The cytochrome c oxidase subunit I (COI) gene is a reprensentative of all the protein-coding genes of the mitochondrial DNA genome that has been widely used as an animal species identification tool. In this study, 86 sequences of DNA barcodes of members of the family Accipitridae in Indonesia including Nisaetus bartelsi, Nisaetus cirrhatus, Haliaeetus leucogaster, Spilornis cheela, Haliastur indus, and 11 sequences from Genbank were examined. Each species was confirmed through the Basic Local Alignment Search Tool (BLAST). The construction of phylogeny trees based on COI gene sequences was performed by the Neighbors-joining method where the calculation of the genetic distance matrix with the Kimura 2-parameter model was implemented in pairwise distance calculation in the Mega version 6.05 programe. The results of the analysis showed that the divergence within species ranged from 0 to 0.3% (0.13 ± 0.12%), between species ranged from 1.6 to 18.5% (12.8 ± 3.73%), between genera ranged from 13 to 18.6%, and the average in the Accipitridae Family was 11.8%. Therefore, it could form clusters in each species cohesively and clearly separated between the taxa analyzed.

Aliabadian, M., Beentjes, K.K., Roselaar, C.S.K., Brandwijk, H.V. Nijman, V. and Vong, R., 2013. DNA barcoding Birds of Dutch. Zoo Keys, 365, pp. 25–48.

All Bird Barcoding Initiative (ABII) (http://www.barcodingbirds.org) (accessed 28 April 2017).

Bildstein, K.L., Schelsky, W., Zalles, J. and Ellis S., 1998. Conservation status of tropical raptors. Journal Raptor Resources, 32(1), pp 3–18.

Borisenko, A.V., Lim, B.K., Ivanova, N.V., Hanner, R.H. and Herbert, PDN., 2008. DNA barcoding in surveys of small mammal communities: A field study in Suriname.Molecular Ecology Resources, 8, pp 471–479.

Breman, F.C., Jordaens, K., Sonet, G., Nagy, Z.T., Houdt J.V. and Louette, M., 2013. DNA barcoding and evolutionary relationships in Accipiter Brisson, 1760 (Aves, Falconiformes:Accipitridae) with a focus on African and Eurasian representatives. Journal Ornithology, 154, pp. 261–287.

CBOL (Consortium Barcoding Of Life) (http://barcoding.si.edu) (accessed 28 April 2017).

Clayton, D.A., 1982. Replication of animal mitochondrial DNA. Cell, 28, pp. 693–705.

Consortium for the Barcode of Life (CBOL), http://barcoding.si.edu. (accessed 28 April 2017).

Cracraft J. and Feinstein, J., 2000. What is not a bird of paradise? Molecular and morphological evidence places Macgregoria in the Meliphagidae and the Cnemophilinae near the base of the corvoid tree. Proceeding Royal Society London, 267, pp. 233–241.

Astuti, D. and Sulandari, S., 2010. The DNA sequence performance of COI gene in white cockatoos (Cacatua, Psittaciformes). Treubia, 37, pp. 1–14.

Gjershaug, J.O, Kvaløy, K., Røv, N., Prawiradilaga, D.M., Suparman, U. and Rahman, Z., 2004. The taxonomic status of Flores Hawk Eagle Spizaetus floris. FORKTAIL, 20, pp. 55–62.

Hamerstrom, F., 1986. Harrier, hawk of the marshes: The hawk that is ruled by a mouse. Smithsonian Institution Press, Washington, DC, USA.

Hajibabaei, M., Janzen, D.H., Burns, J.M., Hallwachs, W., and Hebert, P.D.N., 2006. DNA barcodes distinguish species of tropical Lepidoptera. Proceeding Natural Academy Sciences. USA 103, pp. 968–971.

Hartl, D.L. and Clark, A.G., 1989. Principles of Population Genetics, 2nd ed. Sinauer Associates, Massachusetts.

Haring, E., Kvaløy, K., Gjershaug, J-O., Røv, N. and Gamauf, A., 2007. Convergent evolutuon and paraphyly of the hawk-eagle of the genus Spizaetus (Aves, Accipitridae phylogenetic analyses based on mitochondrial markers. Journal of Zoological Systematics and Evolutionary Research, 45, pp. 353–365.

Hebert, P.D.N., Cywinska, A., Ball, S.L., and deWaard, J.R., 2003. Biological identifications through DNA barcodes. Proceeding of the Royal Society London. 270, pp. 313–321.

