PLEISTOCENE PALYNOLOGY OF EAST JAVA
DOI:
https://doi.org/10.29017/SCOG.29.3.1027Keywords:
Pleistocene, Palynology, East JavaAbstract
This study is a part of geological investigation on Pleistocene sediment in East Java in order to evaluate hydrocarbon potential within this sediment of this area. The area of study is located in the on-shore East Java (Figure 1). It is financially supported by the oil company as this is commercial work done by LEMIGAS Exploration Department. Therefore, data used in this paper will be incompletely presented as they are confidential. The name of the studied wells and their precise locations are hided in this paper. Data used in this study derives from three wells namely R, S and T. Three different disciplines are applied in this study including palynology, micropaleontology and nannoplankton analyses which are useful for crosschecking purposes. Apparently, the integration of these analyses gains accurate interpretation of stratigraphy and depositional environment. The area of study is in East Java Basin which can be classified as a classical back-arc basin. During Pleistocene, the area of study was marked by regional uplift and the cessation of open marine sedimentation (LEMIGAS, 2005). Therefore Pleistocene age was dominated by non-marine deposition. Generally, this type of sediment is separated from the underlying layer by an unconformity (LEMIGAS, 2005). Most Pleistocene sediment consists of volcanoclastic as a result of volcanic activity which related to uplifting period. It is possible that volcanic activity was responsible for the burning of grass as indicated by the occurrence of charred Gramineae cuticles. The previous investigations on Pleistocene sediment showed the domination of grass pollen of Monoporites annulatus which suggested the expansion of dry climate during Pleistocene glacial maxima. The pollen diagram from Lombok Ridge produced by van der Kaas (1991a) proves the domination of Gramineae pollen during Pleistocene (Figure 2). The period of dry climate (glacial climate) is characterised by abundant Gramineae pollen, whilst the period of wetter climate (interglacial climate) is indicated by an increase of coastal and mangrove palynomorphs, but greatly reduced frequencies of Graminaae pollen (Morley, 2000). In addition, Rahardjo et al. (1994) referred to the high abundance of Monoporites annulatus to propose Pleistocene pollen zone of M. annulatus (Figure 3).References
Billman, H., Hottinger, L. and Oesterle, H. 1980.
Neogene to Recent Rotaliid Foraminifera from the
Indopacific Ocean; their Canal System, their
Classification and their Stratigraphic Use.
Schweizerische Palaontologische Abhandlungen, vol. 101, pp. 71-112.
Blow, W.H., 1969. Late Middle Eocene to Recent Planktonic Foraminifera Biostratigraphy. In
Proc. 1st Int. Conf. Plank. Microfossils. pp. 191-
Ingle, J. C. Jr., 1980. Cenozoic Paleobathymetri
and Depositional History of Selected Sequences
within the Southern California Continental Borderland. Cushman Foundation Special Publication, vol. 19, Memorial to Orville, L. Bandy,
pp. 163 - 195.
Kaas, W. A. van, 1991a. Palynology of Eastern
Indonesian Marine Piston-Cores: A Late Quaternary Vegetational and Climatic History for Australia. Palaeogeography, Palaeoclimatology,
Palaeoecology, 85, pp. 239 – 302.
LEMIGAS, 2005. Unpublished Service Reports.
Martini, E., 1971. Standard Tertiary and Quaternary Calcareous Nannoplankton Zonation in
Farinacci, A. (Ed), Proc. 2nd Plank. Conf. Roma,
pp. 739-784. Edizioni Tecnoschienza, Roma.
Morley, R. J., 1977. Floral Zones Applicable to
Neogene of Eastern Kalimantan. Unpublished
Report. pp. 1-5
Morley, R. J., 2000. Origin and Evolution of
Tropical Rain Forests. Wiley, London.
Morley, R. J., Pribatini, H and Restrepo-Pace, P.,
Unravelling the Tectonically Controlled
Stratigraphy of the West Natuna Basin by Mean
of Paleo-Derived Mid Tertiary Climate Changes.
Proceeding Indonesian Petroleum Association,
th Annual Convention and Exhibition, Jakarta.
Rahardjo, A. T., Polhaupessy, A. A., Wiyono, S.,
Nugrahaningsih, L. and Lelono, E. B., 1994. Zonasi
Polen Tersier Pulau Jawa. Proc. IAGI, 23rd Annual Convention.
Tipsword, H. L., Setzer, F.M. and SMITH, F.M.
Jr., 1966. Interpretation of Depositional Environment in Gulf Coast Petroleum Exploration from
Paleoecology and Related Stratigraphy. Trans.
Gulf Coast Ass. Geol. Soc. Vol. XVI. PP. 119-
