%0 Journal Article
%T Absolute and Relative Activity of Microencapsulated Natural Essential Oils against the Larvae of Carpet Beetle Anthrenus flavipies (LeConte)
%A Jayant Udakhe
%A Neeraj Shrivastava
%A Smita Honade
%A Dhanashree Banait
%A Namita Sonawane
%J Journal of Textiles
%D 2014
%I Hindawi Publishing Corporation
%R 10.1155/2014/673619
%X This study focuses on finding natural ecofriendly alternatives to the existing commercial Anthrenus flavipies resist chemicals. Eucalyptus, lavender, and citronella microcapsules were explored as natural alternatives. Chemical contents of microcapsules and fragrance releasing property were tested using gas chromatography. Absolute (proofing) and relative (repellent) activities of microcapsule treated fabrics were tested against the larvae of carpet beetle Anthrenus flavipies (LeConte). Proofing activity test results revealed that natural essential oils act as a deterrent for Anthrenus flavipies, but give lesser protection compared to commercial chemical permethrin. Repellency test results also affirmed these findings and it was observed that Anthrenus flavipies prefers to eat untreated fabric compared to its treated counterpart. 1. Introduction The damage to the woollen textile products, hair, feather, and fur by wool moth (insect that feeds on woolen textiles) has been a continuing subject of investigation over the years. The damage to the woollen textiles by moth larvae throughout the world is estimated to cost millions of dollars every year. Clark [1] and Hartley et al. [2] have estimated the damage caused by a single larva to be 92.5 pounds in one year and 100 pounds in 280 days, respectively. Thus, moth proofing is very essential to wool for its long life as it is a costly commodity. Without effective moth proofing this damage would increase further and will cause permanent damage to wool which is considered as high quality natural bicomponent textile fibre. The insects usually remain undetected until the damage has occurred. Fabrics, of course, can be damaged by textile pests within a few weeks of initial infestation. Different kinds of commercial finishing treatments are given to the wool product. Some of the colourless preparations available are Dieldrin [3], Mitin LP [4], Eulan WA [5], and synthetic pyrethroid permethrin [6, 7]. These moth proof chemicals are generally applied in a single bath during the dyeing of wool. Continuous discharge of dyeing effluents containing these chemicals provide significant toxic load to each of the affected effluent treatment systems and associated downstream river area. Permethrin has been shown to be highly toxic for aquatic arthropods, fish, and honey bees because they have lower levels of carboxyl esterase activity than mammals [8]. For any effective insecticidal (moth proof) finish to be used sustainably in the near future, it should have biodegradability as well as low mammalian and aquatic toxicity.
%U http://www.hindawi.com/journals/jtex/2014/673619/