Exploring Lannea coromandelica Leaves as a Renewable Sources of Natural Dye for Textile Applications

Exploring Lannea coromandelica Leaves as a Renewable Sources of Natural Dye for Textile Applications

Authors

  •   Rakesh Kumar   Wood Processing Division, Institute of Wood Science and Technology, Malleswaram 18th Cross, Bangalore - 560003
  •   Y. C. Tripathi   Chemistry and Bioprospecting Division, Forest Research Institute, New Forest, Dehradun 248006

DOI:

https://doi.org/10.36808/if/2022/v148i4/169091

Keywords:

Lannea coromandelica, Natural Dye, Textile Dyeing, Colourfastness, CIELAB Value.

Abstract

Dyes derived from plants have emerged as an important substitute to synthetic dyes. However, total share of natural dyes in textile sectors is very minimal due to certain technical and sustainability issues involved in their production and use. Inconsistent supply of raw material is one among them that is hampering the desired pace of their production and applications. Therefore, exploration of increasingly new plant sources of natural dye is warranted. The present investigation was aimed at introducing natural dye extracted from the leaves of Lannea coromandelica for dyeing different kinds of fabrics. Natural dye was extracted from the leaves by aqueous extraction and dyeing performance on silk, wool, and cotton fabrics under post mordanting condition were evaluated in terms of CIE L* a* b* values and fastness properties of the dyed fabrics using standard methods according to international standards. Majority of dyed fabric samples exhibited colour fastness in the range of very good to excellent. The study leads to the conclusion that dye extracted from L. coromandelica leaves can be used as colorant for textile dyeing thus establishing the plant leaves as a feasible and promising source of natural dye

References

Anon. (1989). Handbook of Textile Testing [SP-15 Part 4-1988: Identification and Testing of Dyestuffs and Their Colour Fastness on Textile Materials]. Bureau of Indian Standards, New Delhi, pp 127, 137,157 and 193.

Anon. (2020). Lannea coromandelica (Houtt.) Merr. (Anacardiaceae). https://www.pilikula.com/botanical_list/ botanical_name_l/lannea_coromandelica.html (Accessed on13th October, 2020)

Basuri T.S., Patil C. and Dhal N.K. (2011). In vitro evaluation of antibacterial activity of crude ethanolic extract of Lannea coromandelica. Journal of Pharmacy Research, 4:1246-1247.

Beaman J.H. (1986). Allergenic Asian Anacardiaceae. Clinics in Dermatology, 4(2): 191-203.

Bose S. and Nag S. (2012). Isolation of Natural Dyes from the Flower of Hibiscus Rosa-Sinensis. American Journal of Pharm Tech Research, 2(3): 761-770.

Dayal R. and Dobhal P.C. (2001). Natural dyes from Indian Plants. Colourage, 48(8): 33-38.

Eckhard W. and Volker H.D. (1981). Occurrence and distribution of free flavonoid aglycones in plants. Phytochemistry, 20(5): 869-932.

Franco-Maass F.S., Arredondo-Ayala G.M., Cruz-Balderas Y. and Endara-Agramont A. (2019). The Use of Dye Plants in a Mazahua Community in Central Mexico. Economic Botany, 73(1): 13-27.

Gaur R.D. (2008). Traditional dye yielding plants of Uttrakhand, India. Natural Products Radiance, 7(2): 154-165.

Harivaindaran K.V., Rebecca O.P.S. and Chandran S. (2008). Study of optimal temperature, pH and stability of dragon fruit (Hylocereus polyrhizus) peel for use as potential natural colorant. Pakistan Journal of Biological Sciences, 11: 2259-2263.

Islam M.T. and Tahara S. (2000). Dihydroflavonols from Lannea coromandelica. Phytochemistry, 54(8): 901-907.

Islam M.T., Ito T., Sakasai M. and Tahara S. (2002). Zoosporicidal activity of polyflavonoid tannin identified in Lannea coromandelica stem bark against phytopathogenic oomycete Aphanomyces cochlioides. Journal of Agriculture and Food Chemistry, 50(23): 6697-6703.

Janani L., Hillary L. and Phillips K. (2014). Mordanting methods for dyeing cotton Ffabrics with dye from Albizia coriaria plant species. International Journal of Scientific and Research Publications, 4(10): 1-5.

Junsongduang A., Sirithip K., Inta A., Nachai R., Onputtha B., Tanming W. and Balslev H. (2017). Diversity and traditional knowledge of textile dyeing plants in Northeastern Thailand. Economic Botany, 71(3): 241-255.

Kant R. (2012). Textile dyeing industry an environmental hazard. Natural Science, 4(1): 22-26.

Kaur R., Jaiswal M.L. and Jain V. (2013). Protective effect of Lannea coromandelica Houtt. Merrill. against three common pathogens, Journal of Ayurveda & Integrative Medicine, 4(4): 224-228.

Kumar R. and Tripathi Y.C. (2011). Natural Dyes from Forest Biomass. In: Training Manual on Extraction Technology of Natural Dyes and Aroma Therapy and Cultivation Value Addition of Medicinal Plants. Forest Research Institute, Dehradun (India), pp 51-69. doi: 10.13140/2.1.4934.9927.

Kumar R., Tripathi Y.C. and Kaushik P.K. (2016). Process optimization for extraction of natural dye from M. philippinensis fruits and its application on different fabrics, World Journal of Pharmaceutical Research, 5(4): 927-945.

Kumar R., Lijina L.N. and Tripathi Y.C. (2020). Dyeing behaviour assessment of fruit pulp extract as a source of textile dye. Asian Dyer, 17(3): 27-30.

