Kadar Ekstraktif dan Sifat Warna Kayu Jati Plus Perhutani Umur 11 Tahun dari KPH Ngawi
Zulkahfi Zulkahfi(1*), Denny Irawati(2), Tomy Listyanto(3), Dian Rodiana(4), Ganis Lukmandaru(5)
(1) Pasca sarjana Ilmu Kehutanan, Fakultas Kehutanan, Universitas Gadjah Mada, Yogyakarta, 55281
(2) Departemen Teknologi Hasil Hutan, Fakultas Kehutanan, Universitas Gadjah Mada, Yogyakarta, 55281
(3) Departemen Teknologi Hasil Hutan, Fakultas Kehutanan, Universitas Gadjah Mada, Yogyakarta, 55281
(4) Pusat Penelitian dan Pengembangan Perhutani, Perum Perhutani, Cepu, 58312
(5) Departemen Teknologi Hasil Hutan, Fakultas Kehutanan, Universitas Gadjah Mada, Yogyakarta, 55281
(*) Corresponding Author
Abstract
Pemanfaatan kayu jati dari pohon umur muda meningkat disebabkan adanya kesenjangan permintaan dengan ketersediaan kayu. Perhutani menanam pohon Jati Plus Perhutani (JPP) dengan karakteristik cepat tumbuh untuk meningkatkan produksi kayu jati. Pembiakan secara vegetatif ini diduga bisa berpengaruh terhadap sifat-sifat kayu. Kadar ekstraktif menjadi penting mengingat hubungannya dengan keawetan alami kayu dan sifat warna kayu. Penelitian ini bertujuan untuk mengetahui variasi kadar ekstraktif dan warna pada arah radial dan longitudinal kayu JPP. Sampel kayu diambil dari tiga pohon JPP berumur 11 tahun di KPH Ngawi. Faktor yang diamati terdiri dari arah longitudinal (pangkal, tengah, ujung); dan radial (gubal, teras terluar, teras terdalam). Kayu diekstrak secara berurutan dengan pelarut toluena, etanol, air panas pada alat soklet. Kadar fenolat total diuji dengan metode Folin-Ciocalteu untuk ekstrak toluena. Pengukuran sifat warna menggunakan sistem CIEL*a*b*. Hasil menunjukkan bagian pangkal memiliki kadar ekstrak terlarut etanol tertinggi, tetapi memiliki kadar fenolat total relatif rendah. Nilai kecerahan (L*) lebih tinggi di bagian ujung dibandingkan dengan bagian tengah dan pangkal sedangkan nilai kemerahan (a*) relatif tinggi di bagian pangkal. Secara nyata, ekstrak terlarut toluena, ekstrak terlarut etanol, dan kadar fenolat total di bagian gubal berbeda nyata dengan bagian teras dan terdapat perbedaan antara teras terluar dan teras terdalam pada kadar esktraktif terlarut toluena dan kadar ekstraktif terlarut etanol. Berdasarkan variasi radial, warna lebih gelap di bagian teras terluar dibandingkan bagian lainnya. Kadar ekstraktif terlarut air panas memiliki hubungan yang nyata (r = -0,72) dengan nilai L* di bagian gubal. Pada bagian teras, nilai L* memiliki hubungan negatif dengan kadar ekstrak terlarut etanol (r = -0,70), kadar ekstraktif terlarut air panas (r = -0,52), dan kadar ekstraktif total (r = -0,78). Secara nyata, nilai a* memiliki hubungan negatif (r = -0,58) dengan kadar fenolat total. Relatif rendahnya kadar ekstraktif dibandingkan umur dewasa serta tidak seragamnya sifat warna pada arah longitudinal perlu menjadi perhatian dalam pemanfaatan kayu JPP umur muda.
Extractives Content and Colour Properties of 11-year-old Perhutani Superior Teakwood from Ngawi Forest Management Unit
Abstract
The utilization of young teak wood had increased due to the gap in demand and the supply of raw materials. To meet the high demand, Perhutani had planted the fast growing of superior teakwood (Jati Plus Perhutani/JPP). This vegetative reproduction may affect the wood properties. Extractive content is important considering its relationship with the natural durability of wood and colour properties. The purpose of this study was to find out the effect of radial and longitudinal directions on extractives content and colour properties from JPP. The JPP wood samples (11 years) were located in Ngawi Forest Management Unit. The observed factors were vertical (bottom, center, top) and radial (sapwood, outer heartwood, inner heartwood) directions. Wood extracts were obtained by successive extraction (toluene, ethanol, and hot water) in a soxhlet. Total phenolic content was also determined by Folin-Ciocalteu method in toluene soluble extract. Colour properties were determined by CIEL*a*b* system. The result showed that vertical direction had significant effect as the bottom part showed the highest value in ethanol extract content but it had lower value in total phenolic content. Brightness (L*) value was comparatively high at the top part, while redness (a*) value was high at the bottom part. The levels of toluene, ethanol, and total extract content had a significant different between sapwood and heartwood as well as between outer heartwood and inner heartwood. Based on radial direction, the colour was darker in outer heartwood compared to the other parts. The correlation degree between the values of hot water extract and L* was significant (r = -0.72) in sapwood part. In heartwood, the correlation between ethanol, hot water, and total extract contentwith L* values were negative (r = -0.70; -0.52; -0.78, respectively). The correlation between a* value and total phenolic content was moderately significant (r = -0.58). The comparatively low content of extractive compared to mature woods as well as inhomogeneity of colour properties in vertical position should be noticed for young JPP wood utilization.
