Prospect of bamboo as a renewable textile fiber, historical overview, labeling, controversies and regulation

Fashion and Textiles
Lopamudra Nayak1, Siba Prasad Mishra1
1School of Fashion Technology, Kalinga Institute of Industrial Technology (KIIT) University, Bhubaneswar, 751024, India

Tóm tắt

AbstractInnovation in textile has brought alternative plant based fibers such as bamboo into the spotlight and as a replacement to petrochemical based synthetic fibers. Bamboo as a raw material is a remarkably sustainable and versatile resource but the manufacturing process is where the debate really gets heated and the sustainability and green image of bamboo is tarnished. Products made from bamboo are often labeled as ‘eco-friendly’, ‘bio-degradable’ and ‘anti-microbial’ irrespective of their method of manufacturing. The claims may not always portray the products authenticity and true environmental impact. By far, viscose process is predominantly used to create fibers from bamboo but the properties of natural bamboo fibers in such bamboo viscose products have been lost. However, bamboo textiles are not yet achieved their full potential and cleaner production processes are appearing. With abundant sources of raw material, relatively low cost; and unique performance of bamboo fiber it is only a matter of time to develop green and pure bamboo textiles. This paper analyses the prospects of bamboo fibers providing a view on bamboo as a plant and processed fiber, facts regarding the antimicrobial properties of bamboo fibers, its chemical properties, morphology, anatomy, historical overview, patents and modern bamboo textile industry.

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Tài liệu tham khảo

About Mechanically Processed Bamboo. http://www.getgloved.com. Accessed 6 Sept 2015.

Afrin, T., Tsuzukia, T., Kanwara, R. K., & Wanga, X. (2012). The origin of the antibacterial property of bamboo. Journal of the Textile Institute, 103(8), 844–849.

Alvin, K. L., & Murphy, R. J. (1998). Variation in fibre and parenchyma wall thickness in culm of the bamboo Sinobambusa tootsik. IAWA Bulletin, 9, 353–361.

Bamboo Fabric Store. (2009). Statement of tanboocel bamboo fiber from Bambrotex, China Bambro Textile Co., Ltd. http://www.facebook.com/note.php?note_id=120479039526&comments. Accessed 5 Jan 2014.

Bamboo Phylogeny Group (BPG). (2012). An updated tribal and subtribal classification of the bamboos (Poaceae: Bambusoideae). Bamboo Science & Culture. The Journal of the American Bamboo Society, 24(1), 1–10.

Banik, R. L. (2015). Morphology and growth. In W. Liese & M. Kohl (Eds.), Tropical forestry, bamboo: the plant and its uses (pp. 43–90). Swizerland: Springer International Publishing.

Basumatary, A., Middha, S. K., Usha, T., Brahma, B. K., & Goyal, A. K. (2015). Bamboo, as potential sources of food security, economic prosperity and ecological security in North-East India: an overview. Research in Plant Biology, 5(2), 17–23.

Bystriakova, N., & Kapos, V. (2006). Bamboo diversity: the need for a red list review. Biodiversity, 6(4), 12–16.

CETI. European Centre for Innovative Textiles, http://www.ceti.com/en/news-ceti/. Accessed 28 August 2014.

Chang, F. J., Wang, E. I. C., Perng, Y. S., & Chen, C. C. (2013). Effect of bamboo age on the pulping properties of Bambusa stenostachya Hackle. Cellulose Chemistry and Technology, 47(3–4), 285–293.

Chaowana, P. (2013). Bamboo: an alternative raw material for wood and wood-based composites. Journal of Materials Science Reasearch, 2(2), 90–102. doi:10.5539/jmsr.v.2n2p90.

China Textile Magazine. Study on applications of nanotechnology in bamboo charcoal fiber, http://chinatextile.360fashion.net/2009/07/study-on-applications-of-nanot.php. Accessed 18 Feb 2014.

