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Biology and Geology of Coral Reefs, Volume II: Biology 1 discusses the major advances made in the biological aspects of coral reef problems. This book is organized into 12 chapters that cover the microbial aspects of coral reefs, the nutrition in corals, and diversity in coral reefs. The opening chapters describe the distribution and role of coral reef microorganisms, as well as the significance of bacterioplankton as a food source for the marine fauna of coral reefs. The following chapter discusses the occurrence of algae in coral reef, their competition with corals for space, and their role in reef construction. Other chapters deal with food and feeding mechanisms of corals, the role of marine antibiotics in coral reef ecology, and some chemical compounds isolated from coral reef organisms, providing evidence for marine pharmacologic activity in coral reef areas. The book also discusses some basic problems relating to the distribution and abundance of hermatypic corals on reefs. It then examines species diversity on coral reefs, variety of reef structure, and the important role of toxic materials produced by holothurians on the general ecology and physiology of coral reefs. The last chapters describe the development, feeding, and behavior of the larval stages of several coral reef asteroids. Particular emphasis is given to the larval and post-larval stages of the crown-of-thorns starfish, Acanthaster planci. The starfish population explosions, the devastating effects on the hard coral cover of coral reefs, and causes and control of population explosions are also covered. This volume will acquaint readers with some of the exciting developments in coral reef biology and will provide information that will enable them to assess the status of research in different fields.
Biology and Geology of Coral Reefs, Volume I: Geology 1 focuses on the evolution, reef types, geology, and structural and tectonic factors causing the development of coral reefs. The selection first offers information on the coral reefs of the Caribbean and Indian Ocean, including evolution, physical environment, coral diversity, reef communities, reef types and zonation, and reef morphology and sea-level change. The manuscript then takes a look at the Bikini and Eniwetok Atolls in Marshall Islands; geomorphology and geology of coral reefs in French Polynesia; and the coral reefs of New Caledonia. The publication examines the coral reefs of the New Guinea region and waters of the Great Barrier Reef province. Topics include climate, seasonal variations in temperature and salinity, and water masses in the Coral Sea and their effect on the Great Barrier Reef. The book also ponders on the geomorphology of Eastern Queensland in relation to the Great Barrier Reef; structural and tectonic factors influencing the development of coral reefs off Northeastern Queensland; and sediments of the Great Barrier Reef province. The selection is a vital source of information for marine biologists and readers interested in the geology, evolution, physical environment, and diversity of coral reefs.
Biology and Geology of Coral Reefs, Volume IV: Geology 2 covers the major advances made in the geological aspects of coral reef problems. This book is composed of 10 chapters that summarize the types, economics, radiometric dating, and geological features of coral reefs. The introductory chapters present the types and distribution of coral reefs, such as fringing, barrier, and Atoll reefs. A chapter discusses the findings of the 1973 Royal Society and Queensland Universities Expedition to the northern part of the Great Barrier Reefs on the specialized Low Wooded Islands. Another chapter deals with the interrelation of ecology and sedimentation in coral reef complexes and the Coral Sea Plateau. The next part of the book discusses the techniques and results of radiometric dating of coral reefs and the coral reefs of the Solomon Islands. The remaining chapters deal with the Great Barrier Reef Province and discuss the geology of the basement upon which the reefs rest is included. The reefs are described from geological, geophysical, and hydrological viewpoints, providing a complete bibliography on the reefs. This volume will acquaint readers with some of the exciting developments in coral reef geology and will provide information that will enable them to assess the status of research in different fields.
Biology and Geology of Coral Reefs, Volume III: Biology 2 covers the major advances made in the biological aspects of coral reef problems. This book discusses the ecology, animal associates, and toxicity of coral reefs. Composed of 11 chapters, the book initially describes the diversity of animals permanently or temporarily associated with living corals despite the formidable nematocyst batteries possessed by corals. The text goes on discussing some specializations of some shrimps and prawns permanently associated with living corals, thus, augmenting the number of biological niches available for colonization. The subsequent chapters deal with the appearance and distribution of coral reefs echinoderms and their biogeography; the role of fishes in the energetic of the coral reef system; the high incidence of toxic fishes in coral reef waters; and the origin, transmission, detection, pharmacology, and chemistry of ciguatoxin. The book also discusses natural and man-induced destruction of coral reef communities and the rate, manner, and extent of recovery of such destruction. It also describes the types of vegetation that grow on the limestone substratum provided by coral islands. Another chapter provides distributional data on the birds of the Great Barrier Reef region and the behavior and evolution of island populations of sea birds. The concluding chapters present the general biology of sea turtles and the factors that influence the number and types of organisms found on coral islands. This book will acquaint readers with some of the exciting developments in coral reef biology and will provide information that will enable them to assess the status of research in different fields.
