Tytuł artykułu

Fumigant Toxicity of Essential Oil from Carum Copticum Against Indian Meal Moth, Plodia Interpunctella

Tytuł czasopisma

Journal of Plant Protection Research

Rocznik

2008

Wolumin

vol. 48

Numer

No 4

Autorzy

Mohammad Shojaaddini ; Saeid Moharramipour ; Bibi Sahaf

Wydział PAN

Nauki Biologiczne i Rolnicze

Wydawca

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

Data

2008

Identyfikator

DOI: 10.2478/v10045-008-0050-5 ; ISSN 1427-4345 ; eISSN 1899-007X

Źródło

Journal of Plant Protection Research; 2008; vol. 48; No 4

Referencje

Abbott W. (1925), A method for computing the effectiveness of an insecticide, J. Econ. Entomol, 18, 265, doi.org/10.1093/jee/18.2.265a ; Adams R. (1995), Identification of essential oil components by gas chromatography/mass spectroscopy, 469. ; Cavalcanti E. (2004), Larvicidal activity of essential oils from Brazilian plants against <i>Aedes aegypti</i>, L. Mem. Inst. Oswaldo Cruz, Rio de Janeiro, 99, 541, doi.org/10.1590/S0074-02762004000500015 ; Cline L. (1978), Penetration of seven common flexible packing materials by larvae and adults of eleven species of stored-product insects, J. Econ. Entomol, 71, 726. ; Cuperus G. (1990), Management practices in a high-risk stored-wheat system in Oklahoma, Am. Entomol, 36, 129. ; Doud C. (2000), Activity of <i>Plodia interpunctella</i> (Lepidoptera:Pyralidae) in and around flour mills, J. Econ. Entomol, 93, 1842. ; Enan E. (2001), Insecticidal activity of essential oils: octopaminergic sites of action, Comp. Biochem. Physiol. Part C, 130, 325. ; Erler F. (2007), Working Group "Integrated Protection of Stored Products", 30, 281. ; Evans P. (1980), Biogenic amines in the insect nervous system, Adv. Insect Physiol, 15, 317. ; Finney D. (1971), Probit analysis, 333. ; Gersbach P. (2002), Non-invasive localization of thymol accumulation in <i>Carum copticum</i> (Apiaceae) fruits by chemical shift selective magnetic resonance imaging, Ann. Bot, 90, 253. ; Johnson J. (1992), Effect of diet and temperature on development rates, survival, and reproduction of the Indian meal moth (Lepidoptera: Pyralidae), J. Econ. Entomol, 85, 561. ; Kim D. (2001), Contact and fumigant activities of constituents of <i>Foeniculum vulgare</i> fruit against three coleopteran stored-product insects, Pest Manag. Sci, 57, 301. ; Lecato G. (1976), Yield, development, and weight of <i>Cadra cautella</i> (Walker) and <i>Plodia interpunctella</i> (Hübner) on twenty-one diets derived from natural products, J. Stored Prod. Res, 12, 43. ; Lee S. (2001), Fumigant toxicity of volatile natural products from Korean spices and medicinal plants towards the rice weevil, <i>Sitophilus orysae</i> (L), Pest Manag. Sci, 57, 548. ; Locatelli D. (1998), Development of <i>Ephestia kuehniella, Plodia interpunctella</i> and <i>Cotcyra cephalonia</i> (Lepidoptera: Pyralidae) on kernels and whole meal flours of <i>Fagopyrum esculentum</i> and <i>Triticum aestivum.</i>, J. Stored Prod. Res, 34, 269, doi.org/10.1016/S0022-474X(98)00008-3 ; Minija J. (2002), Essential oil composition of <i>Trachyspermum ammi</i> (L) Sprague from South India, Indian J. Pharmaceut. Sci, 64, 250. ; Mullen M. (1979), Time-temperature-mortality relationships for various stored product insect eggs and chilling times for selected commodities, J. Econ. Entomol, 72, 476. ; Na J. (2000), The influence of temperature on development of <i>Plodia interpunctella</i> (Lepidoptera: Pyralidae) on dried vegetable commodities, J. Stored Prod. Res, 36, 125. ; Nansen C. (2004), Attractancy and toxicity of an attracticide for Indian meal moth, <i>Plodia interpunctella</i> (Lepidoptera: Pyralidae), J. Econ. Entomol, 97, 703. ; Nansen C. (2004), Comparison of direct and indirect sampling procedures <i>Plodia interpunctella</i> in a corn storage facility, J. Stored Prod. Res, 40, 151. ; Negahban M. (2006), Insecticidal activity and chemical composition of <i>Artemisia sieberi</i> Besser essential oil from Karaj, Iran, J. Asia-Pacific Entomol, 9, 61. ; Negahban M. (2007), Fumigant toxicity of essential oil from <i>Artemisia sieberi</i> Besser against three stored-product insects, J. Stored Prod. Res, 43, 123. ; Orchard I. (1982), Octopamine in insects: neurotransmitter, neurohormone and neuromodulator, Can. J. Zool, 60, 659. ; Popławski J. (2000), Feeding-deterrent activity of α-asarone isomers against some stored Coleoptera, Pest Manag. Sci, 56, 560. ; Rani P. (2004), Antimicrobial evaluation of some medicinal plants for their antienteric potential against multi-drug resistant <i>Salmonella typhi.</i>, Phytother. Res, 18, 670. ; Sahaf B. (2007), Chemical constituents and fumigant toxicity of essential oil from <i>Carum copticum</i> against two stored product beetles, Insect Sci, 14, 213. ; Sauer J. (2002), High temperature controlled atmosphere for post-harvest control of Indian meal moth (Lepidoptera: Pyralidae) on preserved flowers, J. Stored Prod. Res, 95, 1074. ; Shaaya E. (1997), Plant oils as fumigants and contact insecticides for the control of stored- product insects, J. Stored Prod. Res, 33, 7. ; Shojaaddini M. (2005), Effects of different photoperiods on some biological parameters of Indian meal moth <i>Plodia interpunctella</i> (Hubner) (Lepidoptera: Pyralidae) on fried and unfried pistachio cultivars, Turkish J. Entomol, 29, 279. ; Singh G. (1993), Essential oils: a potent source of natural pesticides, J. Sci. Indust. Res, 52, 676. ; Thangam C. (2003), Antiinflammatory potential of the seeds of <i>Carum copticum</i> Linn, Indian J. Pharmacol, 35, 388. ; Tunc I. (2000), Ovicidal activity of essential oils from five plants against two stored-product insects, J. Stored Prod. Res, 36, 161.