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The 34th European Marine Biology Symposium was held in Ponta Delgada, The Azores, between 13th and 17th September 1999. It was organised by the University of the Azores in association with the Municipal Museum of Funchal (Madeira), and the Plymouth Environment Research Centre (University of Plymouth, UK). The selected topics, dictated by the position of the Azores in the Atlantic Ocean, were: `Ecology and Evolution on Island Shores', `The Open Ocean', and `The Deep Ocean'. Each topic was introduced by a recognised expert of international reputation and these keynote reviews provide authoritative summaries of the current status of these very important topics in marine biology. The 35 papers which make up this volume bring new ideas and concepts relating to the functioning of marine systems extending from the intertidal, through the pelagic realm down to the deep sea. The book covers many aspects of the biology of marine organisms and will have wide interest to all those interested in the life of the world's oceans.
This timely volume provides a comprehensive account of the natural history of the organisms associated with the deep-sea floor and examines their relationship with this inhospitable environment--perhaps the most remote and least accessible location on the planet. The authors begin by describing the physical and chemical nature of the deep-sea floor and the methods used to collect and study its fauna. Then they discuss the ecology of the deep sea by exploring spatial patterns, diversity, biomass, vertical zonation, and large-scale distribution of organisms. Subsequent chapters review current knowledge of feeding, respiration, reproduction, and growth processes in these communities. The unique fauna of hypothermal vents and seeps are considered separately. Finally, there is a pertinent discussion of human exploitation of deep-sea resources and potential use of this environment for waste disposal.
Rex and Etter present the first synthesis of patterns and causes of biodiversity in organisms that dwell in the vast sediment ecosystem of ocean floor. They offer a new understanding of marine biodiversity that will be of general interest to ecologists and is crucial to responsible exploitation of natural resources at the deep-sea floor.
Philip Mladenov provides a comprehensive overview of marine biology, providing a tour of marine life and marine processes that ranges from the polar oceans to tropical coral reefs; and from the intertidal to the hydrothermal vents of the deep sea.
A comprehensive account of deep-sea fishes, covering evolution, ecology and the potential threats posed by the growing fishing industry.
Cold-water coral ecosystems figure the formation of large seabed structures such as reefs and giant carbonate mounds; they represent unexplored paleo-environmental archives of earth history. Like their tropical cousins, cold-water coral ecosystems harbour rich species diversity. For this volume, key institutions in cold-water coral research have contributed 62 state-of-the-art articles on topics from geology and oceanography to biology and conservation, with some impressive underwater images.
CHOICE Highly Recommended, Sept 2022 Oceanography and Marine Biology: An Annual Review remains one of the most cited sources in marine science and oceanography. The ever-increasing interest in work in oceanography and marine biology and its relevance to global environmental issues, especially global climate change and its impacts, creates a demand for authoritative refereed reviews summarizing and synthesizing the results of recent research. For nearly 60 years, OMBAR has been an essential reference for research workers and students in all fields of marine science. This volume considers such diverse topics as the Great Barrier Reef Expedition of 1928-29, Mediterranean marine caves, macromedusae in eastern boundary currents, marine biodiversity in Korea, and development of a geo-ecological carbonate reef system model to predict responses of reefs to climate change. Volume 59 is available to read Open Access on the Taylor & Francis eBooks site (https://www.taylorfrancis.com/books//10.1201/9781003138846) An international Editorial Board ensures global relevance and expert peer review, with editors from Australia, Canada, Hong Kong, Ireland, Singapore and the United Kingdom. The series volumes find a place in the libraries of not only marine laboratories and oceanographic institutes, but also universities worldwide. If you are interested in submitting a review for consideration for publication in OMBAR, please email the Editor in Chief, Stephen Hawkins, at [email protected].
A vivid tour of the Earth's last frontier, a remote and mysterious realm that nonetheless lies close to the heart of even the most land-locked reader. The sea covers seven-tenths of the Earth, but we have mapped only a small percentage of it. The sea contains millions of species of animals and plants, but we have identified only a few thousand of them. The sea controls our planet's climate, but we do not really understand how. The sea is still the frontier, and yet it seems so familiar that we sometimes forget how little we know about it. Just as we are poised on the verge of exploiting the sea on an unprecedented scale—mining it, fertilizing it, fishing it out—this book reminds us of how much we have yet to learn. More than that, it chronicles the knowledge explosion that has transformed our view of the sea in just the past few decades, and made it a far more interesting and accessible place. From the Big Bang to that far-off future time, two billion years from now, when our planet will be a waterless rock; from the lush crowds of life at seafloor hot springs to the invisible, jewel-like plants that float at the sea surface; from the restless shifting of the tectonic plates to the majestic sweep of the ocean currents, Kunzig's clear and lyrical prose transports us to the ends of the Earth. Originally published in hardcover as The Restless Sea.
The ocean covers more than 70% of the Earth’s surface and encompasses 99% of its habitable volume, yet is largely unexplored. However, new technologies, approaches, and a growing recognition of the ocean’s role in sustaining the health, wealth, and security of modern society has spurred a rapid acceleration in ocean exploration and discovery. Past ocean exploration efforts have fundamentally impacted our view of the bounds of life on the planet, the human-ocean relationship, and the Earth’s inner workings, and many more discoveries yet remain. The varied stakeholders for ocean exploration are exemplified in many of the UN Ocean Decade challenges that require generating baseline knowledge to expose ocean regions and processes not yet constrained. As more of the deep ocean is explored, we gain important insight into scientifically and societally relevant questions including the distribution of ocean organisms and ecosystems, seafloor mineralization, chemical cycling, and the role of the oceans in global climate. Ocean exploration benefits from deep integration across disciplinary boundaries and careful coordination between stakeholders and explorers. This volume brings together scientists, engineers, and educators across disciplinary boundaries towards the common goal of mapping and characterizing unknown parts of the ocean. To meet the tremendous challenge of exploring the world's oceans will require the incorporation of new technologies and approaches that enhance the efficiency of exploration, adopt the latest developments in autonomy, and recognize the value of ocean exploration for society’s benefit. This current topic provides an overview of the latest data, results, and innovations along with an assessment of the current gaps in ocean exploration in order to focus the community’s efforts and enhance the spread of current innovations. We invite contributions that describe advances in ocean exploration including, but not limited to: • Assessments of and novel approaches to identifying exploration gaps and targets • Descriptions of novel vehicle systems that utilize autonomy and artificial intelligence to enhance ocean exploration. • Development of new sensors and samplers that offer opportunities for scaling up ocean exploration and minimizing impact to ocean environments. • Approaches to accessing difficult-to-reach and challenging subsea environments for exploration. • The synergies of combining uncrewed systems with human expertise. • New methods for analyzing and interpreting ocean data that create new scientific outcomes and enhance data use. • Approaches to engaging a more diverse ocean exploration community including the indigenous communities adjacent to ocean exploration targets. • Evaluations of ocean exploration impact on issues of high societal relevance.