Abstract
Possum fiber is harvested from a rodent called the “possum.” The fiber is very soft and smooth, unlike merino wool fiber. The fiber is quite different from other animal fibers because of its unique shape and morphology: The fiber is hollow lengthwise, which provides high warmth. Possum fiber is mainly harvested in New Zealand from brushtail possum (Trichosurus vulpecula). During the past 15 years, the possum fur industry has grown in New Zealand, and the fiber, when blended with merino wool, produces various luxury apparel including coats, jackets, scarves, and cloaks. However, the inherent color of possum fiber (reddish brown) could be a problem because the fabric made from it needs to be white or other lighter colors. It is difficult to bleach possum fiber by traditional bleaching methods with hydrogen peroxide and chlorine. In this chapter, brushtail possum and their habitat and food, the harvesting of fur from possum, the physical and mechanical properties of possum fiber, and the mechanical and chemical processing methods, including bleaching and dyeing, will be discussed.
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References
Bereck A (1994) Bleaching of pigmented specialty animal fibers and wool. Rev Prog Coloration 24:17–25
Bühler A, Hurter R, Maüsezahl D et al (1995) Neighboring group participation in dyes at the nitrogen groups containing substrates with halogen acrylamide dyes. In: Proceedings of 5th international Wool Text. Res. conference vol 5, pp 263–267
Cegarra J, Gacen J (1983) Bleaching of wool with hydrogen peroxide. Wool Sci Rev 59:1–44
Chen WG, Chen DZ, Wang XG (2001) Surface modification and bleaching of pigmented wool. Text Res J 71:441–445
Dev VRG, Venugopal J, Sudha S et al (2009) Dyeing and antimicrobial characteristics of chitosan treated wool fabrics with henna dye. Carbhydrate Polym 75:646–650
Duffield PA (1986) Review of bleaching. Textile Technology Group, IWS Development Centre, Ilkley
Duffield PA (1992) Dyeing wool with acid and chrome dyes. In: Lewis DM (ed) Wool dyeing. Society of Dyers and Colourists, Bradford, p 117
Gasiorowski K, Szyba K, Wozniak D et al (1997) Inhibition of potassium dichromate mutagenicity by todralazine. Mutagenesis 12:411–415
Goetzendorf-Grabowska B, Królikowska H, Bak P (2008) Triclosan encapsulated in poly(l, l-lactide) as a carrier of antibacterial properties of textiles. Fibres Text East Eur 16:102–107
Grifoni D, Bacci L, Zipoli G et al (2011) The role of natural dyes in the UV protection of fabrics made of vegetable fibers. Dyes Pigm 91:279–285
Grifoni D, Bacci L, Lonardo SD (2014) UV protective properties of cotton and flax fabrics dyed with multifunctional plant extracts. Dyes Pigm 105:89–96
Hassan MM, Sunderland MJ (2015) Antimicrobial and insect-resist wool fabrics by coating with microencapsulated antimicrobial and insect-resist agents. Prog Org Coat 85:221–229
Holmes JF (1933) Modern methods of wool bleaching. Text Color 55:250–260
Hong L, Simon JD (2007) Current understanding of the binding sites, capacity, affinity, and biological significance of metals in melanin. J Phys Chem B 111:7938–7947
Kamel MM, El-Shishtawy RM, Yussef BM (2005) Ultrasonic assisted dyeing: III. Dyeing of wool with lac as a natural dye. Dyes Pigm 65:103–110
Komboonchoo S, Bechtold T (2009) Natural dyeing of wool and hair with indigo carmine (C.I. Natural Blue 2), a renewable resource-based blue dye. J Cleaner Prod 17:1487–1493
Korytowski W, Sarna T (1990) Bleaching of melanin pigments: role of copper ions and hydrogen peroxide in autooxidation and photooxidation of synthetic dopa-melanin. J Biol Chem 265:12410–12416
Levis AG, Buttignol M, Bianchi V et al (1978) Effects of potassium dichromate on nucleic acid and protein syntheses and on precursor uptake in BHK fibroblasts. Cancer Res 38:110–116
Lewis DM (1992) Dyeing wool with reactive dyes. In: Lewis DM (ed) Wool dyeing. Society of Dyers and Colourists, Bradford, p 223