Clark, L. G., Judziewicz, E. J., & Tyrrel, C. D. (2007). Aulonema ximenae (Poaceae: Bambusoideae), a new northern Andean species with fimbriate sheath margin. Bamboo Science and Culture, 20, 1–6.

Clark, L. G., Londono, X., & Ruiz-Sanchez, E. (2015). Bamboo taxonomy and habitat. In W. Liese & M. Kohl (Eds.), Tropical forestry, bamboo: the plant and its uses (pp. 1–30). Swizerland: Springer International Publishing.

Das, M., Bhattacharya, S., Singh, P., Filguerias, T. S., & Pal, A. (2008). Bamboo taxonomy and diversity in the era of molecular markers. Advances in Botanical Research,. doi:10.1016/S0065-2296(08)00005-0.

Dence, C. W. (1992). The determination of lignin. In S. Y. Lin & C. W. Dence (Eds.), Methods in lignin chemistry (pp. 33–61). Heidelberg: Springer-Verlag.

Devi, M. R., Poornima, N., & Guptan, P. S. (2007). Bamboo – the natural, green and eco-friendly new – type textile material of the 21st century. Journal of the Textile Association, 67, 221–224.

Ding, Y. L., Weiner, G., & Liese, W. (1997). Wound reactions in the rhizome of Phyllostachys edulis. Acta Bot Sin (Beijing), 39(1), 55–58.

Dinsely, J. (2010). The complete handbook of medicinal charcoal and its applications: charcoal remedies.com. GateKeepers Book. Remnant Publications, Michigan, US. ISBN 978-0-9738464-0-9. pp-34-40.

Dixon, P. G., & Gibson, L. J. (2014). The structure and mechanics of Moso bamboo material. J R Soc Interface, 11, 20140321. doi:10.1098/rsif.2014.0321.

Dystar Ecology Solutions. (2010). Sustainable raw material for sustainable textile production, Pakistan Textile Journal, http://www.ptj.com.pk/web-2010/03-10/Dyes-and-chemicals.html. Accessed 14 Jan 2014.

Litrax technology: bamboo—the natural renewable resource. http://www.litrax.com/technology.html. Accessed 9 Sept 2015.

Earth-friendly Textiles. How environmentally responsible are they? http://www.lesliejordan.com/PDF/EarthTextiles.pdf. Accessed 6 July 2015.

eBay Guides. Natural fibers leading the way to textile innovations, http://www.ebay.com/gds/Natural-Fibers-leading-THE-Way-TO-TEXTILE-INNOVATIONS-/10000000000763336/g.html. Accessed 11 March 2014.

Erdumlu, N., & Ozipek, B. (2008). Investigation of regenerated bamboo fiber and yarn characteristics. Fibers and Textiles in Eastern Europe, 16(4), 43–47.

European Patent Application. http://data.epa.org/publication-server,pdf-document.pdf. Accessed 5 Jan 2014.

European publication server. http://data.epa.org/publication-server/rest/v1.0/publication/dates/20081231/patents/ep1598458nwb1/document.html. Accessed 5 Jan 2014.

Fengel, D., & Wegener, G. (1984). Wood: chemistry, ultrastructure, reactions (p. 613). Berlin: Walter de Gruyter Publishers.

Frequently Asked Question: Bamboo Clothing. http://www.bambooclothing.co.uk/faqs.html. Accessed 12 Aug 2011.

Gielis, J. (1998). Keynote lecture at 5th international bamboo congress, San Jose, Costa Rica, November 2–6, 1998.

Goyal, A. K., Kar, P., & Sen, A. (2013). Advancement of bamboo taxonomy in the era of molecular biology: a review. In A. Sen (Ed.), Biology of useful plant and microbes (pp. 197–208). New Delhi: Narosa Publication House.

Green Guides: summary of proposal, http://www.eenews.net/assets/2010/10/06/document_gw_02.pdf. Accessed 6 July 2015.

