Dinosaurs and Other Mesozoic Reptiles of California / Edition 1

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Overview

One of the most geologically complex and diverse states, California spent much of the age of dinosaurs under water. While most of the fossils found in the state are those of reptiles that lived in the sea (thalattosaurs, ichthyosaurs, mosasaurs, plesiosaurs, and turtles), some are those of birds and pterosaurs that soared above it. Other fossils come from terrestrial animals that died and were washed into the ocean. These include turtles, crocodiles, lizards, and dinosaurs such as armored ankylosaurs, duck-billed hadrosaurs, and a variety of carnivorous dinosaurs.

Richard Hilton is the first to tell the unsung story of the dinosaurs and reptiles of land, sea, and sky that lived in California and Baja California during the Mesozoic era (245 million-65 million years ago), in addition to the history of their discovery. Vibrantly illustrated with more than three hundred photographs, paintings, and drawings, this book provides geological and environmental details, describes the significance of the major fossils, and chronicles the adventures involved in the discovery, preparation, and publishing of the finds.

Hilton also includes accounts of the scientists, teachers, students, ranchers, and weekend fossil hunters who endured (and continue to endure) harsh weather, fires, wild animals, and the usual challenges of fieldwork to collect fossil remains and make major discoveries. These enthusiasts managed to safeguard an abundance of fossil resources, some of which would otherwise have been destroyed by quarrying, paving, and housing developments. Dinosaurs and Other Mesozoic Reptiles of California takes this legacy one step further by documenting information about the fossils and their finders in accessible prose and vivid artistic renderings, creating a valuable contribution to our understanding of California’s prehistoric past.

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Editorial Reviews

Publishers Weekly
California has produced a rich trove of Mesozoic fossils: dinosaurs, flying reptiles, and especially, since most of the state was submerged under water during the Mesozoic Era, marine reptiles. Hilton, a professor of geology at California's Sierra College, presents a comprehensive guide to these remains, and a history of those who discovered them, going back to the 1890s. (One of the highlights is his account of Allan Bennison's discovery of the vertebrae and leg bones of a hadrosaur in 1936, when Bennison was only 17 years old.) Hilton explains the role of California's active geology (many fossils are exposed by earthquakes) and dinosaur taxonomy as an introduction. Then, he discusses each species of dinosaur and reptile: how and where it lived, and its physical characteristics. These explanations are beautifully illustrated by Kirkland, who provides detailed drawings of skulls and entire skeletons, as well as imaginative reconstructions of how dinosaurs may have appeared when they walked the earth. This handsome volume will delight any dinosaurophile. 97 color illus., 102 b&w photos, 91 line illus., 1 table. (Aug. 29) Copyright 2003 Reed Business Information.
Library Journal
This work is a catalog of every known fossil dinosaur and Mesozoic-era (245 million-65 million years ago) reptile found in California. Hilton (geology, Sierra Coll.) narrates their untold story, precisely depicting the rock formations, plate tectonics, and geography of the age, then superimposing the animals with detailed descriptions and Kirkland's fine color and black-and-white drawings. Separate sections are devoted to dinosaurs, marine reptiles, and flying reptiles. In the final chapters, Hilton presents the human side of paleontology with the biographies and contributions of professional and amateur bone hunters who uncovered these long-lost creatures Even these chapters, sometimes filled with personal recollections and letters, are arranged first by the modern geologic regions of California, then by chronology. The appendix is a meticulous inventory of all the fossils found to include classification, age, description, and specimen number. The glossary succinctly covers all the terms, the illustrations are numbered with brief explanations, and the bibliography is extensive. Other books describe the same types of dinosaurs and reptiles, but this one is unique in creating a complete picture of the Mesozoic era in California. The writing style is suitable for lay readers, but fossil descriptions and inventory make the work a valuable academic reference. Recommended for academic libraries, large public libraries with extensive paleontology collections, and California libraries.-Kimberly Megginson, DeWitt Medical Lib., Ft. Belvoir, VA Copyright 2003 Reed Business Information.
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Product Details

  • ISBN-13: 9780520233157
  • Publisher: University of California Press
  • Publication date: 8/29/2003
  • Edition number: 1
  • Pages: 356
  • Sales rank: 1,234,543
  • Product dimensions: 8.50 (w) x 10.00 (h) x 1.25 (d)

Meet the Author

Richard P. Hilton is Professor of Geology at Sierra College in Rocklin, California.

