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An explanation of the geological processes that formed Florida.
"A significant contribution to our knowledge of Florida geology. . . . A state-of-the-art volume that will serve as a model for other university presses to follow."--Paul A. Thayer, University of North Carolina, Wilmington "A marvelous and timely overview of the geology of Florida . . . assembled by some of the state's best geoscientists."--Henry T. Mullins, Syracuse University The first comprehensive geology of the state of Florida published in over thirty years, this volume brings together leading geoscience authorities from academia, state and federal geological surveys, and private industry in a liberally illustrated, up-to-date summary and analysis. Early chapters introduce the origin and development of the unique landscape of the Florida peninsula and panhandle. Succeeding chapters cover geomorphology, stratigraphy, plate tectonics, petrology, geochemistry, hydrogeology, vertebrate and invertebrate paleontology, geologic history, economic geology, coastal and marine geology, and environmental geology. With the longest coastline of any state except Alaska and a geology noted for its rich fossil record and abundance of living coral reefs, mineral deposits, springs, and sinkholes, Florida's identity--past, present, and future--is linked intrinsically to its landscape. The definitive reference for that landscape, The Geology of Florida illustrates the importance of basic geological research and its application to issues facing a society that places increasing demands upon its physical world. Anthony F. Randazzo is professor of geology at the University of Florida and author of numerous articles in Sedimentary Geology, Journal of Sedimentary Petrology, American Scientist, and others. Douglas S. Jones is curator and chair of the Department of Natural Sciences at the Florida Museum of Natural History and author of numerous articles in Nature, Geology, Science, and others.
Walt Disney World, the moon landing, shark attacks these are things the average person readily associates with Florida, but geology . . . ? Not so much. Roadside Geology of Florida is fixing to change that. From the panhandle through the Central Lakes District all the way to the Dry Tortugas, authors Bryan, Scott, and Means lead you through a world of cavernous limestone, roiling springheads, and rock strata containing the remains of some of the strangest animals that ever walked the Earth. The latest in this one-of-a-kind series, the Roadside Geology of Florida is divided into five regions, following Florida's roads to its geological wonders. Along the roads you'll encounter a sinkhole that swallowed several buildings in Winter Park; sand dunes stranded high and dry with no shoreline in sight; and Titanis walleri, a 6-foot-tall, predatory flightless bird. With its concise descriptions, clearly written explanations, and voluminous color photographs and illustrations, this book will enthrall readers as they tour the Sunshine State, which, by the way, is the most recent addition to the North American continent.
"A joy to read from two of the most prominent geologists who have worked for the better part of their careers in the Florida Keys. Places important environmental focus on modern-day issues facing the island ecosystems, the health of Florida Bay, the nearshore areas, and ultimately the reef tract."--Donald F. McNeill, University of Miami "A compelling narrative that weaves fascinating historical personalities and periods with the geological characteristics of the Florida Keys into a colorful tapestry. A fun, interesting, and informative read!"--Eugene C. Rankey, University of Kansas Two world-class geologists draw on their prolific fifty-year careers in this comprehensive guide to the geology and biology of the Florida Keys and Florida Bay. Eugene Shinn and Barbara Lidz dive into the past, present, and future of an area that has long been a natural laboratory for learning about coral reef formation and the origins of limestone. They explain how underlying Pleistocene topography controls the shapes of today's coral reefs, how sea-level rise created Florida Bay, and how hurricanes mold limemud banks and strip vegetation from the Florida Keys. They discuss the recent decline of coral reefs due to overpopulation, pollution, climate change, and other factors. An itinerary is included for a hands-on three-day field trip, guiding visitors to the best places to see the famous reef formations and geologic processes of the Keys. As glaciers continue to melt and reform at Earth's poles, sea level is currently rising and will fall again at some point in the geologic future. In this volume, Shinn and Lidz demonstrate the value of the Keys and immediate surroundings as an environmental laboratory to study past effects of sea-level change and to stimulate ideas for further research.
