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Tineola bisselliella

December 01, 2023

Tineola bisselliella, known as the common clothes moth, webbing clothes moth, or simply clothing moth, is a species of fungus moth (family Tineidae, subfamily Tineinae). It is the type species of its genus Tineola and was first described by the Swedish entomologist Arvid David Hummel in 1823. The specific name is commonly misspelled biselliella – for example by G. A. W. Herrich-Schäffer, when he established Tineola in 1853.[1][2]

Tineola bisselliella
Scientific classification
Domain: Eukaryota
Kingdom: Animalia
Phylum: Arthropoda
Class: Insecta
Order: Lepidoptera
Family: Tineidae
Genus: Tineola
Species:
T. bisselliella
Binomial name
Tineola bisselliella
(Hummel, 1823)
Synonyms

Numerous, see text

The larvae (caterpillars) of this moth are considered a serious pest, as they can derive nourishment from clothing – in particular wool, but many other natural fibres – and also, like most related species, from stored foods, such as grains.

Description edit

Tineola bisselliella is a small moth of 6–7 mm (0.24–0.28 in) body length and 9–16 mm (0.35–0.63 in) wingspan[3] (most commonly 12–14 mm or 0.47–0.55 in).[4] The head is light ferruginous ochreous, sometimes brownish-tinged. Forewings pale yellowish-ochreous ; base of costa fuscous. Hindwings ochreous grey-whitish.[5] [6], (it is distinguished from similar species by its yellow-brown or ochreous colouring and red-orange tuft of hair on the head).[7]

Life cycle edit

Females lay eggs in clusters of between 30 and 200 which adhere to surfaces with a gelatin-like glue. These hatch between four and ten days later into near-microscopic white caterpillars which immediately begin to feed. They will also spin mats under which to feed without being readily noticed and from which they will partially emerge at night or under dark conditions to acquire food. Development to the next stage takes place through between five and 45 instars typically over the course of between one month and two years until the pupal stage is reached. At this point, the caterpillars spin cocoons and spend another approximately 10–50 days developing into adults.[8]

After pupation is complete, the adult moths emerge and begin searching for mates. Females tend to move less than males, and both sexes prefer scuttling over surfaces to flying— some adults never fly at all. Adults can live for an additional 15–30 days, after which they die (otherwise death takes place shortly after mating for males and shortly after egg laying for females). Life cycle may be completed within one month under the most favorable conditions (75 °F (24 °C) and 70-75% relative humidity) but may take several years (lower temperatures and humidity will only slow development, larvae will still hatch and grow at temperatures as low as 10 °C (50 °F) and can survive up to 33 °C (91 °F)).[9][10]

Unlike the caterpillars, the adult moths do not feed: they acquire all of the nutrition and moisture they need while in the larval stage, and once they hatch from cocoons their only goal is to reproduce. They have only atrophied mouth parts and cannot feed on fabric or clothing. All feeding damage is done by the caterpillar (larval) form.[11] Heated buildings allow clothes moths to develop year-round. The overall life cycle from egg to egg typically takes 4–6 months, with two generations per year.[11]

Range and ecology edit

 
Adult specimen
 
Larval form
 
Closeup of a common clothes moth
 
Macrophotography of a freshly laid, non-sticky egg measuring less than 1 mm
 
Two T. bisselliella mating

This moth's natural range is the western Palearctic, but it has been transported by human travelers to other localities. For example, it is nowadays found in Australia. The species' presence has not been recorded in France, Greece, Slovenia and Switzerland, though this probably reflects the lack of occurrence data rather than absence.[12]

This species is notorious for feeding on clothing and natural fibers; they have the ability to digest keratin protein in wool and silk. The moths prefer dirty fabric for oviposition and are particularly attracted to carpeting and clothing that contains human sweat or other organic liquids which have been spilled onto them; traces of dirt may provide essential nutrients for larval development. Larvae are attracted to these areas not only for the food but for traces of moisture; they do not require liquid water.[8]

The range of recorded foodstuffs includes linen, silk and wool fabrics as well as furs. They will eat synthetic and cotton fibers if they are blended with wool and may use some cotton to build their cocoon.[11] Furthermore, they have been found on shed feathers and hair, bran, semolina and flour (possibly preferring wheat flour), biscuits, casein, and insect specimens in museums. In one case, living T. bisselliella caterpillars were found in salt. They had probably accidentally wandered there, as even to such a polyphagous species as this one pure sodium chloride has no nutritional value and is in fact a strong desiccant, but this still attests to their robustness.[13] Unfavorable temperature and humidity can slow development, but will not always stop it.

