| Number | Title | Author |
|---|
| No.278 |
Research on geologic remote sensing system |
Tsu Hiroji (Ed.) |
| A spectral data base system for rocks and minerals |
Urai Minoru, Sato Isao, Ninomiya Yoshiki, and Tsu Hiroji |
| Visible to short-wave infrared spectra and spectral features of clay and carbonate samples |
Urai Minoru, Sato Isao, Ninomiya Yoshiki, Kouda Ryoichi, Miyazaki Yoshinori and Yamaguchi Yasushi |
| Mid-infrared reflectance spectra of GSJ rock reference samples "igneous rock series" |
Ninomiya Yoshiki and Sato Isao |
| Discrimination of lithology using remote sensing data in the Visible and near-infrared regions |
Yamaguchi Yasushi |
| Band combinations for rock discrimination based on the computer-simulated JERS-1 optical sensor data |
Sato Isao |
| No.279 |
"Magmatic contributions to hydrothermal systems" and "the behavior of volatiles in magma" |
Hedenquist Jeffrey W. (Ed.) |
| PART I. Magmatic contributions to hydrothermal systems |
|
| Japan-U.S. seminar on magmatic contributions to hydrothermal systems |
Muffler L. J. Patrick., Hedenquist Jeffrey W., Kesler Stephen E. and Izawa Eiji |
| Diffuse degassing of carbon dioxide through volcanic systems: Observed facts and implications |
Allard Patrick |
| Subvolcanic degassing of magma |
Anderson Alfred T. Jr. |
| Magmatic fluid discharging to the surface from the Osorezan geothermal systems, northern Honshu, japan |
Aoki Masahiro |
| Magmatic and meteoric fluids in porphyry copper deposits |
Beane Richard E. |
| Can we recognize magmatic fluid inclusions in fossil systems based on room-temperature phase relations and microthermometric behavior ? |
Bodnar Robert J. |
| Physical and chemical constraints on magmatic aqueous phase exsolution: Toward an integrated field, experimental and computational approach |
Candela Phillip A., Piccoli Philip M., Williams Thomas J. and Lynton Stephen J. |
| Pre-eruption hydrothermal systems at Pinatubo, Philippines and El Chichon, Mexico: Evidence for degassing magmas beneath Dormant volcanoes |
Casadevall Thomas J. |
| The interaction of a hydrothermal system with its intrusive heat source |
Cathles Lawrence M. |
| Search for magmatic signatures in Japanese geothermal fluids |
Chiba Hitoshi |
| The composition of Ruapehu Crater Lake, New Zealand: Evolution of a vent hosted hydrothermal System |
Christenson Bruce W. and Wood C. Peter |
| Magmatic hydrothermal system beneath Kuju Volcano, Central Kyushu, Japan |
Ehara Sachio |
| The influences of depth of burial and brittle-plastic transition on the evolution of magmatic fluids |
Fournier Robert O. |
| Constant magma supply and constant generation of pyroclastic flows during eruption of Unzen-dake, Kyushu, Japan |
Fujii Toshitsugu, Nakada Setsuya and Sato Hiroshi |
| Magmatic gases in fluid inclusions from hydrothermal ore deposits |
Graney Joseph R. and Kesler Stephen E. |
| Recognition of magmatic contributions to active and extinct hydrothermal systems |
Hedenquist Jeffrey W. |
| Complex interaction between hydrothermal activity and basic andesitic magma, White Island Volcano, New Zealand 1976-1991 |
Houghton B. F. and Nairn I. A. |
| Evolution of volcanic and hydrothermal systems in southern Kyushu |
Izawa Eiji |
| Geophysical background of Kirishima Volcanoes |
Kagiyama Tsuneomi |
| Sulfur isotopic effects in the disproportionation reaction of sulfur dioxide at hydrothermal temperatures |
Kusakabe Minoru and Komoda Yasuo |
| Evidence for extreme partitioning of copper into a magmatic volatile phase |
Lowenstern Jacob B., Mahood Gail A., Rivers Mark L. and Sutton Stephen R. |
| Magmatic heating and brine diapirism in the Salton Trough Rift |
McKibben Michael A. |
| Origin of magmatic waters in subduction zones: Stable isotopic constraints |
Matsuhisa Yukihiro |
| The geological setting of coupled igneous-hydrothermal systems: A geothermal perspective |
Muffler L. J. Patrick |
