Jurnal Wasian

Precise forest inventory to estimate standing stock is needed in forest management planning.  Therefore, it is necessary to have proper and reliable tools in estimating merchantable timber volume. This research was intended to build an accurate model to estimate timber volume for  merchantable species in logging concession of PT Wapoga Mutiara Timber, Sarmi Regency.  Regression equation between diameter and length did not have a significant correlation (coefficient of determination, R² = 6.7 %). The best equation to estimate table tree volume based on validation test in logging concession of PT Wapoga Mutiara Timber was Log V = - 3.34 + 2.16 log d.     

Brandies, T.J., M. Delaney, B.R. Parresol, and L. Royer. (2006). Development of equations for predicting Puerto Rican subtropical dry forest biomass and volume. Forest Ecology and Management 233: 133-142.

Chapman, H.H and W.H. Meyer. (1949). Forest mensuration. Mc. Grow Hill Book. Company. Inc. New York.

Husch, B., (1963). Forest mensuration and statistics. The Ronald Press Company, New York.

I Wayan, W.S. (2012). Model dugaan volume dan riap tegakan jati (Tectona Grandis L.F) Di Nusa Penida, Klungkung Bali. Jurnal Penelitian Hutan Tanaman Vol.9 No.3, September 2012, 165-178.

Isnaini, H.N., (2011). Pengelompokan jenis dalam penyusunan tabel volume lokal di IUPHHK-HA PT. Mamberamo Alas Mandiri, Provinsi Papua. Skripsi. Fakultas Kehutanan. IPB. Bogor.

Krisnawati, H. dan S. Bustomi. (2004). Model penduga isi pohon bebas cabang jenis sungkai (Peronema canescens Jack.) di KPH Banten. Buletin Penelitian Hutan. Pusat Penelitian dan Pengembangan Hutan dan KonservasiAlam. Bogor. No. 644: 39-50

Marcelino, M.M. (1966). A commercial volume table for Red Lauan (Shorea negrosensis Foxw) in Claveria, Cagayan Prov. The Phil, of For. No. 18. Dept. of Agr. And Resource, Manila.

Menéndez-Miguélez, M., Canga, E., Álvarez-Álvarez, P., and Majada, J. (2014). Stem taper function for sweet chestnut (Castanea sativa Mill.) coppice stands in northwest Spain. Annals of Forest Science, 71 (7) : 761-770.

Prodan, M. (1965). Holzmesslehre, J.D. Sauerleanders verlag. Frankfurt am Main.

Qirom, M.A. dan Supriyadi. (2012). Penyusunan model penduga volume pohon jenis jelutung rawa (Dyera Polyphylla (Miq) V. Steenis). Jurnal Penelitian Hutan Tanaman Vol. 9 No.3, September 2012, 141-153.

Qirom, M.A. dan Supriyadi. (2013). Model penduga volume pohon nyawai (Ficus variegata Blume) di Kalimantan Timur. Jurnal Penelitian Hutan Tanaman Vol.10 No.4, Desember 2013, 173-184.

Simon, H. (2007). Methode inventore hutan. Pustaka Pelajar,Yogyakarta.

Spurr, S.H. (1951). Forest inventory. The Ronald Press Company, New York.

Subedi, M.R., and R.P. Sharma. (2012). Allometric biomass models for Bark of Cinnamomum tamala in Mid-Hill of Nepal. Biomass and Bioenergy 47 : 44-49.

Suchomel, C., P. Pyttel, G. Becker, and J. Bauhus. (2012). Biomass Equations for Sessile Oak (Quercus petraea (Matt.) Liebl.) and hornbeam (Carpinus betulus L.) in Aged Coppiced Forests in Southwest Germany. Biomass and Bioenergy 46 : 722-730.

Sumadi, A. dan H. Siahaan. (2010). Model penduga volume pohon kayu bawang (Disoxylum Molliscimum Burm F.) di Provinsi Bengkulu. Jurnal Penelitian Hutan Tanaman Vol.7 No.5, Desember 2010, 227-231.

Sumadi, A., Azwar, F. dan Muara, J. (2006). Pemodelan volume pohon pulai darat. Jurnal Penelitian Hutan Tanaman. Vol.3 No.2, Mei 2006, 73-81.

Sumadi, A., Nugroho, A.W., dan Rahman, T. (2010). Model penduga volume pohon pulai gading di Kabupaten Musi Rawas - Sumatera Selatan. Jurnal Penelitian Hutan Tanaman Vol.7 No.2, Mei 2010, 107-112.

Susanty, F.H, A. Supriyanto, M. Budiono, dan D. Suprayitno. (2006). Analisis model pendugaan volume jenis Acacia mangium, Gmelina arborea dan Switenia mahagoni di Hutan Tanaman. Prosiding Seminar Bersama Hasil-Hasil Penelitian Tanggal 12 April 2006. Samarinda.

Ver Planck, N. R., and MacFarlane, D. W. (2014). Modelling vertical allocation of tree stem and branch volume for hardwoods. Forestry, 87 (3), 459-469.

Zewdie, M., M. Olsson, and T. Verwijst. (2009). Aboveground biomass production and allometric relations of Eucalyptus globulus Labill. coppice plantations along a chronosequence in the central highlands of Ethiopia. Biomass and Bioenergy 33 : 421-428.