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Read an Excerpt

DINOSAURS and Other Mesozoic Reptiles of CALIFORNIA


By RICHARD P. HILTON

University of California

Copyright © 2003 Regents of the University of California
All right reserved.

ISBN: 0-520-23315-8


Chapter One

THE FLYING REPTILES

FLIGHT IS A COMPLICATED FUNCTION that took life literally billions of years to achieve. Insects were the first masters of the sky, evolving wings nearly 400 million years ago. It was not until the Mesozoic that reptiles achieved fight, and it took until the Cenozoic before mammals (bats) took to the air. Although today we have flying fish, flying squirrels, and even flying lizards, these are not true flyers but, rather, sophisticated gliders. Very specialized bones, muscles, and respiratory and circulatory sophistication are required to achieve the incredible coordination and stamina necessary for sustained flight.

Fossils of Mesozoic flying reptiles-the pterosaurs and the birds-are extremely rare, especially from coastal western North America. In order to fly, these creatures had to have exquisitely thin and often hollow bones, which are fragile and thus not likely to be preserved as fossils. Those that did become embedded in rock are again easily broken as they weather out of the substrate, or they may be simply so small that they are easily overlooked.

PTEROSAURS

Unlike birds that use feathers as flight surfaces, pterosaurs solved the problem of flight by having a long extended finger attached to a broad expanse of skin that trailed back along its body in the rear. Pterosaur fossils have been found primarily in marine sedimentary rocks, perhaps indicating that many pterosaurs were like pelicans and other ocean birds in lifestyle. But remains have also been found in floodplain deposits, and some of those far from shore. This perhaps shows a diversity of living habits or migrations of some species to inland areas during storms or breeding seasons. Bell and Padian (1995) report possible evidence of an Early Cretaceous pterosaur nesting site in a desert far inland from the South American shore, where there may have been less predation pressure.

The remains of three pterosaurs have been found in California, two from Butte County and one from Shasta County. In addition, Downs (1968) reported pterosaur remains from the Late Cretaceous Moreno Formation of the Panoche Hills in the western San Joaquin Valley. (This fossil was reported to have been deposited in the collection of Caltech [now at LACM]; however, no trace of this fossil has been found.) Also, a left humerus and two dorsal vertebrae of a pterosaur were found in marine Late Cretaceous rocks of eastern Oregon (Gilmore 1928). Thought first to be of a Pteranodon-like pterosaur, these fragments probably represent a species close to Quetzalcoatlus and other azhdarchid pterosaurs (Padian 1984). The presence of Late Cretaceous pterosaur remains in Oregon and northern California suggests these creatures may have been widespread in this region.

The Shasta County pterosaur was found by Patrick Embree in the Budden Canyon Formation of the Great Valley Group (Hilton et al. 1999). This find, a portion of a long bone (SC-VRF8) from a small concretion, is the oldest evidence of a flying vertebrate in the state. Ammonites (fossil mollusks) collected nearby establish an age for the pterosaur as Early Cretaceous, about 1 15 million years old (Murphy et al. 1969). Unfortunately, the fragment is not very informative as to the type of pterosaur it was from, as it is simply the midsection of a wing or leg bone (Padian, pers. comm., 1998). Fossil plants found in nearby strata indicate the animal may have lived near a warm, moist forest (Axelrod and Embree, pers. comm., 1995), probably in the foothills of the ancestral Klamath Mountains (Dickinson 1976; Nilsen 1986). Whether the pterosaur perished at sea, along a beach, or washed down a river we may never know.

