Late Holocene Pollen Record of Environmental Changes in Karimata Strait, Sunda Shelf Region

Eko Yulianto, Woro Sri Sukapti, Kresna Tri Dewi


DOI: 10.17014/ijog.6.1.41-55

Pollen analysis has been conducted on a 90 cm gravity core taken from the Karimata Strait to reveal pollen facies in marine sediment and Late Holocene environmental changes in the central Sunda Shelf region. The core site is at 32 m water depth and located about 170 km northwest of Bangka Island, Indonesia. Ten samples were collected at 10 cm intervals through the core. The total number of pollen grains counted in the samples varies between very low (<50 grains) to abundant (>200 grains). High frequencies (50 - 70%) of mangrove pollen are found at 90 to 40 cm indicating that pollen facies in offshore marine sediment may be comparable with those in mangrove forest floor sediment. The core site has been in a neritic environment since its early deposition ca. 1,800 yr B.P. (~150 A.D.) when mangroves vastly grew on the tidal flats of the surrounding islands and they persisted to ca. 700 yr B.P. (~1,250 A.D.). In the middle of this period, a catastrophic event speculatively due to the 535 A.D. Krakatau eruption might have responsible for the decrease of mangroves and the disappearance of benthic foraminifers. The deposition of silicious materials (tephra) due to this eruption might have provided an opportunity for benthic foraminifers to increase their population subsequently. From ca. 700 yr B.P. (~1,250 A.D.) mangroves declined, as indicated by lower frequencies of pollen grain in samples from 30 cm deep upward. It occurred simultaneously with the deposition of coarser sediment and the increase of benthic foraminifer abundance. Interplay of anthropogenic activities, strengthening ENSO cycle, and lowering erosion base level might have been responsible for these environmental changes.


pollen; mangroves; Karimata Strait; Sundaland; Sunda Shelf; environmental changes; Late Holocene


Bird, M.I., Taylor, D., Hunt, C. 2005. Palaeoenvironments of insular Southeast Asia during the Last Glacial Period: a savanna corridor in Sundaland ? Quaternary Science Reviews 24, 2228–2242.

Biswas, B., 1973. Quaternary Changes in Sea-Level in the South China Sea. Geological Society of Malaysia Bulletin 6, 229-256.

Caratini and Tissot, 1988. Paleogeographycal evolution of Mahakam Delta in Kalimantan, Indonesia during the quarternary and Late Pliocene. Review of Palaeobotany and Palynology 55, 217.

De Deckker, P., Tapper, N.J., Kaars, S.V. 2002. The status of the Indo-Pacific Warm Pool and adjacent land at the Last Glacial Maximum. Global and Planetary Change 35, 25–35.

Dewi, K.T., 2014 Ostracoda from Subsurface Sediments of Karimata Strait as Indicator of Environmental Changes. Bulletin of the Marine Geology, 29 (1), p.1-10. DOI: 10.32693/bomg.29.1.2014.60

Ding, X., Bassinot, F., Guichard, F., Fang, NQ. 2013. Indonesian Throughflow and monsoon activity records in the Timor Sea since the last glacial maximum. Marine Micropaleontology 101, 115–126.

Ellison, R.L., Peck, G.E. 1983. Foraminiferal recoloniza- tion on the continental shelf. J. Foraminifer. Res. 13, 231-241.

Ewusie, J.Y. 1990. Ekologi Tropika. Bandung, Penerbit ITB, 251 pp.

Finger, K.L., Lipps, J.H., 1981. Foraminiferal decimation and repopulation in an active volcanic caldera, Deception Island, Antarctica. Micropaleontology 27, 111-139.

Flenley, J.R. 1985. Relevance of Quaternary palynology to geomorphology in the tropics and subtropics. In: Douglas, I., Spencer, T. (Eds.), Environmental Change and Tro- pical Geomorphology. Allen and Unwin, London, pp. 153–164.

Flenley, J.R. 1996. Problems of the Quaternary on mountains of the Sunda–Sahul Region. Quaternary Science Review 15, 549–555.

Flenley, J.R. 1998. Tropical forest under the climate of the last 30,000 years. Climate Change 39, 177–197.

Gathorne-Hardy F.J., Syaukani, Davies R.G., Eggleton P., Jones D.T. 2002. Quaternary rainforest refugia in south-east Asia: Using termites (Isoptera) as indicators. Biol J Linn Soc Lond 75, 453–466.

Gilman, E.L., Ellison, J., Duke, N.C., Field, C. 2008. Threats to mangroves from climate change and adaptation options: A review. Aquatic Botany 89, 237–250.