Both adults and larvae prefer low light conditions. Whereas many other Tineidae are drawn to light, common clothes moths seem to prefer dim or dark areas. If larvae find themselves in a well-lit room, they will try to relocate under furniture or carpet edges. Handmade rugs are a favorite, because it is easy for the larvae to crawl underneath and do their damage from below. They will also crawl under moldings at the edges of rooms in search of darkened areas where fibrous debris has gathered and which consequently hold good food.[11][8]

 
Close-up photo showing the compound eyes of T. bisselliella

Pest control edit

Airtight containers should be used to prevent re-infestation once eggs, larvae, and moths are killed by any of these methods.[14] Control measures for T. bisselliella (and similar species) include the following:

  • Anoxic measures work by displacing oxygen with an inert gas, asphyxiating the insects
    • Carbon dioxide anoxia – Similar to cryofumigation, but using compressed dry carbon dioxide gas to exclude oxygen[15] Treatment for one week at 25 °C (77 °F) is recommended.[16]
    • Nitrogen anoxia – Similar to cryofumigation, but using dry nitrogen gas to exclude oxygen[17] This process may cost more than carbon dioxide treatment.[18]
    • Argon anoxia – Similar to cryofumigation, but using dry argon gas to exclude oxygen. This process may cost more than carbon dioxide treatment.[18]
  • Physical measures
    • Brushing vigorously in bright light can dislodge eggs and larvae, which may drop to the ground.[11]
    • Clothing moth traps – Usually consisting of adhesive-lined cardboard enclosures baited with artificial pheromones, this measure can help monitor the current infestation and prevent males from mating with females.[11] Only males are drawn to the traps.
    • Dry cleaning – This kills moths on existing clothing and helps remove moisture from clothes.[11]
    • Freezing – Freezing the object for several days at temperatures below 18 °F (−8 °C) to kill larvae.[11][19] However, eggs survive freezing to -23 °C.[20]
    • Heat (120 °F or 49 °C for 30 minutes or more)[11] – these conditions may possibly be achieved by placing infested materials in an attic or sun-baked automobile in hot weather, or by washing clothes at or above this temperature. Specialist pest controllers can also provide various methods of heat treatment.
    • Vacuuming – Since the moths like to hide in carpeting and baseboards (skirting), this is an important step towards full eradication. After thorough vacuuming, the bag should immediately be disposed of outside.[11]
    • Burning – fire will destroy any live insects or larvae.
  • Mothproofing chemicals – Treatment of materials as a preventive measure before their use, as well as simply for storage, has a long history.[21] Arsenical compounds were effective in killing larvae but were considered too toxic for human contact even in the early twentieth century. Triphenyltin chloride was effective at 0.25%. After 1947, chlorinated hydrocarbon insecticides of many varieties were found to be effective at the low concentrations practical for preservative treatment.[21] Examples are chlordane at 2% per weight of wool, toxaphene at 0.8%, pentachlorophenol or BHC at 0.5%, DDT at 0.2%, chlordecone and mirex at 0.06%, and dieldrin at 0.05%. Imidazole (a non-chlorinated aromatic heterocyclic) at 1% also gave satisfactory protection. A chemically related molecule, econazole nitrate, was found to exhibit strong anti-feeding properties against the common clothes moth.[22] Besides solvent-based applications, insecticidal dusts were commonly used to treat fabrics. In the 1950s EQ-53, a DDT emulsion, was recommended by the US Department of Agriculture to add to the final rinse of washable woolens, but even then cautions were given to the use of chlorinated hydrocarbons on items subject to commercial drycleaning. The 1985 United States EPA ban on most uses of Aldrin and Dieldrin exempted moth-proofing in a closed manufacturing process.