Safeguarding Mountain Ecosystems: A Global Challenge provides an overview of the relevant research in mountain regions worldwide, identifying existing challenges and providing an understanding of the diversity of mountain ecosystems in different regions. Mountain ecosystems are increasingly vulnerable to modified climate conditions and other global changes (demographic, migration, urbanization). In this time of change, efforts for sustainable development in mountain ecosystems deserve all the attention, especially in synergy with the United Nations’ International Frameworks, including the Sustainable Development Agenda 2030, the Sendai Framework for Disaster Risk Reduction, the Paris Agreement, and the New Urban Agenda.Sections underline the importance of mountain regions for humanity at global, regional and local scales, describe the challenges of safeguarding mountains and possible solutions worldwide, and scrutinize regional specificities of the major mountain ranges, describing the challenges and opportunities of each. Final sections reflect on applications and technologies that address and solve major problems.

An extraordinary life, recorded for posterity, by a man who beat adversity in his earlier days to fulfil his ambition to succeed in the commercial world. John Lucken tells the story of his time from an old-style naval school of the 1930s, thorugh WW11 and the Korean War to entering the field of hydrographic survey and exploration worldwide. He recalls working in Borneo and in the former Dutch New Guinea before the arrival there of the powerful mining companies and the influx of thousands of immigrants from other parts of Indonesia. He was present in Nigeria when the first oil well was discovered and stayed in contact throughout the Biafran civil war. Emotional recollections that are a real eye-opener and a lesson to anyone sat behind a desk in Britain about just how different a life can be.

The Isle of Wight is a geological gem with its 110km (68 mile) long coastline displaying a range of rocks dating from Lower Cretaceous to Oligocene age. Many of the sands and clays yield fossil bivalves and gastropods, and its famous dinosaur footprints attract much attention from geologists and tourists alike. Yet the scenic beauty of the island is the product of its differing strata, former earth movements and the erosive power of the sea and the rivers. The monoclinal fold that crosses the island forms the chalk downland ridge that ends in the splendid cliffs of Culver in the east and The Needles in the west. By contrast, the softer rocks produce low, slumped cliffs often cut by steep-sided chines or alternatively, on the north coast, branching estuaries and salt marsh creeks. With over 120 colour illustrations this book discusses the geological processes that created the island's distinctive landscape; it provides a field guide to the identification of rocks and fossils and includes details of nineteen itineraries to discover the geological examples and fossils discussed.

This book is one of a popular and exciting series that seeks to tell the story of some of Britain's most beautiful landscapes. Written with the general reader - the walker, the lover of the countryside - firmly in mind, these pages open the door to a fascinating story of ancient oceans, deltas, mineralization and tundra landscapes. Over millions of years the rocks that now form the spectacular terrains of the White Peak and the Dark Peak were laid down on the floors of tropical seas and deformed by plate tectonics before being shaped by streams and rivers. The white limestone was fretted into its own distinctive landscape above hidden cave systems; then generations of miners and farmers modified and contributed to the landscapes we see today. With the help of photographs that are largely his own, geologist Tony Waltham tells the remarkable story of the Peak District, explaining just how the landscapes of limestone plateau, grit moors and river valleys came to look as they do. Including suggestions for walks and places to visit in order to appreciate the best of the National Park's landforms, this accessible and readable book opens up an amazing new perspective for anyone who enjoys this varied and beautiful area.

Skuif handel oor die evolusie van ons wêreld vanaf die begin van lewe tot in die toekoms. Die boek gee ’n ongelooflike oorsig van elke tydperk in die aarde se tektoniese geskiedenis. Hierdie verstommende visuele voorstelling van die aarde se geologiese geskiedenis beskryf die verskuiwing van landmassas en die ontwikkeling van die kontinente soos ons dit vandag ken.

Met pragtige wêreldkaarte en illustrasies wat die oorsprong van lewe uitbeeld en die aarde se moontlike toekoms vorspel, is Skuif die ideale gids tot ons planeet se geskiedenis. Martin Ince beskryf op toeganklike wyse wat die impak van geologiese veranderinge op die lewe op aarde is.

Handbook of Mineral Spectroscopy, Volume Two: Infrared Spectra, a Four Volume Set presents a database of Infrared spectra, showing both full spectra and high-resolution spectral regions with band component analyses of rock-forming and major ore minerals. IR of minerals is a very powerful technique for analyzing the different vibrational modes of minerals (in particular functional groups) but also the local environment of atoms in a crystal structure. The book includes a section on silicates and one on non-silicates, subdivided according to the normal mineral classes. This book is a go-to guide for anyone working with minerals and can be used for research and writing or as a handbook in the laboratory while running analyses of minerals.

