Notes on Amydrium zippelianum (Araceae): A Mesmerizing Species From East Malesia
Abstract
Abstrak
Amydrium zippelianum (Araceae) dilaporkan dijumpai di Malesia mulai dari Sulawesi hingga Papua Nugini, namun kini sudah jarang dijumpai. Eksplorasi flora telah dilakukan untuk mengungkap keanekaragaman flora di Kabupaten Banggai Kepulauan, sebuah kepulauan kecil di Provinsi Sulawesi Tengah. Penelitian ini bertujuan untuk menemukan dan mengumpulkan spesimen A. zippelianum. Eksplorasi flora dilakukan menggunakan metode pengumpulan data taksonomi, bertempat di Pulau Peleng dan Bakalan, Kabupaten Banggai Kepulauan. Material tumbuhan dikoleksi untuk dijadikan spesimen herbarium dan disimpan di Herbarium Bogoriense (BO). Spesimen A. zippelianum yang disimpan di BO dan portal daring kemudian diamati. Sebagai tambahan, pengamatan spesimen herbarium juga dilakukan untuk memperkaya informasi tentang A. zippelianum di Malesia. Peta distribusi disediakan dan data dianalisis secara deskriptif. Terdapat satu spesimen fertil A. zippelianum yang dikoleksi di sekitar Hutan Kokolomboy, Kabupaten Banggai Kepulauan. Di Malesia, A. zippelianum dapat ditemukan di dataran rendah hingga dataran tinggi pada ketinggian mencapai 2.200 mdpl dan sebagian besar ditemukan pada area hutan. Distribusi jenis ini di alam meliputi Sulawesi, Maluku, Papua Nugini, dan Filipina. Tumbuhan ini telah diintroduksi ke Jawa (Kebun Raya Bogor), Bali (Kebun Raya “Eka Karya” Bali), dan Inggris (Royal Botanic Garden, Kew).
Abstract
Amydrium zippelianum (Araceae) was reportedly found in Malesia, from Sulawesi to Papua New Guinea, but it is rarely seen now. Flora exploration has been conducted to reveal flora diversity in Banggai Kepulauan Regency, a group of small islands in Central Sulawesi Province. This study was aimed to find and collect A. zippelianum specimen. Flora exploration was carried out by applying taxonomy data collecting method in Peleng and Bakalan islands, Banggai Kepulauan Regency. Plant materials were collected for herbarium specimens and deposited in Herbarium Bogoriense (BO). The specimens of A. zippelianum deposited in BO and online portal database were further examined. In addition, observations of herbarium specimens were also done to obtain more information about A. zippelianum in Malesia. A distribution map was provided and data were analyzed descriptively. One fertile specimen of A. zippelianum was successfully collected around Kokolomboy Forest, Banggai Kepulauan Regency. In Malesia, A. zippelianum can be found in lowlands to highlands at elevation up to 2,200 m asl and mostly in forest area. The distribution of this species in nature covers Sulawesi, Maluku, Papua New Guinea, and the Philippines. This plant was introduced to Java (Bogor Botanic Garden), Bali (“Eka Karya” Bali Botanic Garden), and United Kingdom (Royal Botanic Garden, Kew).
Keywords
Full Text:
PDFReferences
Ariati, S. R., Astuti, R. S., Supriyatna, I., Yuswandi, A. Y., Setiawan, A., Saftaningsih, D., & Pribadi, D. O. (2019). An alphabetical list of plant species cultivated in the Bogor Botanic Gardens. Bogor: Indonesian Institute of Sciences, Center for Plant Conservation, Bogor Botanic Gardens.
Arinasa, I. B. K., Adjie, B., & Putri, D. M. S. (2017). An alphabetic list of plant species cultivated in the Bali Botanical Garden. Jakarta: LIPI Press.
Astuti, I. P., Soewilo, L. P., Said, T. D., & Kosasih, R. N. A. (2001). An alphabetical list of plant species cultivated in the Bogor Botanical Garden. Bogor: Riza Graha Jaya.
Badan Pengelolaan Lingkungan Hidup Kabupaten Banggai Kepulauan (BPLHKBK). (2009). Laporan status lingkungan hidup daerah Kabupaten Banggai Kepulauan tahun 2009. Salakan: Pemerintah Kabupaten Banggai Kepulauan Provinsi Sulawesi Tengah.
Badan Pusat Statistik Kabupaten Banggai Kepulauan (BPSKBK). (2018). Kabupaten Banggai Kepulauan dalam angka 2018. Salakan: BPS-Kabupaten Banggai Kepulauan.
Berli, F. J., Alonso, R., Bressan-Smith, R., & Bottini, R. (2013). UV-B impairs growth and gas exchange in grapevines grown in high altitude. Physiologia Plantarum, 149(1), 127-140. doi: 10.1111/ppl.12012.
Boyce, P. C. & Wong, S. Y. (2015). Compendium genera Aracearum Malesianum. Aroideana, 38(0), 40-177.
Boyce, P. C. (1995). Amydrium zippelianum: Araceae. Curtis's Botanical Magazine, 12(2), 85-89. doi: 10.1111/j.1467-8748.1995.tb00493.x.