Hebert, P.D.N., Stoeckle, M.Y., Zemlak, T.S. and Francis, C.M., 2004a. Identification of birds through DNA barcodes. PLOS Biology 2, e312.

Hebert, P.D.N., Penton, E.H., Burns, J.M., Janzen, D.H., and Hallwachs, W., 2004b. Ten species in one: DNA barcoding reveals cryptic species in the neotropical skipper butterfly Astraptes fulgerator. Proceedings of the Natinal Academy of Sciences of the United States of America, 101, pp. 14812–14817.

Johnsen, A., Rindal, E., Ericson, P. G. P., Zuccon, D., Kerr, K.C.R., Stoeckle, M.Y. and Lifjeld. J.T., 2010. DNA barcoding of Scandinavian birds reveals divergent lineages in trans-Atlantic species. Journal of Ornithology, 151, pp. 565–578.

Kerr K.C.R., Stoeckle, M.Y., Dove, C.J., Wight, L.A., Francis, C.M. and Hebert P.D.M., 2007. Comprehensif DNA barcode coverage of North American birds. Molecular Ecology Note, 7, pp. 535–543.

Kerr, K.C.R., Birks S.M., Kalyakin M.V., Red'kin Y.A, Koblik E.A and Hebert P.D.N., 2009. Filling the gap COI barcode resolution in eastern Palearctic birds. Frontiers in Zoology, 6, pp.29.

Klicka, J. and Zink, R.M., 1997. The importance of recent ice ages in speciation: A failed paradigm. Science, 277, pp 1666–1669.

Muto, A. and Ozawa, S., 1987. The guanine and cytosine content of genomic DNA and bacterial evolution. Proceding. Proceedings of the Natinal Academy of Sciences of the United States of America, 84, pp. 116–119.

Nucleotide basic local alignment search tool (nucleotide BLAST), http://blast.ncbi.nlm.nih.gov/Blast.cgi (accessed 28 April 2017).

Ong, P.S., Luczon, A.U., Quilang, J.P., Sumaya, A.M.T., Ibanez, J.C., Salvador, D.J. and Fontanilla, I.K.C., 2011. DNA barcoding, DNA barcode of Philippine accipitride. Molecular Ecology Resources, 11, pp. 245–254.

Sambrook J., Fritsch E.F. and Maniatis T., 1989. Molecular Cloning, A Laboratory Manual. 2nd Edition. Cold Spring Harbor Laboratory Press.

Sibley C.G. and Monroe, B.L. Jr., 1990. Distribution and Taxonomy of Birds of the World. Yale Univ. Press, London, V.K. New Haven, cr USA.

Sodhi N.S., Astuti D., Diesmos A.C., 2007. Barcoding Indo-Malayan birds. The Raffles Bulletin of Zoology, 55, pp 397–398.

Sozer, R., Nijman V. dan Setiawan, I., 1999. Panduan Identifikasi Elang Jawa (Spizaetus bartelsi). Biodiversity Conservation Project (LIPI-JICA-PKA). Bogor. pp. 48.

Sueoko, N., 1962. On the genetic basis of variation and heterogeneity of DNA base composition. Proceedings of the Natinal Academy of Sciences of the United States of America, 48, pp. 582–592.

Tamura, K., Stecher G., Peterson D., Filipski A. and Kumar, S., 2013. MEGA6: Molecular evolutionary genetics analysis version 6.0. Molecular Biology and Evolution 30, pp. 2725–2729.

Ward, R.D., Zemlak, T.S., Innes, B.H., Last, P.R., Hebert, P.D., 2005. Barcoding Australia’s fish species.

Philosophical Transactions of the Royal Society of London. Series B, Biological Sciene. 360, pp. 1847–1857.

Yoo, H.S., Eah J.Y., Kim J.S., Kim Y.J., Min, M.S., Paek, W.K., Lee, H. and Kim, C.B., 2006. DNA barcoding Korean birds. Molecules and Cell, 22(3), pp. 323–327.

Zein, M.S.A., Haryoko, T., Fitriana, Y.S., Sulistyadi, T. and Prawiradilaga, D.M., 2017. Aplikasi kajian DNA molekuler dan fenotipik pada program pelepasliaran burung kakatua. Jurnal Biologi Indonesia, 13(1), pp. 157–169.