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PUBMED FOR HANDHELDS

Journal Abstract Search


211 related items for PubMed ID: 23616278

  • 21. Thiamethoxam resistance selected in the western flower thrips Frankliniella occidentalis (Thysanoptera: Thripidae): cross-resistance patterns, possible biochemical mechanisms and fitness costs analysis.
    Gao CF, Ma SZ, Shan CH, Wu SF.
    Pestic Biochem Physiol; 2014 Sep; 114():90-6. PubMed ID: 25175655
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  • 22. Predator-prey relationships on Apiaceae at an organic farm.
    Shirk PD, Shapiro JP, Reitz SR, Thomas JM, Koenig RL, Hay-Roe MM, Buss LJ.
    Environ Entomol; 2012 Jun; 41(3):487-96. PubMed ID: 22732606
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  • 23. Potential new insecticides for the control of western flower thrips (Thysanoptera: Thripidae) on sweet pepper, tomato, and lettuce.
    Broughton S, Herron GA.
    J Econ Entomol; 2009 Apr; 102(2):646-51. PubMed ID: 19449645
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  • 24. Frankliniella occidentalis (Pergande) integrated pest management programs for fruiting vegetables in Florida.
    Demirozer O, Tyler-Julian K, Funderburk J, Leppla N, Reitz S.
    Pest Manag Sci; 2012 Dec; 68(12):1537-45. PubMed ID: 23109226
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  • 25. Spinosad resistance, esterase isoenzymes and temporal synergism in Frankliniella occidentalis (Pergande) in Australia.
    Herron GA, Gunning RV, Cottage EL, Borzatta V, Gobbi C.
    Pestic Biochem Physiol; 2014 Sep; 114():32-7. PubMed ID: 25175647
    [Abstract] [Full Text] [Related]

  • 26. Cadmium contamination triggers negative bottom-up effects on the growth and reproduction of Frankliniella occidentalis (Thysanoptera: Thripidae) without disrupting the foraging behavior of its predator, Orius sauteri (Heteroptera: Anthocoridae).
    Liu J, Di N, Zhang K, Trumble JT, Zhu Z, Wang S, Zang L.
    Environ Sci Pollut Res Int; 2023 Mar; 30(15):43126-43136. PubMed ID: 36648731
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  • 29. The inappropriate application of imidacloprid destroys the ability of predatory natural enemies to control pests in the food chain: A case study of the feeding behavior of Orius similis on Frankliniella occidentalis.
    Li Y, Zhang B, Zhang J, Yang N, Yang D, Zou K, Xi Y, Chen G, Zhang X.
    Ecotoxicol Environ Saf; 2024 Mar 01; 272():116040. PubMed ID: 38306817
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  • 31. Using organic-certified rather than synthetic pesticides may not be safer for biological control agents: selectivity and side effects of 14 pesticides on the predator Orius laevigatus.
    Biondi A, Desneux N, Siscaro G, Zappalà L.
    Chemosphere; 2012 May 01; 87(7):803-12. PubMed ID: 22342338
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  • 32. Effect of Integrating the Entomopathogenic Fungus (Hypocreales: Cordycipitaceae) and the Rove Beetle (Coleoptera: Staphylinidae) in Suppressing Western Flower Thrips (Thysanoptera: Thripidae) Populations Under Greenhouse Conditions.
    Li Y, Cloyd RA, Bello NM.
    J Econ Entomol; 2019 Sep 23; 112(5):2085-2093. PubMed ID: 31115452
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  • 34. Supplemental food that supports both predator and pest: a risk for biological control?
    Leman A, Messelink GJ.
    Exp Appl Acarol; 2015 Apr 23; 65(4):511-24. PubMed ID: 25349063
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  • 35. Survival and behavior of the insecticide-exposed predators Podisus nigrispinus and Supputius cincticeps (Heteroptera: Pentatomidae).
    de Castro AA, Corrêa AS, Legaspi JC, Guedes RN, Serrão JE, Zanuncio JC.
    Chemosphere; 2013 Oct 23; 93(6):1043-50. PubMed ID: 23880241
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  • 36. Compatibility of reduced-risk insecticides with the non-target predatory mite Iphiseius degenerans (Acari: Phytoseiidae).
    Döker İ, Pappas ML, Samaras K, Triantafyllou A, Kazak C, Broufas GD.
    Pest Manag Sci; 2015 Sep 23; 71(9):1267-73. PubMed ID: 25298132
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