Application of Flower Wastes to Produce Valuable Products (original) (raw)

References

Abeliotis, K., Barla, S. A., Detsis, V., & Malindretos, G. (2016). Life cycle assessment of carnation production in Greece. Journal of Cleaner Production, 112, 32e38. https://doi.org/10.1016/J.JCLEPRO.2015.06.018
Article Google Scholar
Agarwal, S. (2011). Report on demonstration of the renewable energy system at Shri Mahakaleshwar Temple Complex in Ujjain (pp. 1–4). Ministry of New and Renewable Energy.
Google Scholar
Agricultural and Processed Food Products Export Development Authority (APEDA). (2023). Ministry of Commerce and Industry, Government of India. https://apeda.gov.in/apedawebsite/six_head_product/floriculture.htm#:~:text=More%20than%2050%25%20of%20the,Tamil%20Nadu%20and%20Madhya%20Pradesh
Alebiosu, S. O., Akindiya, I. O., Mohammed Raji, A., & Adefidipe, O. A. (2019). Investigating the physical and mechanical properties of broadleaf cattail (Typha Latifolia) and water hyacinth (Eichhornia Crassipes) paper blend. International Journal of Engineering Research and Technology, 8, 119–122.
Google Scholar
Al-Snafi, A.E. (2018). Chemical constituents, pharmacological effects and therapeutic importance of Hibiscus rosa-sinensis- A review. IOSR Journal of Pharmacy, 8(7), 1–5.
Google Scholar
Bachheti, R. K., Fikadu, A., Bachheti, A., & Husen, A. (2020). A review of biogenic fabrication of nanomaterials from flower-based chemical compounds, characterisation and their various applications. Saudi Journal of Biological Sciences, 27, 2551–2562.
Article Google Scholar
Barad, G., & Upadhyay, A. (2016). Degradation of flower wastes: A review. International Journal for Scientific Research & Development, 4(4), 1–2.
Google Scholar
Chauhan, A. (2019). Environmental pollution and management (pp. 1–232). Wiley Publication Publishing House.
Google Scholar
Chauhan, A., & Joshi, P. C. (2010). Composting of some dangerous and toxic weeds using Eisenia foetida. Journal of American Science, 6(3), 1–6.
Google Scholar
Chauhan, A., Kumar, S., Singh, A. P., & Gupta, M. (2010). Vermicomposting of vegetable wastes with cow dung using three earthworm species Eisenia foetida, Eudrilus eugeniae and Perionyx excavatus. Nature and Science, 8(1), 33–43.
Google Scholar
Chawla, S. L., Patil, S., Ahlawat, T. R., & Agnihotri, R. (2016). Present status, constraints and future potential of floriculture in India. Commercial Horticulture, 1, 29–38.
Google Scholar
Darras, A. I. (2020). Implementation of sustainable practices to ornamental plant cultivation worldwide: A critical review. Agronomy, 10(10), 1570. https://doi.org/10.1016/j.jclepro.2020.124669
Article CAS Google Scholar
Dutta, S., & Kumar, M. S. (2021). Potential of value-added chemicals extracted from floral waste: A review. Journal of Cleaner Production, 294, 126280. https://doi.org/10.1016/j.jclepro.2021.126280
Article CAS Google Scholar
Elango, G., & Govindasamy, R. (2018). Analysis and utilization of temple waste flowers in Coimbatore District. Environmental Science and Pollution Research, 25(11): 1–7, https://doi.org/10.1007/s11356-018-1259-0
Gupta, P., & Vasudeva, N. (2012). Marigold a potential ornamental plant drug. Hamdard Medicus, 55(1), 45–59.
Google Scholar
Haouas, D., Flamini, G., Halima-Kamel, M. B., & Hamouda, M. H. B. (2010). Feeding perturbation and toxic activity of five Chrysanthemum species crude extracts against Spodoptera littoralis (Boisduval)(Lepidoptera; Noctuidae). Crop Protection, 29(9), 992–997.