[23] Triazole, thiazole, and imidazole derivatives have an anti-feeding effect on Tineola bisselliella larvae when wool is treated with these compounds. At 3% on mass of wool, both epoxiconazole and econazole nitrate protect wool fabric from Tineola bisselliella to the standard specified by Wools of New Zealand Test Method 25 (based on ISO 3998-1977(E).[24]
  • Mothballs – Used primarily as a preservative but also will kill existing larvae if the concentration is high enough. There are two types of mothball: early twentieth century ones were often based on naphthalene, while mid twentieth century ones often used paradichlorobenzene. Both chemical crystals sublimate into a gas, which is heavier than air and needs to reach a high concentration around the protected material to be effective. Disadvantages: Vapors are toxic and carcinogenic; mothballs are poisonous and should not be put where they can be eaten by children or pets. Naphthalene mothballs are also highly flammable.
  • Insecticides – Typically aerosol application works best[citation needed] if coverage is adequate. Treat once a month for the first three months and then once a quarter for the next year to ensure the infestation is under control.[citation needed]
    • Permethrin – A particular synthetic pyrethroid available as aerosol spray. Disadvantages: very toxic to cats and fish. As Tineola bisselliella is the major worldwide pest for woollen products, permethrin-based agents have been commercialised for the protection of wool from this and other keratinophagous species.[25]
    • Pyrethroids or pyrethrins (e.g. Cy-Kick, Deltamethrin, and d-Phenothrin which is used in 'Raid' fly spray[26] ) – Synthetic or natural pyrethrins available as aerosol spray or as dusts. Disadvantages: some are persistent in the ecosystem and toxic to fish, possibly resistance.
    • Pyriproxyfen (or other juvenile hormone analogs) – Stops the life cycle by preventing the caterpillars from pupating.
    • Bifenthrin - A synthetic pyrethroid commercialised as an alternative to permethrin, for the protection of woollen products from Tineola bisselliella and other species.[25]
    • Chlorfenapyr - A halogenated pyrrole insecticide commercialised as an alternative to synthetic pyrethroid insecticides in the protection of woollen products from Tineola bisselliella and other species.[25]
  • Biological measures
    • Camphor – Possibly safer alternative to mothballs.[27]
    • Eastern red cedar – Questionable value as long-term deterrent. While the volatile oil is able to kill small larvae, it is difficult to maintain sufficient concentrations of it around stored articles to be effective; cedar wood loses all moth-suppressant capabilities after a few years.[11] Distilled red cedar oil is commercially available to renew dried-out cedar wood. Airtight construction is more important than the type of wood used to make a container.[11]
    • Lavender – Either bags with dried lavender flowers are put into the wardrobe (they can be refreshed by putting a few drops of lavender oil on them), or a few drops of lavender oil are put on a piece of fabric which is then deposited in the wardrobe and periodically refreshed.[citation needed] Disadvantage: strong "perfumed" smell.
    • Trichogrammatid wasps (e.g. Trichogramma evanescens) – Tiny parasitoid wasps which place their own eggs inside those of the moths; their larvae eat the moth eggs. Trichogrammatid wasps are harmless to humans, measuring only about 2 millimetres (0.079 in). Once moth eggs are eaten, the wasps vanish within 2–4 weeks.

