The third edition of this bestselling text has been rigorously updated to reflect major new discoveries and concepts since 2011, especially progress due to extensive application of high-throughput sequencing, single cell genomics and analysis of large datasets. Significant advances in understanding the diversity and evolution of bacteria, archaea, fungi, protists, and viruses are discussed and their importance in marine processes is explored in detail. Now in full colour throughout, all chapters have been significantly expanded, with many new diagrams, illustrations and boxes to aid students' interest and understanding. Novel pedagogy is designed to encourage students to explore current high-profile research topics. Examples include the impacts of rising CO2 levels on microbial community structure and ocean processes, interactions of microbes with plastic pollution, symbiotic interactions, and emerging diseases of marine life. This is the only textbook addressing such a broad range of topics in the specific area of marine microbiology, now a core topic within broader Marine Science degrees. A Companion Website provides additional online resources for instructors and students, including a summary of key concepts and terminology for each chapter, links to further resources, and flashcards to aid self-assessment.

The third edition of this bestselling text has been rigorously updated to reflect major new discoveries and concepts since 2011, especially progress due to extensive application of high-throughput sequencing, single cell genomics and analysis of large datasets. Significant advances in understanding the diversity and evolution of bacteria, archaea, fungi, protists, and viruses are discussed and their importance in marine processes is explored in detail. Now in full colour throughout, all chapters have been significantly expanded, with many new diagrams, illustrations and boxes to aid students' interest and understanding. Novel pedagogy is designed to encourage students to explore current high-profile research topics. Examples include the impacts of rising CO2 levels on microbial community structure and ocean processes, interactions of microbes with plastic pollution, symbiotic interactions, and emerging diseases of marine life. This is the only textbook addressing such a broad range of topics in the specific area of marine microbiology, now a core topic within broader Marine Science degrees. A Companion Website provides additional online resources for instructors and students, including a summary of key concepts and terminology for each chapter, links to further resources, and flashcards to aid self-assessment.

Originally published during the early part of the twentieth century, the Cambridge Manuals of Science and Literature were designed to provide concise introductions to a broad range of topics. They were written by experts for the general reader and combined a comprehensive approach to knowledge with an emphasis on accessibility. Life in the Sea by James Johnstone was first published in 1911 and reissued as this second edition in 1930. The volume contains a survey of marine biology, taking into consideration the interrelations of organisms and the effects of seasonal change.

Volume 39 is a standard volume with reviews on three different topics: the effect of the Exxon Valdez oil spill on the Alaskan ecosystem, the reproduction and development of peracarida (abundant marine crustaceans), and remote sensing of the global light-fishing fleet.

Bringing together 30 international experts, this volume commemorates the 50th anniversary of the Intergovernmental Oceanographic Commission of UNESCO, the UN organization responsible for fostering intergovernmental cooperation on global ocean issues. It looks at how governments use science to establish ocean policies, with chapters ranging from the history of ocean management to current advances in marine science, observation and management applications, and the international agencies that co-ordinate this work. With a focus on key topical issues such as marine pollution, exploitation, and hazards, Troubled Waters reflects on past successes and failures in ocean management and emphasises the need for knowledge and effective government action to ensure a sustainable future for this precious resource. Illustrated with dramatic, full-colour images, it is essential reading for researchers, students, policy makers and managers of the marine environment, and also provides an attractive and accessible overview for anyone concerned about the future stewardship of our oceans.

Advances in Marine Biology has always offered marine biologists in-depth and up-to-date reviews on a variety of topics. As well as many volumes that provide a selection of important topics, the series also includes thematic volumes that examine a particular field in detail. Two recent thematic volumes, one on ocean biogeography and another on the biology of calanoid copepods, provide comprehensive reviews of these topics and include previously unpublished data.
This volume contains two detailed reviews. The first discusses the population genetics of bathyal and abyssal organisms. The second covers growth performance and mortality in aquatic macrobenthic invertebrates.