Giri, C., Ochieng, E., Tieszen, L.L., Zhu, Z., Singh, A., Loveland, T., Masek, J., Duke, N. 2011. Status and distribution of mangrove forests of the world using earth observation satellite data. Global Ecology and Biogeography 20, 154–159.

Haberle, S.G., Hope, G.S., Kaars, S.V. 2001. Biomass burning in Indonesia and Papua New Guinea: natural and human induced fire events in the fossil record. Palaeogeography, Palaeoclimatology, Palaeoecology 171, 259-268.

Hardjawidjaksana, K., 1990. Laporan Penyelidikan Geologi dan Geofisika Kelautan Lembar Peta 1410, Karimunjawa. Pusat Pengembangan Geologi Kelautan, Bandung, 40 pp.

Herbeck, L., Kwiatkowski, C., Mohtadi, M., and Jennerjahn, T. 2014. Late Holocene carbon and nitrogen input into the Java Sea recorded in sediment cores off rivers from Java and Kalimantan. Geophysical Research Abstracts, 16, EGU2014-11418, EGU General Assembly 2014.

Hess, S. and Kuhnt, W., 1996. Deep-sea benthic foraminiferal re- colonization of the 1991 Mt. Pinatubo ash layer in the South China Sea. Mar. Micropaleontol. 28, 171-197.

Hess, S., Kuhnt, W., Hill, S., Kaminski, M.A., Holbourn, A., De Leon, M., 2002. Monitoring the recolonisation of the Mt. Pinatubo 1991 ash layer by benthic foraminifera. Mar. Micropaleontol. 43, 119-142.

Hope, G.S. and Tulip, J., 1994. A long vegetation history from lowland Iran Jaya, Indonesia. Paleogeography Paleoclimatology Palaeoecology, 109, p.385-398. DOI: 10.1016/0031-0182(94)90187-2

Hu, J. Y., Kawamura, H., Tang, D.L. 2003. Tidal front around the Hainan Island, northwest of the South China Sea. Journal of Geophysical Research, 108 (C11), 3342pp. DOI:10.1029/2003jc001883

Horton, B.P., Gibbard, P. L., Milne, G. M., Morley, R. J., Purintavaragul, C. 2005. Holocene sea levels and palaeoenvironments, Malay-Thai Peninsula, southeast Asia. The Holocene 15 (8), 1199-1213.

Kaminski, M.A., Gradstein, F.M., Berggren, W.A., Geroch, S., Beckmann, J.P., 1988. Flysch-type agglutinated foramini- feral assemblages from Trinidad : Taxonomy, Stratigraphy and Paleobathymetry. In : Gradstein, F.M., Rogl,F. (Eds.), Proceedings of the Second Workshop on Aggluti- nated Foraminifera, Vienna 1986. Abh. Geol. Bundesanst. 41, 155-228.

Kaminski, M.A, Grassle, J.F., Whitlatch, R.B., 1988. Life history and recolonization among agglutinated foraminifera in the Panama Basin. In: Gradstein, F.M., Rogl, F. (Eds.), Proceedings of the Second Workshop on Agglutinated For- aminifera, Vienna 1986. Abh. Geol. Bundesanst. 41, 229-244.

Kaars, S.V. 2001. Polen distribution in marine sediment from south- eastern part of Indonesian waters. Journal of Paleogeography, Paleoclimatology, Paleoecology 171, 341-361.

Long, J.B. and Giri, C. 2011. Mapping the Mangrove Forests Using Landsat Imagery. Sensors 11, 2972-2981.

Lorente, M.A. 1987. Palynology and palynofacies of the Upper Tertiary in Venezuela. Berlin, J. Cramer, 222 pp.

Morley R.J., and Flenley, J.R. 1987. Late Cenozoic vegetational and environmental changes in the Malay Archipelago. Oxford Monogr Biogeogr 4, 50–59.

Morley R.J. 1998. Biogeography and Geological Evolution of SE Asia, eds Hall R, Holloway JD (Backhuys, Leiden, The Netherlands), 211–234.

Morley R.J. 2000. Origin and Evolution of Tropical Rain Forests. Wiley, Chichester, UK.

Moy, C.M., Seltzer, G.O., Rodbell, D.T., Anderson, D.M. 2002. Variability of El Niño/Southern Oscillation activity at millennial timescales during the Holocene epoch. Nature 420,162-165.

