Several baseline data of natural forest carbon stock is needed to support REDD+ (Reducing Emission from Deforestation and Degradation+) implementation as a mitigation effort for climate change issue in Indonesia. According to IPCC (Intergovernmental Panel on Climate Change) Guidelines 2006, carbon stock calculation should be measurable, transparent, verifiable and consistent through time. At sub-national level, Java Island especially natural forest ecosystem is often overlooked by REDD+ scientists implying that the data and information on carbon stock of natural forest ecosystem in Java Island is still limited. The research has been conducted in sub montane primary forest in conservation area of Mount Halimun Salak National Park (TNGHS) with the objective to estimate the 5 carbon pools at TNGHS. Twenty seven-plots of 20x20 meters were built in the field. Measurement of forest carbon pools was done for above ground, belowground (root), understorey and necromass at primary forest with high and low canopy density. The research showed that TNGHS has a quite high carbon stock potency as followings: aboveground 139.326 tonC/ha, belowground (root) 39.011 tonC/ha, understorey 1,971 tonC/ha and necromass 5.77 tonC/ha. Average of biomass and stand carbon stock in primary forest of TNGHS were 364.503 ton/ha dan 185.177 tonC/ha, respectively. This study recommends to use allometric equation developed by Chave et al. (2005) to estimate forest stand biomass potency at TNGHS.

REDD+; biomass; carbon stock; primary forest

Brown, S. (1997). Estimating biomass and biomass change of tropical forest. A Primer. USA: FAO.

Chave, J, Andalo, E.C, Brown, E.S, Cairns, M.A, Chambers, J.Q, Eamus, E.D, Folster, E.H, Fromard, E.F, Higuchi, N, Kira, E.T, Lescure, E.J.P, Nelson, E.B.P, Ogawa, H, Puig, E.H, Riera, E.B, Yamakura, E.T. (2005). Tree allometry and improved estimation of carbon stocks and balance in tropical forests. Oecologia 145 (1): 87 99. doi 10.1007/s00442-005-0100-x.

Dharmawan, I. W. S. (2010). Estimation of aboveground biomass carbon stock in project plot of Conservation International-Daikin at Nagrak Resort, Gede Pangrango National Park. Jakarta, Indonesia: Conservation International and Daikin.

Dharmawan, I.W. S., V. B. Arifanti, A. Wibowo and N. D. Atmojo. (2011). Analysis of land use, land cover change and the association carbon stock change to establish project baseline . Bogor, Indonesia : Center for Climate Change and Policy Research and Development.

Hairiah, K dan Rahayu. S. (2007). Petunjuk praktis pengukuran karbon tersimpan di berbagai macam penggunaan lahan. Bogor, Indonesia: ICRAF Southeast Asia.

Haryadi. (2005). Kajian potensi cadangan karbon pada pertanaman teh (Camelia sinensis L.) dan berbagai penggunaan lahan di kawasan Taman Nasional Gunung Halimun, Kecamatan Nanggung, Kabupaten Bogor. Disertasi Tidak Diterbitkan. Institut Pertanian Bogor, Bogor.

IPCC. (2006). IPCC Guidelines for National Greenhouse Gas Inventories. Prepared by the National Greenhouse Gas Inventories Programme, Eggleston H.S., Buendia L., Miwa K., Ngara T. and Tanabe K. (eds) IGES. Japan: IGES.

Japan International Cooperation Agency. (2002). Demonstration study on carbon fixing forest management project. Progress report of the project 2001-2002. Indonesia : JICA.

Ketterings, Q. M., R. Coe, M. van Noordwijk, Y. Ambagau dan C. Palm. (2001). Reducing uncertainty in the use of allometric biomass equations for predicting above-ground tree biomass in mixed secondary forests. Forest Ecology and Management 146 (1-3): 199-209. Diakses dari http://www/icraf.org/sea/Publications/files/journal/JA0146-04.pdf.

Letouzey, R. (1985). Notice de la cartephytogéographique du Cameroun au 1:500000 (198.5). M-SM: Région afro-montagnarde et étage submontagnard. Toulouse, France: Institut de la carte internationale de la végétation.

MacDicken, K.G. (1997). A Guide to Monitoring Carbon Storage in Forestry and Agroforestry Projects. Washington DC, USA: Winrock International Institute for Agricultural Development.

Mansur, M., N. Hidayati dan T. Juhaeti. (2011). Struktur dan komposisi vegetasi pohon serta estimasi biomassa, kandungan karbon dan laju fotosintesis di Taman Nasional Gunung Halimun Salak. Jurnal Teknologi Lingkungan 12(2): 161-169.

Marina, I. dan A.H. Dharmawan. (2011). Analisis konflik sumberdaya hutan di kawasan konservasi. Jurnal Transdisiplin Sosiologi, Komunikasi, dan Ekologi Manusia 5(1): 90-96.

Kementerian Kehutanan RI. (2003). Surat Keputusan Menteri Kehutanan Nomor 175 Tahun 2003 tentang Penunjukan Kawasan Hutan Halimun dan Salak sebagai Taman Nasional Gunung Halimun-Salak. Jakarta, Indonesia: Kementerian Kehutanan RI.

Morikawa, Y. (2002). Biomass Measurement in Planted Forest In and Around Benakat, Fiscal Report of Assessment on The Potentiality of Reforestation and Afforestation Activities in Mitigating the Climate Change 2001 (pp. 58-63. Tokyo, Japan: JIFRO.

Nelson, B.W., R. Mesquita, J.L.G. Periera, S.G.A. De Souza, G.T. Batista and L.B. Couto. (1999). Allometric Regressions for Improved Estimate Central Amazon. Forest Ecology and Management 117, 149-167.

Palace, M., M. Keller, H. Silva. (2008). Necromass production: studies in undisturbed and logged Amazon Forests. Ecological Applications 18, 873-884.

Menteri Kehutanan. Sambutan Meteri Kehutanan pada Acara finalisasi dan realisasi masterplan pusat konservasi keanekaragaman hayati (PPKH). Pongkor, 23 April 2013. Diakses dari http://ppid.dephut.go.id/pidato_kemenhut/browse/25.

Santili, M., P. Moutinho, S. Schwartzman, D. Nepstad, L. Curran and C. Nobre. (2005). Tropical deforestation and the Kyoto Protocol. Climatic Change 71, 267-276. doi: 10.1007/s10584-005-8074-6.

Siregar, C. A. (2007). Potensi serapan karbon di Taman Nasional Gede Pangrango, Cibodas, Jawa Barat. Info Hutan 4(3) : 233-244.

Siregar, C. A. dan I. W. S. Dharmawan. (2009). Sintesa hasil-hasil penelitian jasa hutan sebagai penyerap karbon. Bogor, Indonesia: Pusat Penelitian dan Pengembangan Hutan dan Konservasi Alam.

SNI 7724. (2011). Pengukuran dan penghitungan cadangan karbon: Pengukuran lapangan untuk penaksiran cadangan karbon hutan (ground based forest carbon accounting). Jakarta, Indonesia: BSN.

Van Steenis, C.G.G.J. 1972. The mountain flora of Java. Leiden, the Netherlands: Brill Publisher. Dinas Kehutanan Provinsi Jawa Barat. (n.d.). http://dishut.jabarprov.go. id/?mod=detilBerita&idMenuKiri=334idBerita=142.