Refine your search
Collections
Journals
Year
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z All
Phukan, Ava Rani
- Traditional Textile Motifs and Designs of Mishing Community of Assam
Abstract Views :191 |
PDF Views:0
Authors
Affiliations
1 Department of Textiles and Apparel Designing, Faculty of Home Science, Assam Agricultural University, Jorhat (Assam), IN
1 Department of Textiles and Apparel Designing, Faculty of Home Science, Assam Agricultural University, Jorhat (Assam), IN
Source
Asian Journal of Home Science, Vol 13, No 1 (2018), Pagination: 195-201Abstract
India is a nation with vast and ancient traditions. The country blossoms with colourful traditional dresses that various communities and tribes of different states wear. The present study was an attempt to study the traditional textile motifs and designs of Mishing community. The study aimed to document the colour combinations, form of designs, different techniques used to form the designs and the traditional names of the motifs and designs. Data were gathered through personal visit to the common weavers and photographs were taken to support the study. This type of study will not only help in the preservation of the traditional motifs and designs but also broaden the design base for the textiles products.Keywords
Traditional Textiles, Traditional Motifs and Designs, Mishing Community.References
- Anila and Savita (2013).Designing and creation of Household linens inspired from Turkish motifs using screen printing, Textile Trends, 26 (2): 45-47.
- Barooah, N. and Dedhia, E.M. (2015). Symbolism in Tribal Textiles. Retrieved from http://textilevaluechain,com/index.php/ article/technical/item/274.
- Baruah, M. and Kalita, D. (2007). Ethno medicine used by Mishing tribes of Dibrugarh District Assam. Indian J. Traditional Knowledge, 6(4): 595-598.
- Bora, P. (2014). The mising movement in Assam: Awaited accord and unanswered questions, Soc. Change & Development, 11 (2): 31-35.
- Borang, K. (2007). Apong in the tradition. Diigok Rolii. The call of the Dawn, The Souvenir of the Solung Festival Celebration 2: 47.
- Doley, B. (2014). Glimpses on Mising folk cultures, MiroMigang Publication, Jonai, Assam, pp. 15-16.
- Dowarah, J. (2014). Socio-cultural life of the Missing tribes of Assam: a sociological note, Electronic Internat. Interdisciplinary Res. J. (EIIRJ), 3 (5) : 25-32.
- Kaur, D. and Dewan, S. (2013). Fashion Illustration- A study through different colour mediums, Textile Trends, 56 (6): 4153.
- Kuli, J.J. (2012). Mising weaving culture- An Introductory Analysis. In: The Misings- Their history and culture. Kaustubh Prakashan, Dibrugarh, Assam, 2nd Ed. pp. 131-137.
- Mazumdar, L. (1987). Traditional textiles of Assam- A study of an indigenous craft with reference to continuity and change. Ph.D. Thesis, Assam agricultural University, Jorhat, Assam, pp. 122-143.
- Morang, P. (2014). Mising Narir Boyanshilpa aru eyar paribortito roop. Dakor (Footsteps): A souvenir of 21st Biennial Session of Mising Agom Kebang, Published by the Reception Committee with the Financial Assistance of Mising Autonomous Council, Gogamukh, Assam. pp. 88-91.
- Pegu, N.C. (2005). The Mishings of the Brahmaputra Valley. Mangolsing Memorial Series-4, Pegupaam, Kulajan, Dhemaji (Assam) and Milan Nagar, P-lane, C.R. Building, Dibrugah, Assam. pp. 1-2.
- Saikia, T. (2013). Gender and traditional health practices in a Mishing village of Golaghat District in Assam. Global Res. Methodol. J., 2 (8): 1-10.
- Sangama, E.M. and Rani, A. (2012). Development of designs for textile designing, Textile Trends, 55 (3): 29-34.
- Sarma, A. (2004). Folk culture of the Misings of Assam – Traditional and Change, Decent Books D- 36/A-1, Mohan Garden, Najafgarh Road, New Delhi- 11059.