Nathalie Dubois, N., Oppo, D.W., Galy, V.V., Mohtadi, M., Kaars, S.V., Tierney, J.E., Rosenthal, Y., Eglinton, T.I., Lückge, A., Linsley, B.K. 2014. Indonesian vegetation response to changes in rainfall seasonality over the past 25,000 years. Nature Geoscience Letter, June, 1-5.

Newsome, J. and Flenley, J.R. 1988. Late Quaternary vegetational history of the central highlands of Sumatea.II. Palaeopalynology and vegetational history. Journal of Biogeography 1, 555–578.

Oo, N.W. 2004. Changes in Habitat Conditions and Conservation of Mangrove Ecosystem in Myanmar: A Case Study of Pyindaye Forest Reserve, Ayeyarwady Delta. Status Report for MAB Young Scientist Award 2004, 14 pp.

Oppenheimer, C. 2011. Eruptions that Shook the World. Cambridge Univ. Press, 406 pp.

Pararas-Carayannis, G. 2003. Near and far-field effects of tsunamis generated by the paroxysmal eruptions, explosions, caldera collapses and massive slope failures of the Krakatau volcano in Indonesia on august 26-27, 1883. Science of Tsunami Hazards 21 (4), 191-221.

Parham, PR., Saito, Y., Sapon, N., Suriadi, R., Mohtar, N.A. 2014. Evidence for ca. 7-ka maximum Holocene transgression on the Peninsular Malaysia east coast. Journal of Quaternary Science 29(5) 414–422.

Passeri, D. L., Hagen, S. C., Medeiros, S. C., Bilskie, M. V., Alizad, K., Wang, D. 2015. The dynamic effects of sea level rise on low-gradient coastal landscapes: A review. Earth’s Future 3, 1-23.

Raes, N., Cannon, C.H., Hijmans, R.J., Piessense, T., Saw, L.G., van Welzena, P.C, and J. W. Ferry Slik, J.W. 2014. Historical distribution of Sundaland’s Dipterocarp rainforests at Quaternary glacial maxima. PNAS 111(47),16790- 16795

Reeves, J.M., Barrows, T.T., Cohen, T.J., Kiem, A.S., Bostock, H.C., Fitzsimmons, K.E., Jansen, J.D., Kemp, J., Krause, C., Petherick, L., Phipps, S.J., OZ-INTIMATE Members. 2013. Climate variability over the last 35,000 years recorded in marine and terrestrial archives in the Australian region: an OZ-INTIMATE compilation. Quaternary Science Reviews 74, 21-34.

Russell, J.M., Vogel, H., Konecky, B.L., Bijaksana, B., Huang, Y., Melles, M., Wattrus, N., Costa, K., King, J.W. 2014. Glacial forcing of central Indonesian hydroclimate since 60,000 y B.P. Proc. Natl. Acad. Sci. USA. 2014 Apr 8; 111(14): 5100–5105. doi: 10.1073/pnas.1402373111.

Sathiamurthy, E dan Voris, H.K., 2006. Maps of Holocene Sea Level Transgression and Submerged Lakes on the Sunda Shelf. The Natural History Journal of Chulalongkorn University, Supplement 2, 1-44.

Schafer, C.T. 1983. Foraminiferal colonization of an offshore dump site in Chaleur Bay, New Brunswick, Canada. J. Foraminifer. Res. 12, 317-326.

Simkin, T., and Fiske, R.S. 1983. Krakatau 1883: The volcanic eruption and its effects. Smithsonian Institution Press, Washington, D.C., 464 pp.

Siregar, D and Dewi K.T. 2014. Analisis pentarikhan radiokarbon untuk penentuan fluktuasi muka laut di sebelah utara pulau Bangka. Jurnal Geologi Kelautan 12(3), 135-144.

Slik, J.W.F., Aiba, S.I., Bastian, M., Brearley, F.Q., Cannona, C.H., Eichhorn, K.O.A., Fredriksson, G., Kartawinata, K., Laumonier, Y., Mansor, A, Marjokorpi, A., Meijaard, E., Morley, R.J., Nagamasu, H., Nilus, R., Nurtjahya, E., Payne, J., Permana, A., Poulsen, A.D., Raes, N., Riswani, S., Schaik, C.P.V., Sheil, D., Sidiyasa, K., Suzuki, E., Valkenburg, J.L.C.H.V., Webb, C.O., Wichu, S., Yoneda, T., Zakaria, R., Zweifel, N. 2011. Soils on exposed Sunda Shelf shaped biogeographic patterns in the equatorial forests of Southeast Asia. PNAS 108 (30), 12343–12347.

