Hawaiian volcanoes : from source to surface / / Rebecca Carey [and three others], editors |
Pubbl/distr/stampa | Washington, District of Columbia : , : American Geophysical Union, , 2015 |
Descrizione fisica | 1 online resource (599 p.) |
Disciplina | 551.2109969 |
Collana | Geophysical Monograph Series |
Soggetto topico |
Volcanoes - Hawaii
Volcanoes - Hawaii - History |
ISBN |
1-118-87211-8
1-118-87207-X 1-118-87216-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Title Page; Copyright Page; Contents; Contributors; Preface; About the Companion Website; Chapter 1 How and Why Hawaiian Volcanism Has Become Pivotal to Our Understanding of Volcanoes from Their Source to the Surface; Abstract; 1.1. Introduction; 1.2. What Has Attracted Volcanologists to Hawai'i?; 1.3. How Have Studies of Hawaiian Volcanoes Influenced Our Knowledge of Magmatic and Volcanic Processes?; 1.3.1. Origin of Magma Series and Melting History of Hawaiian Volcanoes; 1.3.2. Noble Gases-Helium Isotopes; 1.3.3. Marine Studies of Hawai'i; 1.3.4. Dynamics and Emplacement of Lava Flows
1.4. SummaryAcknowledgments; References; Chapter 2 Seismic Constraints on a Double-Layered Asymmetric Whole-Mantle Plume Beneath Hawai'i; Abstract; 2.1. Introduction and Motivation; 2.2. Data and Method; 2.3. Imaging Results; 2.4. Resolution; 2.5. Discussion; 2.5.1. Structure and Origin of Plume Conduit; 2.5.2. Upper Mantle Structure and Double-Layered Plume; 2.5.3. Plume Interaction with Lithosphere; 2.6. Summary; Acknowledgments; References; Chapter 3 Asymmetric Dynamical Behavior of Thermochemical Plumes and Implications for Hawaiian Lava Composition; Abstract; 3.1. Introduction 3.2. Methods and Model Description3.3. Results; 3.3.1. Double Layering of Plume Material in Upper Mantle; 3.3.2. Asymmetry in Plume Behavior and Melting; 3.3.3. Implications of Seismic Constraints on Plume Dynamics; 3.4. Discussion; 3.5. Conclusions; Appendix: Melting, Density, and Rheology Parameterizations; 3A.1. Melting Parameterization; 3A.2. Density Parameterization; 3A.3. Rheology Parameterization; Acknowledgments; References Chapter 4 Major-Element and Isotopic Variations in Mauna Loa Magmas over 600.ka: Implications for Magma Generation and Source Lithology as Mauna Loa Transits the Hawaiian PlumeAbstract; 4.1. Introduction; 4.2. Compositional Variation in Mauna Loa Lavas; 4.2.1. Sampling and Ages; 4.2.2. Major Elements; 4.2.3. Isotopic Ratios of Sr, Nd, and Pb; 4.3. Discussion; 4.3.1. Covariation of Major Elements and Isotopes; 4.3.2. Why Such Uniformity in SiO2 in Mauna Loa Magmas?; 4.3.3. Ascending Peridotite Melt-Harzburgite Interaction; 4.4. Conclusions; Supplementary Digital Data; Acknowledgments ReferencesChapter 5 Lithium Isotopic Signature of Hawaiian Basalts; Abstract; 5.1. Introduction; 5.2. Samples and Methods; 5.3. Results; 5.3.1. Alteration Control; 5.3.2. Effect of Crystal Fractionation; 5.3.3. Lithium Isotopic Signature; 5.3.4. Lithium Isotopes of Hawai'i Versus Global Oceanic Island Basalts; 5.4. Discussion; 5.4.1. Lithium Isotopic Signature in Hawaiian Lavas: A Source Signature?; 5.4.2. Hawaiian End-Member Components in Lithium Isotopes; 5.4.3. Why Are Postshield Lavas Lighter in Lithium Isotopic Signature Than Shield Lavas? 5.4.4. Is MORB-Related Lithosphere or Asthenosphere Assimilated Into the Hawaiian Plume? |
Record Nr. | UNINA-9910132449203321 |
Washington, District of Columbia : , : American Geophysical Union, , 2015 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|