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Anda RR, Koch G, Richter HG, Talavera FJF, Guzmán JAS, Satyanarayana KG. 2019. Formation of heartwood, chemical composition of extractives and natural durability of plantation-grown teak wood from Mexico. Holzforschung 73(6): 547-557.
ASTM. 2002. Annual book of ASTM standards. Section Four - Construction, Volume 04. 10 Wood. West Conshohocken, PA.
Burtin P, Jay-Allemand C, Charpentier JP, Janin G. 1998. Natural wood colouring process in Juglans sp. (J. nigra, J. regia and hybrid J. nigra) depends on native phenolic compounds accumulated in the transition zone between sapwood and heartwood. Trees 12: 258–264.
Burtin P, Jay-Allemand C, Charpentier JP, Janin G. 2000. Modifications of hybrid walnut (Juglans nigra x Juglans regia) wood color and phenolic composition under various steaming conditions. Holzforschung 54: 33-38.
Cadelis MM, Barker D, Copp BR. 2012. Synthesis of hemitectol, tectol, and tecomaquinone I. Synlett 23(20): 2939-2942.
Caron A, Altaner CM, Gardiner B, Jarvis MC. 2013. Distribution of extractives in Sitka spruce (Picea sitchensis) grown in the northern UK. European Journal of Wood and Wood Products 71(6): 697-704.
Darmawan W, Nandika D, Sari RK, Sitompul A, Rahayu I, Gardner D. 2015. Juvenile and mature wood characteristics of short and long rotation teak in Java. IAWA Journal 36(4): 428-442. DOI: 10.1163/22941932-20150112.
Gao H, Shupe TF, Hse CY, Eberhardt TL. 2006. Antioxidant activity of extracts from the bark of Chamaecyparis lawsoniana (A. Murray) Parl. Holzforschung 60(4): 459-462.
Gierlinger N, Jacques D, Grabner M, Wimmer R, Schwaninger M, Rozenberg P, Paques LE. 2004. Colour of larch heartwood and relationship to extractives and brown-rot decay resistance. Trees 18:102-108.
Gominho J, Figueira J, Rodrigues JC. 2001. Within-tree variation of heartwood, extractives and wood density in tie eucalypt hybrid urograndis. Wood and Fiber Science 33(1): 3-8.
Gryc V, Vavrčik H, Horn K. 2011. Density of juvenile and mature wood of selected coniferous species. Journal of Forest Science 57(3): 123-130.
Haupt M, Leithoff H, Meier D, Puls J, Richter HG, Faix O. 2003. Heartwood extractives and natural durability of plantation-grown teakwood (Tectona grandis L.)—a case study. Holz als Roh-und Werkstoff 61(6): 473-474.
Hillis WE. 1987. Heartwood and tree exudates. Dalam Timell TE, editor. Springer Series in Wood Science. State University, New York.
Kanazawa H, Nakagami T, Nobashi K, Yokota T. 1978. The effects of teak wood extractives on the curing reaction and the hydrolysis rate of the resin urea adhesive. Mokuzai gakkaishi 24: 55-59.
Lukmandaru G. 2009a. Sifat kimia dan warna kayu teras jati pada tiga umur berbeda. Jurnal Ilmu Teknologi Kayu Tropis 7(1): 1-7.
Lukmandaru G. 2009b. Pengukuran kadar ekstraktif dan sifat warna pada kayu teras jati doreng (Tectona grandis). Jurnal Ilmu Kehutanan 3(2): 67-73.
Lukmandaru G. 2011a. Komponen kimia kayu jati dengan pertumbuhan eksentris. Jurnal Ilmu Kehutanan 5(1), 21-29.
Lukmandaru G. 2011b. Variability in the natural termite resistance of plantation teak wood and its relations with wood extractive content and color properties. Journal of Forestry Research 8(1): 17-31.
