Peatlands that experience fire have the ability to restore their own environment through a process of vegetation succession. Areas with different frequency of fires have different vegetation dominance. Observations were made on areas that experienced a frequency of one, two, three and four times burned. The purpose of this study was to explain the differences in vegetation that make up areas with different fire frequencies. Vegetation growth rates of saplings and understorey were found in all burnt frequency areas, seedling growth rates were found in areas one and three times burned, pole growth rates were found in one burnt area and tree growth rates were found in areas one and two burns. The growth rate of saplings in the one-time burns frequency area was dominated by Sepongol vegetation, the two-burn frequency area was dominated by Bangun -anguns and the three and four-time burnt frequency areas were dominated by Melastoma malabatrihcum. Lower plants in areas with a frequency of one, two and three times burned were dominated by Asplenium longissimum and in areas with four times the frequency of burns was dominated by Athyrium esculentum.
Balch, J. K., Massad, T. J., Brando, P. M., Nepstad, D. C., and Curran, L. M. (2013). Effects of high-frequency understorey fires on woody plant regeneration in southeastern Amazonian forests. Philos. Trans. R. Soc. B Biol. Sci. doi:10.1098/rstb.2012.0157.
Belguidoum, A., Lograda, T., and Ramdani, M. (2021). Diversity and distribution of epiphytic lichens on Cedrus Atlantica and Quercus Faginea in mount babor forest, Algeria. Biodiversitas. doi:10.13057/biodiv/d220244.
Brown, L. E., Holden, J., Palmer, S. M., Johnston, K., Ramchunder, S. J., and Grayson, R. (2015). Effects of fire on the hydrology, biogeochemistry, and ecology of peatland river systems. Freshw. Sci. doi:10.1086/683426.
Dzwonko, Z., Loster, S., and Gawroński, S. (2018). Effects of fire severity on understory community regeneration and early succession after burning of moist pine forest. Tuexenia 38. doi:10.14471/2018.38.003.
Firdaus, L. N., Nursal, N., Wulandari, S., Syafi’I, W., and Fauziah, Y. (2017). Post-Fire Peat Land Understory Plant in Rimba Panjang, Sumatera, Indonesia. IOP Conf. Ser. Earth Environ. Sci. 97. doi:10.1088/1755-1315/97/1/012033.
Firdaus, R., and Nakagoshi, N. (2018). Tree species diversity and structural composition of tropical peat swamp forest : a study in Riau, Indonesia. Hikobia 17, 261–271.
Gandiwa, E. (2011). Effects of repeated burning on woody vegetation structure and composition in a semiarid southern African savanna. Int. J. Environ. Sci. 2, 458–471.
Gunawan, H., Afriyanti, D., Humam, I. A., Nugraha, F. C., Wetadewi, R. I., Surayah, L., et al. (2020). Peatland management without burning: Alternative restoration efforts in (re)wet peatlands. Journal Nat. Resour. Environ. Manag. 10, 668–678. doi:10.29244/jpsl.10.4.668-678.
Hoscilo, A., Page, S. E., Tansey, K. J., and Rieley, J. O. (2011). Effect of repeated fires on land-cover change on peatland in southern Central Kalimantan, Indonesia, from 1973 to 2005. Int. J. Wildl. Fire. doi:10.1071/WF10029.
Indratmoko, S., and Rizqihandari, N. (2019). Burn Area Detection Using Landsat 8 OLI TIRS. in IOP Conference Series: Earth and Environmental Science doi:10.1088/1755-1315/338/1/012035.
Ismail, M. H., Zaki, P. H., Fuad, M. F. A., and Jemali, N. J. N. (2017). Analysis of importance value index of unlogged and logged peat swamp forest in Nenasi Forest Reserve, Peninsular Malaysia. Bonorowo Wetl. doi:10.13057/bonorowo/w070203.
Jones, R., Chambers, J. C., Johnson, D. W., Blank, R. R., and Board, D. I. (2014). Effect of repeated burning on plant and soil carbon and nitrogen in cheatgrass (Bromus tectorum) dominated ecosystems. Plant Soil. doi:10.1007/s11104-014-2242-2.