The two Butte County pterosaur bones were found in 1998 by Eric Göhre at separate sites in the marine Late Cretaceous Chico Formation of Butte County. These bones, a fourth metacarpal (SC-VRF5) and an ulna (SC-VRF6), are from the wings of two large pterosaurs, and were verified with the help of Kevin Padian of the UCMP and Wann Langston of the University of Texas, Austin. Both bones were found in turbidites containing mollusk shells, shell fragments, bony fish teeth, and shark teeth, plus well-rounded cobbles of quartz and metamorphic rocks. The cobbles and some of the mollusk remains hint at a nearshore provenance for the material making up the turbidite. The well-rounded cobbles were formed in either a beach or river environment.

The largest of Göhre's pterosaur bones is the seventeen-inch fourth metacarpal. It is missing most of both articulating ends, and so would have been at least an inch or two longer. Complete, this metacarpal scales out to an animal with an approximate wingspan of at least fifteen to eighteen feet. Possible candidates include Quetzalcoatlus or Pteranodon, both found in rocks of Late Cretaceous age in North America and both reaching sizes consistent with the length of this bone (Wellnhofer 1991). Comparison of this bone with the collection at the J. J. Pickle Research Campus at the University of Texas (with the help of Wann Langston Jr.) seems to preclude Quetzalcoatlus, as a slight bend in the metacarpal indicative of Quetzalcoatlus was absent; Pteranodon thus seems the more likely identity. Pteranodon was a toothless, crested pterosaur, the largest species of which, P. sternbergi, had a wingspan exceeding thirty feet. The skull alone of P. ingens was nearly six feet long; it had relatively small eye sockets and a short neck, but its long wings enabled it to soar far from the shoreline in a probable search for fish (Wellnhofer 1991).

The second bone, the ulna, may be from a smaller animal than the metacarpal, or it may be from a juvenile of the same species as the larger animal. According to Langston, the ulna would scale up to an animal with about a six-foot wingspan.

It is interesting that both of these bones, though extremely fragile, managed to survive. The metacarpal and ulna of pterosaurs, like all their long bones, are hollow and extremely thin; flowing in the turbidity currents, they must have behaved like giant soda straws tumbling in the sediment-filled water. They survived being completely crushed only because sediment was able to flow into the broken ends, filling the open tubes. Many pterosaur bones from North America have been found crushed by the weight of the overlying sediment (Gilmore 1928).

Fossil ferns, redwoods, and leafy flowering trees found by Göhre in the Chico Formation in Butte County indicate that the area where these animals lived was just offshore from a lushly forested ancestral Sierra Nevada.

BIRDS

It now seems fairly clear that birds evolved from small meat-eating dinosaurs and are the only close relatives of dinosaurs to have survived the mass extinctions at the end of the Mesozoic. Besides having many skeletal characteristics similar to dinosaurs, birds also have scales on their legs, and a few even have claws on their wings (hoatzin and screamers, for example). Some fossil birds had teeth as well. One Late Cretaceous bird found in Madagascar has a mosaic of characteristics of both birds and theropod dinosaurs (Forster et al. 1998), and the recent find of a bird-sized theropod in Early Cretaceous rocks in the Liaoning region of China proves that some dinosaurs were small enough to have evolved into birds (Xu et al. 2000). In the same deposits an eagle-sized dromaeosaur called Sinornithosaurus millenii was found, complete with downy featherlike structures, and although it did not fly (and was possibly secondarily flightless, as are ostriches), it had evolved the prerequisites for powered flight in its shoulder girdle. It is the most birdlike of all of the dinosaurs discovered thus far (Xu, Wang, and Wu 1999). Other dinosaurs (Caudipteryx and Protarchaeopteryx, for example) found in the same area suggest that featherlike structures may have had a broad distribution on theropod dinosaurs (Xu, Tang, and Wang 1999). A nonavian dromaeosaurid dinosaur from the Early Cretaceous has been found in China that has feathers identical to those found on modern birds, perhaps indicating that feathers evolved on dinosaurs before the emergence of birds (Norell et al. 2002).

The remains of a few Mesozoic birds have been found in Alta and Baja California. These specimens probably represent only a small fraction of the avifauna that existed in California during the Cretaceous.