Boyce, P. C. (1998). The genus Epipremnum Schott (Araceae-Monsteroideae-Monstereae) in West and Central Malesia. Blumea, 43(1), 183-213.
Boyce, P. C. (2004). A review of Epipremnum (Araceae) in cultivation. Aroideana, 27(1), 205-211.
Bukalapak. (2020). Amydrium zippelianum murah (2020, February 26). Retrieved from https://www.bukalapak.com/p/hobi-koleksi/berkebun/peralatan-berkebun/2rhq008-jual-amydrium-zippelianum-murah.
Danimihardja, S., & Notodihardjo, D. (1978). An alphabetical list of plant species cultivated in the Hortus Botanicus Bogoriensis. Bogor: Indonesian Institute of Sciences, National Biological Institute, Botanic Gardens.
Danimihardja, S., & Notodihardjo, D. (1985). An alphabetical list of plant species cultivated in the Hortus Botanicus Bogoriensis. Bogor: Indonesian Institute of Sciences, National Biological Institute, Botanic Gardens.
Djarwaningsih, T., Sunarti, S., & Kramadibrata, K. (2002). Panduan pengolahan dan pengelolaan material herbarium serta pegendalian hama terpadu di Herbarium Bogoriense. Bogor: Herbarium Bogoriense, Bidang Botani, Pusat Penelitian Biologi-LIPI.
Dogra, V., Ahuja, P. S., & Sreenivasulu, Y. (2013). Change in protein content during seed germination of a high altitude plant Podophyllum hexandrum Royle. Journal of Proteomics, 78, 26-38. doi: 10.1016/j.jprot.2012.10.025.
Dzu, N. V. & Boyce, P. C. (1999). The genus Amydrium (Araceae: Monsteroideae: Monstereae) with particular reference to Thailand and Indochina. Kew Bulletin, 54(2), 379-393. doi: 10.2307/4115815.
Dzu, N. V. (2003). Amydrium zippelianum (Schott) Nicolson. In R. H. M. J. Lemmens, & N. Bunyapraphatsara (Eds.), Plant resources of South-East Asia, no 12(3): medicinal and poisonous plants 3 (pp. 67-68). Leiden, Netherland: Backhuys Publishers.
Erlinawati, I. (2010). The diversity of terrestrial Araceae in Mt. Watuwila Complex, South-East of Sulawesi. Berkala Penelitian Hayati, 15(2), 131-137.
Gailea, R., Bratawinata, A. A., Pitopang, R., & Kusuma, I. W. (2016). The use of various plant types as medicines by local community in the enclave of the Lore-Lindu National Park of Central Sulawesi, Indonesia. Global Journal of Research on Medicinal Plants & Indigenous Medicine, 5(1), 29-40.
Global Biodiversity Information Facility (GBIF). (2020). Amydrium zippelianum (Schott) Nicolson (2020, February 26). Retrieved from https://www.gbif.org/occurrence/gallery?taxon_key=2870249.
Guo, Q. Q., Li, H., & Zhang, W. H. (2016). Variations in leaf functional traits and physiological characteristics of Abies georgei var. smithii along the altitude gradient in the Southeastern Tibetan Plateau. Journal of Mountain Science, 13(10), 1818-1828. doi: 10.1007/s11629-015-3715-3.
Hasanah, A. (2017). Model spasial restorasi ekologi pada Hutan Hujan Tropis Banggai Kepulauan (Bachelor’s thesis). Department of Geography, University of Indonesia, Indonesia.
Hay, A., Boyce, P. C., Hetterscheid, W. L. A, Jacobsen, N., Murata, J., & Bogner, J. (1995). Checklist of the Araceae of Malesia, Australia, and the tropical western Pacific region. Blumea Supplement, 8(1), 1-161.
Jstor. (2020). Global plant (Amydrium zippelianum) (2020, February 26). Retrieved from https://plants.jstor.org/search?plantName=%22Amydrium+zippelianum%22&syn=1.
Kementerian Pekerjaan Umum (KPU). (2012). Peta infrastruktur Kabupaten Banggai Kepulauan 2012 (2020, February 26). Retrieved from http://loketpeta.pu.go.id/assets/cms/uploads/images/media-peta/peta-infrastruktur/pii-7200/7201_2012.gif.
Korner, C. & Diemer, M. (1987). In situ photosynthetic responses to light, temperature and carbon dioxide in herbaceous plants from low and high altitude. Functional Ecology, 1(3), 179-194. doi: 10.2307/2389420.
Korner, C., Neumayer, M., Menendez-Riedl, S. P., & Smeets-Scheel, A. (1989). Functional morphology of mountain plants. Flora, 182(5-6), 353-383. doi: 10.1016/S0367-2530(17)30426-7.
Kurniawan, A., & Asih, N. P. S. (2012). Araceae di Pulau Bali. Jakarta: LIPI Press.
