Implikasi Tsunami Krakatau 1883 Terhadap Penyebaran Foraminifera Bentonik Kecil Pada Titik U-06 dan U-07 Daerah Ujung Kulon, Provinsi Banten.
DAFTAR PUSTAKA
Atmawinata, S., Abidin, H.Z., 1991. Geologi Lembar Ujung Kulon, Jawa Barat.
Departemen Pertambangan dan Energi. Direktorat Jendral Geologi dan
Sumberdaya Mineral. Pusat Penelitian dan Pengembangan Geologi
Blong, R. J. 1984. Volcanic hazard: A sourcebook on the effects of eruptions
Academic Press Sydney
Boggs, S. Jr. 1992. Petrology of sedimentary rocks. New York: Macmillan
Publishing Company (pp 35-37)
Bryant, E,. 2008. Tsunami: The underrated hazard 2nd Edition, (UK: Praxis
Publishing Ltd.) 338 p
Carey S, Morelli D, Sigurdsson H, and Bronto S,. 2001. Tsunami deposits from
major explosive eruptions: An example from the 1883 eruption of Krakatau
Geology vol 29 (4) pp 347-350
Dawson, A G, Foster, I K L, Shi, S, Smith, D E and Long, D,. 1991, The
identification of tsunami deposits in coastal sediment sequences Science of
Tsunami Hazards vol 9 pp 73-82
Latter J. N., 1981, Tsunamis of volcanic origin: Summary of causes with
particular references to Krakatoa 1883 Bulletin of Volcanology vol 44 (3)
pp 467-490
Lowe, Donald R., 1982, Sediment gravity flows; II, Depositional models with
special reference to the deposits of high-density turbidity currents, Journal
of Sedimentary Research, v. 52, p. 279-297,(published online)
71
72
Maeno F and Imamura F., 2011, Tsunami generation by a rapid entrance of
pyroclastic flow into the sea during the 1883 Krakatau eruption Indonesia
Journal of Geophysical Research vol 116: B09205
Myles, D,. 1985. The great waves (New York: McGraw-Hill)
Nomanbhoy, N and Satake, K., 1995, Generation mechanism of tsunamis from the
1883 Krakatau eruption Geophysical Research Letters vol 22 pp 509 512
Ongkosongo, O S R., 1983, Coastal geomorphology of Cilegon
Labuhan West
Java with special emphasis on the remnants of the 1883 Krakatau tsunamic
activity Proc. Symp. on 100th Years Development of Krakatau and Its
Surroundings, August 23-27, 1983 Jakarta Indonesia pp 147-152
Pramana, B. S., 2011, Pemetaan Kerawanan Tsunami di Kecamatan Pelabuhan
Ratu Kabupaten Sukabumi. UPI, Bandung.
Prianggoprawiro, Harsono & Kapid Rubiyanto, 2000, Pengenalan Mikrofosil dan
Aplikasi Biostratigrafi. ITB, Bandung.
Reeckmann, A. and G. M. Friedman, 1982, Exploration for carbonate petroleum
reservoirs: John Wiley & Sons, New York, 213 p.
Self S and Rampino M R., 1981, The 1883 eruption of Krakatau Nature vol 294
pp 699-704
Selley, R.C. 1988. Applied Sedimentology. xii+446 pp. London: Academic Press.
T., Simkin and Fiske, R. S., 1983, Krakatau 1983 the volcanic eruption and its
effects. Washington D C: Smithsonian Instition Press (pp 307-308)
73
Tucker, M. E., and V. P. Wright, 1990, Carbonate Sedimentology : Blackwell,
482 p.
Van den Bergh, G D, Boer, W, De Haas, H, van Weering, Tj C E and van Wijhe,
R 2003 Shallow marine tsunami deposits in Teluk Banten (NW Java,
Indonesia) generated by the 1883 Krakatau eruption Marine Geology (Int.
Journal of Marine Geology, Geochemistry and Geophysics: Elsevier) pp 1333
Verbeek, R. D. M., 1884, The Krakatau eruption. Nature vol 30 (pp 10-15)
Walker, R.G and James, N.P., 1992, Facies Models : Response to Sea Level
Change, Geological Association of Canada.s
Winchester, S., 2003, Krakatoa: The day the world exploded: August 27, 1883 1st
Edition Harper Collins Pub. ISBN 0066212855 432p
Atmawinata, S., Abidin, H.Z., 1991. Geologi Lembar Ujung Kulon, Jawa Barat.