Advances in Marine Biology, Volume 88, the latest release in a series that has been providing in-depth and up-to-date reviews on all aspects of marine biology since 1963, updates on many topics that will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography. Chapters in this new release include Marine Environmental DNA: Approaches, Applications, and Opportunities, and The Biology and Ecology of the Banana Prawns.

Comprising by far the largest and most diverse group of vertebrates, fishes occupy a broad swathe of habitats ranging from the deepest ocean abyss to the highest mountain lakes. Such incredible ecological diversity and the resultant variety in lifestyle, anatomy, physiology and behavior, make unraveling the evolutionary history of fishes a daunting task. The successor of a classic volume by the same title, Interrelationships of Fishes, provides the latest in the "state of the art" of systematics and classification for many of the major groups of fishes. In providing a sound phylogenetic framework from leading authorities in the field, this book is an indispensable reference for a broad range of biologists, especially students of fish behavior, anatomy, physiology, molecular biology, genetics and ecology--in fact, anyone who wishes to interpret their work on fishes in an evolutionary context.
* Provides thorough and comprehensive treatment of the Phylogency of fishes
* Assembles an International team of expert contributors
* Useful to a wide variety of fish biologists

Vertebrate evolution has led to the convergent appearance of many groups of originally terrestrial animals that now live in the sea. Among these groups are familiar mammals like whales, dolphins, and seals. There are also reptilian lineages (like plesiosaurs, ichthyosaurs, mosasaurs, thalattosaurs, and others) that have become sea creatures. Most of these marine reptiles, often wrongly called "dinosaurs," are extinct. This edited book is devoted to these extinct groups of marine reptiles. These reptilian analogs represent useful models of the myriad adaptations that permit tetrapods to live in the ocean.
Key Features
* First book in more than 80 years devoted exclusively to fossil marine reptiles
* Documents the most current research on extinct marine reptiles
* Prepared by the world's most prominent experts in the field
* Well illustrated

The widely distributed American Lobster, Homarus americanus, which inhabits coastal waters from Canada to the Carolinas, is an important keystone species. A valuable source of income, its abundance or rarity often reflects the health of ecosystems occupied by these crustaceans. This comprehensive reference brings together all that is known of these fascinating animals. It will appeal to biologists, zoologists, aquaculturalists, fishery biologists, and researchers working with other lobster species, as well as neurobiologists looking for more information on the model system they so often use.
Key Features
* First comprehensive book on the American lobster since Herrick's century-old monograph
* Provides crucial background for neurobiologists who use this crustacean as a model organism
* Contains a comprehensive treatment of the lobster fishery and its management

Population Dynamics of the Reef Crisis, Volume 87 in the Advances in Marine Biology series, updates on many topics that will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography. Chapters in this new release cover SCTL disease and coral population dynamics in S-Florida, Spatial dynamics of juvenile corals in the Persian/Arabian Gulf, Surprising stability in sea urchin populations following shifts to algal dominance on heavily bleached reefs, Biophysical model of population connectivity in the Persian Gulf, Population dynamics of 20-year decline in clownfish anemones on coral reefs at Eilat, northern Red Sea, and much more.

Concern about future supplies of fresh water to society, to meet the full range of human needs, now comes very high on the priority list of global societal issues. An overarching issue, which this book addresses, is whether global climate change is a dominant driver of change in the structure and function of all natural water-based ecosystems, or whether direct human population growth and accelerated consumption are playing an equal or greater role. This book divides the whole aquatic realm into 21 ecosystems, from those on land (both saline and fresh water) to those of the open and deep oceans. It draws on the understanding of leading ecologists to summarize the state and likely condition by the year 2025 of each of the ecosystems. Written for academic researchers and environmental professionals, the aim is to put the climate change debate into a broader context as a basis for conservation science and planning.