Painting a complete picture of the history of the Everglades, The Geology of the Everglades and Adjacent Areas brings together theperspectives of various geoscientists to provides an overview of the geology, paleontology, and paleoceanography of the Everglades region. It emphasizes the upper 300 m of the geologic framework of the area and gives insight into the local stratigraphy, geomorphology, lithology, and historical geology. Building upon the geologic nomenclature and stratigraphic sequences set down by the Florida Geological Survey, the book includes redefinitions of some previously poorly known formations, the chronological fine-tuning of other poorly known units, and the description of 7 new members. Designed to be a field guide as well as a reference, the book is illustrated with photographs of exposed geologic sections, stratotype localities, collection sites, and details of interesting fossil beds. It contains 124 full-page illustrations with 69 black and white figures, 43 black and white plates of index fossils, and 12 full color plates of simulated space shuttle images of Florida’s ancient seas and coastlines. This text is accompanied by downloadable resources that feature animated maps along with a Power Point presentation of simulated space shuttle imagery of Eocene-to-Holocene Florida. The book is arranged by geologic time, ranging from the late Eocene, Oligocene, Miocene, Pliocene, and Pleistocene to the Holocene. The authors place lithostratigraphic descriptions of the geologic formations and members into this chronological framework, along with the paleogeography of the seas and lakes within which they were deposited. They also emphasize biostratigraphy with over 1000 index fossils listed and over 400 illustrated. The book brings together information previously spread through innumerable publications, saving you the time and effort it would take to assemble and cross-reference multiple sources.
Discusses the formation, development, and history of the Everglades
Volume 3 of Gulf of Mexico Origin, Waters, and Biota; a series edited by John W. Tunnell Jr., Darryl L. Felder, and Sylvia A. Earle A continuation of the landmark scientific reference series from the Harte Research Institute for Gulf of Mexico Studies, Gulf of Mexico Origin, Waters, and Biota, Volume 3, Geology provides the most up-to-date, systematic, cohesive, and comprehensive description of the geology of the Gulf of Mexico Basin. The six sections of the book address the geologic history, recent depositional environments, and processes offshore and along the coast of the Gulf of Mexico. Scientific research in the Gulf of Mexico region is continuous, extensive, and has broad-based influence upon scientific, governmental, and educational communities. This volume is a compilation of scientific knowledge from highly accomplished and experienced geologists who have focused most of their careers on gaining a better understanding of the geology of the Gulf of Mexico. Their research, presented in this volume, describes and explains the formation of the Gulf Basin, Holocene stratigraphic and sea-level history, energy resources, coral reefs, and depositional processes that affect and are represented along our Gulf coasts. It provides valuable synthesis and interpretation of what is known about the geology of the Gulf of Mexico. Five years in the making, this monumental compilation is both a lasting record of the current state of knowledge and the starting point for a new millennium of study.
Most people do not think to observe geology from the sidewalks of a major city, but all David B. Williams has to do is look at building stone in any urban center to find a range of rocks equal to any assembled by plate tectonics. In Stories in Stone, he takes you on explorations to find 3.5-billion-year-old rock that looks like swirled pink-and-black taffy, a gas station made of petrified wood, and a Florida fort that has withstood three hundred years of attacks and hurricanes, despite being made of a stone that has the consistency of a granola bar. Williams also weaves in the cultural history of stone, explaining why a white fossil-rich limestone from Indiana became the only building stone used in all fifty states; how in 1825, the construction of the Bunker Hill Monument led to America’s first commercial railroad; and why when the same kind of marble used by Michelangelo clad a Chicago skyscraper it warped so much after nineteen years that all 44,000 panels of it had to be replaced. This love letter to building stone brings to life the geology you can see in the structures of every city.
This volume proposes to provide a concise, simple, well-illustrated book that explains past sea rise events, what scientists know about the present and future sea level rise, the consequences of rise, and how Floridians might prepare.
The incredible story of the creation of a continent—our continent— from the acclaimed author of The Last Volcano and Mask of the Sun. The immense scale of geologic time is difficult to comprehend. Our lives—and the entirety of human history—are mere nanoseconds on this timescale. Yet we hugely influenced by the land we live on. From shales and fossil fuels, from lake beds to soil composition, from elevation to fault lines, what could be more relevant that the history of the ground beneath our feet? For most of modern history, geologists could say little more about why mountains grew than the obvious: there were forces acting inside the Earth that caused mountains to rise. But what were those forces? And why did they act in some places of the planet and not at others? When the theory of plate tectonics was proposed, our concept of how the Earth worked experienced a momentous shift. As the Andes continue to rise, the Atlantic Ocean steadily widens, and Honolulu creeps ever closer to Tokyo, this seemingly imperceptible creep of the Earth is revealed in the landscape all around us. But tectonics cannot—and do not—explain everything about the wonders of the North American landscape. What about the Black Hills? Or the walls of chalk that stand amongst the rolling hills of west Kansas? Or the fact that the states of Washington and Oregon are slowly rotating clockwise, and there a diamond mine in Arizona? It all points to the geologic secrets hidden inside the 2-billion-year-old-continental masses. A whopping ten times older than the rocky floors of the ocean, continents hold the clues to the long history of our planet. With a sprightly narrative that vividly brings this science to life, John Dvorak's How the Mountains Grew will fill readers with a newfound appreciation for the wonders of the land we live on.