Coffea liberica leaf and tree architecture model of confusing accession in Poncokusumo, Malang District, East Java, Indonesia

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ERONA WAFARETTA
YOGA DWI JATMIKO
WENNY BEKTI SUNARHARUM
LUCHMAN HAKIM

Abstract

Abstract. Wafaretta E, Jatmiko YD, Sunarharum WB, Hakim L. 2023. Coffea liberica leaf and tree architecture model of confusing accession in Poncokusumo, Malang District, East Java, Indonesia. Biodiversitas 24: 3073-3080. Some Coffea liberica W.Bull varieties appear in the same garden with the same planting pattern in the Poncokusumo. This could be due to differences in tree architecture from one accession to another. This research aims to identify the architectural and morphological characteristics of C. liberica stems and leaves and determine differences in coffee variety accession through morphological differences in C. liberica plants and leaf architecture. The research was conducted from July 2021 to August 2022 in the C. liberica plantation in Poncokusumo Sub-district, Malang District, East Java, Indonesia. The research sample consisted of four C. liberica trees from each accession and was carried out in four stages: observation, data/image recording, measurement, and data analysis. This research found: each accession has a different plant architecture model and a different branching model; three accessions appear to have different leaf morphological characters, namely margin type, apex angle, and base angle; dendrogram and PCoA results show that each accession has significant differences. Further research at the genetic level and the effect of abiotic or biotic elements on the growth and development of this coffee tree is necessary to enlighten the C. liberica variety's high potential for the growth of this coffee production in the local community.

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References
Baltazar, A. M. P. and Buot, I. E. 2019. Short Communication: Leaf architectural analysis of taxonomically confusing coffee species: Coffea liberica and Coffea liberica var. Dewevrei. Biodiversitas: Volume 20: Number 6, Pages: 1560-1567.
Chandrasekar, V. and Viswanathan, R. 1999. Physical and Thermal Properties of Coffee. Journal of Agricultural Engineering Research Volume 73: Pages 227-234. https://doi.org/10.1006/jaer.1999.0411.
Budiman, H, (2012) Prospek Tinggi Bertanam Kopi. Pustaka Baru Press, Yogyakarta.
Darmayanti, A. S. and Fiqa, A.P. 2017. The Canopy Structure and Its Impact on Hydrological Performance of Five Local Trees Species Grown in the Purwodadi Botanic Garden. Journal of Tropical Life Science Volume 7: No. 1, pages: 40 – 47.
Diperpa. 2018. Mengenal Tanaman Kopi Liberika. Jurnal Bumi.com, Bandung.
Ditjenbun (Direktorat Jenderal Perkebunan). 2012. Statistik Perkebunan Indonesia 2011-2013: Kopi. Ditjenbun, Jakarta.
Farohii, S. M. K. B., Laili, S. and Zayadi, H. 2020. The Classification of Plantation Land Capability Class and Mapping in the Sumberejo Village, Poncokusumo Malang. E-Jurnal Ilmiah BIOSAINTROPIS (BIOSCIENCE-TROPIC), Volume 6: No.: 1, pages: 66 – 71. ISSN: 2460-9455 (e) – 2338-2805.
Hammer, Harper, D.A.T., and Ryan P.D. 2001. Past: Paleontological statistics software package for education and data analysis. Palaeontologia Electronica 4 (1). Available from: http://palaeo-electronica.org/2001_1/past/issue1_01.htm
Haneifan, N and Basunanda, P. 2022. Eksploration and Indentification of Liberika Coffee (caffea Liberica) in Sukorejo, Kendal District. Jurnal Vegetalika, Volume 11: No. 1, pages: 11–18. DOI: https://doi.org/10.22146/veg.44325
Ismail, I, Anuar, M.S., and Shamsudin, R. 2014. Physical Properties of Liberica coffee Berries and Beans. Pertanika J. Science and Technol. Volume 22: No. 1, pages: 65-79. ISSN: 0128-7680.
Kementan. 2017. Outlook Kopi 2017. Jakarta: Pusat Data dan Sistem Informasi Pertanian, Sekretariat Jenderal -Kementerian Pertanian.
Khasanah, N. dan Noordwijk, M. V. 2019. Subsidence and carbon dioxide emissions in a smallholder peatland mosaic in Sumatra, Indonesia. Springer: Mitig Adapt Strateg Glob Change, Volume 24: Pages: 147–163.
Lim, T, K. 2013. Edible Medicinal and Non-Medicinal Plants Fruit. Springer Science, Vol.5: Page: 711.
Lin, Y., Jiang, M., Pellikka, P., and Heiskanen, J. 2018. Recruiting Conventional Tree Architecture Models into State-of-the-Art LiDAR Mapping for Investigating Tree Growth Habits in Structure. Front. Plant Sci. Volume 9: Pages: 220. doi: 10.3389/fpls.2018.00220.
Mawardhi, A. D., and Setiadi, D. 2018. Strategi pemanfaatan lahan gambut melalui pengembangan agroforestri kopi liberika (Coffea liberica). In: Herlinda S et al. (Eds.), Seminar Nasional Lahan Suboptimal Proceeding 2018, Palembang 18-19 Oktober 2018. Unsri Press: Pages: 43-51.
Najiyati, S, and Danarti. 2004. Kopi, Budidaya dan Penanganan Pasca Panen. Edisi Revisi. Penebar Swadaya, Jakarta.
Prastowo, B. et.al. 2010. Budidaya dan Pasca Panen Kopi. Pusat Penelitian dan Perkebunan, Bogor.
Rustamaji, Ibnu. 2019. Kopi Liberika Tangguh Komposit (Kopi Litukom) Jambi. Tribunnewswiki.com, Jambi.
Sahin, S and Sumnu, G. 2006. Physical Propeties of Foods. Book Chapter, Publisher Springer, ISBN: 10:0-387-30780-X. doi:10.1007/0-387-30808-3.
Sianipar, H. 2017. Keragaman Genetik Populasi Kopi Liberika (Coffea Liberica W. Bull Ex. Hiern) Di Kecamatan Betaraberdasarkan Karakter Buah Dan Biji. Thesis, Universitas Jambi.
Stewart, F. A. 2011. The evolution of shelter: ecology and ethology of chimpanzee nest building. Available from: https://www.researchgate.net/publication/303388679.
Sunarharum, W. B., Fibrianto, K., Yuwono, S.S. dan Nur, M, (2019). Sains Kopi Indonesia. UB Press, Malang.
Supriadi, H., et.al, (2018). Teknologi Budidaya Tanaman Kopi. IAARD Press, Badan Penelitian dan Pengembangan Pertanian, Jakarta.
Teketay, T. 1999. History, botany and ecological requirements of coffee. Walia, Volume 20: Pages: 28-50.
Wrigley, G. 1988. Coffee. Tropical Agriculture Series. Longman Scientific dan Technical. Copublished in the United States with John Wiley and Sons, Inc. New York.

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