Morphological Diversity and Production of Six Sago (Metroxylon spp.) Accessions from Tana Luwu, South Sulawesi, Indonesia

Masluki Masluki, Mochamad Hasjim Bintoro, Herdhata Agusta, Sudarsono Sudarsono

Abstract


Tana Luwu area owns a relatively high diversity and production potential of sago, but it has not yet been managed optimally. This study aims to identify and analyze the diversity of morphological characteristics and the production of various sago accessions in Tana Luwu. Based on morphological characteristics, the sago palm in Tana Luwu is divided into two groups by the presence of thorns on the rachis and petioles. The presence of thorns has the largest coordinate axis angles, representing a higher diversity distance than other morphological characteristics. Some accessions show very high production potential, with a total production of 476.66 kg per dry tree starch. The average sago production in the six accessions is 276.40 kg per dry tree starch. Accessions with a yield potential > 200 kg per dry starch are observed in Kapa, Uso, Kasimpo, and Sabbe. Therefore, sago in these accessions is potentially developed to obtain superior varieties. Two significant morphological characteristics that contribute to sago production are stem height (r = 0.73) and the number of leaves (r = 0.78).

Keywords


Diversity; Morphology; Production; Sago; Tana Luwu

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References


A’fifah, A. R., Kho, L. K., Zurilawati, Z., Samsul Kamal, R., & Maizan, I. (2019). Photosynthetic characteristics and instantaneous water-use efficiency of sago palms. Transactions of the Malaysian Society of Plant Physiology, 26, 85–89. website

Abbas, B., Renwarin, Y., Bintoro, M. H., Sudarsono, S., Surahman, M., & Ehara, H. (2010). Genetic diversity of sago palm in Indonesia based on chloroplast DNA (cpDNA) markers. Biodiversitas Journal of Biological Diversity, 11(3). DOI

Afuape, S. O., Okocha, P. I., & Njoku, D. (2011). Multivariate assessment of the agromorphological variability and yield components among sweet potato (Ipomoea batatas (L.) Lam) landraces. African Journal of Plant Science, 5(2), 123–132. PDF

Ahmad, F., Bintoro, M. H., & Supijatno, S. (2017). Morfologi dan Produksi Beberapa Aksesi Sagu (Metroxylon spp.) di Distrik Iwaka, Kabupaten Mimika, Papua / Morphology and Production of Some Sago Palm Accessions in Iwaka, Mimika District, Papua Province. Buletin Palma, 17(2), 115. DOI

Al Qodri, K. Z. D., & Wawan. (2015). Keanekaragama morfologis tanaman sagu (Metroxylon sp.) di Kabupaten Lingga Propinsi Kepulauan Riau. Jurnal Online Mahasiswa, 2(2), 15. website

Ariyanto, A., Hadi, M. S., & Kamal, M. (2015). Kajian intersepsi cahaya matahari pada tiga varietas sorgum (Sorghum bicolor (L.) Moench) dengan kerapatan tanaman berbeda pada sistem tumpangsari dengan ubikayu (Manihot esculenta Crantz). Jurnal Agrotek Tropika, 3(3). DOI

Azhar, A., Makihara, D., Naito, H., & Ehara, H. (2018). Photosynthesis of sago palm (Metroxylon sagu Rottb.) seedlings at different air temperatures. Agriculture, 8(1), 4. DOI

Bintoro, M. H., Iqbal Nurulhaq, M., Pratama, A. J., Ahmad, F., & Ayulia, L. (2018). Growing area of sago palm and its environment. In H. Ehara, Y. Toyoda, & D. V. Johnson (Eds.), Sago Palm (pp. 17–29). Springer Singapore. DOI

Botanri, S., Setiadi, D., Guhardja, E., Qayim, I., & Prasetyo, L. B. (2011). Studi ekologi tumbuhan sagu (Metroxylon spp) dalam komunitas alami di Pulau Seram, Maluku. Jurnal Penelitian Hutan Tanaman, 8(3), 135–145. DOI

