The sea floor an introduction to marine geology Libro electrónico

The sea floor an introduction to marine geology Libro electrónico

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Man's understanding of how this planet is put together and how it evolved has changed radically during the last 30 years. This great revolution in geology - now usually subsumed under the concept of Plate Tectonics - brought the realization that convection within the Earth is responsible for the origin of today's ocean basins and conti­ nents, and that the grand features of the Earth's surface are the product of ongoing large-scale horizontal motions. Some of these notions were put forward earlier in this century (by A. Wegener, in 1912, and by A. Holmes, in 1929), but most of the new ideas were an outgrowth of the study of the ocean floor after World War II. In its impact on the earth sciences, the plate tectonics revolution is comparable to the upheaval wrought by the ideas of Charles Darwin (1809-1882), which started the intense discussion on the evolution of the biospere that has recently heated up again. Darwin drew his inspiration from observations on island life made during the voyage of the Beagle (1831-1836), and his work gave strong impetus to the first global oceanographic expedition, the voyage of HMS Challenger (1872- 1876). Ever since, oceanographic research has been intimately associ­ ated with fundamental advances in the knowledge of Earth. This should come as no surprise. After all, our planet's surface is mostly ocean.

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Main Authors: Seibold, Eugen autor/a, Berger, Wolfgang H. autor/a
Format: Texto biblioteca
Language:eng
Published: New York, New York, United State Springer-Verlag c199
Subjects:Submarine geology,
Online Access:http://link.springer.com/openurl?genre=book&isbn=978-3-662-22521-9
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spelling KOHA-OAI-ECOSUR:565892021-01-11T22:01:50ZThe sea floor an introduction to marine geology Libro electrónico Seibold, Eugen autor/a Berger, Wolfgang H. autor/a textNew York, New York, United State Springer-Verlagc1993engMan's understanding of how this planet is put together and how it evolved has changed radically during the last 30 years. This great revolution in geology - now usually subsumed under the concept of Plate Tectonics - brought the realization that convection within the Earth is responsible for the origin of today's ocean basins and conti­ nents, and that the grand features of the Earth's surface are the product of ongoing large-scale horizontal motions. Some of these notions were put forward earlier in this century (by A. Wegener, in 1912, and by A. Holmes, in 1929), but most of the new ideas were an outgrowth of the study of the ocean floor after World War II. In its impact on the earth sciences, the plate tectonics revolution is comparable to the upheaval wrought by the ideas of Charles Darwin (1809-1882), which started the intense discussion on the evolution of the biospere that has recently heated up again. Darwin drew his inspiration from observations on island life made during the voyage of the Beagle (1831-1836), and his work gave strong impetus to the first global oceanographic expedition, the voyage of HMS Challenger (1872- 1876). Ever since, oceanographic research has been intimately associ­ ated with fundamental advances in the knowledge of Earth. This should come as no surprise. After all, our planet's surface is mostly ocean.Incluye bibliografía e índice: páginas 307-3141. Introduction.. 2. Origin and morphology of ocean basins.. 3. Origin and morphology of ocean margins.. 4. Sources and composition of marine sediments.. 5. Effects of waves and currents.. 6. Sea level processes and effects of sea level change.. 7. Productivity and benthic organisms - distribution, activity, and environmental reconstruction.. 8. Imprint of climatic zonation on marine sediments.. 9. Deep-sea sediments - patterns, processes, and stratigraphic methods.. 10. Paleoceanography - the deep-sea record.. 11. Resources from the ocean floor.. 12. Epilog.. Subject IndexMan's understanding of how this planet is put together and how it evolved has changed radically during the last 30 years. This great revolution in geology - now usually subsumed under the concept of Plate Tectonics - brought the realization that convection within the Earth is responsible for the origin of today's ocean basins and conti­ nents, and that the grand features of the Earth's surface are the product of ongoing large-scale horizontal motions. Some of these notions were put forward earlier in this century (by A. Wegener, in 1912, and by A. Holmes, in 1929), but most of the new ideas were an outgrowth of the study of the ocean floor after World War II. In its impact on the earth sciences, the plate tectonics revolution is comparable to the upheaval wrought by the ideas of Charles Darwin (1809-1882), which started the intense discussion on the evolution of the biospere that has recently heated up again. Darwin drew his inspiration from observations on island life made during the voyage of the Beagle (1831-1836), and his work gave strong impetus to the first global oceanographic expedition, the voyage of HMS Challenger (1872- 1876). Ever since, oceanographic research has been intimately associ­ ated with fundamental advances in the knowledge of Earth. This should come as no surprise. After all, our planet's surface is mostly ocean.Disponible en formato PDFSubscripción a ELSEVIERSubmarine geologyDisponible en líneahttp://link.springer.com/openurl?genre=book&isbn=978-3-662-22521-9URN:ISBN:3540568840URN:ISBN:0387568840URN:ISBN:9783662225219 (Print)URN:ISBN:9783662225196 (Online)Disponible para usuarios de ECOSUR con su clave de acceso
institution ECOSUR
collection Koha
country México
countrycode MX
component Bibliográfico
access En linea
En linea
databasecode cat-ecosur
tag biblioteca
region America del Norte
libraryname Sistema de Información Bibliotecario de ECOSUR (SIBE)
language eng
topic Submarine geology
Submarine geology
spellingShingle Submarine geology
Submarine geology
Seibold, Eugen autor/a
Berger, Wolfgang H. autor/a
The sea floor an introduction to marine geology Libro electrónico
description Man's understanding of how this planet is put together and how it evolved has changed radically during the last 30 years. This great revolution in geology - now usually subsumed under the concept of Plate Tectonics - brought the realization that convection within the Earth is responsible for the origin of today's ocean basins and conti­ nents, and that the grand features of the Earth's surface are the product of ongoing large-scale horizontal motions. Some of these notions were put forward earlier in this century (by A. Wegener, in 1912, and by A. Holmes, in 1929), but most of the new ideas were an outgrowth of the study of the ocean floor after World War II. In its impact on the earth sciences, the plate tectonics revolution is comparable to the upheaval wrought by the ideas of Charles Darwin (1809-1882), which started the intense discussion on the evolution of the biospere that has recently heated up again. Darwin drew his inspiration from observations on island life made during the voyage of the Beagle (1831-1836), and his work gave strong impetus to the first global oceanographic expedition, the voyage of HMS Challenger (1872- 1876). Ever since, oceanographic research has been intimately associ­ ated with fundamental advances in the knowledge of Earth. This should come as no surprise. After all, our planet's surface is mostly ocean.
format Texto
topic_facet Submarine geology
author Seibold, Eugen autor/a
Berger, Wolfgang H. autor/a
author_facet Seibold, Eugen autor/a
Berger, Wolfgang H. autor/a
author_sort Seibold, Eugen autor/a
title The sea floor an introduction to marine geology Libro electrónico
title_short The sea floor an introduction to marine geology Libro electrónico
title_full The sea floor an introduction to marine geology Libro electrónico
title_fullStr The sea floor an introduction to marine geology Libro electrónico
title_full_unstemmed The sea floor an introduction to marine geology Libro electrónico
title_sort sea floor an introduction to marine geology libro electrónico
publisher New York, New York, United State Springer-Verlag
publishDate c199
url http://link.springer.com/openurl?genre=book&isbn=978-3-662-22521-9
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