Related material | See MS/516 to MS/523
Mandeville, Charles W., Ph.D. in Geological Oceanography, (awarded 5/21/95) University of Rhode Island, Graduate School of Oceanography, Narragansett, RI. Ph.D. Thesis Title: Submarine Pyroclastic Deposits: Implications for Pyroclastic Flow/Seawater Interactions and Volatile Discharges During Explosive Eruptions.
1. H. Sigurdsson, S. Carey, and C. Mandeville, Submarine Pyroclastic Flows of the 1883 Eruption of Krakatau Volcano, Research & Exploration, 7, 3, 310-327, 1991. 2. H. Sigurdsson, S.Carey, C. Mandeville, and S. Bronto, Pyroclastic flows of the 1883 Krakatau eruption EOS, 72, 36, 377, 380-381, 1991. 3. Mandeville, C. W., S. Carey, H. Sigurdsson, and J. King, Paleomagnetic Evidence for High Temperature Emplacement of the 1883 Subaqueous Pyroclastic Flows from Krakatau Volcano, Indonesia, J. Geophys. Res., 99, B5, 9487-9504, 1994.
4. Mandeville, C.W., S. Carey, and H. Sigurdsson, Sedimentology of the Krakatau 1883 submarine pyroclastic deposits, Bull. Volcanol. , 57, 512-529, 1996. 5. S. Carey, H. Sigurdsson, and C. Mandeville Pyroclastic deposits from flows and surges which traveled over the sea during the 1883 eruption of Krakatau volcano, Bull. Volcanol., 57, 493-511, 1996. 6. Mandeville, C.W., S. Carey, and H. Sigurdsson, Magma mixing, fractional crystallization, and volatile discharge during the 1883 eruption of Krakatau volcano, Indonesia, J. Volcanol. Geotherm Res., 74, 243-274, 1996. 7. Mandeville, C.W., A. Sasaki, G. Saito, K. Faure, R. King and E. Hauri, Open-System Degassing of Sulfur from Krakatau 1883 Magma, Earth and Planetary Science Letters, 160, 709-722. 8. S. Carey, H. Sigurdsson, C. Mandeville and S. Bronto, Volcanic hazards from pyroclastic flow discharge into the sea: Examples from the 1883 eruption of Krakatau, Indonesia, Geological Society of America Special Paper 345, 1-13, 2000. |