Conserving dipterocarps biodiversity in remnant forests of small islands in Batam Island, Indonesia

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ARIDA SUSILOWATI
KESUMA WIJAYA
MAWAZIN
HENTI HENDALASTUTI RACHMAT
YUNITA LISMAYATI
HERI KURNIAWAN
IDA MALLIA GINTING

Abstract

Abstract. Susilowati A, Wijaya K, Mawazin, Rachmat HH, Lismayati Y, Kurniawan H, Ginting IM. 2024. Conserving dipterocarps biodiversity in remnant forests of small islands in Batam Island, Indonesia. Biodiversitas 25: 726-733. The protected forest of Sei Harapan is a remnant forest in Batam Island, the Riau Islands Province, Indonesia and one of the keruing (Dipterocarpus spp.) habitats on Sumatra Island. Illegal logging for its wood and land degradation have significantly reduced the keruing population. The objective of this research was to assess the diversity of keruing species and floristic composition in the Sei Harapan Protected Forest. This study employed a vegetation analysis method using purposive sampling with plotted lines and the transect placement based on the keruing position. The research revealed more than 70 species, three of which were Dipterocarpaceae species, including Vatica pauciflora, Shorea curtisii, and Dipterocarpus rigidus. D. rigidus had the highest IVI at the sapling (52.80%) and pole (67.22%). However, D. rigidus ranked 13th in the seedling stage, with an IVI of 5.79%. The diversity index was high at the seedling stage (3.73), moderate at sapling (2.25), pole (2.76), and tree stage (2.89). The evenness index was high at all growth stages, with values of 0.94 (seedling), 0.98 (sapling), 0.91 (pole), and 0.81 (tree). The richness index at the seedling, pole, and tree stage were categorized as high, with values of 10.40, 5.39, and 7.09, respectively, whereas the richness index at the sapling stage was moderate at 3.51. The study finding pointed out that the existence of Sei Harapan remnant forest requires to be preserved considering its essential function for preserving high economic value tree species, especially Dipterocarp. The comprehensive conservation effort for dipterocarps species, is crucial considering the research findings revealed a problem of continuity of species regeneration and the emergence of new pioneer species as the consequence of anthropogenic disturbance.

