PENGARUH LOKASI TUMBUH, UMUR TANAMAN DAN VARIASI JENIS DESTILASI TERHADAP KOMPOSISI SENYAWA MINYAK ATSIRI  RIMPANG Curcuma mangga PRODUKSI BEBERAPA SENTRA DI YOGYAKARTA (Impact of Growing Sites, Plant Ages and Variance of Distillation Types to Curcuma)

Endang Astuti; Retno Sunarminingsih; Umar Anggara Jenie; Sofia Mubarika; Sismindari Sismindari

doi:10.22146/jml.18560

PENGARUH LOKASI TUMBUH, UMUR TANAMAN DAN VARIASI JENIS DESTILASI TERHADAP KOMPOSISI SENYAWA MINYAK ATSIRI RIMPANG Curcuma mangga PRODUKSI BEBERAPA SENTRA DI YOGYAKARTA (Impact of Growing Sites, Plant Ages and Variance of Distillation Types to Curcuma)

https://doi.org/10.22146/jml.18560

Endang Astuti^(1*), Retno Sunarminingsih⁽²⁾, Umar Anggara Jenie⁽³⁾, Sofia Mubarika⁽⁴⁾, Sismindari Sismindari⁽⁵⁾

(1) Jurusan Kimia, Fakultas MIPA, Universitas Gadjah Mada, Sekip Utara, Yogyakarta, 55281
(2) Fakultas Farmasi, Universitas Gadjah Mada, Sekip Utara, Yogyakarta, 55281
(3) Fakultas Farmasi, Universitas Gadjah Mada, Sekip Utara, Yogyakarta, 55281
(4) Fakultas Kedokteran, Universitas Gadjah Mada, Sekip Utara, Yogyakarta, 55281
(5) Fakultas Farmasi, Universitas Gadjah Mada, Sekip Utara, Yogyakarta, 55281
(*) Corresponding Author

Abstract

ABSTRAK

Minyak atsiri rimpang Curcuma mangga telah diketahui bersifat toksik terhadap beberapa jenis sel kanker. Toksisitas minyak atsiri dipengaruhi oleh komposisi senyawa penyusunnya. Komposisi minyak atsiri dipengaruhi oleh berbagai faktor ekologi dan metode isolasi. Penelitian ini bertujuan untuk mengetahui pengaruh lokasi tumbuh, umur tanaman dan variasi jenis destilasi terhadap komposisi senyawa minyak atsiri rimpang C. mangga. Untuk mempelajari pengaruh lokasi tumbuh diambil rimpang C. mangga yang berasal dari beberapa daerah di Daerah Istimewa Yogyakarta. Pengaruh umur tanaman terhadap komposisi senyawa dalam minyak atsiri digunakan rimpang C. mangga umur 1, 2, 3, 7, 10, 11 dan 12 bulan, sedangkan jenis destilasi yang digunakan adalah destilasi uap dan uap air. Analisis komponen senyawa minyak atsiri digunakan Kromatografi Gas-Spektrometer Massa (KG-SM). Hasil penelitian menunjukkan bahwa rimpang yang berasal dari daerah dataran rendah memiliki jenis senyawa yang lebih banyak daripada dataran tinggi dan dimungkinkan karena curah hujan di dataran rendah lebih kecil daripada dataran tinggi. Minyak atsiri rimpang C. mangga optimum apabila tanaman dipanen pada saat umur 8-10 bulan dan jenis destilasi berpengaruh terhadap komposisi minyak atsiri. Namun begitu, senyawa utama minyak atsiri rimpang C. mangga untuk semua variasi perlakuan adalah sama yaitu β-osimen, β-pinen, β-mirsen dan p-sineol.

ABSTRACT

The essential oil of Curcuma mangga has been known to be toxic to several cancer cells. The toxicity is influenced by the substances composition. The substances composition of the essential oil is influenced by ecological factor and isolation method. Therefore, this study have several aims to recognize the impact of growing sites, plant ages and variance of distillation types to C. mangga essential oil compositions. To study the impact of the growing sites, C. mangga samples are collected from several places in Yogyakarta. To determine the impact of substances composition of C. mangga essential oil, samples of 1, 3, 7, 10, 11 and 12 months were chosen, while for distillation method, steam and water-steam distillations were used. For C. mangga essential oil’s susbtances analysis, Gas Chromatography-Mass Spectrometer (GC-MS) was performed. The results of study shown that the land samples contain more substances variance in comparison with the planteau samples, it is probably influenced by the rainfall frequency of land areas, which is lower than planteau areas. In addition, the optimum essential oil are the 8-10 month samples and the distillation method influences to the essential oil compositions. However, all variance treatment has the same main component, i.e., β-ocimene, β-pinene, β-myrcene and p-cineole.

Keywords

jenis destilasi; lokasi tumbuh; minyak atsiri; umur tanaman; age of plant; Curcuma mangga; distillation type; essential oil growing site

Full Text:

Artikel lengkap (PDF) (Bahasa Indonesia)

References

Abas, F., Lajis, N.H., Shaari, K., Israf, D.A., Stanslas, J., Yusuf, U.K., dan Raof, S.M., 2005. A Labdane Diterpene Glucoside from the Rhizomes of Curcuma mangga. J. Nat. Prod. 68(7):1090–1093.

Ahmadian, A., Tavassoli A. dan Amiri, E., 2011. The Interaction Effect of Water Stress and Manure on Yield Components, Essential Oil dan Chemical Composition of Cumin (Cuminum cyminum). Afr. J. Agric. Res. 6(10):2309-2315.

Asghari, G., Mostajeren, A., dan Shebli, M., 2009. Curcuminoid and Essential Oil Components of Turmeric at Different Stages of Growth Cultivated in Iran. Res. Pharm. Sci. 4(1):55-61.