Stratigraphy Timescales, Volume Seven in the Advances in Sequence Stratigraphy series, covers research in stratigraphic disciplines, including the most recent developments in the geosciences. This fully commissioned review publication aims to foster and convey progress in stratigraphy with its inclusion of a variety of topics surrounding the latest research and findings in sequence stratigraphy.

This book is intended to be the most complete and up-to-date guide to the geology and fossils of the New Forest, providing a wealth of information of interest to both the amateur fossil collector and the professional geologist. It includes some 200 field photographs, palaeogeographic maps, digitised borehole/outcrop logs, and geological cross sections. Also included is a tour of the regional geological evolution of southern England since the Permian Period (-280 million years ago), based on deep boreholes and coastal exposures, including the world-famous Jurassic coast of Dorset and east Devon. The author discusses the petroleum geology of southern England and the New Forest and gives a detailed overview of the stratigraphy of the Hampshire Basin, followed by related aspects of economic geology within this area, including ironstones, freshwater aquifers, geothermal energy, sand, clay and peat resources. Finally, there is an up-to-date and complete account of the principal fossil localities, together with a comprehensive gallery of photographs with accompanying descriptions of the most abundant fossils within the New Forest National Park.

Practical Petroleum Geochemistry for Exploration and Production, Second Edition provides readers with a single reference that addresses the principle concepts and applications of petroleum geochemistry used in finding, evaluating, and producing petroleum deposits. The revised volume includes a new chapter on environmental forensic applications of petroleum geochemistry. With the current emphasis on environmental issues (pollution, climate changes, and corporate responsibility), information about how petroleum geochemistry can be used to recognize these problems, determine their source, help identify who is responsible, and how these problems may be mitigated are vital to efficient and economical operation of a project from exploration to production to abandonment. Practical Petroleum Geochemistry for Exploration and Production, Second Edition will continue to serve as a foundational reference to understanding the underpinning of the science, as well as a source of references that the reader can use to find detailed descriptions of methods and protocols.

Mass Transport in Magmatic Systems describes the properties and processes of these natural occurrences, including a description and discussions of how properties can be used for quantitative description of mass and energy transport on, and in, Earth and terrestrial planets. As the experimentally obtained chemical and physical properties of magma is scattered across literature, this book provides a comprehensive volume on the topic. Moreover, links between properties and processes are rarely appreciated. This makes it challenging for a non-experimentalist to access, evaluate, and apply such data.

Engineered Nanomaterials for Sustainable Agricultural Production, Soil Improvement and Stress Management highlights the latest advances in applying this important technology within agriculture sectors for sustainable growth, production and protection. The book explores various smart engineered nanomaterials which are now being used as an important tool for improving growth and productivity of crops facing abiotic stresses, improving the health of the soil in which those crops are growing, and addressing stresses once the plant begins to produce food yield. The book includes insights into the use of nanoparticles as bactericides, fungicides and nanofertilizers. In addition, the book includes an international representation of authors who have crafted chapters with clarity, reviewing up-to-date literature with lucid illustrations. It will be an important resource for researchers, nanobiotechnologists, agriculturists and horticulturists who need a comprehensive reference guide.

Applications of Biosurfactant in Agriculture explores the use of beneficial microorganisms as an alternative to current synthetic plant protection strategies. The book highlights a range of renewable raw substrates including agro-industrial waste as a dependable and cost-effective technology for the mass production of biosurfactant, emphasizes the formulation of biosurfactants using a full-factorial design, scientometric assessment, and presents mathematical modeling for the enhancement of production processes. Recent biotechnological techniques such as functional metagenomics that could help in the molecular characterization of novel biosurfactant with multifunctional activities majorly from uncultured and unexploited microbes available in the soil biosphere are also explored. This book identifies possible modes of action by which nutrients are normally released to plants through the formation of metal-biosurfactant complexes and presents recent research findings on the utilization of biosurfactants for the management of mycotoxins and microorganisms when evaluated in the field and in greenhouses. Finally, the book emphasizes the application of biosurfactants as a form of potent antibiotics for the management of several zoonotic diseases and in animal husbandry.

Advances in Geophysics serial highlights new advances in the field with this new volume presenting interesting chapters. Each chapter is written by an international board of authors.