Soares, M.L.G. 2009. A Conceptual Model for the Responses of Mangrove Forests to Sea Level Rise. Journal of Coastal Research, Special Issue 56, 267 – 271.

Solihuddin, T. 2014. A Drowning Sunda Shelf Model during Last Glacial Maximum (LGM) and Holocene: A Review. Indonesian Journal on Geoscience 1(2), 99-107.

Southon, J., Mohtadi, M., de Pol-Holz, R. 2013. Planktonic Foram Dates from the Indonesian Arc: Marine 14C Reservoir Ages and a Mythical AD 535 Eruption of Krakatau. Radiocarbon 55(2–3), 1164–1172.

Stuijts, I., Newsome, J.C., Flenley, J.R., 1988. Evidence for late Quaternary vegetational change in the Sumatran and Javan Highlands. Review of Paleobotany and Palynology 55, 207–216.

Sun, X and Li, X. 1999. A pollen record of the last 37 ka in deep sea core 17940 from the northern slope of the South China Sea. Marine Geology 156, 227–244.

Sun, X., Li, X., Luo, Y., Chen, X. 2000. The vegetation and climate at the last glaciation on the emerged continental shelf of the South China Sea. Palaeogeography, Palaeoclimatology, Palaeoecology 160, 301–316.

Sun, X., Li, X., Luo, Y. 2002. Vegetation and climate on sundashelf of the south china sea during the last glaciation-pollen result. Acta Botanica Sinica, 44(6), 746-752.

Tjia, H.D., Fum, S., Kiooshi, K. 1977. Changes ofsea-level in the southern part of the South China Sea area during Quaternary times. United Nations, ESCAP-CCOP Tech Bull. 5, 11-36.

Tjia, H.D. 1983. Aspek geologi kuarter Asia Tenggara. Buletin Geologi, Jurusan Geologi-ITB 9, 1-21.

Tjia, H.D., 1996. Sea-level changes in the tectonically stable Malay-Thai Peninsula. QuaternaryInternational 31, 95-101.

Verstappen, H.Th. 1975. The effect of Quaternary tectonics and climates on erosion and sedimentation in Sumatra. Proceedings of the 4th Indonesian Petroleum Asso- ciation Annual Convention, Jakarta, Indonesia.

Walker, D. and Flenley, J.R., 1976. Late Quaternary vegetational history of the Enga District of upland Papua New Guinea. Philosophical Transactions of the Royal Society B 286, 265–344.

Wang, L., Sarnthein, M., Erlenkeuser, H., Grimalt, J., Grootes, P., Heilig, S., Ivanova, E., Keinast, M., Pelejero, C., Pflaumann, U., 1999. East Asian monsoon climate during the Late Pleistocene: High resolution sediment records from the South China Sea. Marine Geology 156, 245–284.

Wang, X.M., Sun, X.J., Wang, P.X., Stattegger, K. 2007. A high-resolution history of vegetation and climate history on Sunda Shelf since the last glaciation. Science China Series D-Earth Science 50(1), 75-80.

Wang, X.M., Sun, X.J., Wang, P.X., Stattegger, K. 2008. The records of coastline changes reflected by mangroves on the Sunda Shelf since the last 40 ka. Chinese Science Bulletin 53(13), 2069-2076.

Wang, X.M., Sun, X.J., Wang, P.X., Stattegger, K. 2009. Vegetation on the Sunda Shelf, South China Sea, during the Last Glacial Maximum. Palaeogeography, Palaeoclimatology, Palaeoecology 278, 88–97.

Wichmann A. 1918. Die Erdbeben des Indishen Archipels Bis Zum Johpe 1857, (in Dutch), Koninkl. Nederlandse Akad. Wetensch. Verh. 2nd Sect. 20, 193 pp.

Wurster, C.M., Bird, M.I., Bull, I.D., Frances, B., Charlotte, D., Jennifer A.J., Paz, V. 2010. Forest contraction in north equatorial Southeast Asia during the Last Glacial Period. Proceedings of the National Academy of Sciences of the United States of America, 107 (35), 15508-15511.

Yulianto, E., Tri Dewi, K., 2000. An evidence on narrowing and/or shallowing process of Makassar Strait. Proc. Sem. Indonesian Association of Geologist, 29th ann. Conv.

Yulianto, E., Sukapti, W. S., Rahardjo, A. T., Noeradi, D., Siregar, D. A., Suparan, P., & Hirakawa, K. 2004. Mangrove shoreline responses to Holocene environmental change, Makassar Strait, Indonesia. Review of Palaeobotany and Palynology 131 (3), 251-268.

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