Micrometeorites played an essential role in the formation of the atmosphere of the Early Earth and also served as a significant source of activation for organic prebiotic chemistry on mineral surfaces. The present book gives a coherent account of this scenario, embedding the more specific results within a broader framework that considers the creation and evolution of the Early Earth. It thus addresses students and nonspecialist researchers in the fields of planetary atmospheres, biogeophysics and astrobiology. The experienced researcher will find this volume to be a modern and compact reference, as well as a source of material for lectures in this field.

The biological effects of asteroid and comet impacts have been widely viewed as primarily destructive. The role of an impactor in the K/T boundary extinctions has had a particularly important influence on thinking concerning the role of impacts in ecological and biological changes. th During the 10 and final workshop of the ESF IMPACT program during March 2003, we sought to investigate the wider aspects of the involvement of impact events in biological processes, including the beneficial role of these events from the prebiotic through to the ecosystem level. The ESF IMPACT programme (1998-2003) was an interdisciplinary effort that is aimed at understanding impact processes and their effects on the Earth environment, including environmental, geological and biological changes. The IMPACT programme has 15 member states and the activities of the programme range from workshops to short courses on topics such as impact stratigraphy, shock metamorphism, etc. The program has also awarded mobility grants and been involved in the development of teaching aids and numerous publications, including this one.

Islands are special places; they can be havens for unique plants and animals and refuges for wildlife. This book investigates the biogeography of butterfly species over the British islands, particularly the factors that influence their presence on the islands and that have made each island's butterfly fauna distinctive. The book contains a full log of records of species on the islands and much supporting information. The first three chapters set the scene, illustrating the basics of island biogeography theory, their changing circumstances during the current Holocene interglacial, and studies of natural history of British butterflies that mark the islands as the most intensively studied region for wildlife in the world. The book advances by increasing resolution downscale from a European continental perspective, through patterns and changes on the British mainland, a comparison of the two dominant islands of Britain and Ireland, to a close inspection of the dynamics of species on the multitude of offshore islands. Detailed investigations include contrasts in species' richness on the islands and then of the incidences of each species. Case studies highlight the continual turnover of species on islands. Attention is then given to evolutionary changes since the time that glaciers enveloped Europe. A powerful message is conveyed for the maintenance of butterfly species on the smaller British islands now experiencing population losses at a rate unprecedented since the spread of the last ice sheets: the incontrovertible importance of maintaining populations of species on nearby mainland sources for islands as pools for future migrants.

Radiolaria are a very diverse marine siliceous microplankton group that have existed at least snice the Cambrian to the recent. This volume gives a representative view of research topics discussed at the 10th International Meeting of Radiolarian Palaeontologists. The articles of this volume cover mainly radiolarian biochronology and radiolarian fauna changes.

Advances in our understanding of the nitrogen cycle and the impact of anthropogenic activities on regional to global scales depend on the expansion of scientific studies to these fast-developing regions. This book presents a series of studies from across the Americas whose aim is to highlight key natural processes that control nitrogen cycling as well as discuss the main anthropogenic influences on the nitrogen cycle in both the tropical and temperate regions of the Americas.