Synonyms edit

The common clothes moth is such a widespread and frequently seen species that it has been described time and again under a variety of junior synonyms and other now-invalid scientific names:[28][29]

  • Tinea biselliella Staudinger, 1899 (lapsus)
  • Tinea bisselliella Hummel, 1823
  • Tinea crinella Sodoffsky, 1830
  • Tinea destructor Stephens, 1825
  • Tinea flavifrontella Thunberg, 1794 (non Denis & Schiffermüller, 1775: preoccupied)
  • Tinea lanariella Clemens, 1859
  • Tinea vestianella (sensu auct., non Linnaeus, 1758: preoccupied)
  • Tineola furciferella Zaguljaev, 1954

References edit

  1. ^ Pitkin, Brian; Jenkins, Paul (2004). "Tineola". Butterflies and Moths of the World, Generic Names and their Type-species. 2004-11-05. doi:10.5519/s93616qw. Retrieved 2020-02-13.
  2. ^ Savela, Markku (2018). "Tineola". Markku Savela's Lepidoptera and some other life forms. 2018-12-28. Retrieved 2020-02-13.
  3. ^ "11. Tineidae". Stichting Tinea. Tinea Foundation. Retrieved 2 May 2019.
  4. ^ "Species Tineola bisselliella - Webbing Clothes Moth - Hodges#426". Bugguide. Iowa State University. Retrieved 2 May 2019.
  5. ^ Meyrick, E., 1895 A Handbook of British Lepidoptera MacMillan, London pdf   This article incorporates text from this source, which is in the public domain. Keys and description
  6. ^ Reinhard Gaedike, 2019 Tineidae II : Myrmecozelinae, Perissomasticinae, Tineinae, Hieroxestinae, Teichobiinae and Stathmopolitinae Microlepidoptera of Europe, vol. 9. Leiden : Brill
  7. ^ VanRyckeghem, Alain. "Bad Bugs: Clothes Moths". insectslimited. Retrieved 2 May 2019.
  8. ^ a b c (PDF). MuseumPests.net. Integrated Pest Management Working Group. Archived from the original (PDF) on 2015-03-21. Retrieved 2015-05-20.
  9. ^ John A. Jackman; Bastiaan M. Drees (1 March 1998). A Field Guide to Common Texas Insects. Taylor Trade. p. 227. ISBN 978-1-4616-2291-8.
  10. ^ Jane Merritt; Julie A. Reilly (16 January 2010). Preventive Conservation for Historic House Museums. Rowman Altamira. p. 112. ISBN 978-0-7591-1941-3.
  11. ^ a b c d e f g h i j k l Choe, D.-H. "Clothes moths". UC IPM Online. Agriculture and Natural Resources, University of California. Retrieved 2014-09-15.
  12. ^ ABRS (2008), FE (2009)
  13. ^ Grabe, Albert (1942). "Eigenartige Geschmacksrichtungen bei Kleinschmetterlingsraupen" [Strange tastes among micromoth caterpillars] (PDF). Zeitschrift des Wiener Entomologen-Vereins (in German). 27: 105–109.
  14. ^ "Solutions: Isolation/Bagging". MuseumPests.net. Integrated Pest Management Working Group. Retrieved 2015-05-20.
  15. ^ "Solutions: Carbon Dioxide Treatment". MuseumPests.net. Integrated Pest Management Working Group. Retrieved 2015-05-20.
  16. ^ "Insect Mortality under Anoxia". Keepsafe. Keepsafe Microclimate Systems. Retrieved 2015-05-20.
  17. ^ Daniel, Vinod; et al. (25 October 1993). "Nitrogen Anoxia of The Back Seat Dodge 38: A Pest Eradication Case Study". WAAC Newsletter. Retrieved 2011-07-29.
  18. ^ a b "Solutions: Nitrogen/Argon Gas Treatment". MuseumPests.net. Integrated Pest Management Working Group. Retrieved 2015-05-20.
  19. ^ "Solutions: Low Temperature Treatment". MuseumPests.net. Integrated Pest Management Working Group. Retrieved 2015-05-20.
  20. ^ Arnault, Ingrid; Decoux, Michael; Meunier, Emilie; Hebbinckuys, Tom; MacRez, Stephane; Auger, Jacques; De Reyer, Dominique (2012-07-01). "Comparison in vitro and in vivo efficiencies of three attractant products against webbing clothes moth Tineola bisselliella (Hummel) (Lepidoptera: Tineidae)". Journal of Stored Products Research. 50: 15–20. doi:10.1016/j.jspr.2012.03.004. ISSN 0022-474X.
  21. ^ a b Prakash, Om; Banerjee, J.; Parthasarathy, L. (July 1979), "Preservation of Woollens Against Clothes Moths and Carpet Beetles" (PDF), Defense Science Journal, 29: 147–150
  22. ^ Sunderland, Matthew Richard; Cruickshank, Robert Hamish; Leighs, Samuel J. (2014). "The efficacy of antifungal azole and antiprotozoal compounds in protection of wool from keratin-digesting insect larvae". Textile Research Journal. 84 (9): 924–931. doi:10.1177/0040517513515312. S2CID 135799368.
  23. ^ "Aldrin/Dieldrin". US Environmental Protection Agency.
  24. ^ Sunderland, M. R.; Cruickshank, R. H.; Leighs, S. J. (2014). “The efficacy of antifungal azole and antiprotozoal compounds in protection of wool from keratin-digesting insect larvae”. Textile Research Journal 84 (9): 924–931. http://trj.sagepub.com/content/84/9/924
  25. ^ a b c Ingham, P. E.; McNeil, S. J.; Sunderland, M. R. (2012). "Functional finishes for wool – Eco considerations". Advanced Materials Research, 441: 33–43. http://www.scientific.net/AMR.441.33
  26. ^ "Raid Ingredients".
  27. ^ Ghosh, G.K. (2000). Biopesticide and Integrated Pest Management. APH Publishing. ISBN 978-8-176-48135-9.
  28. ^ Australian Biological Resources Study (ABRS) (2008). "Tineola bisselliella". Australian Faunal Directory. 2008-10-09. Retrieved 2010-05-06.
  29. ^ Beccaloni, G.; Scoble, M.; Kitching, I.; Simonsen, T.; Robinson, G.; Pitkin, B.; Hine, A.; Lyal, C., eds. (2003). "Tineola bisselliella​". The Global Lepidoptera Names Index. Natural History Museum. Retrieved 2020-02-13.