In Darwin's Fishes, Daniel Pauly presents an encyclopaedia of ichthyology, ecology and evolution, based upon everything that Charles Darwin ever wrote about fish. Entries are arranged alphabetically and can be about, for example, a particular fish taxon, an anatomical part, a chemical substance, a scientist, a place, or an evolutionary or ecological concept. The reader can start wherever they like and are then led by a series of cross-references on a fascinating voyage of interconnected entries, each indirectly or directly connected with original writings from Darwin himself. Along the way, the reader is offered interpretation of the historical material put in the context of both Darwin's time and that of contemporary biology and ecology. This book is intended for anyone interested in fishes, the work of Charles Darwin, evolutionary biology and ecology, and natural history in general.

Quantitative methods specifically tailored for the marine biologist

While there are countless texts published on quantitative methods and many texts that cover quantitative terrestrial ecology, this text fills the need for the special quantitative problems confronting marine biologists and biological oceanographers. The author combines common quantitative techniques with recent advances in quantitative methodology and then demonstrates how these techniques can be used to study marine organisms, their behaviors, and their interactions with the environment. Readers learn how to better design experiments and sampling, employ sophisticated mathematical techniques, and accurately interpret and communicate the results.
Most of this text is written at an introductory level, with a few topics that advance to more complex themes. Among the topics covered are plot/plotless sampling, biometrics, experimental design, game theory, optimization, time trends, modeling, and environmental impact assessments.
Even readers new to quantitative methods will find the material accessible, with plenty of features to engage their interest, promote learning, and put their knowledge into practice:
* One or more examples are provided to illustrate each individual quantitative technique presented in the text
* The accompanying CD-ROM features two multimedia programs, several statistical programs, help to run complex statistical programs, and additional information amplifying topics covered in the text
* References lead readers to additional information to pursue individual topics in greater depth
Quantitative Analysis of Marine Biological Communities, with its extensive use of examples, is ideal for undergraduate and graduate students in marine biology. Marine biologists, regardless of their level of experience, will also discover new approaches to quantitative analysis tailored to the particular needs of their field.

This comprehensive volume contains some sixty papers and reviews presented at the First International Symposium on Abalone Biology, Fisheries and Culture held in La Paz, Mexico. Introductory reviews in the book focus on the evolutionary origin, radiation and modern relationships of the genus Haliotis. Further papers review aspects of the reproductive process, larval energetics, mechanisms of larval settlement, and the ecology of settlement. Feeding deterrents and attractants, and the relation between food and growth are reviewed in a later section of authoritative papers. The natural mortality of abalone and its causes, predators and diseases are thoroughly reviewed. Several papers summarise information on the withering syndrome afflicting black abalone in California. A series of excellent papers and reviews then consider the problems of managing abalone fisheries. The models used are reviewed and examples given of the application of models to specific fisheries. Further papers provide new information on stock enhancement and the book concludes with case studies of the eight major abalone fisheries of the world with a review of the management of each. The book is divided into eight sections as follows: Part I -- Evolution and distributuion. Part II -- Physiology, genetics, reproduction. Part III -- Larval ecology and settlement. Part IV -- Feeding, growth. Part V -- Marketing, disease and predators. Part VI -- Fishery biology, modelling. Part VII -- Case studies of fisheries. Part VIII -- Culture.

Coral reefs are the 'rain forests' of the ocean, containing the highest diversity of marine organisms and facing the greatest threats from humans. As shallow-water coastal habitats, they support a wide range of economically and culturally important activities, from fishing to tourism. Their accessibility makes reefs vulnerable to local threats that include over-fishing, pollution and physical damage. Reefs also face global problems, such as climate change, which may be responsible for recent widespread coral mortality and increased frequency of hurricane damage. This book, first published in 2006, summarises the state of knowledge about the status of reefs, the problems they face, and potential solutions. The topics considered range from concerns about extinction of coral reef species to economic and social issues affecting the well-being of people who depend on reefs. The result is a multi-disciplinary perspective on problems and solutions to the coral reef crisis.

