Download Free Elements Of Micropalaeontology Book in PDF and EPUB Free Download. You can read online Elements Of Micropalaeontology and write the review.

This title provides comprehensive coverage of the features, technology and principles of the product RAC that is part of the Oracle9i release of Oracle's RDBMS product. This book is divided into three main parts covering various areas of the application/database design, development and maintenance life cycles. Starting with the fundamentals, an introduction to the concepts of the various hardware architectures and the clustering technology available, the book discusses the pros and cons, leading into discussion of the RAC technology. After the formal introduction of the concepts of clustering and configurations, the book discusses the various theories of asynchronous (parallelism) and synchronous processing and how this theory could be applied to the database tier of the enterprise architecture.
This book will help readers learn the basic skills needed to study microfossils especially those without a formal background in paleontology. It details key principles, explains how to identify different groups of microfossils, and provides insight into their potential applications in solving geologic problems. Basic principles are addressed with examples that explore the strengths and limitations of microfossils and their geological records. This overview provides an understanding of taphonomy and quality of the fossil records, biomineralization and biogeochemistry, taxonomy, concepts of species, and basic concepts of ecology. Readers learn about the major groups of microfossils, including their morphology, ecology, and geologic history. Coverage includes: foraminifera, ostracoda, coccolithophores, pteropods, radiolaria, diatoms, silicoflagellates, conodonts, dinoflagellates, acritarch, and spores and pollens. In this coverage, marine microfossils, and particularly foraminifera, are discussed in more detail compared with the other groups as they continue to play a major role in most scientific investigations. Among the various tracers of earth history, microfossils provide the most diverse kinds of information to earth scientists. This richly illustrated volume will help students and professionals understand microfossils, and provide insight on how to work with them to better understand evolution of life, and age and the paleoenvironment of sedimentary strata.
Microfossils through Time: An Introduction is the first textbook of micropaleontology addressing undergraduate students. It presents an introduction to each group of microfossils, from bacteria to microscopical debris of vertebrates, demonstrating the broad range of study of this subdiscipline of paleontology. Not only those groups of microscopic fossils, which are traditionally considered relevant to micropaleontology, are presented (e.g., dinoflagellates, charophytes, radiolarians, spores and pollen, ostracods, chitinozoans, etc), but also others that often occur in micropaleontological samples (e.g., bivalves, echinoderms, fish debris, mammalian teeth, etc). Each of the more than forty microfossil groups are presented in an order that follows the paleontological classification, with a history of study and a variety of data on morphology, living habitats, stratigraphical distribution and their evolution, as inferred from the fossil record. The text is intended as the starting point for a new generation of textbooks that presents micropaleontology in a new structure capable of assuring an efficient transfer of expertise to the younger generations of scientists. This book will help those making their first steps in micropaleontology to develop defensible models of what microfossils are, laying the foundations for fundamental and applied studies. It introduces micropaleontology as a tool for conducting applied studies in biostratigraphy, paleoecology and for paleobathymetric estimates, basin analysis and reconstructing geological history, or related to sequence stratigraphy. It also addresses students and specialists in biology and genetics, offering a solid data base to be integrated with the other two principal components of the triad of sciences that studies the evolution of life on Earth.
Principles of Zoological Micropalaeontology, Volume 2 highlights the morphological, phylogenetic and ecological analysis of microfossils. This book is composed of eight chapters that survey the most important microfossil taxa, their variety of form, evolution, relationships, and distribution. The first chapters describe the general morphology and characteristics of skeletal elements of main groups of sponges, melanoscleritoids, polychaetes, and conodonts. Other chapters deal with the anatomy, reproduction, ecology, phylogenetics, classification, and geological distribution of Ostracod and Echinodermata. The last chapters examine the morphological, phylogenetic, and structural aspects of class Ascidiacea and fish microfossils. This book is of great value to micropalaeontologists, zoologists, phylogeneticists, and taxonomists.
Microfossils are ideally suited to environmental studies because their short generation times allow them to respond rapidly to environmental change. This book represents an assessment of the progress made in environmental micropalaeontology and sets out future research directions. The taxa studied are mainly foraminifera, but include arcellaceans, diatoms, dinoflagellates, and ostracodes. The papers themselves range from reviews of applications of particular taxa to specific case studies.
