Keanekaragaman karakteristik morfologi beberapa aksesi ubi jalar yang dibudidayakan oleh masyarakat Suku Irarutu dan Suku Dani di Kabupaten Kaimana
Diversity of morphological characteristics of several sweet potato accessions culti-vated by the Irarutu and Dani Tribe communities in Kaimana Regency
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Abstract
ABSTRACT : This research aims to identify the diversity of morphological characteristics of several sweet potato accessions cultivated by communities in the two tribes in the Kaimana Regency. The research was carried out in the Lower Arguni District in 5 villages (Coa, Afu Afu, Wetuf/Sawi, Kufuryai, Wermenu) inhabited by the Irarutu and Dani tribes (a local tribe from Wamena). The research used descriptive methods with survey, observation, and interview techniques. The research location was determined deliberately (purposive sampling) based on the local tribe population. The sweet potato in each village was also determined deliberately (purposive sampling) based on the number of accessions and different morphological characteristics. Observation of morphological characteristics included the morphology of stems or tendrils, leaves, and tubers. Data analysis was carried out using cluster analysis with pro- gram NTSYS-pc version 2.0. The morphological character similarity coefficient used is the simple matching coefficient. The research results showed that there was morphological diversity in 26 sweet potato accessions cultivated in five villages by the Irarutu and Dani tribes from Wamena. Diversity in morphological characteristics occurs in the characteristics of tendrils/stems, leaves, and tubers. Based on the results of the grouping analysis, the coefficient of similarity in morphological characteristics of the 26 sweet potato accessions was between 0.41 and 1, which means that the similarity in morphological characteristics was between 41% and 100%. The 26 sweet potato accessions were not grouped based on the village where they were grown but were grouped randomly. At the lowest similarity in morphological characteristics, namely 41%, 26 accessions were grouped into two groups, namely: group I consisted of 17 accessions, while group II consisted of 9 accessions. At the highest similarity, namely 100%, there are several accessions that group together, namely AfuAfu-6 and Wetuf-2; Coa-4, Afu Afu-7, Kufuryai-5; and Afu Afu-10, Wetuf-4, Kufuryai-1.
References
Ambarsari, I., Bachelor., & A. Choliq. (2009) Recommendations In Stipu-lating Quality Standards of Sweet Potato Flour (Central Java: Agri-cultural Technology Assessment Center (BPTP)).
Custers, J. (2015). Identifying the Gene Involved in The Shape of Potato Tubers. Tesis. Wageningen University and Research Institute, Wageningen, The Netherlands, https://edepot.wur.nl/335900 5 Maret 2022 (12:35 WIT).
Evans, J. R. (2013). Improving Photo-symthesis. Plant Physiology 162(4), 1780–1793, https://doi.org/10.1104/pp.113.219006
Guo, J., W. Han., & M. H. Wang. (2008). Ultraviolet and Environ-mental Stresses Involved in the In-duction and Regulation of Antho-cyanin Biosynthesis: A Review. African Journal of Biotechnology 7 (25), 4966-4972.
Hanley, M. E., B. B. Lamont., M. M. Fairbanks., & C. M. Rafferty. (2007). Plant Li, R., Guo P., Baum M., Grando S., dan Ceccarelli S. 2006. Evaluation of Chlorophyll Content and Fluorescence Parameters as Indicators of Drought Tolerance in Barley. Agricultural Sciences in China 5(10), 751- 757.
Huamán, Z. (1991). Descriptors for Sweet Potato. CIP, AVEDC, IBPGR. Internasional Board for Plant Genetic Resources. Roma, It-aly.
Huamán, Z. (1997). Sweetpotato germplasm management. Training Manual. International Potato Cen-ter. Lima, Peru.
Johnson, H. B. (1975). Plant Pubescence: An Ecological Perspective. The Botanical Review 41, 233-258.
Li, R., Guo P., Baum M., Grando S., & Ceccarelli S. (2006). Evaluation of Chlorophyll Content and Fluorescence Parameters as Indicators of Drought Tolerance in Barley. Agricultural Sciences in China 5(10), 751- 757.
Mahdavian, K., M. Ghorbanli., K. M. Kalantari. (2008). The Effects of Ultraviolet Radiation on the Contents of Chlorophyll, Fla ophyll, Flavonoid, Anthocy onoid, Anthocyanin and Pr anin and Proline in Capsicum oline in Capsicum annuum L. Turkish Journal of Botany 32(1), 25-33.