When and where did the ancestors of modern birds evolve? What enabled them to survive the meteoric impact that wiped out the dinosaurs? How did these early birds spread across the globe and give rise to the 10,600-plus species we recognise today from the largest ratites to the smallest hummingbirds? Based on the latest scientific discoveries and enriched by personal observations, The Ascent of Birds sets out to answer these fundamental questions. The Ascent of Birds is divided into self-contained chapters, or stories, that collectively encompass the evolution of modern birds from their origins in Gondwana, over 100 million years ago, to the present day. The stories are arranged in chronological order, from tinamous to tanagers, and describe the many dispersal and speciation events that underpin the world's 10,600-plus species. Although each chapter is spearheaded by a named bird and focuses on a specific evolutionary mechanism, the narrative will often explore the relevance of such events and processes to evolution in general. The book starts with The Tinamou's Story, which explains the presence of flightless birds in South America, Africa, and Australasia, and dispels the cherished role of continental drift as an explanation for their biogeography. It also introduces the concept of neoteny, an evolutionary trick that enabled dinosaurs to become birds and humans to conquer the planet. The Vegavis's Story explores the evidence for a Cretaceous origin of modern birds and why they were able to survive the asteroid collision that saw the demise not only of dinosaurs but of up to three-quarters of all species. The Duck's Story switches to sex: why have so few species retained the ancestral copulatory organ? Or, put another way, why do most birds exhibit the paradoxical phenomenon of penis loss, despite all species requiring internal fertilisation? The Hoatzin's Story reveals unexpected oceanic rafting from Africa to South America: a stranger-than-fiction means of dispersal that is now thought to account for the presence of other South American vertebrates, including geckos and monkeys. The latest theories underpinning speciation are also explored. The Manakin's Story, for example, reveals how South America's extraordinarily rich avifauna has been shaped by past geological, oceanographic and climatic changes, while The Storm-Petrel's Story examines how species can evolve from an ancestral population despite inhabiting the same geographical area. The thorny issue of what constitutes a species is discussed in The Albatross's Story, while The Penguin's Story explores the effects of environment on phenotype in the case of the Emperor penguin, the harshest on the planet. Recent genomic advances have given scientists novel approaches to explore the distant past and have revealed many unexpected journeys, including the unique overland dispersal of an early suboscine from Asia to South America (The Sapayoa's Story) and the blackbird's ancestral sweepstake dispersals across the Atlantic (The Thrush's Story). Additional vignettes update more familiar concepts that encourage speciation: sexual selection (The Bird-of-Paradise's Story); extended phenotypes (The Bowerbird's Story); hybridisation (The Sparrow's Story); and 'great speciators' (The White-eye's Story). Finally, the book explores the raft of recent publications that help explain the evolution of cognitive skills (The Crow's Story); plumage colouration (The Starling's Story); and birdsong (The Finch's Story)

The Mediterranean Basin, California, Chile, the western Cape of South Africa and southern Australia share a Mediterranean climate characterized by cool wet winters and hot dry summers. These five regions have differing patterns of human settlement but similarities in natural vegetation and some faunal assemblages. The similarities are being enhanced by an increasing level of biotic exchange between the regions as time passes since European settlement in each region. This unique documentation of the introduced floras and faunas in these five regions of Mediterranean climate both increases our understanding of the ecology of biological invasions, and points the way to more effective management of the biota of these regions. This book is an initiative of a subcommittee of SCOPE (Scientific Committee on Problems of the Environment) which realized that the integrity of many natural ecosystems was being threatened by the ingress of invasive species.

The species-area relationship (SAR) describes a range of related phenomena that are fundamental to the study of biogeography, macroecology and community ecology. While the subject of ongoing debate for a century, surprisingly, no previous book has focused specifically on the SAR. This volume addresses this shortfall by providing a synthesis of the development of SAR typologies and theory, as well as empirical research and application to biodiversity conservation problems. It also includes a compilation of recent advances in SAR research, comprising novel SAR-related theories and findings from the leading authors in the field. The chapters feature specific knowledge relating to terrestrial, marine and freshwater realms, ensuring a comprehensive volume relevant to a wide range of fields, with a mix of review and novel material and with clear recommendations for further research and application.

Das Buch untersucht die Auswirkungen von Anderungen der Waldbewirtschaftung, derzeit vorwiegend von nadelbaumdominierten Reinbestanden in strukturierte Mischwalder. Innerhalb einer nachhaltigen und naturnahen Waldwirtschaft wird dieser Prozess als okologischer Waldumbau bezeichnet. Er wird aktuell von den offentlichen Forstverwaltungen in Deutschland und Mitteleuropa forciert.