BPS. (2017). Kabupaten Luwu Utara dalam Angka tahun 2017. PDF

Dewi, R. K., Bintoro, M. H., & Sudradjat, D. (2016). Karakter morfologi dan potensi produksi beberapa aksesi sagu (Metroxylon spp.) di Kabupaten Sorong Selatan, Papua Barat. Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy), 44(1), 91-97. DOI

DITJENBUN, 2017. (2017). DITJENBUN. Direktorat Jenderal Perkebunan. website

Ehara, H. (2009). The potency of sago palm as a carbohydrate resource for strengthening food security programs. Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy), 37(3), 209–219. website

Ehara, H., Toyoda, Y., & Johnson, D. V. (Eds.). (2018). Sago Palm: Multiple Contributions to Food Security and Sustainable Livelihoods. Springer Singapore. DOI

Fathnoer, V., Bintoro, M. H., & Lubis, I. (2020). Assessment of Morphological Attributes of Sago Palm Accessions of Aimas, Sorong, West Papua, Indonesia. Journal of Tropical Crop Science, 7(01), 7–14. DOI

Gio, P. U., & Rosmaini, E. (2016). Belajar olah data dengan SPSS, MINITAB, R, MICROSOFT EXCEL, EVIEWS, LISREL, AMOS, dan SMARTPLS (disertai beberapa contoh perhitungan manual). USU Press. website

Hidayat, S., Matsuoka, M., Baja, S., & Rampisela, D. A. (2018). Object-based image analysis for sago palm classification: The most important features from high-resolution satellite imagery. Remote Sensing, 10(8), 1319. DOI

Kamma, W. A., Rampisela, D. A., & Rasyid, B. (2021). Identification of sago land and its potential for development in the Coastal Area of North Luwu Regency. IOP Conference Series: Earth and Environmental Science, 886(1), 012042. DOI

Karim, H. A. (2021). An ecological study of Sago Palm (Metroxylon sagu Rott ver molar (Becc.)) in the natural habitat at Malili District East Luwu South Sulawesi. IOP Conference Series: Earth and Environmental Science, 807(2), 022031. DOI

Kjær, A., Barfod, A. S., Asmussen, C. B., & Seberg, O. (2004). Investigation of genetic and morphological variation in the sago palm (Metroxylon sagu; Arecaceae) in Papua New Guinea. Annals of Botany, 94(1), 109–117. DOI

Konuma, H. (2018). Status and Outlook of Global Food Security and the Role of Underutilized Food Resources: Sago Palm. In H. Ehara, Y. Toyoda, & D. V. Johnson (Eds.), Sago Palm (pp. 3–16). Springer Singapore. DOI

Markus Rawung, J. B., & Indrasti, R. (2021). The Constraints to Sago Development and Improvement Efforts in Siau Tagulandang Biaro (Sitaro) Islands. E3S Web of Conferences, 232, 01029. DOI

Marzuki, I., Uluputty, M. R., Aziz, S. A., & Surahman, M. (2008). Karakterisasi Morfoekotipe dan Proksimat Pala Banda (Myristica fragrans Houtt.). Jurnal Agronomi Indonesia (Indonesian Journal of Agronomy), 36(2), 146-152. website

McClatchey, W., Manner, H.I dan Elevitch, C.R. 2006. Metroxylon amicarum, M. paulcaxii, M. sagu, M. salomonense, M. vitiense, and M. warburgii (sago palm) Arecaceae (palm family). Species Profiles for Pacific Island Agroforestry. website

Mustamu, Y. A., Barias, F. O. P., Tan, T., Suparno, A., & Budiyanto, Y. S. (2021). Keragaan dan Keragaman Genetik 9 Jenis Sagu (Metroxylon spp) di Kabupaten Biak Numfor Provinsi Papua. Agriprima : Journal of Applied Agricultural Sciences, 5(2), 150–158. DOI