Kanieski, M. R., Longhi, S. J., and Soares, P. R. C. (2018). “Methods for Biodiversity Assessment: Case Study in an Area of Atlantic Forest in Southern Brazil,” in Selected Studies in Biodiversity doi:10.5772/intechopen.71824.
Makumbe, P., Chikorowondo, G., Dzamara, P. C., Ndaimani, H., and Gandiwa, E. (2020). Effects of Fire Frequency on Woody Plant Composition and Functional Traits in a Wet Savanna Ecosystem. Int. J. Ecol. doi:10.1155/2020/1672306.
Malkisnon, D., Wittenberg, L., Beeri, O., and Barzilai, R. (2011). Effects of Repeated Fires on the Structure, Composition, and Dynamics of Mediterranean Maquis: Short- and Long-Term Perspectives. Ecosystems 14, 478–488. doi:10.1007/s10021-011-9424-z.
Masyithoh, G., Purnamasari, I., and Santosa, Y. (2020). Comparison of undergrowth diversity between post burned and unburned land in PT National Sago Prima, Riau Province. IOP Conf. Ser. Earth Environ. Sci. 504. doi:10.1088/1755-1315/504/1/012003.
Morgan, P., Moy, M., Droske, C. A., Lewis, S. A., Lentile, L. B., Robichaud, P. R., et al. (2015). Vegetation response to burn severity, native grass seeding, and salvage logging. Fire Ecol. 11, 31–58. doi:10.4996/fireecology.1102031.
Posa, M. R. C., Wijedasa, L. S., and Corlett, R. T. (2011). Biodiversity and conservation of tropical peat swamp forests. Bioscience. doi:10.1525/bio.2011.61.1.10.
Rezainy, A., Syaufina, L., and Sitanggang, I. S. (2020). Mapping of Risk Fire in Peat Land based on Hotspot Sequential Pattern Mining in District of Pulang Pisau, Kalimantan Tengah. Journal Nat. Resour. Environ. Manag. 10, 66–76. doi:10.29244/jpsl.10.1.66-76.
Rianawati, F., Jambi, P., Utara, S., and Basah, L. (2016). Pemetaan Daerah Rawan Kebakaran pada Lahan Basah Dikecamatan Gambut Provinsi Kalimantan Selatan. Semin. Nas. dan Gelar Prod., 71–80.
Saharjo, B. H., and Gago, C. (2011). Suksesi Alami Paska Kebakaran pada Hutan Sekunder di Desa Fatuquero, Kecamatan Railaco, Kabupaten Ermera-Timor Leste. 40–45. Available at: https://188.8.131.52/handle/123456789/54463.
Setiawan, Y., Hermawan, R., Arief, H., Effendi, H., Lubis, M. I., Permatasari, P. A., et al. (2016). Differences in canopy structure among major plant communities in the fragmented swamp forest of Southern Sumatra. Bioflux Society. 8, 135–147.
Silviana, S., Hero Saharjo, B., and Sutikno, S. (2019). Effect of wildfires on tropical peatland vegetation in Meranti Islands district, Riau province, Indonesia. Biodiversitas. doi:10.13057/biodiv/d201039.
Seorianegara, I., and Indrawan, A. (1998). Forest Ecology Indonesia. Forest Ecology Laboratory, Faculty of Forest, Bogor Agircultural University. Bogor: Bogor Agricultural University
Strand, E. K., Satterberg, K. L., Hudak, A. T., Byrne, J., Khalyani, A. H., and Smith, A. M. S. (2019). Does burn severity affect plant community diversity and composition in mixed conifer forests of the United States Intermountain West one decade post fire?. Fire Ecol. 15. doi:10.1186/s42408-019-0038-8.
Supriatna, J. (2018). Biodiversity Indexes: Value and Evaluation Purposes. in E3S Web of Conferences doi:10.1051/e3sconf/20184801001.
Yule, C. M. (2010). Loss of biodiversity and ecosystem functioning in Indo-Malayan peat swamp forests. Biodivers. Conserv. doi:10.1007/s10531-008-9510-5.
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