External links edit

 
Wikimedia Commons has media related to Tineola bisselliella.
  • Clothes Moths Management Guidelines
  • at the Wayback Machine (archived June 17, 2008)
  • Lepiforum e. V.

December 01, 2023
tineola, bisselliella, known, common, clothes, moth, webbing, clothes, moth, simply, clothing, moth, species, fungus, moth, family, tineidae, subfamily, tineinae, type, species, genus, tineola, first, described, swedish, entomologist, arvid, david, hummel, 182. Tineola bisselliella known as the common clothes moth webbing clothes moth or simply clothing moth is a species of fungus moth family Tineidae subfamily Tineinae It is the type species of its genus Tineola and was first described by the Swedish entomologist Arvid David Hummel in 1823 The specific name is commonly misspelled biselliella for example by G A W Herrich Schaffer when he established Tineola in 1853 1 2 Tineola bisselliellaScientific classificationDomain EukaryotaKingdom AnimaliaPhylum ArthropodaClass InsectaOrder LepidopteraFamily TineidaeGenus TineolaSpecies T bisselliellaBinomial nameTineola bisselliella Hummel 1823 SynonymsNumerous see textThe larvae caterpillars of this moth are considered a serious pest as they can derive nourishment from clothing in particular wool but many other natural fibres and also like most related species from stored foods such as grains Contents 1 Description 2 Life cycle 3 Range and ecology 4 Pest control 5 Synonyms 6 References 7 External linksDescription editTineola bisselliella is a small moth of 6 7 mm 0 24 0 28 in body length and 9 16 mm 0 35 0 63 in wingspan 3 most commonly 12 14 mm or 0 47 0 55 in 4 The head is light ferruginous ochreous sometimes brownish tinged Forewings pale yellowish ochreous base of costa fuscous Hindwings ochreous grey whitish 5 6 it is distinguished from similar species by its yellow brown or ochreous colouring and red orange tuft of hair on the head 7 Life cycle editFemales lay eggs in clusters of between 30 and 200 which adhere to surfaces with a gelatin like glue These hatch between four and ten days later into near microscopic white caterpillars which immediately begin to feed They will also spin mats under which to feed without being readily noticed and from which they will partially emerge at night or under dark conditions to acquire food Development to the next stage takes place through between five and 45 instars typically over the course of between one month and two years until the pupal stage is reached At this point the caterpillars spin cocoons and spend another approximately 10 50 days developing into adults 8 After pupation is complete the adult moths emerge and begin searching for mates Females tend to move less than males and both sexes prefer scuttling over surfaces to flying some adults never fly at all Adults can live for an additional 15 30 days after which they die otherwise death takes place shortly after mating for males and shortly after egg laying for females Life cycle may be completed within one month under the most favorable conditions 75 F 24 C and 70 75 relative humidity but may take several years lower temperatures and humidity will only slow development larvae will still hatch and grow at temperatures as low as 10 C 50 F and can survive up to 33 C 91 F 9 10 Unlike the caterpillars the adult moths do not feed they acquire all of the nutrition and moisture they need while in the larval stage and once they hatch from cocoons their only goal is to reproduce They have only atrophied mouth parts and cannot feed on fabric or clothing All feeding damage is done by the caterpillar larval form 11 Heated buildings allow clothes moths to develop year round The overall life cycle from egg to egg typically takes 4 6 months with two generations per year 11 Range and ecology edit nbsp Adult specimen nbsp Larval form nbsp Closeup of a common clothes moth nbsp Macrophotography of a freshly laid non sticky egg measuring less than 1 mm nbsp Two T bisselliella matingThis moth s natural range is the western Palearctic but it has been transported by human travelers to other localities For example it is nowadays found in Australia The species presence has not been recorded in France Greece Slovenia and Switzerland though this probably reflects the lack of occurrence data rather than absence 12 This species is notorious for feeding on clothing and natural fibers they have the ability to digest keratin protein in wool and silk The moths