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References
Arroyo-Rodr?guez V, R€os M, Escobar F, Melo FPL, Santos BA, Tabarelli M, Chazdon R. 2013. Plant b-diversity in fragmented rain forests: testing floristic homogenization and differentiation hypotheses. Journal of Ecology 101: 1449-1458.
Ashton PS. 1988. Dipterocarp biology as a window to the understanding of tropical forest structure. Ann Rev Ecol Syst 19 (1): 347-370. DOI: 10.1146/annurev.es.19.110188.002023
Badan Pusat Statistik Kota Batam. 2023. Batam Municipality in Figures 2023. CV Era Studio Grafika, Batam. Indonesia.
Barlow J., et al., 2016. Anthropogenic disturbance in tropical forests can double biodiversity loss from deforestation. Nature 535: 144-147.
Brearly FQ, Proctor J, Suriantata, Nagy L, Dalrymple G, Voysey BC. 2007. Blackwell Publishing Ltd Reproductive phenology over a 10-year period in a lowland evergreen rain forest of central Borneo. Journal of Ecology 95: 828-839.
Chiteculo V, Surovy P. 2018. Dynamic Patterns of Trees Species in Miombo Forest and Management Perspectives for Sustainable Production-Case Study in Huambo Province, Angola. Forests 9: 321. https://doi.org/10.3390/f9060321
Costa A, Heleno R, Dufrene Y, Huckle E, Gabriel R, Harrison X, Schabo DG, Farwig N, Kaiser-Bunbury CN. 2022. Seasonal variation in impact of non?native species on tropical seed dispersal networks. Functional Ecology 36: 2713-2726. 10.1111/1365-2435.14171.
Costa A, Heleno R, Dufrene Y, Huckle E, Gabriel R, Doudee D, Kaiser-Bunbury CN. 2022. Seed dispersal by frugivores from forest remnants promotes the regeneration of adjacent invaded forests in an oceanic island. Restor Ecol 30: e13654. https://doi.org/10.1111/rec.13654
Curtis JT, McIntosh RP. 1950. The interrelations of certain Analytical and synthetic phytosociological characters. Ecology 31: 434-455.
De Mazancourt C, Isbell F, Larocque A, Berendse F, De Luca E, Grace JB, Haegeman B, Wayne Polley H, Roscher C, Schmid B, Tilman D, van Ruijven J, Weigelt A, Wilsey BJ, Loreau M. 2013. Predicting ecosystem stability from community composition and biodiversity. Ecol Lett 16: 617-625.
Denny, Susilo A. 2019. Species composition in the habitat of dipterocarpus gracilis ulolanang kecubung nature reserve. IOP Conf Ser: Earth Environ Sci 391 (1): 012067. DOI: 10.1088/1755-1315/391/1/012067
Dewi LM, Supartini. 2017. Anatomical and chemical properties of keruing wood from Labanan Research Forest, East Kalimantan. J Ilmu Teknol Kayu Tropis 15 (2): 97-109. DOI: 10.51850/jitkt.v15i2.390
Fernández-Palacios JM, Kreft H, Irl SDH, Norder S, Ah-Peng C, Borges PAV, Burns KC, de Nascimento L, Meyer JY, Montes E, Drake DR. 2021. Scientists’ warning – The outstanding biodiversity of islands is in peril. Global Ecology and Conservation 31: e01847. https://doi.org/10.1016/j.gecco.2021.e01847.
Ghalandarayeshi S, Nord-Larsen T, Johannsen VK, Larsen JB. 2017. Spatial patterns of tree species in Suserup Skov-A semi-natural forest in Denmark. For Ecol Manag 406: 391-401.
Harrison RD, Nagamitsu T, Momose K, Inoue T. 2005. Flowering phenology and pollination of Dipterocarpus (Dipterocarpaceae) in Borneo. Malay Nat J 57 (1): 67-80.
Heriyanto NM, Bismark M. 2014. Sebaran dan Potensi Keruing (Dipterocarpus spp.) di Pulau Siberut, Sumatera Barat. Buletin Plasma Nutfah 20(2): 85-92.
Iku A, Itioka T, Yamada K, Shimizu-kaya U, Mohammad FB, Hosman MY, Bunyok A, Rachman MYA, Sakai S, Meleng P. 2017. Increased seed predation in the second fruiting event during an exceptional long period of community level masting in Borneo. Ecol Res 32 (4): 537- 545. DOI: 10.1007/s11284-017-1465-0
Kartawinata K. 1983. Jenis-jenis Keruing. Lembaga Biologi Nasional, LIPI, Bogor. [Indonesian]
Khan MA, Spicer RA, Spicer TEV, Roy K, Hazra P, Mahato S, Kumar S, Bera S. 2020. Dipterocarpus (Dipterocarpaceae) leaves from the K-Pg of India: A crateceous Gondawana presence of the Dipterocarpaceae. Plant Sys Evol 306 (90). DOI: 10.1007/s00606-020-01718-z
Kowark I, Lippe Mvd. 2017. Plant population success across urban ecosystems: A framework to inform biodiversity conservation in cities. J Appl Ecol 55: 2354-2361. DOI: 10.1111/1365-2664.13144.
Laurance WF, Nascimento HEM, Laurance SG, Andrade A, Ribeiro JELS, Giraldo JP, Lovejoy TE, Condit R, Chave J, Harms KE, D’Angelo S. 2006. Rapid decay of tree-community composition in Amazonian forest fragments. Proceedings of the National Academy of Sciences of the United States of America 103: 19010–19014.
Loreau M, De Mazancourt C. 2013. Biodiversity and ecosystem stability: a synthesis of underlying mechanisms. Ecol Lett 16: 106-115.
Margalef R. 1958. Information theory in ecology. Gen Syst 3: 36-71.
Meyer J, Laitame T, Gaertner JC. 2019. Short-term recovery of native vegetation and threatened species after restoration of a remnant forest in a small oceanic island of the South Pacific. Plant Ecology & Diversity 12: 75-85. DOI: 10.1080/17550874.2019.1584651.