Nabeya, K., Nakamura, S., Nakamura, T., Fujii, A., Watanabe, M., Nakajima, T., Nitta, Y., & Goto, Y. (2015). Growth behavior of sago palm (Metroxylon sagu Rottb.) from transplantation to trunk formation. Plant Production Science, 18(2), 209–217. DOI

Nakamura, S., Nitta, Y., & Goto, Y. (2004). Leaf Characteristics and Shape of Sago Palm ( Metroxylon sagu Rottb.) for Developing a Method of Estimating Leaf Area. Plant Production Science, 7(2), 198–203. DOI

Nakamura, S., Nitta, Y., Watanabe, M., & Goto, Y. (2005). Analysis of Leaflet Shape and Area for Improvement of Leaf Area Estimation Method for Sago Palm ( Metroxylon sagu Rottb.). Plant Production Science, 8(1), 27–31. DOI

Nakamura, S., Nitta, Y., Watanabe, M., & Goto, Y. (2009). A Method for Estimating Sago Palm ( Metroxylon sagu Rottb.) Leaf Area after Trunk Formation. Plant Production Science, 12(1), 58–62. DOI

Nitta, Y. (2018). Morphological and Anatomical Characteristics of Sago Palm Starch. In H. Ehara, Y. Toyoda, & D. V. Johnson (Eds.), Sago Palm (pp. 181–189). Springer Singapore. DOI

Novarianto, H., Maskromo, I., Tulalo, M. A., Tenda, E. T., Kumaunang, J., Pandin, D. S., & Mawardi, S. (2020). Karakteristik dan Potensi Produksi Pati Varietas Sagu Bestari [Characteristics and Starch Production Potential of Sago Bestari Variety]. Buletin Palma, 21(1), 29. DOI

Novero, A. U., Mabras, M. B., & Esteban, H. J. (2012). Epigenetic inheritance of spine formation in sago palm (Metroxylon sagu Roettb). Plant Omics Journal, 5(6), 559-566. PDF

Nurulhaq, M. I., Bintoro, M. H., & Supijatno, S. (2022). Morphology and Starch Production Potential of Sago Palm Found in Village Haripau, East Mimika Subdistrict, Mimika, Papua Province, Indonesia. Journal of Tropical Crop Science, 9(01), 31–38. DOI

Pasolon, Y. B. (2015). Environment, growth and biomass production of sago palm (Metroxylon sagu Rottb.): A case study from Halmahera, Papua and Kendari. International Journal of Sustainable Tropical Agricultural Sciences (IJSTAS), 2(1), 97–104. website

Pratama, A. J., Bintoro, M. H., & Trikoesoemaningtyas. (2018). Variability and relationship analysis of sago accessions from the natural population of Papua based on morphological characters. SABRAO Journal of Breeding and Genetics, 50(4), 461-474. PDF

Purwoko, D., Cartealy, I. C., Tajuddin, T., Dinarti, D., & Sudarsono, S. (2019). SSR identification and marker development for sago palm based on NGS genome data. Breeding Science, 69(1), 1–10. DOI

Rahayu, Y., Fitmawati, & Herman. (2013). Analisis Keanekaragaman Sagu (Metroxylon sagu Rottb.) pada Tiga Tipe Habitat di Pulau Padang Kepulauan Meranti. Biosantifika, 5(1), 16-24. website

Rahman, H. B. A., Bintoro, M. H., & Supijatno, S. (2021). Variation in Leaf Morphology of Sago Trees (Metroxylon sagu) in South Borneo Province, Indonesia. Journal of Tropical Crop Science, 8(02), 51–59. DOI

Rembon, F. S., Barra Pasolon, Y., Yamamoto, Y., & Yoshida, T. (2014). Comparative studies on physicochemical properties of the mineral soils in the major sago palm (Metroxylon Sagu Rottb.)-growing areas of Eastern Indonesia. International Journal of Sustainable Tropical Agricultural Sciences (IJSTAS), 1(1), 77–92. website

