Carbon Stock Dinamics of Gmelina (Gmellina arborea Roxb.) based Agroforestry in Private Forest, Tasikmalaya and Banjar District, West Java
Abstract
This research aims at measuring carbon (C) stock of gmelina (Gmelina arborea Roxb.) agroforestry system and its carbon diynamics due to several harvesting rotations. Observation was conducted during March – October 2014, on 17 plots in private forest, located in Tasikmalaya and Banjar District, West Java Province. The C-stock measurement followed Rapid Carbon Stock Appraisal Method (RaCSA) with some additional analysis. The dynamic of C-stock was measured based on biological rotation, technical rotation-1 (harvesting at tree diameter of 15 cm) and technical rotation-2 (harvesting at tree diameter of 20 cm). The result of the study shows that average of C-stock in gmelina agroforest stand is 170 ton/ha, consisted of 64 ton/ha above ground C and 106 ton/ha below ground C. Biological rotation (8 years) results in maximum C-stock of 15 ton/ha at harvesting time, while the time averaged-C stock is 7 ton/ha/year.Technical rotation-1(14 years) and technical rotation-2 (24 years) result in maximum C-stock of 23 ton/ha and 28 ton/ha respectively, while the time averaged-C-stock are 12 ton/ha/year and 18 ton/ha/year respectively.
Keywords: agroforestry system, biological rotation, gmelina, technical rotation
Full Text:
PDF (Bahasa Indonesia)References
Adinugroho, W. C., Indrawan, A., Supriyanto, dan Arifin, H. S., (2013). Kontribusi agroforestry terhadap cadangan karbon di hulu DAS Kali Bekasi. Jurnal Hutan Tropis, 1(3), 242 - 249.
Albrecht, A. & Kandji, S. T. (2003). Carbon sequestration in tropical agroforestry systems. Agriculture Ecosystems & Environment, 99, 15 - 27.
Alrasjid, H., dan Widiarti, A. (1992). Teknik Penanaman dan Pemungutan Hasil Gmelina arborea. Petunjuk Teknis No 36, Pusat Penelitian dan Pengembangan Hutan. Bogor. 11 Hal.
Amacher, G. S., Ollikainen, M., Koskela, E. (2009). Economics of forest resources. MIT Press, Cambridge, Mass.
Antoko, B. S. (2011). Nilai insentif karbon hutan rakyat kemenyan berbasis voluntary carbon market di Kabupaten Tapanuli Utara. Thesis tidak diterbitkan, Institut Pertanian Bogor, Bogor.
Bettinger, P., Boston, K., Siry, J. P., dan Grebner, D. L. (2009). Forest Management and Planning. Burlington USA: Academic Press.
Chave, J., Andalo, C., Brown, S., Cairns, M. A., Chambers, J. Q., Eamus, D., Folster, H., Fromard, F., Higuchi, N., Kira, T., Lescure, J. P., Nelson, B. W., Ogawa, H., Puig, H., Riera, B., Yamakura, T. (2005). Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia, 145, 87 - 99.
Hairiah, K., Ekadinata, A., Sari, R. R., Rahayu, S. (2011). Pengukuran cadangan karbon dari tingkat lahan ke bentang lahan. Bogor Indonesia: World Agroforestry Center,
Idris, M. M., Rachman, O., Pasaribu, R. A., Roliadi, H., Hadjib, N., Muslich, M., Jasni, Rulliaty, S., dan Siagian R. M, (2008). Petunjuk Praktis Sifat-Sifat Dasar Jenis Kayu Indonesia. Bogor: Pusat Penelitian dan Pengembangan Hasil Hutan.
Indrajaya, Y., & Siarudin, M. (2015a). Daur tebang optimal hutan rakyat gmelina (Gmelina arborea Roxb.) di Tasikmalaya dan Banjar, Jawa Barat, Indonesia. Jurnal Penelitian Sosial Ekonomi Kehutanan, 12(2), 109 - 116.
Indrajaya, Y., & Siarudin, M. (2015b). The effects of carbon payment on optimal rotation of Gmelina forests. Paper presented at the INAFOR 3, Bogor, Indonesia.
IPCC. (2006). IPCC Guideline 2006 Guidelines for national green house gas inventories. In. IPCC.
Krisnawati, H., Kallio, M., Kanninen, M. (2011a). Anthocephalus cadamba Miq.: Ekologi, Silvikultur, Produktivitas. Bogor: CIFOR.