prefer dirty fabric for oviposition and are particularly attracted to carpeting and clothing that contains human sweat or other organic liquids which have been spilled onto them traces of dirt may provide essential nutrients for larval development Larvae are attracted to these areas not only for the food but for traces of moisture they do not require liquid water 8 The range of recorded foodstuffs includes linen silk and wool fabrics as well as furs They will eat synthetic and cotton fibers if they are blended with wool and may use some cotton to build their cocoon 11 Furthermore they have been found on shed feathers and hair bran semolina and flour possibly preferring wheat flour biscuits casein and insect specimens in museums In one case living T bisselliella caterpillars were found in salt They had probably accidentally wandered there as even to such a polyphagous species as this one pure sodium chloride has no nutritional value and is in fact a strong desiccant but this still attests to their robustness 13 Unfavorable temperature and humidity can slow development but will not always stop it Both adults and larvae prefer low light conditions Whereas many other Tineidae are drawn to light common clothes moths seem to prefer dim or dark areas If larvae find themselves in a well lit room they will try to relocate under furniture or carpet edges Handmade rugs are a favorite because it is easy for the larvae to crawl underneath and do their damage from below They will also crawl under moldings at the edges of rooms in search of darkened areas where fibrous debris has gathered and which consequently hold good food 11 8 nbsp Close up photo showing the compound eyes of T bisselliellaPest control editAirtight containers should be used to prevent re infestation once eggs larvae and moths are killed by any of these methods 14 Control measures for T bisselliella and similar species include the following Anoxic measures work by displacing oxygen with an inert gas asphyxiating the insects Carbon dioxide anoxia Similar to cryofumigation but using compressed dry carbon dioxide gas to exclude oxygen 15 Treatment for one week at 25 C 77 F is recommended 16 Nitrogen anoxia Similar to cryofumigation but using dry nitrogen gas to exclude oxygen 17 This process may cost more than carbon dioxide treatment 18 Argon anoxia Similar to cryofumigation but using dry argon gas to exclude oxygen This process may cost more than carbon dioxide treatment 18 Physical measures Brushing vigorously in bright light can dislodge eggs and larvae which may drop to the ground 11 Clothing moth traps Usually consisting of adhesive lined cardboard enclosures baited with artificial pheromones this measure can help monitor the current infestation and prevent males from mating with females 11 Only males are drawn to the traps Dry cleaning This kills moths on existing clothing and helps remove moisture from clothes 11 Freezing Freezing the object for several days at temperatures below 18 F 8 C to kill larvae 11 19 However eggs survive freezing to 23 C 20 Heat 120 F or 49 C for 30 minutes or more 11 these conditions may possibly be achieved by placing infested materials in an attic or sun baked automobile in hot weather or by washing clothes at or above this temperature Specialist pest controllers can also provide various methods of heat treatment Vacuuming Since the moths like to hide in carpeting and baseboards skirting this is an important step towards full eradication After thorough vacuuming the bag should immediately be disposed of outside 11 Burning fire will destroy any live insects or larvae Mothproofing chemicals Treatment of materials as a preventive measure before their use as well as simply for storage has a long history 21 Arsenical compounds were effective in killing larvae but were considered too toxic for human contact even in the early twentieth century Triphenyltin chloride was effective at 0 25 After 1947 chlorinated hydrocarbon insecticides of many varieties were found to be effective at the low concentrations practical for preservative treatment 21 Examples are chlordane at 2 per weight of wool toxaphene at 0 8 pentachlorophenol or BHC at 0 5 DDT at 0 2 chlordecone and mirex at 0 06 and dieldrin at 0 05 Imidazole a non chlorinated aromatic heterocyclic at 1 also gave satisfactory protection A chemically related molecule econazole nitrate was found to exhibit strong anti feeding properties against the common