Gritsch, C. S., Kleist, G., & Murphy, R. J. (2004). Development changes in cell wall structure of phloem fibres of the bamboo Dendrocalamus asper. Annals of Botany, 94, 497–505.

Grosser, D., & Liese, W. (1971). On the anatomy of Asian bamboos, with special reference to their vascular bundles. Wood Science Technology, 5, 290–312.

Habibi, M. K., & Lu, Y. (2014). Crack propagation in bamboo’s hierarchical cellular structure. Scientific Reports, 4, 5598. doi:10.1038/srep05598

Hakeem, K. R., Ibrahim, S., Ibrahim, F. H., & Tombuloglu, H. (2015). Bamboo biomass: various studies and potential applications for value-added products. In K. R. Hakeem, M. Jawaid, & O. Y. Alothman (Eds.), Agricultural biomassed based potential materials (pp. 231–244). Switzerland: Springer International Publishing.

Hardin, I. R., Wilson, S. S., Dhandapani, R., & Dhende, V. (2009). An assessment of the validity of claims for “Bamboo” fibers. AATCC Review., 9(10), 33–36.

Hodkinson, T. R., Chonghaile, G. N., Sungkaew, S., Chase, M. W., Salamin, N., & Stapleton, C. M. A. (2010). Phylogenetic analyses of plastid and nuclear DNA sequences indicate a rapid late Miocene radiation of the temperate bamboo tribe Arundinarieae (Poaceae, Bambusoideae). Plant Ecology and Diversity, 3(2) (2010), 109–120. doi:10.1080/17550874.2010.521524.

IFAR/INBAR (1991). Research needs for bamboo and rattan to the year 2000. Tropical tree crops program, International Fund for Agricultural Reasearch/International Network for Bamboo and Rattan, Singapore.

Janssen, J. J. A. (2000). Designing and building with bamboo, In Arun Kumar (Ed.), Technical report no. 20. China: International Network for Bamboo and Rattan.

Jiang, L. (2011). Exploration and study of bamboo fiber. http://articlesdepository.com. Accessed 28 Aug. 2012.

Kellog, E. A., & Bennetzen, J. L. (2004). The evolution and phylogenetic relevance of nuclear genome structure in plants. American Journal of Botany, 91, 1709–1725.

Kittinaovarat, S., & Suthamnoi, W. (2009). Physical properties of polyolefin/bamboo charcoal composites. Journal of Metals, Materials and Minerals. 19(1), 9–15.

Kothari, V. R. (2011). Bamboo application for contemporary fibers in apparels. Apparel Views/February 2011, 48–51.

Latif, A. M., & Liese, W. (1995). Utilization of bamboo. In A. O. Razak, A. M. Latif, W. Liese, H. Norini (Eds.), Planting and utilization of bamboo in Peninsula Malaysia. FRIM research pamphlet no. 118 (pp. 50–102). Kuala Lumpur, Malaysia: Forest Research Institute Malaysia.

Latif, A. M., Jamaludin, K., & Shaari, M. H. (1996). Chemical constituents and physical properties of Bambusa heterostachya. In I. V. R. Rao, & C. B. Sastry (Gen. Eds)

Ganapathy, P. M., Janssen, J. A. & Sastry, C. B. (Vol. Eds), Vol. 3. Engineering and utilization: bamboo, people and the environment. Proceedings of the 5th International bamboo workshop and the 4th international bamboo congress, Indonesia, June 1995. pp. 224-238.

Li, X. B. (2004). Physical, chemical, and mechanical properties of bamboo and its utilization potential for fiberboard manufacturing. Post graduation (MSc) thesis, Lousiana State University. http://etd.isu.edu/docs/available/etd-04022004-144548/unrestricted/Li_thesis.pdf. Accessed 27 June 2015.

Li, X. X. & Dao, C. Q. (2012). The antibacterial performance of natural bamboo fiber and its influencing factors. In Proceedings of the 55th international convention of society of wood science and technology, Aug 27–31, 2012. (pp BAF:1–8). Beijing, China.