Hawaiian volcanoes : from source to surface / / Rebecca Carey [and three others], editors |
Pubbl/distr/stampa | Washington, District of Columbia : , : American Geophysical Union, , 2015 |
Descrizione fisica | 1 online resource (599 p.) |
Disciplina | 551.2109969 |
Collana | Geophysical Monograph Series |
Soggetto topico |
Volcanoes - Hawaii
Volcanoes - Hawaii - History |
ISBN |
1-118-87211-8
1-118-87207-X 1-118-87216-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Title Page; Copyright Page; Contents; Contributors; Preface; About the Companion Website; Chapter 1 How and Why Hawaiian Volcanism Has Become Pivotal to Our Understanding of Volcanoes from Their Source to the Surface; Abstract; 1.1. Introduction; 1.2. What Has Attracted Volcanologists to Hawai'i?; 1.3. How Have Studies of Hawaiian Volcanoes Influenced Our Knowledge of Magmatic and Volcanic Processes?; 1.3.1. Origin of Magma Series and Melting History of Hawaiian Volcanoes; 1.3.2. Noble Gases-Helium Isotopes; 1.3.3. Marine Studies of Hawai'i; 1.3.4. Dynamics and Emplacement of Lava Flows
1.4. SummaryAcknowledgments; References; Chapter 2 Seismic Constraints on a Double-Layered Asymmetric Whole-Mantle Plume Beneath Hawai'i; Abstract; 2.1. Introduction and Motivation; 2.2. Data and Method; 2.3. Imaging Results; 2.4. Resolution; 2.5. Discussion; 2.5.1. Structure and Origin of Plume Conduit; 2.5.2. Upper Mantle Structure and Double-Layered Plume; 2.5.3. Plume Interaction with Lithosphere; 2.6. Summary; Acknowledgments; References; Chapter 3 Asymmetric Dynamical Behavior of Thermochemical Plumes and Implications for Hawaiian Lava Composition; Abstract; 3.1. Introduction 3.2. Methods and Model Description3.3. Results; 3.3.1. Double Layering of Plume Material in Upper Mantle; 3.3.2. Asymmetry in Plume Behavior and Melting; 3.3.3. Implications of Seismic Constraints on Plume Dynamics; 3.4. Discussion; 3.5. Conclusions; Appendix: Melting, Density, and Rheology Parameterizations; 3A.1. Melting Parameterization; 3A.2. Density Parameterization; 3A.3. Rheology Parameterization; Acknowledgments; References Chapter 4 Major-Element and Isotopic Variations in Mauna Loa Magmas over 600.ka: Implications for Magma Generation and Source Lithology as Mauna Loa Transits the Hawaiian PlumeAbstract; 4.1. Introduction; 4.2. Compositional Variation in Mauna Loa Lavas; 4.2.1. Sampling and Ages; 4.2.2. Major Elements; 4.2.3. Isotopic Ratios of Sr, Nd, and Pb; 4.3. Discussion; 4.3.1. Covariation of Major Elements and Isotopes; 4.3.2. Why Such Uniformity in SiO2 in Mauna Loa Magmas?; 4.3.3. Ascending Peridotite Melt-Harzburgite Interaction; 4.4. Conclusions; Supplementary Digital Data; Acknowledgments ReferencesChapter 5 Lithium Isotopic Signature of Hawaiian Basalts; Abstract; 5.1. Introduction; 5.2. Samples and Methods; 5.3. Results; 5.3.1. Alteration Control; 5.3.2. Effect of Crystal Fractionation; 5.3.3. Lithium Isotopic Signature; 5.3.4. Lithium Isotopes of Hawai'i Versus Global Oceanic Island Basalts; 5.4. Discussion; 5.4.1. Lithium Isotopic Signature in Hawaiian Lavas: A Source Signature?; 5.4.2. Hawaiian End-Member Components in Lithium Isotopes; 5.4.3. Why Are Postshield Lavas Lighter in Lithium Isotopic Signature Than Shield Lavas? 5.4.4. Is MORB-Related Lithosphere or Asthenosphere Assimilated Into the Hawaiian Plume? |
Record Nr. | UNISA-996198746403316 |
Washington, District of Columbia : , : American Geophysical Union, , 2015 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. di Salerno | ||
|
