Natural colour extraction from horticultural crops, advancements, and applications-a review

The scope for natural colours is increasing because of the awareness of allergic, toxic, and hazardous reactions associated with synthetic dyes. Natural colours are extracted from sources that are naturally available, such as flora, fauna, and minerals. Nature sourced us multiple possibilities of co...

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Published in:Natural product research 2025-01, Vol.39 (1), p.163-181
Main Authors: R, Gokiladevi, M, P. Ellampirai, A, Ramesh Kumar, S, Srivignesh, Krishna, K. Rama
Format: Article
Language:English
Subjects:
Agricultural practices
Allergies
Availability
Color
Coloring Agents - chemistry
Coloring Agents - isolation & purification
Commercialization
Crop rotation
Crops
Crops, Agricultural
Developing countries
Dyes
Flora
food colourants
Horticultural crops
Horticulture
Horticulture - methods
intelligent-packaging
LDCs
micro-wave
pharmaceutical
Pigments, Biological - chemistry
Pigments, Biological - isolation & purification
Plant Extracts - chemistry
Plants (botany)
R&D
Raw materials
Research & development
Subdivisions
Supercritical
textile
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description The scope for natural colours is increasing because of the awareness of allergic, toxic, and hazardous reactions associated with synthetic dyes. Natural colours are extracted from sources that are naturally available, such as flora, fauna, and minerals. Nature sourced us multiple possibilities of colours with varied shades and hues that are subtle and harmonious when combined. Reasons like the instability of natural colours during industrial processing, seasonal availability of raw materials, fading of colour over time, cost of the benefit, and struggles in attaining sustainability have reduced commercialisation success as synthetic colours. Some plants that yield natural colours are also included in crop rotation practice. Natural dye extraction is a source of employment for the countrified subdivisions of poor developing countries. Indigenous technologies on natural colour extraction are available and have been practiced over the years; due to a lack of documentation and information on colour-yielding plants or products from horticultural crops, and their extraction methods, the use of natural colours is diminishing day by day. Even in recent years, emerging techniques have been adopted in research and development, and the information has not been brought together for the use of industries and allied sectors. Several modern approaches, such as Ultrasonication, microwave, enzymatic, supercritical, pressurised liquid extraction, etc., have proven to give better results in extracting natural colours. Thereby, having instantaneous information will help to go green, be eco-friendly, and effectively utilise all the resources without compromising industrial benefits. Reviewing the availability of natural colours from horticultural crops, classifications, recent trends in their extraction process, and applications in various fields will help achieve the above.
doi_str_mv 10.1080/14786419.2023.2280796
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source Taylor and Francis Science and Technology Collection
subjects Agricultural practices
Allergies
Availability
Color
Coloring Agents - chemistry
Coloring Agents - isolation & purification
Commercialization
Crop rotation
Crops
Crops, Agricultural
Developing countries
Dyes
Flora
food colourants
Horticultural crops
Horticulture
Horticulture - methods
intelligent-packaging
LDCs
micro-wave
pharmaceutical
Pigments, Biological - chemistry
Pigments, Biological - isolation & purification
Plant Extracts - chemistry
Plants (botany)
R&D
Raw materials
Research & development
Subdivisions
Supercritical
textile
title Natural colour extraction from horticultural crops, advancements, and applications-a review
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