clothes moth 22 Besides solvent based applications insecticidal dusts were commonly used to treat fabrics In the 1950s EQ 53 a DDT emulsion was recommended by the US Department of Agriculture to add to the final rinse of washable woolens but even then cautions were given to the use of chlorinated hydrocarbons on items subject to commercial drycleaning The 1985 United States EPA ban on most uses of Aldrin and Dieldrin exempted moth proofing in a closed manufacturing process 23 Triazole thiazole and imidazole derivatives have an anti feeding effect on Tineola bisselliella larvae when wool is treated with these compounds At 3 on mass of wool both epoxiconazole and econazole nitrate protect wool fabric from Tineola bisselliella to the standard specified by Wools of New Zealand Test Method 25 based on ISO 3998 1977 E 24 Mothballs Used primarily as a preservative but also will kill existing larvae if the concentration is high enough There are two types of mothball early twentieth century ones were often based on naphthalene while mid twentieth century ones often used paradichlorobenzene Both chemical crystals sublimate into a gas which is heavier than air and needs to reach a high concentration around the protected material to be effective Disadvantages Vapors are toxic and carcinogenic mothballs are poisonous and should not be put where they can be eaten by children or pets Naphthalene mothballs are also highly flammable Insecticides Typically aerosol application works best citation needed if coverage is adequate Treat once a month for the first three months and then once a quarter for the next year to ensure the infestation is under control citation needed Permethrin A particular synthetic pyrethroid available as aerosol spray Disadvantages very toxic to cats and fish As Tineola bisselliella is the major worldwide pest for woollen products permethrin based agents have been commercialised for the protection of wool from this and other keratinophagous species 25 Pyrethroids or pyrethrins e g Cy Kick Deltamethrin and d Phenothrin which is used in Raid fly spray 26 Synthetic or natural pyrethrins available as aerosol spray or as dusts Disadvantages some are persistent in the ecosystem and toxic to fish possibly resistance Pyriproxyfen or other juvenile hormone analogs Stops the life cycle by preventing the caterpillars from pupating Bifenthrin A synthetic pyrethroid commercialised as an alternative to permethrin for the protection of woollen products from Tineola bisselliella and other species 25 Chlorfenapyr A halogenated pyrrole insecticide commercialised as an alternative to synthetic pyrethroid insecticides in the protection of woollen products from Tineola bisselliella and other species 25 Biological measures Camphor Possibly safer alternative to mothballs 27 Eastern red cedar Questionable value as long term deterrent While the volatile oil is able to kill small larvae it is difficult to maintain sufficient concentrations of it around stored articles to be effective cedar wood loses all moth suppressant capabilities after a few years 11 Distilled red cedar oil is commercially available to renew dried out cedar wood Airtight construction is more important than the type of wood used to make a container 11 Lavender Either bags with dried lavender flowers are put into the wardrobe they can be refreshed by putting a few drops of lavender oil on them or a few drops of lavender oil are put on a piece of fabric which is then deposited in the wardrobe and periodically refreshed citation needed Disadvantage strong perfumed smell Trichogrammatid wasps e g Trichogramma evanescens Tiny parasitoid wasps which place their own eggs inside those of the moths their larvae eat the moth eggs Trichogrammatid wasps are harmless to humans measuring only about 2 millimetres 0 079 in Once moth eggs are eaten the wasps vanish within 2 4 weeks Synonyms editThe common clothes moth is such a widespread and frequently seen species that it has been described time and again under a variety of junior synonyms and other now invalid scientific names 28 29 Tinea biselliella Staudinger 1899 lapsus Tinea bisselliella Hummel 1823 Tinea crinella Sodoffsky 1830 Tinea destructor Stephens 1825 Tinea flavifrontella Thunberg 1794 non Denis amp Schiffermuller 1775 preoccupied Tinea lanariella Clemens 1859 Tinea vestianella sensu auct non Linnaeus 1758 preoccupied Tineola furciferella Zaguljaev 1954References edit Pitkin Brian