Riska, K. (2010). Inventarisasi dan Karakterisasi Keragaman Morfologis Tanaman Sagu (Metroxylon sp) Di Kabupaten Pesisir Selatan. Universitas Andalas. website

Ruli, B. H., Ardian, & Yoseva, S. (2017). Kajian Budidaya Sagu (Metroxylon spp.) Rakyat di Kecamatan Tebing Tinggi Barat Kabupaten Kepulauan Meranti. Jurnal Online Mahasiswa, 4(1), 1-14. website

Sahetapy, L., & Karuwal, R. L. (2015). Variasi karakter morfologis lima jenis sagu (Metroxylon sp) di Pulau Saparua. BIOPENDIX: Jurnal Biologi, Pendidikan Dan Terapan, 1(2), 105–111. DOI

Sari, D. R., Asrul, L., Sjahril, R., & Osozawa, K. (2020). Path coefficient analysis for growth characters of sago palm related to trunk formation at three years after transplanting. IOP Conference Series: Earth and Environmental Science, 486(1), 012010. DOI

Sayekti, T. W. D. A., Syukur, M., Hidayat, S. H., & Maharijaya, A. (2021). Diversity and genetic parameter of chili pepper (Capsicum annum) based on yield component in three locations. Biodiversitas, 22(2), 823–829. DOI

Schuiling, D. L. (2009). Growth and development of true sago palm (Metroxylon sagu Rottboll) with special reference to accumulation of starch in the trunk: A study on morphology, genetic variation, and ecophysiology, and their implications for cultivation [dissertation]. Wageningen: Wageningen University.

Sitaresmi, T., Suwarno, W. B., Gunarsih, C., Nafisah, Nugraha, Y., Sasmita, P., & Daradjat, A. A. (2019). Comprehensive stability analysis of rice genotypes through multi-location yield trials using PBSTAT-GE. SABRAO Journal of Breeding and Genetics, 51(4), 355-372. PDF

Donowati, T. (2018). Potency of sago (Metroxylon spp) crops for food diversity. Biodiversity International Journal, 2(3), 239–240. DOI

Trisia, M. A., Metaragakusuma, A. P., Osozawa, K., & Bai, H. (2016). Promoting Sago Palm in The Context of National Level: Challenges and Strategies to Adapt to Climate Change in Indonesia. International Journal of Sustainable Future for Human Security, 4(2), 54–63. DOI

Vidal, N. P., Manful, C., Pham, T. H., Wheeler, E., Stewart, P., Keough, D., & Thomas, R. (2020). Novel unfiltered beer-based marinades to improve the nutritional quality, safety, and sensory perception of grilled ruminant meats. Food Chemistry, 302, 125326. DOI

Watling, D. (2018). Conservation and Sustainable Utilization of the Fiji Sago Palm Metroxylon vitiense. In H. Ehara, Y. Toyoda, & D. V. Johnson (Eds.), Sago Palm (pp. 139–153). Springer Singapore. DOI

Yamamoto, Y. (2018). Dry Matter Production as a Basis of Starch Production in Sago Palm. In H. Ehara, Y. Toyoda, & D. V. Johnson (Eds.), Sago Palm (pp. 157–167). Springer Singapore. DOI

Yamamoto, Y., Omori, K., Nitta, Y., Kakuda, K., Pasolon, Y. B., Gusti, R. S., Miyazaki, A., & Yoshida, T. (2014). Changes of Leaf Characters in Sago Palm (Metroxylon sagu Rottb.) after Trunk Formation. Tropical Agriculture and Development, 58(2), 43-50. DOI

Yustiningsih, M. (2019). Intensitas Cahaya dan Efisiensi Fotosintesis pada Tanaman Naungan dan Tanaman Terpapar Cahaya Langsung. Bio-Edu: Jurnal Pendidikan Biologi, 4(2), 44–49. DOI




DOI: http://doi.org/10.17503/agrivita.v46i1.3861

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