The quality of sandalwood (Santalum album Linn) oil primarily depends on the compound of two major sesquiterpenes (α-santalol and β-santalol). The aim of this research was to identify variation of chemical compounds of sandalwood oil from various provenances. Fifty four samples from 8 provenances and one land race taken from 13th years old sandalwood planted at Gunungkidul, Yogyakarta Indonesia. Sandalwood powder were obtained by drilling tree at 10 cm above the ground horizontally. The samples were extracted with n-hexane solvent. Identification of chemical compounds of this essential oils were conducted by gas chromatography mass spectrometry analysis (GCMS). The GCMS investigation of sandalwood oils showed that variation compounds both among individual within provenance and between provenances were found in 11 individual from 6 provenances. Compounds such as sesquiterpene, monoterpenes, and others, were found in variying amount. The results showed that α-santalol (32.38-78.29%), β-santalol (5.45%-37.83%) were the major compounds with varying quantities of compounds range of epi-β-santalol (5.97-17.16%), P-Menth-2-En-9-OL-Trans (2.87%-8.53%), and α-sinensal (3.83-9.39%).

essential oil; GCMS; α-santalol; β-santalol

Balai Besar Penelitian Bioteknologi dan Pemuliaan Tanaman Hutan. (2013). Sekilas tentang kawasan hutan dengan tujuan khusus Gunungkidul blok Watusipat. Profil KHDTK Gunungkidul Blok Watusipat. Yogyakarta.

Baskorowati, L. (2011). Implikasi biologi reproduksi terhadap konservasi genetik jenis Santalum album. Jurnal Pemuliaan Tanaman Hutan, 5(1), 1–11.

Bisht, S. S., & Hemanthraj, K. P. M. (2014). Gas Chromatography-Sass Spectrometry ( GC-MS ) Profiling of Heartwood Oil Composition from 15 Years Old Sandalwood Trees. International Journal of Pharmacognosy and Phytochemical Research, 6(2), 387–392.

Brand, J. E., Fox, J. E. D., Pronk, G., & Cornwell, C. (2007). Comparison of oil concentration and oil quality from Santalum spicatum and S. album plantations , 8 – 25 years old , with those from mature S. spicatum natural stands. Australian Forestry, 70(4), 235–241.

Brand, J., Kimber, P., & Streatfield, J. (2006). Preliminary analysis of Indian sandalwood oil from a 14 year old plantation at Kununurra, Western Australia. Sandalwood Research Newsletter, (21), 1–3.

Day, J. (2012). Musing of a sandalwood oil distiller. In International Sandalwood Symposium. Honolulu, Hawai: International Sandalwood Foundation.

Doran, J. C., Thomson, L. A. J., & Brophy, J. J. (2002). Sandalwood. In Regional Workshop on Sandalwood Research, Development and Extention in the Pacific Islands and Asia (pp. 1–30). Noumea, New Caledonia.

Doran, J. C., Thomson, L., Brophy, J., Goldsack, B., Bulai, P., Faka’osi, T., & Mokoia, T. (2005). Variation in heartwood oil composition of young sandalwood trees in the South Pacific (Santalum yasi , S. album and F1 hybrids in Fiji , and S. yasi in Tonga and Niue). Sandalwood Research Newsletter, (20), 3–7.

Frankel, 0. H. (1970). Genetic conservation in perspective. In O. H. Frankel & E. Bennet (Eds.), Genetic resources in plant their exploration and conservation (p. 554). Oxford: Blackwell Scientific Publications. https://doi.org/10.1017/S0014479700023553

Haryjanto, L. (2009). Keragaman genetik cendana (Santalum album Linn) di Kebun Konservasi Ex-situ Watusipat, Gunungkidul dengan penanda isozim. Jurnal Pemuliaan Tanaman Hutan, 3(3), 127–138. https://doi.org/10.20886/jpth.2009.3.3.127-138

Hettiarachchi, D. S. (2008). Volatile oil content determination in the Australian sandalwood industry: Towards a standardised method. Sandalwood Research Newsletter, (23), 1–4.

Howes, M.-J. R., Simmonds, M. S. ., & Kite, G. C. (2004). Evaluation of the quality of sandalwood essential oils by gas chromatography–mass spectrometry. Journal of Chromatography A, 1028(2), 307–312. https://doi.org/10.1016/j.chroma.2003.11.093

ISO 3518. (2002). Oil of sandalwood (Santalum album L.). International Organization for Standardization.

