This work provides a wide perspective of the oceans by examining their places in the earth sciences, drawing together all the key strands of ocean study and presenting a holistic view of ocean processes, ancient and modern.
This work provides a wide perspective of the oceans by examining their places in the earth sciences, drawing together all the key strands of ocean study and presenting a holistic view of ocean processes, ancient and modern.
The oceans cover 70% of the Earth’s surface, and are critical components of Earth’s climate system. This new edition of Encyclopedia of Ocean Sciences, Six Volume Set summarizes the breadth of knowledge about them, providing revised, up to date entries as well coverage of new topics in the field. New and expanded sections include microbial ecology, high latitude systems and the cryosphere, climate and climate change, hydrothermal and cold seep systems. The structure of the work provides a modern presentation of the field, reflecting the input and different perspective of chemical, physical and biological oceanography, the specialized area of expertise of each of the three Editors-in-Chief. In this framework maximum attention has been devoted to making this an organic and unified reference. Represents a one-stop. organic information resource on the breadth of ocean science research Reflects the input and different perspective of chemical, physical and biological oceanography, the specialized area of expertise of each of the three Editors-in-Chief New and expanded sections include microbial ecology, high latitude systems and climate change Provides scientifically reliable information at a foundational level, making this work a resource for students as well as active researches
A vivid portrait of how Naval oversight shaped American oceanography, revealing what difference it makes who pays for science. What difference does it make who pays for science? Some might say none. If scientists seek to discover fundamental truths about the world, and they do so in an objective manner using well-established methods, then how could it matter who’s footing the bill? History, however, suggests otherwise. In science, as elsewhere, money is power. Tracing the recent history of oceanography, Naomi Oreskes discloses dramatic changes in American ocean science since the Cold War, uncovering how and why it changed. Much of it has to do with who pays. After World War II, the US military turned to a new, uncharted theater of warfare: the deep sea. The earth sciences—particularly physical oceanography and marine geophysics—became essential to the US Navy, which poured unprecedented money and logistical support into their study. Science on a Mission brings to light how this influx of military funding was both enabling and constricting: it resulted in the creation of important domains of knowledge but also significant, lasting, and consequential domains of ignorance. As Oreskes delves into the role of patronage in the history of science, what emerges is a vivid portrait of how naval oversight transformed what we know about the sea. It is a detailed, sweeping history that illuminates the ways funding shapes the subject, scope, and tenor of scientific work, and it raises profound questions about the purpose and character of American science. What difference does it make who pays? The short answer is: a lot.
An engaging and accessible textbook focusing on climate dynamics from the perspective of the ocean, specifically interactions between the atmosphere and ocean. It describes the fundamental physics and dynamics governing the behaviour of the ocean, and provides numerous end-of-chapter questions and access to online data sets.
From a study of knowledge of the sea among indigenous cultures in the South Seas to inquiries into the subject of sea monsters, from studies of Pacific currents to descriptions of ocean-going research vessels, the sixty-three essays presented here reflect the scientific complexity and richness of social relationships that characterize ocean-ographic history. Based on papers presented at the Fifth International Congress on the History of Oceanography held at the Scripps Institution of Oceanography (the first ICHO meeting following the cessation of the Cold War), the volume features an unusual breadth of contributions. Oceanography itself involves the full spectrum of physical, biological, and earth sciences in their formal, empirical, and applied manifestations. The contributors to Oceanographic History: The Pacific and Beyond undertake the interdisciplinary task of telling the story of oceanography’s past, drawing on diverse methodologies. Their essays explore the concepts, techniques, and technologies of oceanography, as well as the social, economic, and institutional determinants of oceanographic history. Although focused on the Pacific, the geographic range of subjects is global and includes Micronesia, East Africa, and Antarctica; the bathymetric range comprises inshore fisheries, coral reefs, and the "azoic zone." The seventy-one contributors represent every continent of the globe except Antarctica, bringing together material on the history of oceanography never before published.
In this book, geologists Jan Zalasiewicz and Mark Williams consider the deep history of oceans, how and when they may have formed on the young Earth - topics of intense current research - how they became salty, and how they evolved through Earth history.
This book documents the effects of natural hazards on coastal ecosystems in detail. The sea is an indispensable component of the Earth system, and human societies obtain many goods and services from the marine environment. Global warming threatens marine ecosystems through seawater temperature rise, acidification, sea-level rise and the increased frequency of severe storms. The repeated effects of tsunamis also have major impacts on coastal ecosystems. Increases in population and industry activities along the coast cause the degradation of coastal ecosystems through direct and indirect uses of the environment such as reclamation, overexploitation of bioresources, and pollution. Given these facts, we need to improve our understanding of the physical, chemical and biological mechanisms characterizing marine ecosystems, in order to better measure the effects of anthropogenic and natural impacts on the sea and its ecosystems. Equipped with a comprehensive understanding of the sea, including the effects of the main pressures on it, we will have a better idea of the future state of the sea based on several scenarios of global warming. The 16th France-Japan Symposium on Marine Science focused on using advances in oceanography to better understand the current status of the sea from physical, chemical, biological and ecological perspectives, including fishery sciences and integrated approaches.
In this 1994 revised edition of his award-winning book on the Earth's history, Professor van Andel updates and expands his earlier text, drawing on a wealth of new knowledge that has become available in the last decade. This book examines the major changes in the Earth's history - the evolution of the solid Earth, the changing oceans and atmospheres and the progression of life - to render a historical account of the Earth's evolution. Much knowledge was gained in the previous decade, and while little material has been deleted, this new edition has grown to cover the key topics, including a chapter on how we can improve our grasp on geological time. Mindful of the current interest in global change, new sections describe the green-house effect and address its possible future ramifications. In prose that is both concise and compelling, New Views on an Old Planet: A History of Global Change makes Earth history appealing to the general reader. It will serve as an excellent text for introductory courses in the earth and environmental sciences.
This book offers a survey of the contribution of satellite data to the study of the ocean, focusing on the special insights that only satellite data can bring to oceanography. Topics range from ocean waves to ocean biology, spanning scales from basins to estuaries. Some chapters cover applications to pure research while others show how satellite data can be used operationally for tasks such as pollution monitoring or oil-spill detection.