There are more coral species in deep, cold-waters than in tropical coral reefs. This broad-ranging treatment is the first to synthesise current understanding of all types of cold-water coral, covering their ecology, biology, palaeontology and geology. Beginning with a history of research in the field, the authors describe the approaches needed to study corals in the deep sea. They consider coral habitats created by stony scleractinian as well as octocoral species. The importance of corals as long-lived geological structures and palaeoclimate archives is discussed, in addition to ways in which they can be conserved. Topic boxes explain unfamiliar concepts, and case studies summarize significant studies, coral habitats or particular conservation measures. Written for professionals and students of marine science, this text is enhanced by an extensive glossary, online resources, and a unique collection of color photographs and illustrations of corals and the habitats they form.
Reefs provide a wealth of opportunity for learning about biological and ecosystem processes, and reef biology courses are among the most popular in marine biology and zoology departments the world over. Walter M. Goldberg has taught one such course for years, and he marshals that experience in the pages of The Biology of Reefs and Reef Organisms. Goldberg examines the nature not only of coral reefs—the best known among types of reefs—but also of sponge reefs, worm reefs, and oyster reefs, explaining the factors that influence their growth, distribution, and structure. A central focus of the book is reef construction, and Goldberg details the plants and animals that form the scaffold of the reef system and allow for the attachment and growth of other organisms, including those that function as bafflers, binders, and cementing agents. He also tours readers through reef ecology, paleontology, and biogeography, all of which serve as background for the problems reefs face today and the challenge of their conservation. Visually impressive, profusely illustrated, and easy to read, The Biology of Reefs and Reef Organisms offers a fascinating introduction to reef science and will appeal to students and instructors of marine biology, comparative zoology, and oceanography.
"The book before you...carries the urgent warning that we are rapidly altering and destroying the environments that have fostered the diversity of life forms for more than a billion years." With those words, Edward O. Wilson opened the landmark volume Biodiversity (National Academy Press, 1988). Despite this and other such alarms, species continue to vanish at a rapid rate, taking with them their genetic legacy and potential benefits. Many disappear before they can even be identified. Biodiversity II is a renewed call for urgency. This volume updates readers on how much we already know and how much remains to be identified scientifically. It explores new strategies for quantifying, understanding, and protecting biodiversity, including: New approaches to the integration of electronic data, including a proposal for a U.S. National Biodiversity Information Center. Application of techniques developed in the human genome project to species identification and classification. The Gap Analysis Program of the National Biological Survey, which uses layered satellite, climatic, and biological data to assess distribution and better manage biodiversity. The significant contribution of museum collections to identifying and categorizing species, which is essential for understanding ecological function and for targeting organisms and regions at risk. The book describes our growing understanding of how megacenters of diversity (e.g., rainforest insects, coral reefs) are formed, maintained, and lost; what can be learned from mounting bird extinctions; and how conservation efforts for neotropical primates have fared. It also explores ecosystem restoration, sustainable development, and agricultural impact. Biodiversity II reinforces the idea that the conservation of our biological resources is within reach as long as we pool resources; better coordinate the efforts of existing institutionsâ€"museums, universities, and government agenciesâ€"already dedicated to this goal; and enhance support for research, collections, and training. This volume will be important to environmentalists, biologists, ecologists, educators, students, and concerned individuals.
This book covers in one volume materials scattered in hundreds of research articles, in most cases focusing on specialized aspects of coral biology. In addition to the latest developments in coral evolution and physiology, it presents chapters devoted to novel frontiers in coral reef research. These include the molecular biology of corals and their symbiotic algae, remote sensing of reef systems, ecology of coral disease spread, effects of various scenarios of global climate change, ocean acidification effects of increasing CO2 levels on coral calcification, and damaged coral reef remediation. Beyond extensive coverage of the above aspects, key issues regarding the coral organism and the reef ecosystem such as calcification, reproduction, modeling, algae, reef invertebrates, competition and fish are re-evaluated in the light of new research and emerging insights. In all chapters novel theories as well as challenges to established paradigms are introduced, evaluated and discussed. This volume is indispensible for all those involved in coral reef management and conservation.