- Antimicrobial Finishing of Textiles for Protection
Abstract Views :173 |
PDF Views:0
Authors
Affiliations
1 Department of Textiles and Apparel Designing, College of Home Science, Assam Agricultural University, Jorhat (Assam), IN
2 Department of Plant Pathology, College of Agriculture, Assam Agricultural University, Jorhat (Assam), IN
1 Department of Textiles and Apparel Designing, College of Home Science, Assam Agricultural University, Jorhat (Assam), IN
2 Department of Plant Pathology, College of Agriculture, Assam Agricultural University, Jorhat (Assam), IN
Source
Asian Journal of Home Science, Vol 13, No 1 (2018), Pagination: 312-320Abstract
The antibacterial materials such as fabrics, clothes are becoming important to avoid cross infection by pathogenic micro-organisms, especially bacteria such as Aureimonas altamirensis, Bacillus clausii and Micrococcus yunnanensis, to control the infestation by microbes, and to arrest metabolism in microbes in order to reduce the formation of odour. Textiles for medical and hygienic use have become important areas in the textile industry. Therefore, to reduce/prevent infections, various antibacterial compounds have been used for all types of textiles. The solutions of disinfectant used are generally active in vitro, but, it is also necessary to know the effectiveness of disinfecting cloths in conditions of use. In the current study, it was aimed to determine the antibacterial activity of fabrics functionalized with herbal extracts against Aureimonas altamirensis, Bacillus clausii and Micrococcus yunnanensis, and also after different wash cycles against these bacteria. The results of the present study showed that the most susceptible bacterium was B. clausii in all standard test methods for unwashed fabrics, antibacterial activity was continued even after washing cycles.Keywords
Antibacterial Activity, Aureimonas altamirensis, Bacillus clausii, Herbal Extract, Micrococcus yunnanensis, Textile Fabrics.References
- Baruah, B. (2015). Technical Manual.
- EN ISO 20645 (2004). Determination of antibacterial activityagar diffusion plate test. Technical committee CEN/TC 248.
- Gao, Z., Tseng, C., Pei, Z. and Blaser, M.J. (2007). Molecular analysis of human forearm superficial skin bacterial biota.PNAS, 104 : 2927–2932.
- Goldsmith, M.T., Latlief, M.A. and Friedl, J.L. (1954). Adsorption of available chlorine and quaternary by cotton and wool fabrics from disinfecting solutions. J. Appl. Microbiol., 2(6): 360-364.
- Gouda, M. (2006). Enhancing flame-resistance and antibacterial properties of cotton fabric. J. Industrial Textiles, 36(2): 167– 177.
- Hofer, D. (2006). Antimicrobial textiles, skin-borne flora and odour. Curr. Probl. Dermatol., 33 : 67–77.
- Jantas, R. and Gorna, K. (2006). Antimicrobial finishing of cotton fabrics. Fibers & Textiles Eastern Europe, 14(1):5
- Jothi, D. (2009). Experimental study on antimicrobial activity on cotton fabric treated with aloe gel extract from Aloe vera plant for controlling the staphylococcus aureus. African J. Microbiol. Res., 3(5) : 228-232.
- Kunin, C.M. (1993). Resistance to antimicrobial drugs- a worldwide calamity. Ann. Internat. Med., 118 : 557-561.
- Leyden, J.J., McGinley, K.J., Holzle, E., Labows, J. and Kligman, A.M. (1981). The microbiology of the human axilla and its relationship to axillary odour. J. Invest Dermatol., 77 : 413–416.
- Lin, J., Qiu, S., Lewis, K. and Klibanov, A.M. (2003). Mechanism of bactericidal and fungicidal activities of textiles covalently modified withalkylated polyethynimine. Biotenol. & Bioengineering, 83(2):168-172.
- McQueen, R.H., Laing, R.M., Brooks, H.J.L. and Niven, B.E. (2007). Odour intensity in apparel fabrics and the link with bacterial populations. Text Res. J., 77 : 449–456.
- Obendorf, K., Kjm, J. and Koniz, R.F. (2007). Measurement of odour development due to bacterial action on antimicrobial polyester fabrics. AATCC Rev., 7 : 35–40.
- Omura, S. (2008). Antimicrobial activity of ethanolic extracts from some medicinal plant. J. Arizona-Nevada Acad. Sci., 40(2): 165-167.
- Payne, J.D. and Kudner, D.W. (1996). A new durable antimicrobial finish for cotton textiles. Am. Dyest. Rep., 85 : 26-30.
- Ramachandran, T., Rajendrakumar, K. and Rajendran, R. (2004). Antimicrobial Textiles – and Overview. IE (I) Journal – TX, 84 : 42-47.
- Rennie, P.J., Gower, D.B., Holland, K.T., Mallet, A.I. and Watkins, W. (1990). The skin microflora and the formation of human axillar odour. Internat. J. Cosmet Sci., 12 : 197–207.
- Rennie, P.J., Gower, D.B. and Holland, K.T. (1991). In vitro and in vivo studies of human axillary odour and the cutaneous microflora. Br. J. Dermatol., 124 : 596–602.
- Roth, R.R. and James, W.D. (1988). Microbial ecology of the skin. Annu. Rev. Microbiol., 42 : 441–464.
- Seshadri, D.T. and Bhat, N.V. (2005). Synthesis and properties of cotton fabrics modified with polypyrrole. Sen’i Gakkaishi, 61(4): 103–108.