Google Scholar
Haouas, D., Halima-Kamel, M. B., & Hamouda, M. H. (2008). Insecticidal activity of flower and leaf extracts from Chrysanthemum species against Tribolium confusum. Tunisian Journal of Plant Protection, 3(2), 87–93.
Google Scholar
Garcia, D. (2018). Cut-roses global value chain governance: Ecuadorian exports to the Netherlands. The Hague University, MA thesis.
Google Scholar
Gaurav, M. V., & Pathade, G. R. (2011). Production of vermicompost from temple waste (Nirmalya): A case study. Universal Journal of Environment and Research Technology, 1(2), 182–192. https://doi.org/10.1007/s11356-022-239252
Article Google Scholar
Indian Express. (2010, May). https://indianexpress.com/article/cities/lucknow/with-cimap-help-flowers-at-ajmer-dargah-to-bring-jobs/
Jadhav, A. R., Chitanand, M. P., & Shete, H. G. (2013). Flower waste degradation using microbial consortium. Journal of Agriculture, 3(5), 1–4.
Google Scholar
Joshi, P. C., & Chauhan, A. (2006). Composting of some organic materials using Eisenia foetida and conventional microbial methods: A comparative study. Uttar Pradesh Journal of Zoology, 26(1), 123–125.
Google Scholar
Kelley, K. M., Behe, B. K., Biernbaum, J. A., & Poff, K. L. (2001). Consumer preference for edible flower colour, container size, and price. HortScience, 36, 801–804.
Article Google Scholar
Kelley, K. M., Behe, B. K., Biernbaum, J. A., & Poff, K. L. (2002). Combinations of colours and species of containerised edible flowers: Effect on consumer preferences. Horticultural Science, 37, 218–221.
Google Scholar
Khan, M. A., & Rehman, S. U. (2005). Extraction and analysis of essential oil of rose species. International Journal of Agriculture and Biology, 7(6), 973–974.
CAS Google Scholar
Kumar, V., Kumari, S., & Kumar, P. (2020). Management and sustainable energy production using flower waste generated from temples. In V. Kumar, J. Singh, & P. Kumar (Eds.), Environmental degradation: Causes and remediation strategies (Vol. 1, pp. 154–165). https://doi.org/10.26832/aesa-2020-edcrs-011
Chapter Google Scholar
Kunhachan, P., Banchonglikitkul, C., Kajsongkram, T., Khayungarnnawee, A., & Wichet Leelamanit, W. (2012). Chemical composition, toxicity and vasodilatation effect of the flowers extract of Jasminum sambac. Hindawi Publishing Corporation, pp. 1–7, https://doi.org/10.1155/2012/471312
Lin, Y. S., Wu, S. S., & Lin, J. K. (2003). Determination of tea polyphenols and caffeine in tea flowers (Camellia sinensis) and their hydroxyl radical scavenging and nitric oxide suppressing effects. Journal of Agricultural and Food Chemistry, 51, 975–978.
Article CAS Google Scholar
Mahindrakar, A. (2018). Floral waste utilisation. International Journal of Pure and Applied Bioscience, 6(2), 1–5.
Article Google Scholar
Makhania, M., & Upadhyay, A. (2015). Study of flower waste composting to generate organic nutrients. International Journal of Innovative and Emerging Research in Engineering, 2(2), 145–147.
Google Scholar
Markets, Ra. (2021). Cut flowers market forecast to 2028 - COVID-19 impact and global analysis by flower type, application, and distribution channel. Research and Markets. In this issue. https://www.researchandmarkets.com/reports/5178560/cut-flower s-market-forecast-to-2028-covid-19
Marotti, I., Marotti, M., Piccaglia, R., Nastri, A., Grandi, S., & Dinelli, G. (2010). Thiophene occurrence in different Tagetes species: agricultural biomasses as sources of biocidal substances. Journal of the Science of Food and Agriculture, 90(7), 1210–1217.
