Sugar palm seed germination does indicate by the appearance of a tissue that extends like a sponge called apokol which is penetrating the hard seed coat and can occur in several positions in germinated sugar palm seeds. No research reports discuss the relationship between this apokol position and the phenology of sugar palm seed germination. This research aims to study the relationship between apokol position and the growth of sugar palm seedlings and their genetic diversity. The research applies Experiment in Completely Random Design with four treatments, each repeated five times. The four treatments are the apokol position, namely A: Apokol in right-center, B: Apokol in left-center, C: Apokol in left-bottom, and D: Apokol in right-bottom. The results showed that the fastest time for the coleoptile emergence was 40 days after transplanting in the right-center apokol position. Morphologically, there was no significant difference in the sugar palm seedling growth with each apokol position. On the other hand, we found that there were genetic diversities among them revealed by Simple Sequence Repeat (SSR) markers. The palm seeds with the right-center apokol position included the first cluster, and the second cluster consisted of left-center apokol, right- bottom apokol, and left-bottom apokol.

Arifin, J dan D. Mulliadi. 2010. Pendugaan Keseimbangan Populasi Heterozigositas Menggunakan Pola Protein Albumin Darah Pada Populasi Domba Ekor Tipis (Javanese thin tailed) di Daerah Indramayu. Jurnal Ilmu Ternak. 10 (2) : 65 – 72.

Doyle, J.J.; Doyle J.L. 1990. Isolation of plant DNA from freshtissue. Focus, v.12, p.13-15.

Hartawan, R. 2016. Skarifikasi dan KNO3 Mematahkan Dormansi serta Meningkatkan Viabilitas Dan Vigor Benih Aren (Arenga pinnata merr.). Jurnal Media Pertanian. 1(1): 1-10.

Huzaifah, M.R.M., S.M. Sapuan, Z.Leman, and M.R. Ishak. 2017. A review on sugar palm (Arenga pinnata): application, fibre characterization and composites. Emerald Insight. https://doi.org/10.1108/MMMS-12-2016-0064

Ilyas, R.A., S.M. Sapuan, M.R. Ishak and E.S.Zainudin. 2018. Development and characterization of sugar palm nanocrystalline cellulose reinforced sugar palm starch bionanocomposites. Elsevier. Carbohydrate Polymers 202 (2018) 186-202.

Ismaturrahmi., A.I.Hereri dan Hasanuddin. 2018. Teknik pematahan dormansi secara fisik dan kimia terhadap viabilitas benih aren (Arenga pinnata Merr.). Jurnal Ilmiah Mahasiswa Pertanian Unsyiah. 3(4): 105-112.

Junaedi, A., A. Wachjar, Y.Yamamoto and H.Furqonin. 2020. Genotype characterization of sugar palm (Arenga pinnata (Wurmb.) Merr.) on seed and germination stage. IOP Conf. Series: Earth and Environmental Science 418 (2020) 012041

Kamaludin. 2016. Pengaruh Perlakuan Pengamplasan Terhadap Kecepatan Berkecambah Benih Aren (Arenga pinnata). Fakultas pertanian Universitas Kapuas Sintang. PIPER. 23(12): 166-176.

Nugroho, PBA., M.F.Effendi, dan M.Asri. 2017. Karakteristik buah/benih aren (Arenga pinnata) dari beberapa provenan di provinsi Bengkulu. Jurnal Agriculture. 9(4): 1407-1413.

Purba, O., Indriyanto, dan A.Bintaro. 2014. Perkecambahan benih aren (Arenga pinnata) setelah diskarifikasi dengan giberelin pasa berbagai konsentrasi. Jurnal Sylva Lestari. 2(2): 71-78.

Rohfl, F.J. 2000. Statistical Power Comparisons Among Alternative Morphometric Methods. American Journal of Physical Antropology. 111:463–478.

Sahari, J., S.M. Sapuan, Z.N. Ismarrubie, and M.Z.A. Rahman. 2012. Physical and Chemical Properties of Different Morphological Parts of Sugar Palm Fibres.FIBRES & TEXTILES in Eastern Europe. 20(2): 23-26.

Sangian, H.F., G.H.Tamuntuan, H.I.R.Mosey, V.Suoth, and B.H.Manialup. 2017. The utilization of Arenga pinnta ethanol in preparing one phase-aqueous gasohol. ARPN Journal of Engineering and Applied Sciences. 12(24):7039-7046.

Saputri, F., F. Yuswil, A. Anwar, dan R. Thaib. 2011. Karakteristik Fenotipik Tanaman Enau (Arenga pinnata Merr.) pada Dataran Tinggi di Kabupaten Agam dan Tanah Datar Sumatera Barat. Prosiding Seminar PERIPI . ISBN 9786021800607. Desember 2011. Hal: 338-347. Ticoalu, A., T.Aravinthan, and F.Cardona. 2013. Areview on the characteristics of gomuti fibre and its composites with thermoset resins. Journal of Reinforced Plastic and Composites. 32(2): 124-136.

Susanto, H. 1997. Aren Budidaya dan Multigunanya. Kanisius. Jogjakarta, 78 Hal.

Widyawati, N., Tohari, Y. Prapto, S. Issirep. 2008. Permeabilitas dan Perkecambahan Biji Aren (Arenga pinnata (Wurmb) Merr.) Jurnal Agronomi Indonesia 37(2): 152-158.