Papua's ironwood comes from the merbau plant that inhabits the forests of Papua, one of which is in the Yapen Islands Regency, Serui City. In conventional cultivating ironwood for commercial purposes, there are various problems. When using powder and soil, a lot of sawdust is needed. In addition, the time required for planting seeds to produce shoots that are ready to be planted in the field takes a very long time of about 9-12 months. The first step in the cultivation of merbau tissue culture is to find the right formula for growth regulators. Auxins and cytokines are the right steps to stimulate merbau wood growth. It seems that the role of auxin (IAA) and cytokinin (BAP) in Murashige and Skoog media on Merbau Wood using cotyledon and meristem explants with good concentrations for shoot and plantlet formation was 1.0 mg/l IAA and 5, 0 mg/l from the latest research using hormones including NAA, Chitin and BAP in Merbau (Eusideroxylon zwageri) wood culture. NAA concentration 1 mg/l (A4B5) formed shoots and callus, A4B1 (NAA 1 mg/l; BAP 0 mg/l) resulted in organogenesis and NAA concentration 0.2 mg/l without cytokinins (A2B1) produced multiple shoots. The interaction of the combination of auxin NAA 1 mg/l with BAP 0.6 mg/l (A4B7) gave the best response in embryosomatic formation in implanted explants. While the interaction of NAA 0.2 mg/l with Kinetic 2 mg/l (A3B3) resulted in shoots and callus. The interaction of the combination of auxin NAA 1 mg/l with BAP 0.6 mg/l (A4B7) gave the best response in embryosomatic formation in implanted explants. While the interaction of NAA 0.2 mg/l with Kinetic 2 mg/l (A3B3) resulted in shoots and callus. The interaction of the combination of auxin NAA 1 mg/l with BAP 0.6 mg/l (A4B7) gave the best response in embryosomatic formation in implanted explants. While the interaction of NAA 0.2 mg/l with Kinetic 2 mg/l (A3B3) resulted in shoots and callus.

Abidin, 1985. Umumnya komposisi utama media tanam Kultur jaringan, terdiri dari hormon (zat pengatur tumbuh) pegembangan budidaya tanaman

Arifin, Z. dan Pasambuna, E. 2006. Kemampuan kayu besi Menurut Jenis Bibit. Jurusan kehutanan

Ariwahono, (2010) Keadan Populasi Kayu besi di Indonesia. PT. Bumi Aksara

Bhojwani, S. S. and M. K. Razdan. 1983. Plant Tissue Culture: Theory and Practice. Elsevier Sci. Publ. Co: Amsterdam.

Cahyono, B. 1995. Kayu besi Usaha Tani. Kanisius, Yogyakarta.

Chawla, H.S. 2000. Introduction to Plant Biotechnology. Science Publisher, Inc. USA.

Hadiyono dan Zulkarnain. 1991. Perbanyakan Tanaman Lada (Piper nigrum L) melalui Teknik Kultur

Gaspersz, V. 1993. Metode Rancangan Percobaan. Armico: Bandung. Jaringan. Jambi laporan penelitian Fakultas Pertanian Jambi

George, E. F. and P. D. Sherrington. 1984. Plant Propagation by Tissue Culture. Exegetics Ltd. Eversley. Basingstoke: England. 709 p.

Gorogo serta Kumar et al (1999). Pegembangan tanaman Budidaya Kultur Jaringan serta pemanfaatan Hormon.

Gunawan, L. W. 1987. Teknik Kultur Jaringan. Laboratorium Kultur Jaringan Tanaman. PAU Bioteknologi IPB. Bogor.

Gerungan, R.F.I. 1997. Budidaya In vitro Tanaman Gladious sp. Laporan

Rineksane, I. A. 2000. Perbanyakan Tanaman Manggis Secara In-Vitro dengan Perlakuan Kadar BAP, Air Kelapa, dan Arang Aktif. Tesis PPS-UGM. Yogyakarta. 69 hal.