Training a powerful lens on the microscopic wonders of the universe, hundreds of photos, both exquisite and strange, accompany this startling exposé of a secret world invisibly evolving around us for billions of years. Silver Winner of the 2021 IBPA Benjamin Franklin Award for Nature & Environment Microfossils—the most abundant, ancient, and easily accessible of Earth's fossils—are also the most important. Their ubiquity is such that every person on the planet touches or uses them every single day, and yet few of us even realize they exist. Despite being the sole witnesses of 3 billion years of evolutionary history, these diminutive fungi, plants, and animals are themselves invisible to the eye. In this microscopic bestiary, prominent geologist, paleontologist, and scholar Patrick De Wever lifts the veil on their mysterious world. Marvelous Microfossils lays out the basics of what microfossils are before moving on to the history, tools, and methods of investigating them. The author describes the applications of their study, both practical and sublime. Microfossils, he explains, are indispensable in age-dating and paleoenvironmental reconstruction, which guide enormous investments in the oil, gas, and mining industries. De Wever shares surprising stories of how microfossils made the Chunnel possible and have unmasked perpetrators in jewel heists and murder investigations. He also reveals that microfossils created the stunning white cliffs on the north coast of France, graced the tables of the Medici family, and represent our best hope for discovering life on the exoplanets at the outer edges of our solar system. Describing the many strange and beautiful groups of known microfossils in detail, De Wever combines lyrical prose with hundreds of arresting color images, from delicate nineteenth-century drawings of phytoplankton drafted by Ernst Haeckel, the "father of ecology," to cutting-edge scanning electron microscope photographs of billion-year-old acritarchs. De Wever's ode to the invisible world around us allows readers to peer directly into a minute microcosm with massive implications, even traversing eons to show us how life arose on Earth.
Principles of Zoological Micropalaeontology, Volume II focuses on the study of microfossils. The book first discusses the nature and characteristics of sponges, including the morphology and main groups of sponge spicules, modifications of the shape of sponge spicules, and arrangement of skeletal elements. The text also looks at octocorals and scolecodonts. The taxonomic relationships of the melanoscleritoids; anatomy of the anterior part of the digestive system tract of polychaeta; and classification of scolecodonts are described. The selection also touches on conodonts. Topics include morphology; phylogeny of lamellar conodonts; and geological distribution of conodonts and their value in correlation. The text also examines ostracoda and echinodermata, including reproduction, sexual dimorphism, ecology of ostracods, and skeletal elements of crinoidea, echinoidea, and holothuroidea. The book also discusses otoliths. Topics include nomenclature and morphology of otoliths; geological distribution and value of otoliths, and history of research. The text is a good source of information for readers interested in fossils.
Many papers have noted the association between micropaleontology and petroleum exploration, but no book has ever provided a comprehensive and thematic treatment. This book attempts to do just that. It begins with an overview of pure micropaleontology, then treats the principles and practice of applied micropaleontology and sequence stratigraphy; case studies of applications in various geographic, geologic, and stratigraphic settings are given. The final section deals with applications outside petroleum exploration, with sections on environmental monitoring, coal mining, mineral exploration and exploitation, and engineering. Extensively illustrated and referenced, this book will benefit academic and commercial paleontologists.
Earth Sciences, Volume X: Principles of Zoological Micropalaeontology highlights the morphological, phylogenetic and ecological analysis of microfossils. This book is composed of 10 chapters that survey the most important microfossil taxa, their variety of form, evolution, relationships, and distribution. The opening chapter provides an introduction to the historical development of micropalaeontology. The succeeding chapters present the procedures for the collection, preparation, and microstratigraphic analysis of microfossils. The remaining chapters discuss the morphological, ecological, and phylogenetic properties of Radiolaria, Thekamoebae, Foraminifera, Tintinnina, Incertae sedis, Chitinozoa, and Hystrichosphere microfossils. This book is intended as a textbook and as a manual for practicing micropalaeontologists.
This is a text book of 'Applied Micropalaeontology' with number of aspects of the microfossils to make their taxonomy interpretative. Since they were 'once-living microorganisms', it also forms a part of the biological subjects. Besides, it also covers important developments that took place within the last seven decades in the study of foraminifera, ostracoda, calcareous nannoplanktons, diatoms and conodonts by transforming their ecological-data in the 'rich-text' enabling students to understand the trend of their applications in the recent exploration-techniques for oil and other minerals.