Einleitend beschreiben die Autoren Ziele, Moglichkeiten und Erfordernisse des okologischen Waldumbaus. Basierend auf wissenschaftlichen Untersuchungen werden die mit dem Waldumbau einhergehenden Probleme und die zu erwartenden Folgen unter okologischen, naturschutzfachlichen und betriebswirtschaftlichen Gesichtspunkten, verstandlich fur das Fachpublikum wie auch die Praxis, beleuchtet. Schwerpunkte sind dabei Effekte des Waldumbaus auf das Okosystem Wald und benachbarte Okosysteme, auf Stoffhaushalt, Artenzusammensetzung und Biodiversitat, ebenso wie die okonomischen Risiken, der Einfluss der Besitzverhaltnisse und die Technikfolgen."

We shall limit our observations to the conditions in natural ecosystems, since it would be beyond the scope of this book to embark upon a consideration of secondary, man-made ecosystems. 2. Classification of the Geo-biosphere into Zonobiomes The biosphere is the thin layer of the earth's surface to which the phenomena connected with living matter are confined. On land, this comprises the lowest layer of the atmosphere permanently inhabited by living organisms and into which plants extend, as well as the root-containing portion of the lithosphere, which we term the soil. Living organisms are also found in all bodies of water, to the very depths of the oceans. In a watery medium, however, cycling of material is achieved by means other than those on land, and the organisms (plankton) are so different that aquatic ecosystems have to be dealt with separately. The biosphere is therefore subdivided into (a) the geo-biosphere comprising terrestrial ecosystems, and (b) the hydro-biosphere, comprising aquatic ecosystems, which is the field of hydrobiologists (oceanographers and limnologists) . Our studies are confined to the geo-biosphere (Walter 1976), which constitutes the habitat of man and is, therefore, of special interest. The prevailing climate, being the primary independent factor in the environment, can be used as a basis for further subdivision of the geo-biosphere since the formation of soil and type of vegetation are dependent upon it (see p. 3), and it has not yet been substantially influenced by man.

This is an introductory text to biogeography. The contents are arranged into four main parts. Part one deals with the Earth's physical processes and energy cycles, eg lunar and circadian patterns. Part two covers the evolution and development of the biosphere. Here, theories and evidence for the generation of the Earth's atmosphere and interactions between early organisms and the environment are covered. This is followed by sections on continental drift and its impact on flora and fauna along with a description of ice age events and their biogeographic implications. Part three provides examinations of varying situations such as freshwater, marine, terrestrial, island and climatic environments. The concluding chapters of this section look at environments linked by animal migrations and coevolution, and the interactions of soils, plants, animals and their products in functioning communities. Part four deals with the impact of mankind on the planet. Key aspects discussed here include the influence of agriculture, petroleum and petrochemicals, the creation and extermination of plants and animals, and urban industrial development on the evolution of patterns of life on our world.

Wetlands serve many important functions and provide numerous ecological services such as clean water, wildlife habitat, nutrient reduction, and flood control. Wetland science is a relatively young discipline but is a rapidly growing field due to an enhanced understanding of the importance of wetlands and the numerous laws and policies that have been developed to protect these areas. This growth is demonstrated by the creation and growth of the Society of Wetland Scientists which was formed in 1980 and now has a membership of 3,500 people. It is also illustrated by the existence of 2 journals ("Wetlands" and "Wetlands Ecology and Management") devoted entirely to wetlands.

To date there has been no practical, comprehensive techniques book centered on wetlands, and written for wetland researchers, students, and managers. This techniques book aims to fill that gap. It is designed to provide an overview of the various methods that have been used or developed by researchers and practitioners to study, monitor, manage, or create wetlands. Including many methods usually found only in the peer-reviewed or gray literature, this 3-volume set fills a major niche for all professionals dealing with wetlands."