Li, X. B., Shupe, T. F., Peter, G. F., Hse, C. Y., & Eberhardt, T. L. (2007). Chemical changes with maturation of the bamboo species Phyllostachys pubescens. Journal of Tropical Forest Science, 19(1), 6–12.

Li, L. J., Wang, G., Cheng, H. T. & Han, X. J. (2010). Evaluation of properties of natural bamboo fiber for application in summer textiles. Journal of Fiber Bioengineering and Informatics, 3(2), 94–99. doi:10.3993/jfbi09201006.

Liese, W. (1985). Bamboos – biology, silvics, properties, utilization. Deutsche Gesellschaft fu¨r Technische Zusammenarbeit (GTZ) Schriftenreihe Nr. 180, TZ Verlagsges, Roßdorf.

Liese, W. (1987). Anatomy and properties of bamboo. International Bamboo Workshop. Oct. 6–14, 1985. In Recent research on bamboo. Chin. Acad. of Forestry, Beijing, and IDRC, Canada, 1987, 196–208.

Liese, W. (1992). The structure of bamboo in relation to its properties and utilization. In Bamboo and its use. Proceedings international symposium on industrial use of bamboo, Beijing, China, 7–11, 1992, pp. 95–100.

Liese, W. (1998). The anatomy of bamboo culms. International Network for Bamboo and Rattan (INBAR). Technical Report No. 18, Beijing, China.

Liese, W. (2004a). Structures of a bamboo culm affecting its utilization. Part-1: bamboo industrial utilization. In Proceedings of international workshop on bamboo industrial development and utilization, Xianning, China, 12 Nov 2003. INBAR 2004, Beijing, China. pp. 1–8.

Liese, W. (2004b). Preservation of bamboo structure. Ghana Journal of Forestry, 15, 16, 40–48.

Liese, W., & Grosser, D. (2000). An expanded typology for the vascular bundles of bamboo culms. In: Proceedings of the bamboo 2000 international symposium, Chiangmai, Thailand, Aug. 2000. pp. 121–134.

Liese, W., & Tang, T. K. H. (2015). Properties of the bamboo culm. In W. Liese & M. Kohl (Eds.), Tropical forestry, bamboo: the plant and its uses (pp. 227–256). Switzerland: Springer International Publishing.

Lin, M. (2008). Suzhou Shengzhu Household Co. Report. M, Waite. Suzhou: Personal Communication.

Lin, J. H., Chen, A. P., Hseih, C. T., Lin, C. W., Lin, C. M., & Lou, C. W. (2011a). Physical properties of the functional bamboo charcoal/stainless steel core-sheath yarns and knitted fabrics. Textile Research Journal, 81, 567–573. doi:10.1177/0040517510385173.

Lin, C. M., Huang, C. C., Lou, C. W., Chen, A. P., Liou, S. E., & Lin, J. H. (2011b). Evaluation of a manufacturing technique of bamboo charcoal polyamide/polyurethane complex yarns and knitted fabrics and assessment of their electric surface resistivity. Fibers and Textiles in Eastern Europe., 19(2), 28–32.

Litraxone (L1) Yarn series: natural bamboo yarn—made of bamboo bast fiber. http://www.swicofil.com/litrax_one_natural_bio_bamboo_yarn_2009.pdf. Accessed 10 Oct 2015.

Magic power of bamboo charcoal/activated carbon. http://www.getek.com.tw/yellowpage/catalog/magic_power_bac.pdf. Accessed 11 March 2014.

McClure, F. A. (1966). The bamboos: a fresh perspective. Cambridge: Harvard University Press.

Method of producing bamboo fibers, United States Patent 5397067. http://www.freepatentsonline.com. Accessed 5 Jan 2014.

