Earth System Science: Bridging the Gaps between Disciplines [electronic resource] : Perspectives from a Multi-Disciplinary Helmholtz Research School / edited by Gerrit Lohmann, Klaus Grosfeld, Dieter Wolf-Gladrow, Vikram Unnithan, Justus Notholt, Anna Wegner.

Contributor(s): Lohmann, Gerrit [editor.] | Grosfeld, Klaus [editor.] | Wolf-Gladrow, Dieter [editor.] | Unnithan, Vikram [editor.] | Notholt, Justus [editor.] | Wegner, Anna [editor.] | SpringerLink (Online service)Material type: TextTextSeries: SpringerBriefs in Earth System SciencesPublisher: Berlin, Heidelberg : Springer Berlin Heidelberg : Imprint: Springer, 2013Description: XI, 134 p. 61 illus., 52 illus. in color. online resourceContent type: text Media type: computer Carrier type: online resourceISBN: 9783642322358Subject(s): Earth sciences | Physical geography | School management and organization | School administration | Environment | Earth Sciences | Earth System Sciences | Administration, Organization and Leadership | Environment, generalAdditional physical formats: Printed edition:: No titleDDC classification: 550 LOC classification: GB3-5030Online resources: Click here to access online
Contents:
1. Introduction -- 2. Remote Sensing and Modelling of Atmospheric Chemistry -- 3. Earth System Modelling and Data Analysis -- 4. Geotectonics -- 5. Climate Archives -- 6. Ecosystems and Climate Change -- 7. Geoinformatics -- 8. Geoengeneering.
In: Springer eBooksSummary: Earth system science is traditionally split into various disciplines (Geology, Physics, Meteorology, Oceanography, Biology etc.) and several sub-disciplines. Overall, the diversity of expertise provides a solid base for interdisciplinary research. However, gaining holistic insights into the Earth system requires the integration of observations, paleoclimate data, analysis tools and modeling. These different approaches of Earth system science are rooted in various disciplines that cut across a broad range of timescales. It is, therefore, necessary to link these disciplines at a relatively early stage in PhD programs. The linking of ‘data and modeling’, as it is the special emphasis in our graduate school, enables graduate students from a variety of disciplines to cooperate and exchange views on the common theme of Earth system science, which leads to a better understanding of processes within a global context.
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1. Introduction -- 2. Remote Sensing and Modelling of Atmospheric Chemistry -- 3. Earth System Modelling and Data Analysis -- 4. Geotectonics -- 5. Climate Archives -- 6. Ecosystems and Climate Change -- 7. Geoinformatics -- 8. Geoengeneering.

Earth system science is traditionally split into various disciplines (Geology, Physics, Meteorology, Oceanography, Biology etc.) and several sub-disciplines. Overall, the diversity of expertise provides a solid base for interdisciplinary research. However, gaining holistic insights into the Earth system requires the integration of observations, paleoclimate data, analysis tools and modeling. These different approaches of Earth system science are rooted in various disciplines that cut across a broad range of timescales. It is, therefore, necessary to link these disciplines at a relatively early stage in PhD programs. The linking of ‘data and modeling’, as it is the special emphasis in our graduate school, enables graduate students from a variety of disciplines to cooperate and exchange views on the common theme of Earth system science, which leads to a better understanding of processes within a global context.

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