While the influence of Alexander von Humboldt (1769-1859) looms large over the natural sciences, his legacy reaches far beyond the field notebooks of naturalists. Von Humboldt's 1799-1804 research expedition to Central and South America with botanist Aime Bonpland not only set the course for the great scientific surveys of the nineteenth century, but also served as the raw material for his many volumes--works of both scientific rigor and aesthetic beauty that inspired such essayists and artists as Emerson, Goethe, Thoreau, Poe, and Frederic Edwin Church.
"Views of Nature," or "Ansichten der Natur," was von Humboldt's best-known and most influential work--and his personal favorite. While the essays that comprise it are themselves remarkable as innovative, early pieces of nature writing--they were cited by Thoreau as a model for his own work--the book's extensive endnotes incorporate some of von Humboldt's most beautiful prose and mature thinking on vegetation structure, its origins in climate patterns, and its implications for the arts. Written for both a literary and a scientific audience, "Views of Nature" was translated into English (twice), Spanish, and French in the nineteenth century, and it was read widely in Europe and the Americas. But in contrast to many of von Humboldt's more technical works, "Views of Nature" has been unavailable in English for more than one hundred years. Largely neglected in the United States during the twentieth century, von Humboldt's contributions to the humanities and the sciences are now undergoing a revival to which this new translation will be a critical contribution.

The second edition of this widely cited textbook continues to provide a concise but comprehensive introduction to cave and subterranean biology, describing this fascinating habitat and its biodiversity. It covers a range of biological processes including ecosystem function, evolution and adaptation, community ecology, biogeography, and conservation. The authors draw on a global range of examples and case studies from both caves and non-cave subterranean habitats. One of the barriers to the study of subterranean biology has been the extraordinarily large number of specialized terms used by researchers; the authors explain these terms clearly and minimize the number that they use. This new edition retains the same 10 chapter structure of the original, but the content has been thoroughly revised and updated throughout to reflect the huge increase in publications concerning subterranean biology over the last decade.

Die folgenden Ausfiihrungen behandeln die Absehatzung der Seitendruek- ziffer A fiir den Orange-Fish-Tunnel in Siidafrika. 3 Der Tunnel solI eine Wassermenge von 50 m /see vom Verwoerd-Stausee des Orange-River in das Gebiet des grofSen Fish-River bringen, urn dieses zu bewassern. Die Gesamtlange des Tunnels betragt etwa 85 km, der Ausbruehsdureh- messer 6 m. Der Orange-Fish-Tunnel dureh6rtert eine im geologischen Sinne ruhige Landschaft. Er liegt im Karroo-Becken, welches von Sedimenten, vorwiegend Sandsteinen, Sehluffsteinen und Steinmergeln gefii11t ist. Die Ablagerungen sind dureh einen haufigen Weehsel dieser Gesteins- arten sowohl in horizontaler wie in vertikaler Erstreckung gekennzeiehnet und werden von Dolerit-Intrusionen durehadert. Der Tunnel wird von mehreren Orten zugleieh vorgetrieben. Yom Ein- lafSbauwerk aus, von sieben Zugangssehaehten und vom AuslafSbauwerk aus. Es war vorgesehen, den Tunnel mit einem rasehen Vortrieb aufzufahren. Ober weite Strecken (etwa 85 %) des Tunnels war eine geringfiigige, provi- sorische Sicherung durch Anker sowie eine endgiiltige Betonauskleidung von etwa 23 em Dicke vorgesehen (diese fiir die ganze Tunnellange). Beim Tunnelvortrieb sind jedoeh unerwartete Sehwierigkeiten aufgetre- ten, und auch in der betonierten endgiiltigen Auskleidung stellten sich Risse ein, die nicht erwartet worden waren. 2. Abschatzung der Seitendruckziffer aus der Geologischen Vorgeschichte Yom Kenntnisstand des Untertagebaues zum Zeitpunkt der Projektierung des Orange-Fish-Tunnel ausgehend ist zu sagen, dafS in etwa mit A-Werten im Bereich von 0,25 bis 1,2 zu rechnen war.

This visual guide is packed with amazing diagrams and infographics to answer all your burning scientific head-scratchers - from gravity and black holes to earthquakes and gene therapy. In How Science Works you will find the most fascinating phenomena in the Universe visually explained, from pulleys to string theory, light to lasers, and chemical reactions to artificial intelligence. If you have ever wondered why the sky is blue, how a black hole works, or what happens in a tsunami, this indispensable guide is for you. Rather than long columns of text, How Science Works is filled with diagrams and infographics, to make even the most difficult concept fun and easy to grasp. Turn the pages to understand dark matter, radioactivity and so much more, and find answers to the really big questions including how life began, will the Universe end, and are we really alone? With hours of enthralling reading, How Science Works is the book you wished you'd had at school and it's the one you'll want for your family.