Munro, W. (1868). A monograph of the Bambusaceae, including description of all the species. Transactions of the Linnean Society of London., 26(1), 1–157.

Nieder, A. A. (2009). Sustainable by design, “Swiss company Litrax looks to put the ‘green’ back in bamboo”. California Apparel News, 65(54), 12–13.

Ogunwusi, A. A. (2013). Bamboo: an alternative raw material for textiles production in Nigeria. Chemistry and Materials Research., 3(11), 6–18.

Panda, H. (2011). Bamboo plantation and utilization handbook. Delhi: Asia Pacific Business Press Inc. ISBN 9788178331508.

Parameswaran, N., & Liese, W. (1980). Ultrastructural aspects of bamboo cells. Cellulose Chemistry and Technology, 14, 587–609.

Prasetya, B. (1996). Chemical properties of node and internode along the culm height of Dendrocalamus asper. In I. V. R. Rao, & C. B. Sastry. (Gen. Eds)

P. M. Ganapathy, Janssen, J. A. & Sastry, C. B. (Vol. Eds.), Vol. 3. Engineering and utilization: bamboo, people and the environment. Proceedings of the 5th international bamboo workshop and the 4th international bamboo congress, Indonesia, June 1995. pp. 193-206.

Qiu, G. X., Shen, Y. K., Li, D. Y., Wang, Z. W., Huang, Q. M., Yang, D. D., & Gao, A. X. (1992). Bamboo in sub-tropical eastern China. In S. P. Long, M. B. Jones, & M. J. Roberts (Eds.), Primary productivity of grass ecosystems of the tropics and subtropics (pp. 159–188). London: Chapman and Hall.

Rathod, A., & Kolhatkar, A. (2014). Analysis of physical characteristics of bamboo fabrics. International Journal of Research in Engineering and Technology, 03(08), 21–25.

Rodie, J. B. (2008). Going green: beyond marketing hype. Textile World. November/December 2008. http://www.textileworld.com. Accessed 10 July 2015.

Rodie, J. B. (2010). Litrax Natural bamboo: the real deal, Textile World, April 2010. http://www.textileworld.com. Accessed 10 July 2015.

Rodie, J. B. (2011). Eco-friendly raw material and fiber production are the first links in a sustainable textile manufacturing chain: fiber first. Textile world, September/October 2011. http://www.textileworld.com. Accessed 10 July 2015.

Scurlock, J. M. O, Dayton, D. C., & Hames, B. (2000). Bamboo: an overlooked biomass resource? Environmental science division. Publication No. 4963. Prepared for the U.S. Department of Energy, USA.

Seethalakshmi, K. K., Muktesh-Kumar, M. S., Pillai, K. S., & Sarojam, N. (1998). Bamboos of India, a compendium. Kerala Forest Research Institute, India and International Network for Bamboo and Rattan, China. ISBN 81-86247-25-4.

Sheu, R. (2007). The legend of black diamond-How does a research institute create extraordinary economic value for SMEs by bamboo charcoal technology applications. http://www.apec-smeic.org/newsletter/. Accessed 17 Dec 2012.

Smith, S. E. (2011). What is bamboo fabric? Foster, N. (Ed)., http://www.wiseGEEK.com. Accessed 17 Dec 2012.

Smole, M. S., Hribernik, S., Kleinschek, K. S., & Kreze, T. (2013). Plant fibers for textile and technical applications. In S. Grundas, & A. Stepniewski (Eds.), Advances in agrophysical research (pp. 369–397). InTech. doi:10.5772/52372. http://www.intechopen.com/books/advances-in-agrophysical-research/plant-fibres-for-textile-and-technical-applications.

Song, X., Zhou, G., Jiang, H., Yu, S., Fu, J., Li, W., et al. (2011). Carbon sequestration by Chinese bamboo forests and their ecological benefits: assessment of potential, problems and future challenges. Environmental Review., 19, 418–428.