Kurniawan, S., Prayogo, C., Widianto, Zulkarnain, M. T., Lestari, N. D.,
Aini, F. K., Hairiah, K. (2010). Estimasi Karbon Tersimpan di Lahan-lahan Pertanian di DAS Konto, Jawa Timur: RACSA (Rapid Carbon Stock Appraisal). Working paper 120. World Agroforestry Centre (ICRAF) Southeast Asia Program.
Nair, P. K. R., Kumar, B. M., Nair, V. D. (2009). Agroforestry as a strategy for carbon sequestration. Journal of Plant Nutrition Soil Science, 172, 10 - 23.
Richter, H. G., and Dallwitz, M. J. (2000). Commercial timbers: descriptions, illustrations, identification, and information retrieval. In English, French, German, Portuguese, and Spanish. Version: 25th June 2009. http://delta-intkey.com/. Diakses pada tanggal 26 Januari 2015.
Riyanto, A. B., Patola, E., dan Siswadi. (2013). Uji Dosis Frekuensi Aplikasi Pupuk Urea terhadap Pertumbuhan Bibit Jati Putih (Gmelina arborea Roxb.). INNOFARM: Jurnal Inovasi Pertanian 12 (2), 1 - 13.
Roschetko, J. M., Delaney, M., Hairiah, K., Purnomosidhi, P. (2002). Carbon stocks in Indonesian homegarden systems: can smallholder systems be targeted for increased carbon storage?. American Journal of Alternative Agriculture, 17, 1 - 11.
Roshetko, J. M., Mulawarman, Purnomosidhi, P. (2004). Gmelina arborea - a viable species for smallholder tree farming in Indonesia?. New Forest, 28, 207-215.
Seng, O. D. (1990). Spesific Gravity of Indonesian Woods and Its Significance for Practical Use. Diterjemahkan oleh Suwarsono P.H. Pusat Penelitian dan Pengembangan Hasil Hutan. Bogor, Indonesia: Departemen Kehutanan Indonesia.
Siarudin, M., Indrajaya, Y., Badrunasar, A. (2015). Pemanfaatan lahan agroforestri untuk mendukung mekanisme REDD+. Laporan tidak diterbitkan, Balai Penelitian Teknologi Agroforestry, Badan Litbang Kehutanan, Ciamis.
Siarudin, M., Indrajaya, Y., Suhaendah, E., Badrunasar, A. (2014). Laporan Hasil Penelitian "Pemanfaatan Lahan Agroforestry untuk Mendukung Mekanisme REDD+". Laporan tidak diterbitkan, Balai Penelitian Teknologi Agroforestry, Badan Litbang Kehutanan, Ciamis.
Soerianegara, I., and Lemmens, R. H. M. J (eds). (1994). Plant Resources of South-East Asia (5): (1) Timber trees: Major Commercial Timbers. Prosea Foundation. Bogor. Indonesia
Swallow, B., Van Noordwijk, M., Dewi, S., Murdiyarso, D., White, D., Gockowski, J., Hyman, G., Budidarsono, S., Robiglio, V., Meadu, V., Ekadinata, A., Agus, F., Hairiah, K., Mbile, P. N., Sonwa, D. J., Weise, S. (2007). Opportunities for Avoided Deforestation with Sustainable Benefits. An Interim Report by the ASB Partnership for the Tropical Forest Margins. ASB Partnership for the Tropical Forest Margins, Nairobi, Kenya.
Tim Perubahan Iklim Badan Litbang Kehutanan. (2010). Cadangan karbon pada berbagai tipe hutan dan jenis tanaman di Indonesia. Bogor: Pusat Litbang Perubahan Iklim dan Kebijakan. Badan Litbang Kehutanan.
Yuwono, S. B, Hilmanto, R., dan Qurniati, R. (2012). Estimasi total penyerapan karbon tersimpan pada sistem agroforestri di Desa Sumber Agung untuk mendukung Rencana Aksi Nasional Gas Rumah Kaca. Seminar Agroforestri III.
Zanne, A. E., Lopez-Gonzalez, G., Coomes, D. A., Ilic, J., Jansen, S., Lewis, S. L., Miller, R. B., Swenson, N. G., Wiemann, M. C. and Chave, J. (2009). Global wood density database.Dryad. Identifier: http://hdl.handle.net/10255/dryad.235
DOI: https://doi.org/10.20886/jwas.v4i1.2743