Jenkins Paul 2004 Tineola Butterflies and Moths of the World Generic Names and their Type species 2004 11 05 doi 10 5519 s93616qw Retrieved 2020 02 13 Savela Markku 2018 Tineola Markku Savela s Lepidoptera and some other life forms 2018 12 28 Retrieved 2020 02 13 11 Tineidae Stichting Tinea Tinea Foundation Retrieved 2 May 2019 Species Tineola bisselliella Webbing Clothes Moth Hodges 426 Bugguide Iowa State University Retrieved 2 May 2019 Meyrick E 1895 A Handbook of British Lepidoptera MacMillan London pdf nbsp This article incorporates text from this source which is in the public domain Keys and description Reinhard Gaedike 2019 Tineidae II Myrmecozelinae Perissomasticinae Tineinae Hieroxestinae Teichobiinae and Stathmopolitinae Microlepidoptera of Europe vol 9 Leiden Brill VanRyckeghem Alain Bad Bugs Clothes Moths insectslimited Retrieved 2 May 2019 a b c Webbing Clothes Moth PDF MuseumPests net Integrated Pest Management Working Group Archived from the original PDF on 2015 03 21 Retrieved 2015 05 20 John A Jackman Bastiaan M Drees 1 March 1998 A Field Guide to Common Texas Insects Taylor Trade p 227 ISBN 978 1 4616 2291 8 Jane Merritt Julie A Reilly 16 January 2010 Preventive Conservation for Historic House Museums Rowman Altamira p 112 ISBN 978 0 7591 1941 3 a b c d e f g h i j k l Choe D H Clothes moths UC IPM Online Agriculture and Natural Resources University of California Retrieved 2014 09 15 ABRS 2008 FE 2009 Grabe Albert 1942 Eigenartige Geschmacksrichtungen bei Kleinschmetterlingsraupen Strange tastes among micromoth caterpillars PDF Zeitschrift des Wiener Entomologen Vereins in German 27 105 109 Solutions Isolation Bagging MuseumPests net Integrated Pest Management Working Group Retrieved 2015 05 20 Solutions Carbon Dioxide Treatment MuseumPests net Integrated Pest Management Working Group Retrieved 2015 05 20 Insect Mortality under Anoxia Keepsafe Keepsafe Microclimate Systems Retrieved 2015 05 20 Daniel Vinod et al 25 October 1993 Nitrogen Anoxia of The Back Seat Dodge 38 A Pest Eradication Case Study WAAC Newsletter Retrieved 2011 07 29 a b Solutions Nitrogen Argon Gas Treatment MuseumPests net Integrated Pest Management Working Group Retrieved 2015 05 20 Solutions Low Temperature Treatment MuseumPests net Integrated Pest Management Working Group Retrieved 2015 05 20 Arnault Ingrid Decoux Michael Meunier Emilie Hebbinckuys Tom MacRez Stephane Auger Jacques De Reyer Dominique 2012 07 01 Comparison in vitro and in vivo efficiencies of three attractant products against webbing clothes moth Tineola bisselliella Hummel Lepidoptera Tineidae Journal of Stored Products Research 50 15 20 doi 10 1016 j jspr 2012 03 004 ISSN 0022 474X a b Prakash Om Banerjee J Parthasarathy L July 1979 Preservation of Woollens Against Clothes Moths and Carpet Beetles PDF Defense Science Journal 29 147 150 Sunderland Matthew Richard Cruickshank Robert Hamish Leighs Samuel J 2014 The efficacy of antifungal azole and antiprotozoal compounds in protection of wool from keratin digesting insect larvae Textile Research Journal 84 9 924 931 doi 10 1177 0040517513515312 S2CID 135799368 Aldrin Dieldrin US Environmental Protection Agency Sunderland M R Cruickshank R H Leighs S J 2014 The efficacy of antifungal azole and antiprotozoal compounds in protection of wool from keratin digesting insect larvae Textile Research Journal 84 9 924 931 http trj sagepub com content 84 9 924 a b c Ingham P E McNeil S J Sunderland M R 2012 Functional finishes for wool Eco considerations Advanced Materials Research 441 33 43 http www scientific net AMR 441 33 Raid Ingredients Ghosh G K 2000 Biopesticide and Integrated Pest Management APH Publishing ISBN 978 8 176 48135 9 Australian Biological Resources Study ABRS 2008 Tineola bisselliella Australian Faunal Directory 2008 10 09 Retrieved 2010 05 06 Beccaloni G Scoble M Kitching I Simonsen T Robinson G Pitkin B Hine A Lyal C eds 2003 Tineola bisselliella The Global Lepidoptera Names Index Natural History Museum Retrieved 2020 02 13 External links edit nbsp Wikimedia Commons has media related to Tineola bisselliella Clothes Moths Management Guidelines Ohio State University Extension Fact Sheet at the Wayback Machine archived June 17 2008 Clothes Moths Kansas State University Lepiforum e V Retrieved from https en wikipedia org w index php title Tineola bisselliella amp oldid 1179027293, wikipedia, wiki, book, books, library,

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