IUCN. (1998). IUCN Red List of Threatened Species.

Janarthanam, B., Dhamotharan, R., & Sumanthi, E. (2012). Thidiazuron ( TDZ ) – induced plant regeneration from internodal explants of Santalum album L. Journal of Biosciences Research, 3(3), 145–153.

McKinnel. (1993). Review on Santalum. Australia: IUFRO.

Misra, B. B., Das, S. S., & Dey, S. (2013). Volatile profiling from heartwood of East Indian sandalwood tree. Journal of Pharmacy Research, 7(4), 299–303. https://doi.org/10.1016/j.jopr.2013.04.030

Moniodis, J., Jones, C. G., Plummer, Julie, A., Emilio, G., Barbour, L. L., & Bohlmann, J. (2012). Chemical diversity and biosynthesis of Australian sandalwoods’ (Santalum spicatum) essential oil. In International Sandalwood Symposium. Honolulu, Hawai: International Sandalwood Foundation.

Peeris, M., & Senarath, W. (2015). In vitro propagation of Santalum album L. Journal of the National Science Foundation of Sri Lanka, 43(3), 265–272. https://doi.org/10.4038/jnsfsr.v43i3.7954

Quémin, C. (1988). Etudes sur le Santal (Santalum austrocaledonicum). Nouméa. Retrieved from http://agritrop.cirad.fr/319731/

Ratnaningrum, Y. W. N., & Indrioko, S. (2014). Variation on genotypes and flowering characters affecting pollination mechanisms of Sandalwood (Santalum album Linn, Santalaceae ) Planted on ex-situ gene Conservation in Yogyakarta , Indonesia. Eurasian Journal of Forest Research, 17(1), 19–34.

Rugkhla, A., & Mccomb, J. (1993). Self and cross pollination in Santalum spicatum and S. album. Sandalwood Research Newsletter, (1), 2–3.

Sanjaya, Bagyalakshmi, M., Thrilok, S. R., & Vittal, R. (2006a). Factors influencing in vivo and in vitro micrografting of sandalwood (Santalum album L.): an endangered tree species. Journal Forest Reseach, 11(3), 147–151. https://doi.org/10.1007/s10310-005-0208-1

Sanjaya, Bagyalakshmi, M., Thrilok, S. R., & Vittal, R. R. (2006b). Micropropagation of an endangered Indian sandalwood (Santalum album L.). Journal Forest Reseach, 11(3), 203–209. https://doi.org/10.1007/s10310-006-0207-x

Singh, C. K., Raj, S. R., Patil, V. R., Jaiswal, P. S., & Subhash, N. (2013). Plant regeneration from leaf explants of mature sandalwood (Santalum album L.) trees under in vitro conditions. In In Vitro Cellular & Developmental Biology. https://doi.org/10.1007/s11627-013-9495-y

Sinha, R. L. (1961). Sandal in Bundelkhand Forest Division, Uttar Pradesh. Indian Forester, 87(10), 590–597. Retrieved from http://www.indianforester.co.in/index.php/indianforester/article/view/24578

Subasinghe, S. . M. C. U. P. (2013). Sandalwood research : A global perspective. Journal of Tropical Forestry and Environment, 3(1), 1–8.

Subasinghe, U., Gamage, M., & Hettiarachchi, D. S. (2013). Essential oil content and composition of Indian sandalwood (Santalum album) in Sri Lanka. Journal of Forestry Research, 24(1), 127–130. https://doi.org/10.1007/s11676-013-0331-3

Sumardi, & Fiani, A. (2015). Keragaman genetik cendana (Santalum album) dan tindakan reintroduksi ke Nusa Tenggara Timur Genetic diversity of sandalwood (Santalum album) and reintroduction to East Nusa Tenggara. In Seminar Nasional Masyarakat Biodiversitas Indonesia (Vol. 1, pp. 409–412). https://doi.org/10.13057/psnmbi/m010304

Xiaojin, L., Daping, X., Zengjiang, Y., Ningnan, Z., & Yang, L. (2011). Preliminary analysis of growth and oil composition from a 6-year-old sandal (Santalum album L.) plantation in Gaoyao, Guangdong, south China. Sandalwood Research Newsletter, (26), 1–5.