2017-0013

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