Glacial and Quaternary Geology


Book Description

"This volume contains new materials which include stratigraphy, sea floor stratigraphy and isotopic geochemistry including radiometric dating. The work retains the conjunction of two entities: systematic treatment of "glacial geology" involving process and strategraphic, environmental and historical discussion of the Quaternary."




Glacial and Quaternary Geology


Book Description

"This volume contains new materials which include stratigraphy, sea floor stratigraphy and isotopic geochemistry including radiometric dating. The work retains the conjunction of two entities: systematic treatment of "glacial geology" involving process and strategraphic, environmental and historical discussion of the Quaternary."




Quaternary and Glacial Geology


Book Description

Quaternary geology is the study of the most recent period of geological time, looking at the Earth in terms of its development as a planet. This books examines the history of its life forms, the materials of which it is made, processes that affect these materials, and products that are formed from them.




Ice Age Earth


Book Description

Ice Age Earth provides the first detailed review of global environmental change in the Late Quaternary. Significant geological and climatic events are analysed within a review of glacial and periglacial history. The melting history of the last ice sheets reveals that complex, dynamic and catastrophic change occurred, change which affected the circulation of the atmosphere and oceans and the stability of the Earth's crust.




History of Geomorphology and Quaternary Geology


Book Description

These papers deal with various aspects of the histories of geomorphology and Quaternary geology in different parts of the world. They include: the origin of the term 'Quaternary', histories of ideas and debates relating to aspects of fluvial geomorphology, glacial geomorphology and glaciation, desert dunes and the geology of Australia, peneplains in China, a palaeo-Tokyo Bay in Japan, together with biographies of Charles Cotton, Valerija Čepulytė and Česlovas Pakuckas that highlight their respective contributions to the disciplines of geomorphology and Quaternary geology.




Quaternary Glaciation of the Great Lakes Region


Book Description

Taking advantage of new technological advances in Quaternary geology and geomorphology, this volume showcases new developments in glacial geology. Honoring the legacy of Frank Leverett and F.B. Taylor's 1915 USGS monograph of the region, this book includes 12 chapters that cover diverse topics ranging from hydrogeology, near-surface geophysics, geotectonics, and vertebrate paleontology to glacial geomorphology and glacial history. Several papers make use of detailed but nuanced shaded relief maps of digital elevation models of LiDAR data; these advances are brought into historical perspective by visiting the history of geologic mapping of Michigan. Looking forward, interpretations of the shaded relief maps evoke novel processes, such as regional evolution of subglacial and supraglacial drainage systems of receding glacial margins. The volume also includes assessment of chronological issues in light of greater accuracy and precision of radiocarbon dating of plant fossils using accelerator mass spectrometry versus older techniques.




Quaternary Geology and Geomorphology of South America


Book Description

This monograph reviews the nature of Quaternary environmental changes over the largest continent in the Southern Hemisphere. Moreover, since South America makes a transect across most climatic belts of an entire hemisphere, it provides a unique opportunity to examine the impact of changing Quaternary climates on a variety of environments. It also forms the basis for judging the synchrony or non-synchrony of Quaternary climatic changes between hemispheres and this has important implications for climatic modelling.As South America has a dynamic tectonic regime along its western margin, 3 chapters discuss the geomorphological impact of Quaternary tectonics and volcanism. The following 6 chapters integrate evidence for Quaternary changes in the great alluvial basins of the Continent Orinoco, Amazon, Paranaacute;) and in the contiguous highland massifs (Guyana, Brazil, Patagonia). As parts of the Andes have been high enough to support glaciers since the late Miocene, 5 chapters review the nature and consequences of Quaternary glacier fluctuations. The following 4 chapters select major process-form systems that impacted the continent during the Quaternary, including geocryogenic activity, palaeolake development, palaeo-gravel formations and coastal changes. Three chapters provide the first major review of Quaternary vegetation changes in South America (primarily the Andes) deduced from palaeoecological data. The final chapter weaves most of the environmental threads together in an overall synthesis of the Quaternary of South America.The book is lavishly illustrated with photographs and line diagrams. As it provides a compendium of data and analyses about Quaternary changes for a whole continent, this book should appeal to a wide range of environmental disciplines.




Principles of Glacial Geomorphology and Geology


Book Description

For undergraduate-level courses in Glacial Geology and Geomorphology taken by science and non-science students. Featuring an accessible, non-mathematical, but rigorous conceptual treatment with numerous very simple explanatory illustrations this introduction to the basic principles of glaciology, geomorphology, and geology serves as a portal to the more advanced literature in the field and to discussion and research of the local situation. Focusing on processes and history (not just descriptions), it helps students understand how glaciers form and move, what effect they have, when and where they have affected the Earth, and the consequences of ice ages.




Glaciology for Glacial Geologists


Book Description

We live in the Quaternary Ice Age, the last million years when large ice sheets covered much of North America and Eurasia, with successive glaciations lasting about 90,000 years interspersed with interglaciations lasting about 10,000 years, such as our preset Holocene interglaciation. Quaternary glaciations were discovered and mapped by glacial geologists from evidence for glacial erosion and deposition on a large scale. Glaciology began as a descriptive branch of geology and has become a quantitative branch of physics. Glaciology and glacial geology are two sides of the same coin. Glaciologists study ice dynamics to model present and past ice sheets. Glacial geologists study the evidence produced by ice dynamics, evidence that controls the models. This book is written for glacial geologists that have a modest exposure to mathematics so they can understand the fundamental link between glaciology and glacial geology. This link is the height of an ice sheet above its bed. Ice height depends primarily on the strength of ice-bed coupling. The stronger the coupling, the higher the ice, and therefore the larger the ice sheet. Glacial geology allows an assessment of ice-bed coupling. Coupling weakens under the interior of an ice sheet when a frozen bed thaws and thereby allows ice to slide over the bed to produce glacial geology by erosion and deposition processes. Coupling weakens much more near ice-sheet margins where ice moves as fast currents called ice streams, under which ice-bed coupling vanishes where basal water drowns bedrock bumps or soaks basal sediments. The book consists of seven chapters. Chapter One shows how glacial geology can be used to quantify the strength of ice-bed coupling. Chapter Two quantifies how coupling is weakened when a frozen bed thaws for slow sheet flow in the interior of an ice sheet, thereby lowering the ice surface. Chapter Three quantifies how the surface is lowered much more toward the margin of an ice sheet where basal water partly downs the bed along linear topography (river valleys, coastal straits, etc.), allowing for slow sheet flow to become fast stream flow. Chapter Four quantifies the ability of large partly confined floating ice shelves to reduce the discharge from fast ice streams entering the sea. Chapter Five discusses glacial geology produced by Northern Hemisphere ice sheets during a cycle of Quaternary glaciation, with a white hole needed to initiate an ice sheet, marine ice transgression needed to grow it, and marine ice instability needed to terminate it; these are all linked to glacial geology. Chapter Six shows how the Arctic ice sheet can be reconstructed during a cycle of Quaternary glaciation using glacial geology. Chapter Seven shows how glacial geology can be mapped under the Antarctic ice sheet as it exists today, with an emphasis on ongoing gravitational collapse of the Western Antarctic Ice Sheet, grounded mostly below sea level in the Western Hemisphere.




The Ice Age


Book Description

"In an era of warming climate, the study of the ice age past is now more important than ever. This book examines the wonders of the Quaternary ice age - to show how ice age landscapes and ecosystems were repeatedly and rapidly transformed as plants, animals, and humans reorganized their worlds." --Publisher.