This book begins with the physical and biological characterization of the four North American deserts and a description of the primary adaptations of plants to environmental stress. In the following chapters the authors present case studies of key species representing dominant growth forms of the North American deserts, and provide an up-to-date and comprehensive review of the major patterns of adaptations in desert plants. One chapter is devoted to several important exotic plants that have invaded North American deserts. The book ends with a synthesis of the adaptations and resource requirements of North American desert plants. Further, it addresses how desert plants may respond to global climate change.

Invasive non-native species are a major threat to global biodiversity. Often introduced accidentally through international travel or trade, they invade and colonize new habitats, often with devastating consequences for the local flora and fauna. Their environmental impacts can range from damage to resource production (e.g. agriculture and forestry) and infrastructure (e.g. buildings, road and water supply), to human health. They consequently can have major economic impacts. It is a priority to prevent their introduction and spread, as well as to control them. Freshwater ecosystems are particularly at risk from invasions and are landscape corridors that facilitate the spread of invasives.

This book reviews the current state of knowledge of the most notable global invasive freshwater species or groups, based on their severity of economic impact, geographic distribution outside of their native range, extent of research, and recognition of the ecological severity of the impact of the species by the IUCN.

As well as some of the very well-known species, the book also covers some invasives that are emerging as serious threats. Examples covered include a range of aquatic and riparian plants, insects, molluscs, crustacea, fish, amphibians, reptiles and mammals, as well as some major pathogens of aquatic organisms.

The book also includes overview chapters synthesizing the ecological impact of invasive species in fresh water and summarizing practical implications for the management of rivers and other freshwater habitats.

Biogeography is the study of geographic variation in all characteristics of life - ranging from genetic, morphological and behavioural variation among regional populations of a species, to geographic trends in diversity of entire communities across our planet's sufrace. From the ancient hunters and gatherers to the earliest naturalists, Charles Darwin, Alfred Russel Wallace, and scientists today, the search for patterns in life has provided insights that proved invaluable for understanding the natural world. And many, if not most, of the compelling kaleidoscope of patterns in biological diversity make little sense unless placed in an explicit geographic context. The Very Short Introduction explains the historical development of the field of biogeography, its fundamental tenets, principles and tools, and the invaluable insights it provides for understanding the diversity of life in the natural world. As Mark Lomolino shows, key questions such as where species occur, how they vary from place to place, where their ancestors occurred, and how they spread across the globe, are essential for us to develop effective strategies for conserving the great menagerie of life across our planet. ABOUT THE SERIES: The Very Short Introductions series from Oxford University Press contains hundreds of titles in almost every subject area. These pocket-sized books are the perfect way to get ahead in a new subject quickly. Our expert authors combine facts, analysis, perspective, new ideas, and enthusiasm to make interesting and challenging topics highly readable.

Changing concentrations of greenhouse gasses are key to our changing climate. Biogochemical Cycles and Climate examines the interaction of the main biogeochemical cycles of the earth with the physics of climate from the perspective of the earth as an integrated system. Biogeochemical cycles play a fundamental role in the Earth's system - they describe the movement of matter and transfer of energy around the planet. This text aims to answer some fundamental questions. How have the cycles of key nutrients, such as carbon, nitrogen, phosphorous, and water changed, both in the geological past and more recently through the impact of humans on the Earth System? How do these cycles interact with each other and affect the physical properties of climate? How can we use this knowledge to mitigate some of the impacts of changing biogeochemistry on climate, and the Earth's habitability and resilience? Understanding the complex interactions of biogeochemistry with the Earth's climate is crucial for understanding past and current changes in climate and above all, for the future sustainable management of our planet.

