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All Journal AL KAUNIYAH Jurnal Berkala Ilmu Perpustakaan dan Informasi Journal of Tropical Biodiversity and Biotechnology REINWARDTIA Jurnal Biodjati Biosaintifika: Journal of Biology & Biology Education BIODIVERS - BIOTROP Scientific Magazine
I PUTU GEDE P. DAMAYANTO, I PUTU GEDE P.
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Agriculture, Biological Sciences & Forestry Biochemistry, Genetics & Molecular Biology Earth & Planetary Sciences Education Energy Environmental Science Immunology & microbiology Library & Information Science Materials Science & Nanotechnology

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A NEW SPECIES OF SCHIZOSTACHYUM (POACEAE: BAMBUSOIDEAE) FROM SUMBA ISLAND, INDONESIA DAMAYANTO, I PUTU GEDE P.; WIDJAJA, ELIZABETH A.
REINWARDTIA Vol 15, No 2 (2016): Vol.15 No.2
Publisher : Research Center for Biology

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (980.293 KB) | DOI: 10.14203/reinwardtia.v15i2.2946

Abstract

DAMAYANTO, I P. G. P. & WIDJAJA, E. A. 2016. A new species o Schizostachyum (Poaceae: Bambusoideae) from Sumba Island, Indonesia. Reinwardtia 15(2): 119 – 122. — Schizostachyum purpureum Damayanto & Widjaja is a new species from Sumba Island. Its description and illustration are presented.
Moringa oleifera Distribution in Java and Lesser Sunda Islands which is Attributed with Annual Rainfall Riastiwi, Indira; Damayanto, I Putu Gede P.; Ridwan, Ridwan; Handayani, Tri; Leksonowati, Aryani
Biosaintifika: Journal of Biology & Biology Education Vol 10, No 3 (2018): December 2018
Publisher : Department of Biology, Faculty of Mathematics and Sciences, Semarang State University . Ro

Show Abstract | Download Original | Original Source | Check in Google Scholar | Full PDF (1518.894 KB) | DOI: 10.15294/biosaintifika.v10i3.16115

Abstract

Moringa (Moringa oleifera Lam.) is a cultivated plant that reported have many benefits. Indonesian people have utilized moringa as a vegetable widely but it is never used as functional food. The distribution data of moringa in Indonesia is needed to develop moringa as an additional nutrient for functional food. The aim of the research was to draw up the distribution map of moringa in Java and Lesser Sunda Islands (LSI). In addition, this distribution map was also attributed with average annual rainfall to know the preference of moringa to life depend on the rainfall. This research has been conducted with four approaches: collecting specimens, direct observation of living plant, direct observation of specimen herbarium and literature study. All data were analyzed and arranged into the distribution maps of moringa in Java and the LSI attributed with annual rainfall. The result showed that moringa in entire Java mostly distributed in the area of Jakarta, West Java, Central Java, Yogyakarta, the north part of East Java, Madura and Kangean. While, moringa in LSI distributed in the southern part of Bali, Lombok, Sumbawa, Kupang, Flores, Sumba and Alor. The average annual rainfall of 1500-2000 mm is the most ideal condition for moringa plants to grow well. This map and information can be utilized by the stakeholders to determine the most appropriate place for moringa cultivation and their development as as a functional food.
Pemanfaatan portal basis data daring dalam validasi nama ilmiah jenis dan suku tumbuhan Damayanto, I Putu Gede P.; Fastanti, Fandri S.; Dalimunthe, Syadwina H.
Berkala Ilmu Perpustakaan dan Informasi Vol 16 No 2 (2020): Desember
Publisher : Perpustakaan Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/bip.v16i2.770