| Compositional zoning and the genesis of pegmatite garnet: A product of final stage crystallization of granitic magma |
Nakano Takanori and Nishiyama Yukiko |
| Pyroxene composition as an indicator to classify magmatic-hydrothermal sharn deposits |
Nakano Takanori, Yoshino Takashi, Shimazaki Hidehiko and Shimizu Masaaki |
| Composition of fluids related to Ok Tedi mineralization, Papua New Guinea |
Nedachi Munetomo |
| Synorogenic hydrogeological systems in the Canadian Cordillera and their impact on the formation of ores by igneous processes |
Nesebitt Bruce E. |
| Origin of diverse hydrothermal fluids by reaction og magmatic volatiles with wall rock |
Reed Mark H. |
| Assessment of magmatic components of the fluids at Mt. Pinatubo volcanic-geothermal system, Philippines from chemical and isotopic data |
Ruaya J. R., Ramos M. N. and Gonfiantini R. |
| Does acid volcanic gas represent magmatic discharge at depth ? |
Shinohara Hiroshi |
| The porphyry-epithermal transition |
Sillitoe Richard H. |
| Fluids in the source regions of subduction zone magmas: Clues from the study of volatiles in Mariana Trough magmas |
Stolper Edward M. and Newman Sally |
| Getting the gold from the gas: How recent advances in volcanic-gas research have provided new insight on metal transport in magmatic fluids |
Symonds Robert B. |
| Magmatic contributions to the hot springs in the Hokusatsu gold metallogenic province, Kyushu, Japan |
Taguchi Sachihiro, Inamori Hidemi, Koga Akito, Kita Itsuro and Nagano Keisuke |
| Geometrical relationship between hydrothermal convection systems and their heat source: Examples from the Hohi and Sengan geothermal areas in Japan |
Tamanyu Shiro |
| Chemical and isotopic composition of fumarolic gases from Kamchatka and Kurile Islands |
Taran Yuri A. |
| Hydrogen isotopes in amphiboles and micas from Quaternary laves of the Kamchatka-Kurile arc system |
Taran Yuri A., Pokrovsky B. G. and Volynts O. N. |
| Degassing of H2O from rhyolite magma during eruption and shallow intrusion, and the isotopic composition of magmatic water in hydrothermal systems |
Taylor B. E. |
| Don't work hard at high pressures, Ms. Magma! |
Urabe Tetsuro |
| Thermo-chronological study of hydrothermal systems and magma intrusion: An example from Goto-Fukue Island, Nagasaki, Japan |
Watanabe Koichiro |
| PART II. The behavior of volatiles in magma |
|
| The behavior of volatiles in magma: 4th symposium on deep-crustal fluids |
Urabe Tetsuro and Takada Akira |
| Experimental studies bearing on the behavior of volatiles in magmas |
Stolper Edward |
| Analysis of water and carbon dioxide in gass inclusions using a laser microprobr technique |
Saito Genji |
| Importance of volatiles on the activity model of Izu-Oshima Volcano |
Kazahaya Kohei and Shinohara Hiroshi |
| Degassing of CO2 from Kilauea: Carbon isotope evidence and implications for magmatic contributions to sediment-hosted submarine hydrothermal systems |
Taylor Bruce E. |
| Interaction between convection and bubble mibration in magmas |
Koyaguchi Takehiro |
| Possible role of pre-eruption degassing history on the groundmass textures of basaltic lavas from Izu-Oshima Volcano, Japan: An experimental investigation on the population density of plagioclase |
Sato Hiroaki |
| Distribution and evolution of H2O and CO2 in some rhyolitic magmas |
Anderson Alfred T. Jr. |
| Explosive volcanism caused by convective instability in a bubbling magma chamber |
Fujii Noriyuki, Nakano Tsukasa and Kimura T. |
| Vesiculation from the bottom: A mechanism for large scale vesiculation in magma chambers |
Kurita Kei, Kuri Miwa and Kobayashi Yohji |
| Hydrogen isotope ratios of hydrous minerals from several Japanese Quaternary volcanoes |
Miyagi Isoji and Matsubayashi Osamu |
| Excess pore pressure of the 1991 dacite dome lava of Unzen Volcano and the generation of pyroclastic flows |
Sato Hiroaki, Fujii Toshitsugu and Nakada Setsuya |