Hawaiian volcanoes : from source to surface / / Rebecca Carey [and three others], editors |
Pubbl/distr/stampa | Washington, District of Columbia : , : American Geophysical Union, , 2015 |
Descrizione fisica | 1 online resource (599 p.) |
Disciplina | 551.2109969 |
Collana | Geophysical Monograph Series |
Soggetto topico |
Volcanoes - Hawaii
Volcanoes - Hawaii - History |
ISBN |
1-118-87211-8
1-118-87207-X 1-118-87216-9 |
Formato | Materiale a stampa |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Title Page; Copyright Page; Contents; Contributors; Preface; About the Companion Website; Chapter 1 How and Why Hawaiian Volcanism Has Become Pivotal to Our Understanding of Volcanoes from Their Source to the Surface; Abstract; 1.1. Introduction; 1.2. What Has Attracted Volcanologists to Hawai'i?; 1.3. How Have Studies of Hawaiian Volcanoes Influenced Our Knowledge of Magmatic and Volcanic Processes?; 1.3.1. Origin of Magma Series and Melting History of Hawaiian Volcanoes; 1.3.2. Noble Gases-Helium Isotopes; 1.3.3. Marine Studies of Hawai'i; 1.3.4. Dynamics and Emplacement of Lava Flows
1.4. SummaryAcknowledgments; References; Chapter 2 Seismic Constraints on a Double-Layered Asymmetric Whole-Mantle Plume Beneath Hawai'i; Abstract; 2.1. Introduction and Motivation; 2.2. Data and Method; 2.3. Imaging Results; 2.4. Resolution; 2.5. Discussion; 2.5.1. Structure and Origin of Plume Conduit; 2.5.2. Upper Mantle Structure and Double-Layered Plume; 2.5.3. Plume Interaction with Lithosphere; 2.6. Summary; Acknowledgments; References; Chapter 3 Asymmetric Dynamical Behavior of Thermochemical Plumes and Implications for Hawaiian Lava Composition; Abstract; 3.1. Introduction 3.2. Methods and Model Description3.3. Results; 3.3.1. Double Layering of Plume Material in Upper Mantle; 3.3.2. Asymmetry in Plume Behavior and Melting; 3.3.3. Implications of Seismic Constraints on Plume Dynamics; 3.4. Discussion; 3.5. Conclusions; Appendix: Melting, Density, and Rheology Parameterizations; 3A.1. Melting Parameterization; 3A.2. Density Parameterization; 3A.3. Rheology Parameterization; Acknowledgments; References Chapter 4 Major-Element and Isotopic Variations in Mauna Loa Magmas over 600.ka: Implications for Magma Generation and Source Lithology as Mauna Loa Transits the Hawaiian PlumeAbstract; 4.1. Introduction; 4.2. Compositional Variation in Mauna Loa Lavas; 4.2.1. Sampling and Ages; 4.2.2. Major Elements; 4.2.3. Isotopic Ratios of Sr, Nd, and Pb; 4.3. Discussion; 4.3.1. Covariation of Major Elements and Isotopes; 4.3.2. Why Such Uniformity in SiO2 in Mauna Loa Magmas?; 4.3.3. Ascending Peridotite Melt-Harzburgite Interaction; 4.4. Conclusions; Supplementary Digital Data; Acknowledgments ReferencesChapter 5 Lithium Isotopic Signature of Hawaiian Basalts; Abstract; 5.1. Introduction; 5.2. Samples and Methods; 5.3. Results; 5.3.1. Alteration Control; 5.3.2. Effect of Crystal Fractionation; 5.3.3. Lithium Isotopic Signature; 5.3.4. Lithium Isotopes of Hawai'i Versus Global Oceanic Island Basalts; 5.4. Discussion; 5.4.1. Lithium Isotopic Signature in Hawaiian Lavas: A Source Signature?; 5.4.2. Hawaiian End-Member Components in Lithium Isotopes; 5.4.3. Why Are Postshield Lavas Lighter in Lithium Isotopic Signature Than Shield Lavas? 5.4.4. Is MORB-Related Lithosphere or Asthenosphere Assimilated Into the Hawaiian Plume? |
Record Nr. | UNINA-9910828161803321 |
Washington, District of Columbia : , : American Geophysical Union, , 2015 | ||
Materiale a stampa | ||
Lo trovi qui: Univ. Federico II | ||
|