This book provides a comprehensive overview of the taxonomy, biology, sedimentation, and carbonate geochemistry of modern species. Students, early career and advanced scientists alike will profit from a broad synthesis of the current understanding of planktic foraminifers as an ecological indicator, biogeochemical factories, and proxies in paleoceanography. The classification of modern species is amply illustrated with electron and light microscope images of morphotypes, addresses the state-of-the-art of molecular genetics of species, and provides a detailed guide for any laboratory analyses. The biology of planktic foraminifers is extensively discussed in chapters dedicated to the cellular ultrastructure, nutrition, symbionts, reproduction, ontogeny, and test architecture. Building on the biological prerequisites, the distribution of planktic foraminifers is discussed at regional to global scale. The geochemistry and sedimentation of tests are considered in relation to the ecology of the living animal. In the final chapter, which examines the most common methods in planktic foraminifer research, hands-on information is provided on sampling, processing and analyzing samples in the laboratory, as well as selected established methods for data interpretation. The various topics discussed in this book are aimed at the application of planktic foraminifers as sensitive indicators of the changing climate and marine environment.

Geography into the Twenty-first Century brings together teachers from higher and school education to debate the challenges confronting the teaching of geography at the beginning of the new millennium. It presents a collection of edited essays looking at the main developments in the areas of human, physical and environmental geography and the impact of the recent changes in the way that geography is taught in schools, colleges and universities. A particular objective of the book is to examine common issues and objectives which cross the school to higher education divide. Some of the world s leading geographers, including Peter Haggett, Ron Johnston and Tim O Riordan have contributed broad-ranging assessment of how the new research directions and agendas which are revitalising academic geography can be communicated in an exciting and meaningful way to students of all ages. The book also shows how the exacting needs and aspirations of modern geography students and their teachers can revitalise and inspire research endeavours. The fundamental purpose of this timely book is to show how dialogue in geographical education at all levels is essential to the future of a rapidly changing discipline. Rich in ideas, broad in examples and inspiring in its commitment to the improvement of the content and method of geographical education, Geography into the Twenty-first Century is a landmark volume that will be a constant source of reference, guidance and issues for debate for everyone professionally concerned with the teaching of geography. It also provides a unique portrait of a lively discipline at a particularly significant point in its evolution.

Group living is a widespread phenomenon amongst animals and has attracted considerable attention in a number of different contexts. This book focuses on the unifying concepts regarding group behaviour that have been developed over the last two decades. The authors discuss the mechanisms that govern the evolution and maintenance of grouping behaviour throughout the animal kingdom, and the factors that control observed group size and group composition in particular situations. Although the book's emphasis is on the elaboration of a conceptual framework, extensive examples and case studies illustrate the diversity of grouping phenomena across taxonomic boundaries, and demonstrate the general applicability of the concepts involved. Living in Groups will familiarize the reader with the latest ideas on the ecology and evolution of group-living animals, providing a summary and critical synthesis of the extensive and diverse literature on the subject.

The first edition of Cladistic Biogeography was published in 1986. It was a concise exposition of the history, methods, applications of, and prospects for cladistic biogeography, or the study of the historical and evolutionary relationships between species based on their distribution patterns. Well reviewed, and widely used in teaching, Cladistic Biogeography is still in demand, despite having been out of print for some time. This new edition has been updated throughout, with several chapters being rewritten and expanded to incorporate the latest research findings and theoretical and methodological advances in this dynamic field.

Truly high altitude aquatic ecosystems are found primarily at lower latitudes: vast regions in the tropical part of the Andes, the Himalayas and Tibet, considerable areas in East Africa, and minor zones of Oceania. However, despite their abundance in these regions, their biology and ecology has never been summarized in detail. A current synthesis of the topic is therefore timely. High altitude waters are ideal systems with which to address a broad range of key and topical themes in ecology, both at the regional and global scales. From specific functional adaptations of aquatic species to harsh environmental conditions through to global diversity patterns along altitudinal gradients and extinction risks of mountain populations due to vanishing glaciers, ecological patterns and processes found in high altitude waters are both diverse and singular. Although poorly considered in classical textbooks of ecology and limnology, high altitude waters have much to offer existing (aquatic) ecological theories and applications. These often threatened and exploited habitats are also ideal for studying the intimate interactions between social and ecological systems that characterize the majority of ecosystems in the Anthropocene.