Informasi Genetik Bitti (Vitex cofassus) di Areal Sumber Daya Genetik (ASDG) BPTH Wilayah II Sulawesi
DOI:
https://doi.org/10.31850/jgt.v10i3.801Keywords:
Microsatellite, Bitti, genetic diversityAbstract
Bitti (Vitex cofassus) is one of the most important tree species in Sulawesi, which is used as material for phinisi boats. The aim study was to study the genetic diversity of Bitti in the genetic resources area in Bone Regency. This study used provenance Bulukumba, Muna, Kolaka, and North Luwu proof which was analyzed based on microsatellite markers. The resulting study showed evidence that provenance Muna has a Ho value 0f 0,65 or a relatively high genetic diversity value in comparison to provenance Bulukumba, Kolaka, and North Luwu.
References
Arif, A., Larekeng, S. H., Restu, M., Cahyaningsih, Y. F., & Mukti, J. (2019). A Genetic Diversity on Jabon Merah (Anthocephalus macrophyllus Roxb.) from Three Different Provenances in South Sulawesi. IOP Conference Series: Earth and Environmental Science, 270(1). https://doi.org/10.1088/1755-1315/270/1/012003
Botstein, D., White, R. L., Skolnick, M., & Davis, R. W. (1980). Construction of a Genetic Linkage Map in Man Using Restriction Fragment Length Polymorphism. Am J Hum Gen, 32, 314–331. papers2://publication/uuid/0B80518E-A22B-41F3-BE43-171F51007E42
Gusmiaty, Restu, M., & Pongtuluran. (2012). Seleksi Primer Untuk Analisis Keragaman Genetik Jenis Bitti (Vitex cofassus). Jurnal Perennial, 8(1), 25–29.
Hildebrand, C. E., Torney, D. C., & Wagner, R. P. (1992). Informativeness of Polymorphic DNA Markers. In Mapping the Genome (Vol. 20, pp. 100–102). Los Alamos Science. https://doi.org/10.1016/S0923-1811(98)00020-6
Hu, Y., Fan, H., Chen, Y., Chang, J., Zhan, X., Wu, H., Zhang, B., Wang, M., Zhang, W., Yang, L., Hou, X., Shen, X., Pan, T., Wu, W., Li, J., Hu, H., & Wei, F. (2021). Spatial patterns and conservation of genetic and phylogenetic diversity of wildlife in China. Science Advances, 7(4). https://doi.org/10.1126/sciadv.abd5725
Larekeng, S. H., Purwito, A., Mattjik, N. A., & Sudarsono, S. (2018). Microsatellite and SNAP markers used for evaluating pollen dispersal on Pati tall coconuts and Xenia effect on the production of “Kopyor” fruits. IOP Conference Series: Earth and Environmental Science. https://doi.org/10.1088/1755-1315/157/1/012042
Larekeng, S.H, Dermawan, R., Iswoyo, H., & Mustari, K. (2019). RAPD primer screening for amplification on Katokkon pepper from Toraja, South Sulawesi, Indonesia. IOP Conference Series: Earth and Environmental Science, 270, 012023. https://doi.org/10.1088/1755-1315/270/1/012023
Larekeng, Siti Halimah, Restu, M., Millang, S., & Bachtiar, B. (2018). Moderate Level of Genetic Diversity in Anthocephalus Macrophyllus Roxb, an Endemic Tree of Sulawesi and Its Implication in Conservation. International Journal of Agriculture System, 6. https://doi.org/10.20956/ijas.v6i1.1449
Larekeng, Siti Halimah, Restu, M., Susilowati, A., & Rachmat, H. H. (2019). Genetic diversity of parental and offspring population in ebony (Diospyros celebica bach) revealed by Microsatellites marker. International Journal on Emerging Technologies, 10(2), 178–185.
Melpiany, Bachtiar, B., Paembonan, S. A., & Larekeng, S. H. (2020). The effect of betel leaves as the soak solution for Bitti (Vitex cofassus) seeds germination. IOP Conference Series: Earth and Environmental Science, 575(1). https://doi.org/10.1088/1755-1315/575/1/012023
Mulsanti, I. W. (2011). Identifikasi dan Evaluasi Kemurnian Genetik Benih Padi Hibrida Menggunakan Marka Mikrosatelit (Tesis).
Nurtjahtjaningsih, I., YPBC Widyatmoko, A., & Rimbawanto, A. (2013). Karakterisasi Dan Aplikasi Penanda Mikrosatelit Pada Beberapa Species Eucalyptus. Jurnal Pemuliaan Tanaman Hutan, 7(2), 107–118. https://doi.org/10.20886/jpth.2013.7.2.107-118
Peakall, R., & Smouse, P. E. (2012). GenALEx 6.5: Genetic analysis in Excel. Population genetic software for teaching and research-an update. Bioinformatics, 28(19), 2537–2539. https://doi.org/10.1093/bioinformatics/bts460
Syahri, Y. F., Larekeng, S. H., & Susilowati, A. (2020). Assessment of Population Genetic Diversity of cocoa (Theobroma cacao L.) using RAPD markers : The Case of Agroforestry’s System in East Kolaka, Indonesia. International Journal on Emerging Technologies, 11(2), 887–891.
Thomas, E., Jalonen, R., Loo, J., Boshier, D., Gallo, L., Cavers, S., Bord??cs, S., Smith, P., & Bozzano, M. (2014). Genetic considerations in ecosystem restoration using native tree species. Forest Ecology and Management, 333, 66–75. https://doi.org/10.1016/j.foreco.2014.07.015
Verhaegen, D., Fofana, I. J., Logossa, Z. A., & Ofori, D. (2010). What is the genetic origin of teak (Tectona grandis L.) introduced in Africa and in Indonesia? Tree Genetics and Genomes, 6(5), 717–733. https://doi.org/10.1007/s11295-010-0286-x
Widyatmoko, A., Nurtjahjaningsih, I., & Prastyono. (2011). Study on the Level of Genetic Diversity of Diospyros celebica , Eusideroxylon zwageri And Michelia spp . Using RAPD Markers (Issue 2).
1.png)
.png)