Abstract

Introduction. The study of the validation of scientific name validation at the species and family level is not widely known. This study aimed to provide information about the process of scientific name validation at the species and family level. Data Collection Method. Data were collected from online portal databases regarding the scientific name of plant species and family. Data was analyzed in a descriptive-narrative manner. Results and Discussions. Validation of the scientific name of species and family of plants can be conducted by searching the latest publications and using the online database portals i.e. IPNI, POWO, Tropicos, The Plant List, and GBIF. IPNI and The Plant List provide more information about species names compared to others. POWO and GBIF provide the status of the plant names and complemented with photographs of the plants, specimens, and distribution maps. Tropicos provides names of families according to the latest APG IV classification. Conclusions. Validation through the online portal database is the fastest way, however, validation through the publication of the latest plant taxonomy revision publications is the most recommended. Validation can be initiated by using the online database portals and then confirmed by tracking the latest revised plant taxonomy publications.
Notes on Amydrium zippelianum (Araceae): A Mesmerizing Species From East Malesia Damayanto, I Putu Gede P.; Sukmawati, Jalma Giring; Fefirenta, Agusdin Dharma; Erlinawati, Ina
Al-Kauniyah: Jurnal Biologi Vol 14, No 1 (2021): AL-KAUNIYAH JURNAL BIOLOGI
Publisher : Department of Biology, Faculty of Science and Technology, Syarif Hidayatullah State Islami

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15408/kauniyah.v14i1.15442

Abstract

AbstrakAmydrium 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). AbstractAmydrium 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).
Bamboo Utilization in the Peleng Island: Unveiling Local Knowledge and Diverse Applications Damayanto, I Putu Gede P.; Susila
BIODIVERS - BIOTROP Science Magazine Vol. 3 No. 1 (2024): BIODIVERS (BIOTROP Science Magazine)
Publisher : SEAMEO BIOTROP

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.56060/bdv.2024.3.1.2210

Abstract

Bamboo is a useful plant that holds significant cultural and economic importance, particularly in small Indonesian islands like Peleng Island in Central Sulawesi. This paper explores bamboo utilization on Peleng Island, aiming to broaden our understanding of bamboo use on small Indonesian islands and shed light on local wisdom in bamboo utilization. The research was conducted on Peleng Island in 2019. Information on bamboo utilization was gathered through in-depth interviews with residents. Bamboo materials were collected and sent to the Herbarium Bogoriense for identification. The data were analysed descriptively. There are six bamboo species utilized on Peleng Island, namely Bambusa vulgaris, Dendrocalamus asper, Gigantochloa atter, Neololeba atra, Schizostachyum brachycladum, and Schizostachyum lima. Bamboo on Peleng Island is used for building materials (roofs, pillars, and wall weaving), cooking traditional foods like nasi jaha and bambu suman, and for various other uses (ornamental plants, water containers, stairs, poles for picking fruits/cloves, pest traps, and fish trap).
Diversity Status of Bamboo in Sumatra: A Review Ritonga, Muhammad Azli; Syamsuardi, Syamsuardi; Nurainas, Nurainas; Damayanto, I Putu Gede P.
Journal of Tropical Biodiversity and Biotechnology Vol 9, No 4 (2024): December
Publisher : Universitas Gadjah Mada

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.22146/jtbb.90323

Abstract

Prior to initiating the conservation effort, conducting a bamboo species inventory in a specific area is crucial for obtaining information about the diversity status of the species in that region. Species inventorying is a fundamental step in ensuring that conservation efforts are targeted, effective, and based on sound scientific data. Regrettably, status of bamboo diversity in Sumatra is unavailable. Therefore, a study was conducted to determine the status of bamboo diversity in Sumatra. The study gathered data from literature review. It covered bamboo species, their statuses (endemic, introduced, ex-situ conservation, and threatened), and encompassed the main Sumatra Island and surrounding smaller islands. Species were re-identified and validated. Conservation status was assessed based on IUCN categories. There are 73 species of bamboo in the Sumatra region, representing 10 genera: Bambusa (11 species), Chimonobambusa (1 species), Dendrocalamus (10 species), Dinochloa (2 species), Gigantochloa (26 species), Melocanna (1 species), Neololeba (1 species), Phyllostachys (1 species), Schizostachyum (19 species), and Thyrsostachys (1 species). Eighteen species of Sumatran bamboo are known as introduced species, and 30 species are endemic to Sumatra, with the majority belonging to Gigantochloa (15 species). The least represented are Bambusa and Dinochloa, each having one endemic species. Bambusa heterostachya, Dendrocalamus giganteus, and Dendrocalamus membranaceus fall into the “least concern” (LC) category on the IUCN Red List, while the remaining 70 species have not been evaluated. A total of 44 species have been planted (conserved) in botanical gardens in Indonesia, while the remaining 29 species have not yet been conserved.
Dinochloa Scandens (Poaceae-Bambusoideae): Distribution, Habitat Preference, and Notes on Synonymy Damayanto, I Putu Gede P.; Dalimunthe, Syadwina H.; Megawati, Megawati
Jurnal Biodjati Vol 6 No 2 (2021): November
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/biodjati.v6i2.12485