Kurniawan, A., Adjie, B., & Boyce, P. C. (2011). Studies on the Araceae of Sulawesi I: New taxa of Schismatoglottis and Homalomena, and a preliminary checklist and keys for Sulawesi. Acta phytotaxonomica et geobotanica, 62(1), 40-50. doi: 10.18942/apg.KJ00007694694.
McIntyre, S., Lavorel, S., Landsberg, J., & Forbes, T. D. A. (2009). Disturbance response in vegetation-towards a global perspective on functional traits. Journal of Vegetation Science, 10(5), 621-630. doi: 10.2307/3237077.
Miquel, F. A. G. (1863). Araceae: Annales Musei Botanici Lugduno-Batavi, 1(1), 129-160.
Nicolson, D. H. (1968). A revision of Amydrium (Araceae). Blumea, 16(1), 123-127.
Nsetropicals. (2020). Amydrium zippelianum (2020, February 27). Retrieved from https://www.nsetropicals.com/product/amydrium-zippelianum.
Nugroho, B. T. A. & Santika, Y. (2008). Exploration and inventory of Araceae genera in Silui Mountain and Uluisimbone Forest, Kolaka Regency, South-East Sulawesi. Biodiversitas, 9(4), 288-291. doi: 10.13057/biodiv/d090410.
Patioplants. (2020). Fast growing Amydrium zippelianum, large 6” pot (2020, February 27). Retrieved from https://patioplants.com/product/fast-growing-amydrium-zippelianum-large-6-pot.
Plant of the World Online (POWO). (2020). Amydrium zippelianum (Schott) Nicolson (2020, February 26). Retrieved from http://powo.science.kew.org/taxon/urn:lsid:ipni.org:names:84477-1.
Rahmadi, C., Haryoko, T., Riyanto, A., Achmadi, A. S., Wiantoro, S., Haryono., … Girmansyah, D. (2014). Laporan akhir inventarisasi flora dan fauna Kabupaten Banggai Kepulauan. Salakan: Badan Pengelolaan Lingkungan Hidup Kabupaten Banggai Kepulauan & Pusat Penelitian Biologi-LIPI.
Richardson, A. D., Berlyn, G. P., & Gregoire, T. G. (2001). Spectral reflectance of Picea rubens (Pinaceae) and Abies balsamea (Pinaceae) needles along an elevational gradient, Mt. Moosilauke, New Hampshire, USA. American Journal of Botany, 88(4), 667-676. doi: 10.2307/2657067.
Robakowski, P., Montpied, P., & Dreyer, E. (2003). Plasticity of morphological and physiological traits in response to diff erent levels of irradiance in seedlings of silver fir (Abies alba Mill). Trees, 17(5), 431-441. doi: 10.1007/s00468-003-0257-z.
Rugayah., Retnowati, A., Windadri, F. I., & Hidayat, A. (2004). Pengumpulan data taksonomi. In: Rugayah, E. A. Widjaja, & Praptiwi (Eds.), Pedoman pengumpulan data keanekaragaman flora (pp. 5-42). Bogor, Indonesia, Pusat Penelitian Biologi - LIPI.
Sultan, S. E. (1995). Phenotypic plasticity and plant adaptation. Acta Botanica Neerlandica, 44(4), 363-383. doi: 10.1111/j.1438-8677.1995.tb00793.x.
Sari, R., Ruspandi., & Ariati, S. R. (2010). An alphabetical list of plant species cultivated in the Bogor Botanic Gardens. Jakarta: LIPI Press.
Shopee. (2020). Amydrium zippelianum (2020, February 26). Retrieved from https://shopee.co.id/Amydrium-Zippelianum--i.91301498.6313649269.
Steenis-Kruseman, M. J. V. (1950). Malaysian plant collectors and collections. Flora Malesiana, 1(1), 1-639.
Steve. (2020). Amydrium zippelianum (2020, February 27). Retrieved from https://stevesleaves.com/product/amydrium-zippelianum.
Takeuchi, W. (1999a). Botanical results from the 1995 Bismarck-Ramu expedition in Papua New Guinea. SIDA, Contributions to Botany, 18(3), 751-782.
Takeuchi, W. (1999b). New plants from Crater Mt., Papua New Guinea, and an annotated checklist of the species. SIDA, Contributions to Botany, 18(4), 941-986.
Tokopedia. (2020). Amydrium zippelianum (2020, February 26). Retrieved from https://www.tokopedia.com/plantariumid/amydrium-zippelianum.
Widyatmoko, D., Suryana, N., Suhatman, A., & Rustandi, B. (2010). List of living plants collection cultivated in Cibodas Botanic Gardens. Cianjur: Cibodas Botanic Gardens, the Indonesian Institute of Sciences.
Yuzammi. (2018). The diversity of aroids (Araceae) in Bogor Botanic Gardens, Indonesia: collection, conservation an utilization. Biodiversitas, 19(1), 140-152. doi: 10.13057/biodiv/d190121.
DOI: https://doi.org/10.15408/kauniyah.v14i1.15442 Abstract - 0 PDF - 0
Refbacks
- There are currently no refbacks.
This work is licensed under a CC-BY- SA.
Indexed By:
  Â