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Approximately 3,000 reports of bioluminescent displays on file at the U.S. Naval Oceanographic Office are charted by three-month periods. In addition, various aspects of bioluminescence, bioluminescent organisms, seasonal and geographic distribution, and displays are discussed. A separate chart and a discussion of the puzzling phenomena of the 'phosphorescent wheel' and 'wave' displays are included.
Bioluminescence is everywhere on earth—most of all in the ocean, from angler fish in the depths to the flashing of dinoflagellates at the surface. Here, Thérèse Wilson and Woody Hastings explore the natural history, evolution, and biochemistry of the diverse array of organisms that emit light. While some bacteria, mushrooms, and invertebrates, as well as fish, are bioluminescent, other vertebrates and plants are not. The sporadic distribution and paucity of luminous forms calls for explanation, as does the fact that unrelated groups evolved completely different biochemical pathways to luminescence. The authors explore the hypothesis that many different luciferase systems arose in the early evolution of life because of their ability to remove oxygen, which was toxic to life when it first appeared on earth. As oxygen became abundant and bioluminescence was no longer adequate for oxygen removal, other antioxidant mechanisms evolved and most luminous species became extinct. Those light-emitting species that avoided extinction evolved uses with survival value for the light itself. Today’s luminous organisms use bioluminescence for defense from predators, for their own predatory purposes, or for communication in sexual courtship. Bioluminescence was earlier viewed as a fascinating feature of the living world, but one whose study seemed unlikely to contribute in any practical way. Today, bioluminescence is no longer an esoteric area of research. Applications are numerous, ranging from the rapid detection of microbial contamination in beef and water, to finding the location of cancer cells, to working out circuitry in the brain.
This book is the bible of bioluminescence and a must-read not only for the students but for those who work in various fields relating to bioluminescence. It summarizes current structural information on all known bioluminescent systems in nature, from well-studied ones to those that have been seldom investigated.This book remains an important source of chemical knowledge on bioluminescence and, since the second edition's publication in 2012, has been revised to include major developments in two systems: earthworm Fridericia and higher fungi whose luciferins have been elucidated and synthesized. These two new luciferins represent an essential addition to seven previously known, with fully rewritten sections covering this new subject matter.
The use of light-emitting proteins for the detection of biomolecules provides fast and sensitive methods which overcome the disadvantages of radioactive labels and the high cost of fluorescent dyes. This reference work summarizes modern advanced techniques and their applications and includes practical examples of assays based on photoproteins. The book presents contemporary key topics like luminescent marine organisms, DNA probes, reporter gene assays and photoproteins, ratiometric sensing, use of photoproteins for in vivo functional imaging and luminescent proteins in binding assays, to name just a few, and is complemented by recent advances in instrumentation. Includes an introductory chapter by 2008 Chemistry Nobel laureate Osamu Shimomura.
Bioluminescence, the “cold living light” or the “cold fire of the sea,” is extremely common in all oceans at all depths. However, this phenomenon is nearly absent in freshwater, with the exception of a freshwater limpet. More than 75% of deep-sea creatures have been reported to produce their own light. The luminescent marine plankton such as dinoflagellate, radiolarians, jellyfish, comb jellies, annelids, copepods, ostracods, mysids, amphipods, euphausiids, and tunicates form an important component in the marine food chain. Research on luminescent marine plankton is gaining momentum owing to its importance in life science research and medicine. The glowing Green Fluorescent Protein (GFP) extracted from the North Pacific jellyfish, Aqueorea victoria (for which the Japanese biologist, Osamu Shimonmura won the Nobel Prize in Chemistry in 2008) has helped shed light on key processes such as the spread of cancer, the development of brain cells, the growth of bacteria, damage to cells by Alzheimer's disease, and the development of insulin-producing cells in the pancreas. Therefore, it is difficult to underscore the importance of bioluminescence and the organisms associated with this phenomenon. Bioluminescent Marine Plankton is a unique reference that attempts to provide answers to questions about bioluminescence. The first of its kind, this book attempts to answer questions on the subject with a focus on planktonic organisms. 12 chapters provide information about the chemistry of bioluminescence, types of bioluminescent displays, distribution of bioluminescence among marine plankton, ecological functions and utility of planktonic bioluminescence. Chapters are dedicated to the biology and ecology of specific groups of plankton that span about 200 luminescent marine species. The detailed book is an essential compendium on marine plankton for a broad range of readers who want to learn about bioluminescent plankton. A list of detailed references is also provided for the benefit of teachers, students, researchers and enthusiasts interested in marine biology, aquaculture, and environmental sciences.
Publications relevant to marine bioluminescence from 1979 through 1987 are annotated and cross-indexed by author, organism studied, geographic location, and key words. Sources of research funding are discussed, and the most prolific institutions and most popular sources for publication are identified. Six areas of particular interest--namely flash characteristics, stimulation techniques, geographic and temporal distribution and occurrence and correlation with environmental parameters, the luminous organism themselves, symbiosis, and circadian rhythms are identified and analyzed for significant progress, important research omissions, and trends. No significant trends are identified, although the suggestion of the possibility of a decrease in research effort in these areas over the decade is noted. The international nature of the research is considered ... Bioluminescence, Marine biology, Optical properties.