Fish Physiology, Volume 38 in this ongoing series, examines how the inherent potential of fish to express traits of economic value can be realized through aquaculture. Topics covered include the regulation of the reproductive cycle of captive fish, shifting carnivorous fish towards plant-based diets, defining the challenges, opportunities and optimal conditions for growth under intensive culture (including in Recirculating Aquaculture Systems), enhancing immune function and fish health during culture, identifying and managing maladaptive physiological responses to aquaculture stressors, establishing welfare guidelines for farmed fish, phenotypic and physiological responses to genetic modification, Zebrafish as a research tool, and the aquaculture of air-breathing fish.

The most respected reference in the field—and a fascinating tour of the world's largest underwater greenhouse . . .

MARINE BOTANY

Second Edition

Unmatched in detail and breadth, this Second Edition of Marine Botany explores the startling diversity and environmental dynamics of the hundreds of micro- and macroalgae, seagrasses, mangroves, and salt marshes as well as phytoplankton (minute, free-floating photosynthetic plants) and benthic communities (attached plants) that comprise the flourishing botanical garden submerged in and around the surface of our vast oceans.

Reflecting the latest in research since the original 1981 edition, long considered the classic reference on marine plant life, this new edition's enhanced ecological perspective details the ongoing environmental challenges endured by these fragile life-forms. Viewing the structure and function of marine plant communities in the context of abiotic (light, temperature, water movement, nutrients), biotic (photosynthesis, carbon fixation, competition, predation, symbiosis), and anthropogenic influences, the book moves layer by layer through the ocean, capturing their photosynthetic and adaptive mechanisms. Pollution in the form of oil spills, heavy and radioactive metals, biological damage wrought from harvesting and aquaculture, and the harmful effects of ozone depletion and UV-B rays are detailed, along with the impact of environmental factors on morphological and anatomical adaptations. The book also describes the anthropogenic stresses endured by salt marshes, mangals, seagrass communities, and marine plants of coral reefs, concluding with possible management and restorative techniques.

Marine Botany, Second Edition is both a vivid global map and comprehensive guide to all of the flourishing forms of plant life at our oceans' surface, shores, and depths and the dynamics of their survival.

The biodiversity of many ecosystems is under threat and although seas cover the majority of our planet's surface, far less is known about the biodiversity of marine environments than that of terrestrial systems. It is also not clear whether many of the patterns known to occur on land also occur in the sea. Until we have a firmer idea of the diversity of a wide range of marine habitats and what controls it, we have little hope of conserving biodiversity, or determining the impact of human activities such as mariculture, fishing, dumping of waste and pollution. This book brings together key studies from the deep sea and open ocean, to tropical shores and polar regions to consider how comparable the patterns and processes underlying diversity are in these different ecosystems. Marine Biodiversity will be a major resource for all those interested in biodiversity and its conservation.

Microalgae: Cultivation, Recovery of Compounds and Applications supports the scientific community, professionals and enterprises that aspire to develop industrial and commercialized applications of microalgae cultivation. Topics covered include conventional and emerging cultivation and harvesting techniques of microalgae, design, transport phenomena models of microalgae growth in photobioreactors, and the catalytic conversion of microalgae. A significant focus of the book illustrates how marine algae can increase sustainability in industries like food, agriculture, biofuel and bioprocessing, among others. This book is a complete reference for food scientists, technologists and engineers working in the bioresource technology field. It will be of particular interest to academics and professionals working in the food industry, food processing, chemical engineering and biotechnology.