Bua-in, S., dan Paisooksantivanata, Y., 2009. Essential Oil and Antioxidant of Cassumunar Ginger (Zingiberaceae: Zingiber montanum (Koenig) Link ex Dietr.) Collected from Various Parts of Thailand. Kasetsart J. (Nat.Sci). 43: 467-475.

Handa, S.S., Khanuja, S.P.S., Longo, G., dan Rakesh, D.D., 2008. Extraction Technologies for Medicinal and Aromatic Plants, Earth, Environmental and Marine Sciences and Technologies International Centre for Science and High Technology ICS-UNIDO, Trieste.

Ishimine, Y., Hossain, Y.Md.A., dan Y., Murayama, S., 2003. Optimal Planting Depth for Turmeric (Curcuma longa L.) Cultivation in Dark Red Soil in Okinawa Island, Southern Japan. Plant Prod. Sci. 6(1):83-89.

Khalid, Kh.A., 2006. Influence of Water Stress on Growth, Essential Oil, and Chemical Composition on Herbs (Ocimum sp). Int. Agrophysics. 20:289-296.

Khuankaew, T., Ruamrungsri, S., Ito, S., Sato, T., Ohtake, N., Sueyoshi, K., dan Ohyama, T., 2010. Assimilation and Translocation of Nitrogen and Carbon in Curcuma alismatifolia Gagnep. Plant Biol. 12(3):414-23.

Kulpapangkorn, W., dan Mai-leang, S., 2012. Effect of Plant Nutrition on Turmeric Production, Procedia Eng. 32:166-171.

Li, S., Yuan, W., Deng, G., Wang, P., Yang, P., dan Aggarwal, B.B., 2011. Chemical Composition and Product Quality Control of Turmeric (Curcuma longa L). Pharm. Crops. 2:28-54.

Liu, Y. dan Nair, M.G., 2011. Labdane Diterpenes in C. mangga Rhizomes Inhibit Lipid Peroxidation, Cyclooxygenase Enzymes and Human Tumour Cell Proliferation. Food Chem. 124:527–532.

Malek, S.N.A., Lee, G.S., Hong, S.L., Yacob, H., Wahab, N.A., Weber, J.F., dan Shah, S.A.A., 2011. Phytochemical and Cytotoxic Investigations of C. mangga Rhizomes. Molecules. 16:4539-4548.

Mann, R.S., dan Kaufman, P.E., 2012. Natural Product Pesticides: Their Development, Delivery and Use Against Insect Vectors. Mini-Rev. Org. Chem. 9:185-202.

Masango P., 2005. Cleaner Production of Essential Oils by Steam Distillation. J. Clean. Prod. 13:833-839.

Mostajeran, A., Gholaminejad, A., dan Asghari, G., 2013. Salinity Alters Curcumin, Essential Oil and Chlorophyll of Turmeric (Curcuma longa L.). Res. Pharm. Sci. 9(1):49-57.

Ozek, T., 2012. Distillation Parameters for Pilot Plant Production of Laurus nobilis Essential Oil. Rec. Nat. Prod. 6(2):135-143.

Rao, B.L., Mehra, V., Bhan, M.K., dan Dhar, A.K., 2008. Natural Variation and Correlation Studies of Morphological Traits in A Population of Curcuma amada Roxb. J. Trop. Agric. and Fd. Sc. 36(1):53–59.

Raoa, B.R.R., Kaul, P.N., Syamasundarb, K.V., dan Rameshb, S., 2005. Chemical proﬁles of Primary and Secondary Essential Oils of Palmarosa (Cymbopogon martinii (Roxb.) Wats var. motia Burk. Ind. Crops Prod. 21:121–127.

Rumiyati, Sudibyo, R.S., Sismindari, Jenie, U.A., Mubarika, S., dan Kardono, L.B., 2007. Selective Cytotoxicity of Essential Oil of C. mangga Val. on Cell Lines and Its Effect on Expressions of p53 and Bcl-2. Proceeding of The International Symposium on Recent Progress in Curcumin Research, Faculty of Pharmacy, Gadjah Mada University, Indonesia.

Singh-Sangwan, N., Farooqif, A.H.A., dan Sangwan, R.S., 1994. Effect of Drought Stress on Growth and Essential Oil Metabolism in Lemongrasses. New Phytol. 128:173-179.

Srivastava, N.K., Sharma, S., dan Misra, A., 2006. Influence of Zn on Allocation of Leaf-assimilated 14CO2 into Primary Metabolites in Relation to Production of Essential Oil and Curcumin in Turmeric (Curcuma longa L.). WJAS. 2(2):201-207.

Shutisut D., Fields, P.G., dan Chandrapatya, A., 2011. Fumigant Toxicity of Essential Oils from Three Thai Plants (Zingiberaceae) and Their Major Compouns Agains Sitophilus zeamais, Tribolium castaneum and Two Parasitoids. J. Stored Prod. Res. 47:222-230.

Tandon S., 2008. Distillation Technology for Essential Oils, dalam Extraction Technologies for Medicinal and Aromatic Plants diedit oleh Handa S.S., Khanuja, S.P.S., Longo, G., dan Rakesh, D.D. International Centre For Science And High Technology, Trieste.

Verlianara, I., 2004. Efek in Vitro Minyak Atsiri C. mangga Val. pada Sitotoksisitas, Antiproliferatif dan Apoptosis Sel Raji dan Mieloma. Thesis. Program Studi Bioteknologi, Jurusan Antar Bidang, Program Pascasarjana, Universitas Gadjah Mada, Yogyakarta.

DOI: https://doi.org/10.22146/jml.18560

Article Metrics

Abstract views : 3857 |

Refbacks

There are currently no refbacks.

JML Indexed by:

View My Stats

Username
Password
Remember me