Nedunchezhiyan, M., & R. C. Ray. (2010). Sweet Potato Growth, De-velopment, Production and Utiliza-tion: Overview. Dalam Sweet Po-tato: Post Harvest Aspects in Food, Feed and Industry. Food Science and Technology Series. Ramesh C. Ray and K.I. Tomlins (Eds.). Nova Science Publishers, Inc. New York.
Paiki, A., Prabawardani S., Suparno A., Mawikere N. L., Mbusango A. (2024). Korelasi Kadar Air, Bahan Kering dan Kadar Gula Serta Sifat Sensori Umbi Beberapa Genotipe Ubi Jalar Lokal Papua. CASSO-WARY 7(2), 1 – 9.
Prabawardani S. (2007). Physiological and Growth Responses of Selected Sweet Potato (Ipomoea batatas L.) Cultivars to Water Stress. PhD Theses. James Cook University. Australia.
Prabawardani, S., Sarungallo A., Mustamu Y., & Luhulima F. (2008). Tanggap Klon Lokal Ubi Jalar Papua Terhadap Cekaman Kekeringan. Jurnal Penelitian Pertanian Tanaman Pangan 27(2), 113-119.
Prabawardani, S., A. Soplanit., A. T. Syahputra., L. Kossay., N. Muid., E. Ginting., & G. Lyons. (2013). Yield Trial and Sensory Evaluation of Sweetpotato Cultivars in High-land Papua and West Papua Indo-nesia. Journal of Tropical Agricul-ture 51(1):74-83.
Pradhan, D. M. P., A. Mukherjee., J. George., S. K., Chakrabarti, B., Vimala, S. K., Naskar, B. K., Sa-hoo., & S. Samal. (2015). Interna-tional Journal of Tropical Agricul-ture 33 397.
Rahmiana, E. A., S. Y. Tyasmoro., & N. E. Suminarti. (2015). Pengaruh Pengurangan Panjang Sulur dan Frekuensi Pembalikan Batang Pada Pertumbuhan dan Hasil Tanaman Ubi Jalar (Ipomoea batatas L.) Varietas Madu Oranye. Jurnal Produksi Tanaman 3(2), 126 – 134.
Rohmadani, R., & K. A. Wijaya. (2022). Pengaruh Pemberian Kalium dan Pembalikan Tanaman terhadap Pertumbuhan dan Produktivitas Ubi Jalar (Ipomoea batatas L.). Berkala Ilmiah PERTANIAN 5(4), 241-249. https://doi.org/10.19184/bip.v5i4.35329
Santos, E. A., M. M. Souza., A. P. Vi-ana., A. A. F. Almeida., J. C. O. Freitas., & P. R. Lawinscky. (2011). Multivariate Analysis of Morphological Characteristics of Two Species of Passion Flower With Ornamental Potential and of Hybrids Between Them. Genetics and Molecular Research 10(4): 2457± 2471.
Soplanit, A., & S. Tirajoh. (2019). Teknologi Budidaya ubi jalar (Ip-omoea batatas L.) Spesifik Lokasi Mengatasi Cekaman Abiotik di Dataran Tinggi Papua. Jurnal Riset Kajian Teknologi dan Lingkungan (JRKTL) 2(1): 58-63.
Steed, L., & V. D. Truong. (2008). An-thocyanin content, antioxidant ac-tivity, and selected physical prop-erties of flowable purple-fleshed sweetpotato purees. J. Food Sci. 73, S215–S221.
Suminarti, N. E. (2016). Pengaruh Pemupukan dan Frekuensi Pemangkasan Tajuk pada Aspek Agronomis dan Hasil Tanaman Ubi Jalar (Ipomoea batatas (L.) Lam.) Var. Kretek. Agro 3(2), 8-20.
Suparno, A., S. Prabawardani., A. B. Pattikawa. (2016). The Nutritional Value of Sweet Potato Tubers [Ipomoea batatas (L.) Lamb.] Consumed by Infants and Children of Dani Tribe in Kurulu District, Baliem-Jayawijaya. Journal of Agricultural Science 8(3), 64-69. DOI:10.5539/jas.v8n3p64
Teow, C. C., V. D. Truong., R. F. McFeeters., R. L. Thompson., K. V. Pecota., & G. C. Yencho. (2007). Antioxidant Activities, Phenolic and Β-Carotene Contents of Sweet Potato genotipes With Varying Flesh Colours. Food Chemistry 103(3), 829-838. https://doi.org/10.1016/j.foodchem.2006.09.033
Winkel-Shirley B. (2001). It takes a garden. How work on diverse plant species has contributed to an un-derstanding of flavonoid metabo-lism. Plant Physiology 127, 1399-1404.