Abstract

The distribution of Dinochloa scandens is unclear. World bamboo checklists suggest it is relatively widespread in Malesia. Here we clarify issues with herbarium specimen identification. Besides, a synonym name of D. scandens, namely D. macrocarpa collected from the Philippines, needs to be reviewed. The study aims to provide information on distribution and to review the synonym of D. scandens. The habitat preferences of D. scandens are also presented. We carried out targeted fieldwork at Gunung Halimun-Salak National Park in West Java in 2019 and extensive examination of herbarium specimens from Herbarium Bogoriense and online portals to accurately circumscribe this species. All data were analyzed descriptively. Distribution, altitude, and rainfall maps for D. scandens were produced with ArcGIS Pro. Our examination on the specimens suggests that D. scandens is indeed endemic to West Java and Banten Provinces in Indonesia. This bamboo species can be found in lowland to mountain forests with an altitude of 20-1400 m, in areas with annual rainfall between 3000-4000 mm. We support D. macrocarpa as an accepted name for a bamboo species from the Philippines and remove it from synonymy with D. scandens due to clear differences in the fruit compared to specimens of D. scandens across its range.
Endemic Bamboo (Poaceae, Bambusoideae) of the Lesser Sunda Islands Damayanto, I Putu Gede P.; Rustiami, Himmah; Miftahudin, Miftahudin; Chikmawati, Tatik
Jurnal Biodjati Vol 8 No 1 (2023): May
Publisher : UIN Sunan Gunung Djati Bandung

Show Abstract | Download Original | Original Source | Check in Google Scholar | DOI: 10.15575/biodjati.v8i1.25015

Abstract

More than 40 species of bamboo were known from the Lesser Sunda Islands (LSI), including several endemic species. Endemic species are often highly specialized, found in limited geographical areas, and vulnerable to extinction if their habitat is destroyed. This study aimed to provide an account of endemic bamboo species on the LSI. Fieldwork involved collecting samples of bamboo in the LSI. Herbarium specimens of bamboo deposited in the Herbarium Bogoriense (BO), collected from the LSI were examined, and endemic LSI species were recorded. The conservation status followed the International Union for Conservation of Nature (IUCN) red list categories and criteria. The conservation status of unassessed species was evaluated using IUCN red list categories and criteria. A spatial analysis was also conducted. Data were analyzed and presented descriptively. There are 10 endemic bamboo species in the LSI, namely Bambusa ooh Widjaja & Astuti from Bali (conservation status: endangered), Chloothamnus reholttumianus (Soenarko) Widjaja from Sumba (vulnerable), C. schmutzii (S.Dransf.) Widjaja from Sumbawa and Flores (near threatened), Dinochloa kostermansiana S.Dransf. from Sumba and Flores (near threatened), D. sepang Widjaja & Astuti from Bali (vulnerable), Fimbribambusa rifaiana Widjaja from Alor (near threatened), Gigantochloa aya Widjaja & Astuti from Bali (vulnerable), G. baliana Widjaja & Astuti from Bali (vulnerable), G. taluh Widjaja & Astuti from Bali (vulnerable), and Schizostachyum purpureum Damayanto & Widjaja from Sumba (data deficient). They can be found at an altitude of 20–1700 m in various habitats, including forests, bamboo forests, villages, botanical gardens, along a road, slopes, valleys, riverbanks, and around a lake.
Co-Authors Dalimunthe, Syadwina H. Elizabeth A. widjaja, Elizabeth A. Fastanti, Fandri S. Fefirenta, Agusdin Dharma Himmah Rustiami, Himmah Ina Erlinawati Leksonowati, Aryani Megawati - Miftahudin . Nurainas Nurainas Riastiwi, Indira Ridwan, Ridwan Ritonga, Muhammad Azli Sukmawati, Jalma Giring Susila Syamsuardi Syamsuardi TATIK CHIKMAWATI Tri Handayani