The first such remains (LACM-33213) in western coastal North America were found in 1971 by H. J. Garbani and J. Loewe in the Late Cretaceous La Bocana Roja Formation of northern Baja California (Morris 1974c; Brodkorb 1976). They consisted of the following bones: from the shoulder, a left scapula and left coracoid; from the wing, the right ulna (a forearm bone); from the legs, a left femur and the distal end of a right femur (upper leg bones), and the right tibiotarsus (lower leg bone) (Brodkorb 1976).

Brodkorb (1976) classified these sparrow-sized remains as belonging to a new genus and species of land bird he called Alexornis antecedens. Brodkorb named the genus Alexornis for his friend Alexander Wetmore; the species name means "going before in rank or time, ancestral," in reference to the supposed ancestry of this bird to the orders Piciformes and Coraciiformes.

In 1998 Eric Göhre found fossil bones from two species of birds at two sites in the Chico Formation of Butte County, California-the first evidence of Mesozoic birds found in Alta California. These bones, which were identified by Thomas Stidham of UCMP (Hilton et al. 1999), consist of a partial humerus (UCMP-170785) and a nearly complete ulna (UCMP-171185). The humerus is from the toothed, tern-sized bird Ichthyornis, which, much like living terns, is thought to have been a fish-eating plunge diver. The bone was found in a turbidite containing mollusk shells and fragments, bony fish teeth, and shark teeth. These materials probably had their origins nearshore and were later washed by turbidity currents into deeper water.

The ulna Göhre found is from a neognath, one of the earliest modern birds ever found, about the size of a modern pigeon. It was found in a small lens composed of shell hash also carried from a nearshore environment by a turbidity current.

In 2000 Göhre found another bird bone in the same area, an extremely large phalanx (toe bone) (SC-VBHE1). It was examined by Kevin Padian, who identified it as belonging to the genus Hesperornis, based on comparison with material illustrated by Marsh (1880). Hesperornis was a large, flightless diving bird that is known from Late Cretaceous rocks from the seaway that invaded central North America. The construction of its breastbone and shoulder shows that it evolved from a flying ancestor. Some specimens were over four feet long with strong hind limbs and lobed feet, and they used their teeth to capture swimming prey (Marsh 1880).

(Continues...)



Excerpted from DINOSAURS and Other Mesozoic Reptiles of CALIFORNIA by RICHARD P. HILTON Copyright © 2003 by Regents of the University of California. Excerpted by permission.
All rights reserved. No part of this excerpt may be reproduced or reprinted without permission in writing from the publisher.
Excerpts are provided by Dial-A-Book Inc. solely for the personal use of visitors to this web site.

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Table of Contents

List of Illustrations
Foreword by Kevin Padian
Acknowledgments
Preface

Introduction

Part I California During the Age of Reptiles
1. Geologic History
2. The Dinosaurs
3. The Flying Reptiles
4. The Marine Reptiles

Part II The History of Discovery
5. The Northern Provinces
6.The Southern Provinces

Appendix A. Reptilian Family Tree
Appendix B. Summary of the Mesozoic Reptilian Fossils of California.
Museums and Web Sites
Bibliography

Index

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  • Anonymous

    Posted January 3, 2013

    About all the information there is.

    This book is basically a collection of all the known information about dinosaurs in Cali and of their discovery. To be clear here, there isn't much, which is why the state never seems to be mentioned in other books. According to this book, California was underwater for most of the Mesozoic and finds from practically every location besides Baja have all been from marine sediments and tend to be broken and scattered. Even with such little information to go on, this book does a good job of presenting it to create a picture of each region in each time period, and explaining the geological processes that created it. There are also illustrated sections on each type of animal that has been found, as well as the standard summaries of plate tectonics and such. Part 2 is about the discovery of fossils, mostly in the first half of the century, and varies with the available info from a list of finds to extremely detailed, almost day-by-day accounts of individual expeditions.

    For those who are interested specifically in the history of California, it's very helpful that someone took the time to write this book, and it's hard to see how it could have been any better.

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