Lukmandaru G. 2013. Antifungal activities of certain components of teak wood extractives. Jurnal Ilmu dan Teknologi Kayu Tropis 11(1): 11-18.
Lukmandaru G. 2016. Hubungan antara kadar ekstraktif dengan sifat warna pada kayu teras jati. Jurnal Penelitian Hasil Hutan 34(3): 207-216.
Lukmandaru G, Mohammad AR, Wargono P, Prasetyo VE. 2016. Studi mutu kayu jati di hutan rakyat Gunungkidul. V. Sifat kimia kayu. Jurnal Ilmu Kehutanan 10(2): 108-118.
Lukmandaru G, Ashitani T, Takahashi K. 2009. Color and chemical characterization of partially black-streaked heart-wood in teak (Tectona grandis). Journal of Forestry Research 20(4): 377.
Lukmandaru G, Takahashi K. 2008. Variation in the natural termite resistance of teak (Tectona grandis Lf) as a function of tree age. Annals of Forest Science 65(7): 708 p1 - p8.
Lukmandaru G, Takahashi K. 2009. Radial distribution of quinones in plantation teak (Tectona grandis Lf ). Annals of Forest Science 66(6): 605 p1 – p9.
Lukmandaru G, Ogiyama K. Bioactive compounds from ethyl acetate extract of teakwood (Tectona grandis Lf). Hlm. 346-350. Proceedings of the 6th International Wood Science Symposium LIPI-JSPS Core. 29-31 agustus 2005, Bali.
Lukmandaru G, Ogiyama K. Bioactive extract from teakwood (Tectona grandis L.f.). Hlm. 413-414. Proceedings of International Symposium on Wood Science and Technology, Volume II : poster presentations. 27-30 November 2005, Yokohama.
Lukmandaru G, Wargono P, Mohammad AR, Prasetyo VE. 2018. Studi mutu kayu jati di hutan rakyat Gunungkidul. VII. Ketahanan terhadap rayap tanah. Jurnal Ilmu Kehutanan 12(1): 22-39.
Miranda I, Sousa V, Pereira H. 2011. Wood properties of teak (Tectona grandis) from a mature unmanaged stand in East Timor. Journal of Wood Science 57(3): 171-178.
Moya R, Berrocal A. 2010. Wood colour variation in sapwood and heartwood of young trees of Tectona grandis and its relationship with plantation characteristics, site, and decay resistance. Annals of Forest Science 67(1): 109.
Neverova NA, Levchuk AA, Ostroukhova LA, Medvedeva EN, Onuchina NA, Babkin VA. 2013. Distribution of extractive substances in wood of the Siberian larch (Larix sibirica Ledeb). Russian Journal of Bioorganic Chemistry 39(7): 712-719.
Niamké FB, Amusant N, Charpentier JP, Chaix G, Baissac Y, Boutahar N, Adima AA, Coulibaly SK, Allemand CJ. 2011. Relationships between biochemical attributes (non-structural carbohydrates and phenolics) and natural durability against fungi in dry teak wood (Tectona grandis L.f.). Annals of Forest Science 68: 201–211.
Nobuchi T, Okada N, Nishida M, Siripatanadilok S, Veenin T, Tobing TL, Sahri MH. 2005. Some characteristics of wood formation in Teak (Tectona grandis) with special reference to water conditions. Hlm. 495-499 dalam Bhat KM, Nair KKN, Bhat KV, Muralidharan EM, Sharma JK, editor. Quality timber products of teak from sustainable forest management. India.
Perhutani. 2011. Monitoring dan evaluasi pengembangan Jati Plus Perhutani (JPP) di KPH Kendal. Perum Perhutani KPH Kendal, Kendal.
Rizanti DE, Darmawan W, George B, Merlin A, Dumarcay S, Chapuis H, Syafii W. 2018. Comparison of teak wood properties according to forest management: short versus long rotation. Annals of Forest Science 75(2): 39.
Sakuno T, Moredo C. Bonding properties of some tropical woods after solvent extraction. Hlm. 183-189. Proceeding of the Second International Wood Science Seminar. 1998, Serpong.
Sumarni G, Muslich M. 2008. Kelas awet jati cepat tumbuh dan jati konvensional pada berbagai umur pohon. Jurnal Penelitian Hasil Hutan 26(4): 342-351.
Thulasidas PK, Bhat KM, Okuyama T. 2006. Heartwood colour variation in home garden teak (Tectona grandis) from wet and dry localities of Kerala, India. Journal of Tropical Forest Science 18(1): 51-54.
Windeisen E, Klassen A, Wegener G. 2003. On the chemical characterisation of plantation teakwood from Panama. Holz als roh-und werkstoff 61(6): 416-418.
DOI: https://doi.org/10.22146/jik.61419
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