Since 1970, the Caribbean has lost half of its coral reefs, an ominous and accelerating phenomenon that extends around the world. Today's remaining coral reefs - still a source of endless discovery and mystery for scientists - are at risk of disappearing by century's end. Beyond the unfathomable heartbreak of the loss of such exquisite beauty from the earth's surface, coral's loss represents the annual loss of billions of dollars from the global economy and the end of a way of life for billions that depend on these ecosystems. Marine scientist and conservation leader David E. Guggenheim has had a front-row seat to this disaster. But when he began a new chapter of his career in Cuba, he found something completely unexpected: hope. After years and years of watching reefs deteriorate, Guggenheim was astonished to come face-to-face with Cuba's remarkably healthy coral reefs overflowing with fish and other life - ocean ecosystems that appear healthier than those he first encountered as a teenager more than four decades prior. Living Time Machine reveals the hidden potential that Cuba's reefs may contain for the reefs of the world. Which begs the question: why are Cuba's ocean waters so healthy? The answer is deeply intertwined with the country's extraordinary and singularly unique history, from its dramatic political past to its world-class environmental protections influenced by an unlikely partner, Captain Jacques Cousteau. The result is that while the past 60 years have seen the worst decline in ocean health in human history, Cuba's oceans and coral reefs remain remarkably healthy, a living laboratory never-before-seen by this generation of scientists. The author's account includes interviews with colleagues, scientists, policymakers, and his own decades-long experience as an American working in Cuba with local marine scientists to study and protect its coastal waters and coral reef ecosystems. Living Time Machine tells the story of the demise of the world's ocean ecosystems, the hard work of those desperately trying to save it, and an unexpected beacon of hope from an island full of mystery and surprises.

Microbial ecology is now recognized to be fundamental for understanding the natural world around us and is essential for examining life in the oceans. For the first time, this book brings together international experts to explore the incredibly diverse collection of microbes (and viruses) found in the oceans and to dissect many of the processes mediated by these microbes in aquatic environments. Although the oceans are emphasized, the organisms and processes discussed in the book occur in nearly all natural environments, including rivers and lakes.

Microbial Ecology of the Oceans reviews some basics of marine microbiology and provides a foundation for researchers and students new to the field while also examining several questions currently being discussed in modern microbial ecology. The book brings together concepts from autoecological studies of individual bacterial groups and from ecological studies of microbial assemblages in the oceans. In addition to drawing on the rich history of microbiology, Microbial Ecology of the Oceans uses the latest advances in biological and chemical oceanography and limnology to examine the role of marine microbes and viruses in the oceans.

Some of the topics covered by this informative book include:

• Microbial evolution, as revealed by molecular techniques
• Microbes in carbon budgets and cycles
• Viruses and grazers of bacteria
• Competition between bacteria and phytoplankton for limited nutrients
• Marine symbiosis

Microbial Ecology of the Oceans elucidates the role of microbes in food web dynamics and biogeochemical cycles in the ocean. It will prove to be an indispensable resource for students and researchers in biological and chemical oceanography, geochemistry, marine chemistry, freshwater ecology, and microbiology.

Also in this series:

• Biofilms II: Analysis, Process, and Applications
  James D. Bryers
• Extremophiles: Microbial Life in Extreme Environments
  Koki Horikoshi, William D. Grant
• Wastewater Microbiology, Second Edition
  Gabriel Bitton

Seagrasses occur in coastal zones throughout the world in the areas of marine habitats that are most heavily influenced by humans. Despite a growing awareness of the importance of these plants, a full appreciation of their role in coastal ecosystems has yet to be reached. This book provides an entry point for those wishing to learn about seagrass ecology and provides a broad overview of the present state of knowledge. The volume discusses the recent progress in research and current research foci, complemented by extensive literature references to guide the reader to more detailed studies. This book will be valuable to students of marine biology wishing to specialize in this area and to established researchers wanting to enter the field. In addition, it will provide an excellent reference for those involved in the management and conservation of coastal areas that harbor seagrasses.

Advances in Marine Biology, Volume 84, the latest release in a series that has been providing in-depth and up-to-date reviews on all aspects of marine biology since 1963, updates on many topics that will appeal to postgraduates and researchers in marine biology, fisheries science, ecology, zoology and biological oceanography.