Lewis DM (2014) Developments in the chemistry of reactive dyes and their application processes. Col Technol 130:382–412
Liu X, Hurren CJ, Wang X (2003) Comparative analysis of two selective bleaching methods on alpaca fibers. Fiber Polym 4:124–128
MacLennan DG (1984) The feeding behaviour and activity patterns of the brushtail possum Trichosurus vulpecula, in an open eucalypt woodland in Southeast Queensland. In: Smith AP, Hume ID (eds) Possums and gliders. Surrey Beatty in Association with the Australian Mammal Society, Chipping Norton, pp 155–161
Mayfield DB, Lewis AS, Bailey AL et al (2000) Properties and effects of metals. In: Williams PL, James RC, Roberts SM (eds) Principle of toxicology: environmental and industrial applications. Wiley, New York, p 333
Moiz A, Ahmed MA, Kausar N et al (2010) Study the effect of metal ion on wool fabric dyeing with tea as natural dye. J Saudi Chem Soc 14:69–76
Mongkholrattanasit R, Kryštfek J, Wiener J (2009) Dyeing of wool and silk by eucalyptus leaves extract. J Nat Fiber 6:319–330
Nagia FA, El-Mohamedi RSR (2007) Dyeing of wool with natural anthraquinone dyes from Fusarium oxysporum. Dyes Pigm 75:550–555
Norseth T (1981) The carcinogenicity of chromium. Environ Health Perspect 40:121–130
Nugent G, Sweetapple P, Coleman J et al (2000) Possum feeding patterns: dietary tactics of a reluctant folivore. In: Montague TL (ed) The brushtail possum. Manaaki Whenua Press, Lincoln, p 11
Perez-Benito JF (2004) Reaction pathways in the decomposition of hydrogen peroxide catalyzed by copper (II). J Inorg Biochem 98:430–438
Prabhu KH, Teli MD (2014) Eco-dyeing using Tamarindus indica L. seed coat tannin as a natural mordant for textiles with antibacterial activity. J Saudi Chem Soc 18:864–872
Räisänen R, Nousiainen P, Hynninen PH (2001) Emodin and dermocybin natural anthraquinones as mordant dyes for wool and polyamide. Text Res J 71:1016–1022
Samanta AK, Konar A (2011) Dyeing of textiles with natural dyes. In: Kumbasar EA (ed) Natural dyes. InTech, Rijeka, p 40
Shahid M, Ahmad A, Yusuf M et al (2012) Dyeing, fastness and antimicrobial properties of woolen yarns dyed with gallnut (Quercus infectoria Oliv.) extract. Dyes Pigm 95:53–61
Sisman T (2011) Early life stage and genetic toxicity of stannous chloride on zebrafish embryos and adults: toxic effects of tin on zebrafish. Environ Toxicol 26:240–249
Smith GJ, Miller IJ, Daniels V (2005) Phototendering of wool sensitized by naturally occurring polyphenolic dyes. J Photo Chem Photobiol A Chem 169:147–152
Stoves JL (1976) The principles of fur dyeing. J Soc Dyers Colorist 92:213–226
Swan GA (1974) Structure, chemistry, and biosynthesis of the melanins. Fortsch Che Org Naturst 31:521–582
Ward GD (1978) Habitat use and home range of radio-tagged opossums Trichosurus vulpecula in New Zealand low land forests. In: Montgomery GG (ed) The ecology of Arboreal folivores, Symposia of the National Zoological Park. Smithsonian Institution Press, Washington, DC, pp 267–287
Wolfram LJ (1970) The mechanism of hair bleaching. J Soc Cosmet Chem 21:875–900
Yusuf M, Shahid M, Khan MI et al (2015) Dyeing studies with henna and madder: a research on effect of tin (II) chloride mordant. J Saudi Chem Soc 19:64–72
Zahn H (1966) Chemical processes during the bleaching of wool and human hair with hydrogen peroxide and peroxy acids. J Soc Cosmet Chem 17:687–701
Zhang B, Wang L, Luo L et al (2014) Natural dye extracted from Chinese gall—the application of color, antibacterial activity to wool fabric. J Cleaner Prod 80:204–210
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Hassan, M.M. (2016). Possum Fiber—A Wonderful Creation of Nature. In: Muthu, S., Gardetti, M. (eds) Sustainable Fibres for Fashion Industry. Environmental Footprints and Eco-design of Products and Processes. Springer, Singapore. https://doi.org/10.1007/978-981-10-0522-0_3
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DOI: https://doi.org/10.1007/978-981-10-0522-0_3
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