PENGELOLAAN LIMBAH BUNGA PACAR AIR (IMPATIENS BALSAMINA) DARI CANANG SARI DAN PENETAPAN WAKTU PENGUMPULAN

Authors

  • Audina Setya Fitriana universitas teknologi sumbawa
  • Edia Rahayuningsih Universitas Gadjah Mada Yogyakarta
  • Rochim Bakti Cahyono Universitas Gadjah Mada Yogyakarta

DOI:

https://doi.org/10.36761/hexagon.v6i2.6112

Keywords:

canang sari, pacar air, waste management, natural dye, Impatiens balsamina

Abstract

The aims of this research are 1) to develop system for collection and separation of flower waste in area model; 2) to analyse the natural dye content in pacar air flower waste during the collection and drying process. The data was collected by interviewing, giving questionnaire, and observing. Respondents in this research were staff of the environmental authority and communities in 5 sub-districts at Buleleng regency. From results of questionnaire, the current behaviour of community in managing canang sari waste can be identified. Then, it can be used as basis for preparation of an effective canang sari waste collection system and qualified as natural dye raw-material. To determine the quality of flowers for collection time, natural dye extraction from pacar air flower waste was carried out at various collection times. Duration of observation time: 1-7 days after canang sari used for worship. Analysis of natural dye content in extract with several tests, used phytochemical, gravimetry, and UV-vis spectrophotometry. The conclusion that can be drawn is that flower waste collection system is carried out in two categories of locations, at places of worship and non-places of worship. Collection time is every 2 days, with the flower waste will be puchased. Sorting system is carried out by providing blue bins for flower waste and grey bins for other waste. Flower waste collected every 2 days, produces the highest natural dye content compared to other collection times, at 59.0481% grams of dye per gram of dried flowers, with anthocyanin content at 32.06185 mg/l.

References

Andriani, SE., MT, I. (2020). Kabupaten Buleleng dalam Angka. Jurnal Transportasi Multimoda, 17(2).

Anggriani, R., Ain, N., & Adnan, S. (2017). Identification of Phytochemical and Characterization of Anthocyanin Green Coconut Fiber (Cocos nucifera L var varidis). Jurnal Teknologi Pertanian, 18(3), 163–172.

Arroy, J. D. V., Ruiz-Espinosa, H., Luna-Guevara, J. J., Luna-Guevara, M. L., Hernández-Carranza, P., Ávila-Sosa, R., & Ochoa-Velasco, C. E. (2017). Effect of solvents and extraction methods on total anthocyanins, phenolic compounds and antioxidant capacity of renealmia alpinia (Rottb.) maas peel. Czech Journal of Food Sciences, 35(5), 456–465.

Baibuch, S., Zema, P., Bonifazi, E., Cabrera, G., Mondragón Portocarrero, A. del C., Campos, C., & Malec, L. (2023). Effect of the Drying Method and Optimization of Extraction on Antioxidant Activity and Phenolic of Rose Petals. Antioxidants, 12(3), 1–15.

Li, Q., Zhang, F., Wang, Z., Feng, Y., & Han, Y. (2023). Advances in the Preparation, Stability, Metabolism, and Physiological Roles of Anthocyanins: A Review. Foods, 12(21).

Machado, J. S., Pieracci, Y., Carmassi, G., Ruffoni, B., Copetta, A., & Pistelli, L. (2023). Effect of Drying Post-Harvest on the Nutritional Compounds of Edible Flowers. 1–15.

Mizuno, T., Qin, Q., Tatsuzawa, F., & Hayashi, S. (2024). Identification of the Flower Pigments in the Garden Balsam ( Impatiens balsamina ), and Their Properties in Textile Dyeing. 50(2), 71–77.

Mukhtarini. (2014). Mukhtarini, “Ekstraksi, Pemisahan Senyawa, dan Identifikasi Senyawa Aktif,” J. Kesehat., vol. VII, no. 2, p. 361, 2014. J. Kesehat., VII(2), 361.

Nurtiana, W. (2019). Anthocyanin As Natural Colorant: a Review. Food ScienTech Journal, 1(1), 1.

Reiza, I. A., Rijai, L., & Mahmudah, F. (2019). Skrining Fitokimia Ekstrak Etanol Kulit Nanas (Ananas comosus (L.) Merr). Proceeding of Mulawarman Pharmaceuticals Conferences, 10, 104–108.

Shahid, M., Shahid-Ul-Islam, & Mohammad, F. (2013). Recent advancements in natural dye applications: A review. Journal of Cleaner Production, 53, 310–331.

Sugianti, I. G. A. N., & Trihadiningrum, Y. (2008). Pengelolaan Sampah Di Kawasan Pura Besakih, Kecamatan Rendang, Kabupaten Karangasem Dengan Sistem Tpst (Tempat Pengolahan Sampah Terpadu). Prosiding Seminar Nasional Manajemen Teknologi VII.

Wang, D., Lin, H., Kan, J., Liu, L., Zeng, X., & Shen, S. (2012). Food chemistry. In Food Chemistry.

Yusril Mukramin. (2022). Uji Aktivitas Ekstrak Etanolik daun pacar air terhadap pertumbuhan jamur. 8.5.2017, 2003–2005.

Zawi?lak, A., Francik, R., Francik, S., & Knapczyk, A. (2022). Impact of Drying Conditions on Antioxidant Activity of Red Clover (Trifolium pratense), Sweet Violet (Viola odorata) and Elderberry Flowers (Sambucus nigra). Materials, 15(9).

Published

2025-06-18

Issue

Vol. 6 No. 2 (2025)

Section

Articles

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