Mannan A. (2010). Antihyperglycemic activity evaluation of Leucas aspera (Willd.) Link leaf and stem and Lannea coromandelica (Houtt.) Merr. bark extract in Mice. Advances in Natural and Applied Sciences, 4(78): 385-388.

Mansour H.F. and Gamal A.M. (2011). Environmental assessment of osage orange extraction and its dyeing properties on protein fabrics Part I: Standardization of extraction. Journal of Environmental Science and Technology, 4: 395-402.

Pal A. Kumar R., Upadhyay L. and Tripathi Y.C. (2018). Antifungal activity of natural dye from aerial biomass of Barleria prionitis L. and dyed fabrics. Iranian Journal of Chemistry and Chemical Engineering, 37(1): 213-221.

Pal A., Kumar R. and Tripathi Y.C. (2021). Antifungal finishing of fabrics with natural dyes from aerial biomass of Perilla frutescens (L.) Britton. International Journal of Applied Pharmaceutical Sciences and Research, 6(1): 8-14.

Premjanu N. and Jayanthy C. (2014). Antidiabetic activity of phytochemical isolated from Lannea coromendelica leaves – an in-silico approach. Journal of Chemical and Pharmaceutical Sciences, 41-44, (2014).

Prusty A.K., Das T., Nayak A. and Das N.B. (2010). Colourimetric analysis and antimicrobial study of natural dyes and dyed silk. Journal of Cleaner Production, 18: 1750-1756.

Rai P.K. and Lalramnghinglova H. (2010). Ethnomedicinal plant resources of Mizoram, India: Implication of traditional knowledge in health care system, Ethnobotanical Leaflets, 14: 274-305.

Reddy A.K., Joy J.M. and Ashok Kumar C.K. (2011). Lannea coromandelica: The Researcher's Tree. Journal of Pharmacy Research, 4(3): 577-579.

Samanta A.K. and Agarwal P. (2009). Application of Natural dyes on Textiles. Indian J. Fibre Text. Res., 34: 384-399.

Sankara S.S. and Nair A.G.R. (1971). Angiospermae Dicotyledonae Anacardiaceae polyphenols of Lannea coromandelica. Phytochemistry, 10: 1939-1940.

Saravanan S., Dhasarathan P., Indira V. and Venkataraman R. (2010). Screening of anti inflammatory potential of chosen medicinal plants using swiss albino mice. Australian Journal of Basic and Applied Sciences, 4: 6065-6068.

Sathish R., Mohd H.A., Natarajan K. and Lalitha K.G. (2010). Evaluation of wound healing and antimicrobial activity of Lannea coromandelica (Houtt) Merrill. Journal of Pharmacy Research, 3(6): 1225-1228.

Senthilkumar R.P., Bhuvaneshwari V., Sathiyavimal S., Amsaveni R., Kalaiselvi M. and Malayaman V. (2015). Natural colours from dyeing plants for textiles. International Journal of Biosciences and Nanosciences, 2(7): 160-174

Sharma A., Dangwal L.R., Dangwal M. (2012). Dye yielding plants of the Garhwal Himalaya, India: A case study. International Research Journal of Biological Sciences, 1(4): 69-72.

Singh S. and Singh G.B. (1996). Hypotensive activity of Lannea coromandelica bark extract, Phytotherapy Research, 10: 429.

Sule A. (1997). Computer colour Analysis-Textile Applications. Ahmedabad Textile Industry Research Association, Chemical Technology Division, New Delhi, pp. 64-77.

Uddin M.G., Ghosh N.C. and Reza M.S. (2014). Study on the performance of ecoalkali in dyeing of cotton fabric with reactive dyes. International Journal of Textile Science, 3: 5158.

Uddin M.G. (2015). Extraction of eco-friendly natural dyes from mango leaves and their application on silk fabric. Textiles and Clothing Sustainability, 1(7): 1-8.

Yusuf M., Faqeer M., Shabbir M. and Ali K.M. (2016). Ecodyeing of wool with Rubia cordifolia root extract: Assessment of the effect of Acacia catechu as biomordant on color and fastness properties. Textiles and Clothing Sustainability, 2(10): 19.

Yusuf M.Z., Shahid M., Khan M.I., Khan S.A., Khan M.W. and Mohammad F. (2015). Dyeing studies with Henna and Madder: A research on effect of tin (II) chloride mordant. Journal of Saudi Chemical Society, 19(1): 64-72.

Zhenga X.L. and Xinga F.W. (2009). Ethnobotanical study on medicinal plants around Mt.Yinggeling, Hainan Island, China. Journal of Ethnopharmacology, 124: 197.

Downloads

Download data is not yet available.

Author Biography

Rakesh Kumar, Wood Processing Division, Institute of Wood Science and Technology, Malleswaram 18th Cross, Bangalore - 560003

uttarakhand

Downloads

Published

2022-06-08

How to Cite

Kumar, R., & Tripathi, Y. C. (2022). Exploring <i>Lannea coromandelica</i> Leaves as a Renewable Sources of Natural Dye for Textile Applications. Indian Forester, 148(4), 407–414. https://doi.org/10.36808/if/2022/v148i4/169091

Issue

Volume 148, Issue 4, April 2022

Section

Articles

License

Unless otherwise stated, copyright or similar rights in all materials presented on the site, including graphical images, are owned by Indian Forester.

Crossref
Scopus
Google Scholar
Europe PMC

Most read articles by the same author(s)

1 2 3 > >>