Stapleton, C. M. A. (1997). The morphology of woody bamboos. In G. P. Chapman. (Ed.), The bamboos. Linnean Society of London Symposium Series (pp.251–267). London: Academic Press.

Sungkaew, S., Stapleton, C. M. A., Salamin, N., & Hodkinson, T. R. (2009). Non-monophyly of the woody bamboos (Bambuseae; Poaceae): a multi-gene region phylogenetic analysis of Bambusoideae s.s. Journal of Plant Research, 122, 95–108.

Textile Digest. (2009). Research and regulations catch up with “Bamboo” textiles. aatcc.informz.net, http://www.ttistextiledigest.com. Accessed 01 Sept 2012.

Tewari, D. N. (1992). A monograph on bamboo. Dehra Dun: International Book Distributors.

The History of Bamboo Fabric, http://www.ehow.com/about_6615450_history-bamboo-fabric.html. Accessed 01 Sept 2012.

Tomalang, F. N., Lopez, A. R., Semara, J. A., Casin, R. F., & Espiloy, Z. B. (1980). Properties and utilization of Philippine erect bamboo. In G. Lessard, & A. Chouinard (Eds.). Proceedings of international seminar on bamboo research in Asia, Singapore, May 28–30, 1980. International Development Reasearch Center and International Union of Forestry Research Organization. pp. 266–275.

Triplett, J. K., Weakley, As, & Clark, L. G. (2006). Hill cane (Arundinaria appalachiana) a new species of bamboo from the Southern Appalachian Mountains. Sida., 22, 79–85.

Tso, L.-D. (2009). Black diamond from green bamboo. http://taiwanreview.nat.gov/tw.mht. Accessed 20 Dec 2012.

Viscose from bamboo fabric trends: stitching its way into organic fashion. http://www.greenearthbamboo.com. Accessed 01 Sept 2012.

Wahab, R., Mustafa, M. T., Salam, M. A., Sudin, M., Samsi, H. W., & Raasat, M. S. M. (2013). Chemical composition of four cultivated tropical bamboo in genus Gigantochola. Journal of Agricultural Science, 5(8), 66–75.

Waite, M. (2009). Sustainable textiles: the role of bamboo and a comparison of bamboo textile properties. Journal of Textiles, and Apparel Technology and Management, 6(2), 1–21 (Fall 2009).

Xing, S., & Liu, Z. (2004). The performance and product development of bamboo fiber. China Textile Leader., 4, 43–48.

Yarn comprising bamboo fiber and the processing method thereof. United States Patent 7313906, Publication date: 01/01/2008. http://www.freepatentsonline.com/7313906.html. Accessed 5 Jan 2014.

Yeasmin, L., Ali, M. N., Gantait, S., & Chakraborty, S. (2015). Bamboo: an overview on its genetic diversity and characterization. Biotech, 201(5), 1–11. doi:10.1007/s13205-014-0201-5.

Yiping, L., & Henley, G. (2010). Biodiversity in the bamboo forests: a policy prospective for long term sustainability. International Network for Bamboo and Rattan (INBAR). Working paper 59. http://www.inbar.int/publications/?did=2.

Yosodha, R. (2011). Characterization of microsatellites in the tribe Bambuseae. Geneconserve., 10(39), 51–64.

Yueping, W., Ge, W., & Haitao, C. (2010). Structure of bamboo fiber for textile. Textile Research Journal, 80(4), 334–343.

Zhou, F. (1998). Bamboo forest cultivation. Beijing: China Forestry Publishing House.

Zhou, H., & Deng, L. (2005). Study on the function and the anti-virus finishing of the original bamboo fabric. Progress in Textile Science and Technology., 5(1), 12–15.

Zhou, L., Shi, L., Jiang, J., Yang, Z., & Chen, P. (2008). Studies on antibacterial properties of the natural bamboo fabric based on FZ/T 73023 2006. Journal of Donghua University (Natural Science Edition)., 34(4), 401–404.

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