Google Scholar
Masure, P. S., & Patil, P. B. M. (2014). Extraction of waste flowers. International Journal of Engineering Research & Technology, 3, 43–44.
Google Scholar
Miller, R., Owens, O. J., & Rørslett, B. (2011). Plants and colour: Flowers and pollination. Optics and Laser Technology, 43(2), 282–294.
Article CAS Google Scholar
Mishra, N. (2013, Aug 17). Temple waste, a concern. Times of India. Retrieved from http://www.timesofindia.indiatimes.com
Mishra, S., & Pradhan, S. (2013). Madhuca lonigfolia (Sapotaceae): A review of its traditional uses and nutritional properties. International Journal of Humanities and Social Science Invention, 2(5), 30–36.
Google Scholar
Nikkon, F., Habib, M. R., Karim, M. R., Ferdousi, Z., Rahman, M. M., & Haque, M. E. (2009). Insecticidal activity of flower of Tagetes erecta L. against Tribolium castaneum (Herbst). Research Journal of Agriculture and Biological Sciences, 5(5), 748–753.
Google Scholar
Ogunwusi, A. A. and Ibrahim, H. D. (2014). Advances in pulp and paper technology and the implication for the paper industry in Nigeria. Industrial Engineering Letters, 4(10), 3–11.
Google Scholar
Paudel, K. R., & Panth, N. (2015). Phytochemical profile and biological activity of Nelumbo nucifera. Hindawi, pp. 1–16.
Google Scholar
Perumal, K., Moorthy, T. A., & Savitha, J. S. (2012). Characterization of essential oil from offered temple flowers Rosa damascena Mill. Asian Journal of Experimental Biology and Science, 3(2), 330–334.
CAS Google Scholar
Racha, U., Sukhavasi, P. C., Anuroop, P., & Chaitanya, R. (2022). Development of biochar from floral waste for the removal of heavy metal (copper) from the synthetic wastewater. In IOP Conference Series: Earth and Environmental Science (Vol. 1074, No. 1, p. 012033). IOP Publishing.
Google Scholar
Ranjitha, J., Vijayalakshmi, S., Vijaya, K. P., & Ralph, N. P. (2014). Production of bio-gas from flowers and vegetable wastes using anaerobic digestion. International Journal of Research in Engineering and Technology, 3(8), 279–283.
Article Google Scholar
Ravishankar, R., Raju, A. B., Abdul, B. M., Mohapatra, A. K., & Kumar, M. (2014). Extraction of useful products from temple flower wastes. Journal of Chemical Engineering and Research, 2(1), 231–239.
Google Scholar
Republic, P. (2021). Floristry and floriculture industry statistics and trends. https://www.petalrepublic.com/floristry-and-floriculture-statistics/#1-global-floricultur e-production-statistics. Accessed 21 Dec 2021.
Research and Markets. (2022). https://www.prnewswire.com/news-releases/cut-flowers-global-market-report-2022-featuring-profiles-of-florensis-flower-seeds-uk-oserian-flamingo-horticulture-multiflora-and-washington-bulb-301500893.html
Sailaja, D., Srilakshmi, P., Shehanaaz, Priyanka, H., Bharathi, D. L., & Begum, A. (2013). Preparation of Vermicompost from temple waste flowers. International Journal of Science Innovation and Discoveries, 3(3), 367–375.
Google Scholar
Samadhiya, H., Gupta, R. B., & Agrawal, O. P. (2017). Disposal and management of temple waste: Current status and the possibility of vermicomposting. International Journal of Advanced Research and Development, 2(4), 1–8.
Google Scholar
Sharma, P. (2019). Floriculture-world wide production, trade, consumption pattern, market opportunities and challenges. Medium. https://medium.com/@preetisharma_51610/floriculture-world-wide-production-trade-consumption-pattern-marke t-opportunities-and-challenges-e797d87c87a7. Accessed: 2021-04-10.