Moragues E, Mayol J. in Pons EC, Clariso IE, Casademont MC, Arguimbau PFI. 2023. 2nd Botanical Conference in Menorca Proceedings and abstracts Islands and plants: preservation and understanding of lora on Mediterranean islands. Institut Menorquí d’Estudis : Consell Insular de Menorca, Espana.
O’Brien MJ, Philipson CD, Tay J, Hector A. 2013. The influence of variable rainfall frequency on germination and early growth of shadetolerant dipterocarp seedlings in Borneo. PLoS One 8 (7): e70287. DOI: 10.1371/journal.pone.0070287.
Odum EP. 1971. Fundamentals of ecology (3rd Edition). WB Soundress Co. 574 p.
Phillips EA. 1959. Methods of vegetation study. Henry Holt. & Co., Inc. New York.
Purwaningsih. 2004. Ecological distribution of Dipterocarpaceae species in Indonesia. Biodiversitas 5 (2): 89-95. DOI: 10.13057/biodiv/d050210
Rachmat HH, Fambayun RA, Yulita KS, Susilowati A. 2020. Ex-situ conservation and management of dipterocarps genetic resources through seedlings collections and nursery establishment. Biodiversitas 21 (2): 556-563. DOI: 10.13057/biodiv/d210217.
Rachmat HH, Subiakto A, Wijaya K, Susilowati A. 2018. Alarming call from Mursala Island, North Sumatra: The urgent task of conserving the previously reported extinct of Dipterocarpus cinereus. Biodiversitas 19 (2): 399-405. DOI: 10.13057/biodiv/d190206.
Robiyansyah I. 2017. Predicting Habitat Distribution Of Endemic And Critically Endangered Dipterocarpus Littoralis In Nusakambangan, Indonesia. Reinwardtia 16 (1): 11-18.
Romadini NP, Indrioko S, Widiyatno, Faridah WE. 2022. Regeneration failure and seedling growth of Dipterocarpus gracilis, a vulnerable dipterocarp in a tropical monsoon forest in Central Java, Indonesia. Biodiversitas 23 (9): 4928-4939. DOI: 10.13057/biodiv/d230963.
Rugayah, Yulita KS, Arifiani D, Rustiami H, Girmansyah D. 2017. Tumbuhan Langka Indonesia 50 Jenis Tumbuhan Terancam Punah. LIPI Press, Jakarta. [Indonesian]
Shivaprasad D, Kumar CNP, Somashekar RK, Nagaraja BC. 2017. Reproductive biology of Dipterocarpus indicus Bedd. an endangered species from Western Ghats, India. Proceedings of the International Academy of Ecology and Environmental Sciences 7 (4): 97-105.
Soga M, Kanno N, Yamaura Y, Koike S. 2013. Patch size determines the strength of edge effects on carabid beetle assemblages in urban remnant forests. J Insect Conserv 17: 421-428. DOI 10.1007/s10841-012-9524-x.
Solórzano-García B, Zubillaga D, Piñero D, Vázquez-Domínguez E. 2021. Conservation implications of living in forest remnants: Inbreeding and genetic structure of the northernmost mantled howler monkeys. Biotropica 53: 1163-1177. https://doi.org/10.1111/btp.12958.
Subiakto A, Rachmat HH, Wijaya K. 2016. Dipterocarps: Walk Through The Remnant Forest in Riau-Sumatera. FORDA Press, Bogor.
Subiakto A, Rachmat HH. 2015. Exploration, collection, and conservation of dipterocarps in Riau Islands. PROS SEM NAS MASY BIODIV INDON 1 (3): 428-433. DOI: 10.13057/psnmbi/m010308.
Susilowati A, Rachmat HH, Elfiati D, Hidayat A, Hadi AN, Zaitunah A, Nainggolan D, Ginting IM. 2021. Floristic composition and diversity at Keruing (Dipterocarpus spp.) habitat in Tangkahan, Gunung Leuser National Park, Indonesia. Biodiversitas 22 (10): 4448-4456. DOI: 10.13057/biodiv/d221038.
Susilowati A, Rachmat HH, Hidayat A, Elfiati D, Yulita KS, Ginting IM. 2020. Ex-situ conservation effort for Dipterocarpus spp through the seedling collection and nursery management. IOP Conf. Series: Earth and Environmental Science 782 (2021) 042028. doi:10.1088/1755-1315/782/4/042028.
Susilowati A, Rachmat HH, Yulita KS, Wijaya K. 2023. Floristic composition and structure of Eurycoma longifolia habitat in Muka Kuning Nature Tourism Park, Riau Islands, Indonesia. Biodiversitas, 24 (5): 2836-2842. DOI: 10.13057/biodiv/d240537.
Tilk M, Tullus T, Ots K. 2017. Effects of environmental factors on the species richness, composition and community horizontal structure of vascular plants in Scots pine forests on fixed sand dunes. Silva Fennica 51 (3): 1-18. DOI: 10.14214/sf.6986.
Thomas A, Baptiste A, Martyr-Koller R, Pringle P, Rhiney K. 2020. Climate Change and Small Island States Annual Review of Environment and Resources 45: 1-27.
Turkis S, Elmas E. 2014. Tree Species Diversity and Importance Value of Different Forest Communities in Yenice Forests. Fresenius Environmental Bulletin 27 (6): 4440-4447.
Wardhana HD, Mutaqqin T, Aryanti NA, Kurniawan I. 2022. Potential feeding plants of Javan Langur (Trachypithecus auratus) in the eastern slope of Biru Mountain, Batu City, East Java, Indonesia. Biodiversitas 23 (8): 4216-4222. DOI: 10.13057/biodiv/d230845.
Yuliastrin A. 2016. Threating Ecosystems Degradation of Protected Forest in Batam. Prosiding Seminar Nasional II Tahun 2016, Kerjasama Prodi Pendidikan Biologi FKIP dengan Pusat Studi Lingkungan dan Kependudukan (PSLK) Universitas Muhammadiyah Malang.

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