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The present publication is designed primarily to assist countries that do not have an appropriate authority and a specific set of standards for the consistent rendering of their geographical names. The information in the Manual consists of suggestions that should be useful to those intersted in ways to standardize their nation's geographical names
This book on the current state of knowledge of submarine geomorphology aims to achieve the goals of the Submarine Geomorphology working group, set up in 2013, by establishing submarine geomorphology as a field of research, disseminating its concepts and techniques among earth scientists and professionals, and encouraging students to develop their skills and knowledge in this field. Editors have invited 30 experts from around the world to contribute chapters to this book, which is divided into 4 sections – (i) Introduction & history, (ii) Data & methods, (ii) Submarine landforms & processes and (iv) Conclusions & future directions. Each chapter provides a review of a topic, establishes the state-of-the-art, identifies the key research questions that need to be addressed, and delineates a strategy on how to achieve this. Submarine geomorphology is a priority for many research institutions, government authorities and industries globally. The book is useful for undergraduate and graduate students, and professionals with limited training in this field.
There has been a dramatic demographic shift from rural areas to cities in sub-Saharan African countries over the last few decades. This continuing urbanisation trend has created new challenges for local governments in terms of managing urban services, since over half of the city streets in these countries have no names or addresses, and the problem is particularly acute in the poorest neighbourhoods. This publication examines the use of street addressing initiatives to address this problem, giving information on current and future applications, considering examples of use in many African countries, and setting out a methodological guide for implementing such initiatives.
This book focuses on the survey technology, post-processing technology, mapping technology and scientific application of the submarine topography and geomorphology in detail. High-resolution submarine geomorphology is a frontier branch of marine geology and marine surveying and mapping, which provides a direct basis to study the seabed surface, to understand the tectonic movement and submarine evolution. In the past two decades, high-resolution submarine geomorphology with high-precision multi-beam echo sounding, side-scan sonar and sub-bottom profiler as the major techniques, is developing very quickly and is one of the frontiers of international marine science and technology. These high techniques promote the traditional submarine geomorphology to high-resolution and quantitative research. At present, high-resolution submarine geomorphology is widely used in the delimitation of the continental shelf, the international seabed resources survey, marine engineering and marine military applications. In order to facilitate readers to understand how to acquire and apply scientific research based on submarine topographic data, it highlights the combination of theory, technology and scientific application. This book is useful as a reference for professional and technical personnel in related fields and also as a textbook for both graduate and undergraduate students as well.
The delimitation of maritime zones is an important requirement for peaceful relations between neighbouring States. There are numerous examples of areas between States with opposite or adjacent coasts where sovereignty over an island or territory may not be contested but the delimitation of the continental shelf and exclusive economic zone is still pending. Under the Law of the Sea Convention, the delimitation of these zones shall be effected by agreement on the basis of international law. However, the Convention does not offer a definitive answer as to the methods that should be applied. This publication includes contributions by Judges of the International Tribunal for the Law of the Sea, eminent scholars and experienced practitioners. The papers deal with various aspects of maritime delimitation: the jurisprudence of international courts and tribunals and their relevance for delimitation, the impact of the Law of the Sea Convention, the role of legal practitioners and diplomatic negotiators, and delimitation under particular geological circumstances and in geographically complex regional situations. It is designed to provide insight and guidance to the complicated process of maritime delimitation.
This book is a must for the marine community - including oceanographers, resource managers, geographers, nautical archaeologists, climate change specialists, and other students of the deep - coming at a time when the health of our oceans is seen as crucial to our very existence. As a teaching tool, Arc Marine: GIS for a Blue Planet serves as a perfect starting point for the intermediate student or as a resource for the expert in marine GIS. Marine researchers have developed a data model that supports seafloor mapping, fisheries management, marine mammal tracking, monitoring of shoreline change, and water temperature analysis. The ability to measure change in oceans and along coasts has increased as marine GIS has grown more complex. Arc Marine: GIS for a Blue Planet presents the initial results of a successful effort to create and define a data model for the marine community - that group of academic, government, military, and private oceanographers, resource managers, conservationists, geographers, nautical archaeologists, and others who support better management of complex spatial analysis in marine applications. The data model not only provides structure to storing and analyzing marine data but helps users create maps and three-dimensional scenes of the marine environment in ways invaluable to decision making as the marine community strives to understand, illuminate, chart, and explore the unknown depths.
The deep sea covers over 60% of the surface of the earth, yet less than 1% has been scientifically investigated. There is growing pressure on deep-sea resources and on researchers to deliver information on biodiversity and the effects of human impacts on deep-sea ecosystems. Although scientific knowledge has increased rapidly in recent decades, there exist large gaps in global sampling coverage of the deep sea, and major efforts continue to be directed into offshore research. Biological Sampling in the Deep Sea represents the first comprehensive compilation of deep-sea sampling methodologies for a range of habitats. It reviews the real life applications of current, and in some instances developing, deep-sea sampling tools and techniques. In creating this book the authors have been able to draw upon the experiences of those at the coal face of deep-sea sampling, expanding on the existing methodological texts whilst encompassing a level of technical detail often omitted from journal publications. Ultimately the book will promote international consistency in sampling approaches and data collection, advance the integration of information into global databases, and facilitate improved data analyses and consequently uptake of science results for the management and conservation of the deep-sea environment. The book will appeal to a range of readers, including students, early-career through to seasoned researchers, as well as environmental managers and policy makers wishing to understand how the deep-sea is sampled, the challenges associated with deep survey work, and the type of information that can be obtained.