This is a preview of subscription content, log in via an institution to check access.
Literaturverzeichnis
Bemmelen, RW van (1949): Charles Edgar Stehn (1884–1945)
Nécrologie (mit Schriftenverzeichnis bis 1940), Bull. Volcanol. II, VIII, 133–137, Napoli.
Reck, H. (1931/1932): Ein Rückblick auf den Ausbruch des Krakatau von 1928–1930, Z. Vulkanologie, 14, 118–134, Berlin.
Self, S. & M. R. Rampino (1981): The 1883 Eruption of Krakatau, Nature 2921, 699–704, London.
Simkins, T. & R. S. Fiske (1983): Krakatau 1883
The Volcanic Eruption and its effects, 464 S., Smithonian Inst. Press, Washington D. C.
Stehn, Ch. E. (1929): The Geology and Volcanism of the Krakatau Group, Proceedings Fourth Pacific Science Congress, 1 – 55, Batavia.
Ds. (1933): Fünfzig Jahre Krakatau, Die Umschau, 37, 34, 659–663, Frankfurt-Ds. (o. J.): „Vulkane, Ihr Aufbau und ihre Tätigkeit, Maßnahmen zum Schutze der Bevölkerung in Vulkangebieten mit besonderer Berücksichtigung von Insulinde; Vorträge, gehalten in den Internierungslagern Alas Valley (Sumatra) und Premnagar (Britisch Indien)“, Manuskript.
Stehn, Ch. E. & E. Reiner (1953): Morphologische Untersuchungen am Südabfall des Himalaya bei Dehra Dun, Die Erde, 45–59, Berlin.
Sudradjat, A. (1982): The Morphological Development of Anak Krakatau Volcano, Sunda Strait, Geologi Indonesia, 9,1, 1–11.
Bard E, Hamelin B, Fairbanks RG, Zindler A (1990) Calibration of the14C time-scale over the past 30 000 years using mass spectrometric U-Th ages from Barbados corals. Nature 345:405–410
Barnola JM, Raynaud D, Korotkevich Y, Lorius C (1987) Vostok ice core provides 160 000-year record of atmospheric CO2. Nature 329:408–414
Berger A, Loutre MF (1991) Insolation values for the climate of the last 10 million years. Quaternary Sci Rev 10:297–317
Berger A, Imbrie J, Hays J, Kukla G, Saltzman B (eds) (1984) Milankovitch and climate (two volumes). Reidel, Dordrecht
Berger A, Schneider S, Duplessy JC (eds) (1989) Climate and geo-sciences. Kluwer, Dordrecht
Berger A, Tricot C, Galleé H, Fichefet T, Loutre MF (1994) The last two glacial-interglacial cycles simulated by the LLN Model. In: Duplessy J-C, Spyridakis M-T (eds) Long-term climatic variations. Springer, Berlin Heidelberg New York, pp 411–444
Berger WH (1981) Paleoceanography: the deep-sea record. In: Emiliani C (ed) The sea, vol. 7. Wiley, New York, pp 1437–1519
Berger WH (1982) Increase of carbon dioxide in the atmosphere during deglaciation: the coral reef hypothesis. Naturwissenschaften 69:87–88
Berger WH, Gardner JV (1975) On the determination of Pleistocene temperatures from planktonic foraminifera. J Foram Res 5 (2): 102–113
Berger WH, Herguera, JC (1992) Reading the sedimentary record of the ocean’s productivity. In: Falkowski PG, Woodhead AD (eds) Primary productivity and biogeochemical cycles in the sea. Plenum Press, New York, pp 455–486
Berger WH, Jansen E (1994) Mid-Pleistocene climate shift: the Nansen connection. In: Johanessen OM, Muench RD, Overland JE (eds) The polar oceans and their role in shaping the global environment: The Nansen centennial volume. AGU Geophys Monogr 84:295–311
Berger WH, Jansen E (1995) Younger Dryas episode: ice collapse and superfjord heat pump. In: Troelstra SR, Hinte JE van, Ganssen GM (eds) The Younger Dryas, North Holland, Amsterdam, pp 61–105
Berger WH, Keir RS (1984) Glacial-Holocene changes in atmospheric CO2 and the deep-sea record. In: Hansen JE, Takahashi T (eds) Climate processes and climate sensitivity. Geophys Monogr 29, Maurice Ewing Series, vol. 5, American Geophys Union, Washington, D.C., pp 337–351
Berger WH, Spitzy A (1988) History of atmospheric CO2: constraints from the deep-sea record. Paleoceanography 3:401–411
Berger WH, Wefer G (1992) Klimageschichte aus Tiefseesedimenten — Neues vom Ontong-Java-Plateau (Westpazifik). Naturwissenschaften 79:541–550
Berger WH, Burke S, Vincent E (1987) Glacial-Holocene transition: climate pulsations and sporadic shutdown of NADW production. In: Berger WH, Labeyrie LD (eds) Abrupt climatic changes: evidence and implications. Reidel, Dordrecht, pp 279–297
Berger WH, Smetacek VS, Wefer G (eds) (1989) Productivity of the ocean: present and past. Dahlem Konferenzen. Wiley, Chichester, 470 pp
Berger WH, Bickert T, Schmidt H, Wefer G (1993a) Quaternary oxygen isotope record of pelagic foraminifers: site 806, Ontong Java plateau. Proc Ocean Drilling Program Sci Results 130:381–395