Sharma, D., Yadav, K. D., & Kumar, S. (2018). Role of sawdust and cow dung on compost maturity during rotary drum composting of floral waste. Bioresource Technology, 264, 285e289. https://doi.org/10.1016/j.biortech.2018.05.091
Article CAS Google Scholar
Shouche, S., Pandey, A., & Bhati, P. (2011). Study about the changes in physical parameters during vermicomposting of floral wastes. Journal of Environment and Research, 6(1), 63–68.
Google Scholar
Singh, P., & Bajpai, U. (2012). Anaerobic digestion of flower waste for methane production: An alternative energy source. Environmental Progress and Sustainable Energy, 31(4), 637–641.
Article CAS Google Scholar
Singh, S. K., & Singh, R. S. (2007). Study on municipal solid waste and its management practices in Dhanbad–Jharia coalfield. Indian Journal of Environmental Protection, 18(11), 850–852.
Google Scholar
Singh, P., Borthakur, A., Singh, R., Awasthi, S., Pal, D. B., Srivastava, P., Tiwary, D., & Mishra, P. K. (2017). Utilization of temple floral waste for extraction of valuable products: A close loop approach towards environmental sustainability and waste management. Pollution, 3(1), 39–45.
Google Scholar
Sivarajan, V. V., & Balachandran, I. (1994). Ayurvedic drugs and their plant sources. Oxford and IBH Publishing Pvt. Ltd.
Google Scholar
Srivastav, A. L., & Kumar, A. (2020). An endeavour to achieve sustainable development goals through floral waste management: A short review. Journal of Cleaner Production. https://doi.org/10.1016/j.jclepro.2020.124669
Su, S. K., Chen, S. L., Lin, X. Z., Hu, F. L., & Shao, M. (2000). The determination of ingredient of tea (Camellia sinensis) pollen. Apicul China, 51, 3–5.
Google Scholar
Suryawansh, Y. C., & Mokat, D. N. (2020). Variability studies in Madhuca longifolia var. latifolia flowers from Northern Western Ghats of India. Indian Journal of Hill Farming, 33(2), 261–266.
Google Scholar
Thakare, P.A., Deshbhratar, K. and Suryawanshi, M.N. (2017). A brief review on therapeutic effects of – “ornamental plant” rose. International Journal of Ayurveda and Pharma Research, 5(12), 1–7.
Google Scholar
Tiwari, P. (2014). Utilisation and management of floral waste generated in popular temples of Jaipur City. The IIS University.
Google Scholar
UNEP. (2019). A colourful solution to flower waste. https://www.unep.org/news-and-stories/story/colourful-solution-flower-waste.
Vankar, P. S., Sanker, R., & Wijayapala, S. (2009). Utilisation of temple waste flower- Tagetes erect for dyeing of cotton, wool, silk on industrial scale. Journal of Textile and Apparel Technology Manage, 6(1), 1–15.
Google Scholar
Vikaspedia. (2023). https://vikaspedia.in/agriculture/farm-based-enterprises/floriculture
Waghmode, M. S., Gunjal, A. B., Nawani, N. N., & Patil, N. N. (2018). Management of floral waste by conversion to value-added products and their other applications. Springer, 9(1), 1–11. https://doi.org/10.1007/s12649-016-9763-2
Article CAS Google Scholar
Wang, R., Wang, W., Wang, L., Liu, R., Ding, Y., & Du, L. (2006). Constituents of the flowers of Punica granatum. Fitoterapia, 77, 534–537.
Article CAS Google Scholar
Wu, L. Y., Gao, H. Z., Wang, X. L., Ye, J. H., Lu, J. L., & Liang, Y. R. (2010). Analysis of chemical composition of Chrysanthemum indicum flowers by GC/MS and HPLC. Journal of Medicinal Plants Research, 4(5), 1–6.
Google Scholar
Yadav, I., Juneja, S. K., & Chauhan, S. (2015). Temple waste utilisation and management. International Journal of Engineering Technology Science and Research, 2, 1–6.
CAS Google Scholar

Download references