Departemen Pertambangan dan Energi. Direktorat Jendral Geologi dan
Sumberdaya Mineral. Pusat Penelitian dan Pengembangan Geologi
Blong, R. J. 1984. Volcanic hazard: A sourcebook on the effects of eruptions
Academic Press Sydney
Boggs, S. Jr. 1992. Petrology of sedimentary rocks. New York: Macmillan
Publishing Company (pp 35-37)
Bryant, E,. 2008. Tsunami: The underrated hazard 2nd Edition, (UK: Praxis
Publishing Ltd.) 338 p
Carey S, Morelli D, Sigurdsson H, and Bronto S,. 2001. Tsunami deposits from
major explosive eruptions: An example from the 1883 eruption of Krakatau
Geology vol 29 (4) pp 347-350
Dawson, A G, Foster, I K L, Shi, S, Smith, D E and Long, D,. 1991, The
identification of tsunami deposits in coastal sediment sequences Science of
Tsunami Hazards vol 9 pp 73-82
Latter J. N., 1981, Tsunamis of volcanic origin: Summary of causes with
particular references to Krakatoa 1883 Bulletin of Volcanology vol 44 (3)
pp 467-490
Lowe, Donald R., 1982, Sediment gravity flows; II, Depositional models with
special reference to the deposits of high-density turbidity currents, Journal
of Sedimentary Research, v. 52, p. 279-297,(published online)
71
72
Maeno F and Imamura F., 2011, Tsunami generation by a rapid entrance of
pyroclastic flow into the sea during the 1883 Krakatau eruption Indonesia
Journal of Geophysical Research vol 116: B09205
Myles, D,. 1985. The great waves (New York: McGraw-Hill)
Nomanbhoy, N and Satake, K., 1995, Generation mechanism of tsunamis from the
1883 Krakatau eruption Geophysical Research Letters vol 22 pp 509 512
Ongkosongo, O S R., 1983, Coastal geomorphology of Cilegon
Labuhan West
Java with special emphasis on the remnants of the 1883 Krakatau tsunamic
activity Proc. Symp. on 100th Years Development of Krakatau and Its
Surroundings, August 23-27, 1983 Jakarta Indonesia pp 147-152
Pramana, B. S., 2011, Pemetaan Kerawanan Tsunami di Kecamatan Pelabuhan
Ratu Kabupaten Sukabumi. UPI, Bandung.
Prianggoprawiro, Harsono & Kapid Rubiyanto, 2000, Pengenalan Mikrofosil dan
Aplikasi Biostratigrafi. ITB, Bandung.
Reeckmann, A. and G. M. Friedman, 1982, Exploration for carbonate petroleum
reservoirs: John Wiley & Sons, New York, 213 p.
Self S and Rampino M R., 1981, The 1883 eruption of Krakatau Nature vol 294
pp 699-704
Selley, R.C. 1988. Applied Sedimentology. xii+446 pp. London: Academic Press.
T., Simkin and Fiske, R. S., 1983, Krakatau 1983 the volcanic eruption and its
effects. Washington D C: Smithsonian Instition Press (pp 307-308)
73
Tucker, M. E., and V. P. Wright, 1990, Carbonate Sedimentology : Blackwell,
482 p.
Van den Bergh, G D, Boer, W, De Haas, H, van Weering, Tj C E and van Wijhe,
R 2003 Shallow marine tsunami deposits in Teluk Banten (NW Java,
Indonesia) generated by the 1883 Krakatau eruption Marine Geology (Int.
Journal of Marine Geology, Geochemistry and Geophysics: Elsevier) pp 1333
Verbeek, R. D. M., 1884, The Krakatau eruption. Nature vol 30 (pp 10-15)
Walker, R.G and James, N.P., 1992, Facies Models : Response to Sea Level
Change, Geological Association of Canada.s
Winchester, S., 2003, Krakatoa: The day the world exploded: August 27, 1883 1st
Edition Harper Collins Pub. ISBN 0066212855 432p