Berger WH, Bickert T, Schmidt H, Wefer G, Yasuda M (1993b) Quaternary oxygen isotope record of pelagic foraminifers: site 805, Ontong Java plateau. Proc Ocean Drilling Program Sci Results 130:363–379
Berger WH, Yasuda M, Bickert T, Wefer G, Takayama T (1994) Quaternary time scale for the Ontong Java plateau: Milankovitch template for Ocean Drilling Program site 806. Geology 22:463–467
Berger WH, Yasuda M, Bickert T, Wefer G (1995) Brunhes-Matuyama boundary: 790 k.y. date consistent with ODP Leg 130 oxygen isotope records based on fit to Milankovitch template. Geophys Res Lett 22:1525–1528
Bickert T, Berger WH, Burke S, Schmidt H, Wefer G (1993) Late Quaternary stable isotope record of benthic foraminifers: sites 805 and 806, Ontong Java plateau. Proc Ocean Drilling Program Sci Results 130:411–420
Birchfield GE (1977) A study of the stability of a model continental ice sheet subject to periodic variations in heat input. J Geophys Res 82:4909–4913
Birchfield GE, Ghil M (1993) Climate evolution in the Pliocene and Pleistocene from marine-sediment records and simulations: internal variability versus orbital forcing. J Geophys Res 98 (10): 385–399
Birchfield GE, Grumbine RW (1985) “Slow” physics of large continental ice sheets and underlying bedrock and its relation to the Pleistocene ice ages. J Geophys Res 90 (11): 294–302
Boyle EA (1988a) The role of vertical chemical fractionation in controlling late Quaternary atmospheric carbon dioxide. J Geophys Res 93 (15): 701–714
Boyle EA (1988b) Vertical oceanic nutrient fractionation and glacial/interglacial CO2 cycle. Nature 331:55–56
Broecker WS (1982) Ocean chemistry during glacial time. Geochim Cosmochim Acta 46:1689–1705
Broecker WS, Denton GH (1989) The role of ocean-atmosphere reorganizations in glacial cycles. Geochim Cosmochim Acta 53:2465–2501
Broecker WS, Peng TH (1986) Carbon cycle: 1985, glacial to interglacial changes in the operation of the global carbon cycle. Radiocarbon 28 (2A): 309–327
Broecker WS, Peng TH (1987) The role of CaCO3 compensation in the glacial to interglacial CO2 change. Global Biogeochem Cycles 1:15–30
Broecker WS, Peng TH (1989) The cause of the glacial to interglacial atmospheric CO2 change: a polar alkalinity hypothesis. Global Biogeochem Cycles 3:215–239
Broecker WS, Van Donk J (1970) Insolation changes, ice volumes, and the O-18 record in deep-sea cores. Rev Geophys Space Phys 8:169–197
Calder N (1974) Arithmetic of ice ages. Nature 252:216–218
Cande SC, Kent DV (1995) Revised calibration of the geomagnetic polarity timescale for the Late Cretaceous and Cenozoic. J Geophys Res 100:6093–6095
Crowley T (1991) Past CO2 changes and tropical sea surface temperatures. Paleoceanography 6:387–395
Curry WB, Crowley TJ (1987) The δ13C of equatorial Atlantic surface waters: implications for ice age pCO2 levels. Paleoceanography 2:485–517
DeBlonde G, Peltier WR (1991) A one-dimensional model of continental ice volume fluctuations through the Pleistocene: implications for the origin of the mid-Pleistocene climate transition. J Clim 4:318–344
Denton GH, Hughes TJ (eds) (1981) The last great ice sheets. Wiley, New York
Denton GH, Hughes TJ (1983) Milankovitch theory of ice ages: hypothesis of ice-sheet linkage between regional insolation and global climate. Quaternary Res 20:125–144
Duplessy JC, Labeyrie LD (1994) Surface and deep water circulation changes during the last climatic cycle. In: Duplessy J-C, Spyridakis M-T (eds) Long-term climatic variations. Springer, Berlin Heidelberg New York, pp 277–298
Emerson S, Archer D (1992) Glacial carbonate dissolution and atmospheric pCO2; a view from the ocean bottom. Paleoceanography 7:319–331
Emiliani C (1955) Pleistocene temperatures. J Geol 63:538–578
Emiliani C, Geiss J (1958) On glaciations and their causes. Geol Rundsch 46:576–601
Fairbanks RG (1989) A 17 000-year long glacio-eustatic sea level record: influence of glacial melting rates on the Younger Dryas event and deep-ocean circulation. Nature 342:637–643
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Seibold, I., Seibold, E. Charles Edgar Stehn: Der Ausbruch des Anak Krakatau im Mai 1933. Geol Rundsch 85, 615–618 (1996). https://doi.org/10.1007/BF02369015
Issue Date:
DOI: https://doi.org/10.1007/BF02369015