Advances in Marine Biology. Volume 3 begins by focusing on some novel compounds having antioxidant, antimicrobial, anti-inflammatory, anticancer and other bioactive properties identified and isolated from marine sponges, which could serve as leads for drug discovery. The authors also discuss the factors that contribute to new discoveries and the challenges associated with translating marine sponge-derived compounds into clinical trials. The advances that may further expand the promise of drug discovery from marine sponges are also examined. Following this, the authors present current information about Hox-genes in polychaetes and make some cautious assumptions about the ancestral functions of the Hox-cluster. The basic plane and evolution of bilateral animals (Bilateria) are closely associated with Hox-genes. These genes usually exist in the genome in the form of the aforementioned clusters, gene complexes with a conservative position of individual genes inside them. Marine biotoxins are examined, specifically their correlation with of harmful algal blooms (HABs) which can accumulate in seafood products. This can have severe consequences on both the fishery industry and consumer health, as most marine biotoxins are not destroyed by food technologies like freezing or cooking, and their presence cannot be perceived because they give no specific taste, flavor or smell to food. The subsequent article contains a study on adaptation to environmental salinity alterations in the White Sea mussel Mytilus edulis, with its research having been conducted for several years and involving both long-term acclimation and exposure to stress salinity. A series of experiments were conducted in order to deduce the mussels capacity to adapt to environmental salinity changes, especially in terms of cell and molecular mechanisms of salinity adaptation. This compilation also presents a preliminary work within a large scale research program on H. diversicolor in different estuaries with the PNETOX Program National Program of Ecotoxicology. In the framework of the French National Program of Ecotoxicology, environmental quality was assessed in the multi-polluted Seine Estuary and the comparatively clean Authie Estuary, France (2002-2004), by determining contaminant levels in water, sediments and the infaunal worm H. diversicolor. The experiments were carried out concurrently in spring 2007 using a common protocol.

Malaysia has the potential to be a key seaweed production player in the region if proper management and possible interventions take place. Chapter One analyses the capacity building programs in Malaysia that aim to transform conventional seaweed cultivation techniques to modern seaweed cultivation techniques by applying a scientific approach. Chapter Two studies the marine macroalgae thriving at intertidal rocky shores on the west coast of Portugal, a transition zone where the combined influence of cold waters and warmer waters may favour the development of unique macroalgal communities. In Chapter Three, the authors discuss how problems of environmental deterioration and energy demand could be alleviated by the paradigm shift from fossil to biofuel from marine algae. The chapter elaborates on the unconventional strategies developed for the farming as well as conversion of Ulva rigida to biofuels and biochemicals. Chapter Four discusses the incorporation of macroalgae or macroalgal derived ingredients as a source of both macro-nutrients and micro-nutrients for animal feed production. The biological health benefits of the macroalgal ingredients beyond basic nutrition for the development of functional feed in the aquaculture, the ruminant and the swine sectors are also discussed together with the industrial challenges of its application. To conclude, Chapter Five provides a brief review of seaweed co-culture and its environmental impact on coastal fisheries. First, the current situation and problems facing the coastal fisheries, and the plans to overcome these issues, are discussed. Finally, the positive and negative effects of seaweed culture, role of seaweed co-culture, and the overall environmental impact are addressed.

A Practical Guide to the Marine Animals of Northeastern North America features Leland Pollock's innovative, user-friendly keys that circumvent many of the difficulties of traditional identification systems. Pollock's keys offer choices among distinctive attributes of the specimen. Results are compared to all variations found in the region's fauna, using a neatly displayed tabular form accompanied by many line drawings.

The introduction describes marine habitats, tips for conducting fieldwork, and outlines groups of organisms found in northeastern North America, from Nova Scotia to North Carolina. Although designed for the nonexpert, the manual provides coverage sufficient to meet the more demanding needs of those conducting biotic surveys and advanced studies in the region.
-- User-friendly keys for common marine animals, North Carolina to Nova Scotia, from splash zone to the edge of the continental shelf.
-- Ample illustrations aid identification.

As a society, we use more than 100,000 different industrial compounds to promote health and treat disease, to grow food and to access clean water. While technological developments have improved our lives, most of these compounds end up in our oceans where they threaten marine life and human health. The practice of ocean waste disposal has had a long history and was initially believed to have minimal associated costs. However, it is now clear that although we can use the oceans for cheap waste treatment, we do this at the expense of the other key benefits we derive from the sea, notably human food supplies as well as its aesthetic value (including opportunities for recreation and tourism). Many of the pollution problems of previous decades appear to have been solved in the developed world, or at least managed to minimise their environmental impacts. However, despite treatment being available for some waste products, a potent mixture of toxic compounds and other potentially harmful additions continue to enter the marine environment every day. So, have the problems of marine pollution really been solved or have we simply generated a suite of different and potentially more complex challenges? In this volume we consider marine pollution from the perspective of the historical problems that are now successfully managed or solved, the ongoing problems and the emerging challenges that we face. These include hormone mimics, the residues from pharmaceuticals, nanometre-sized particles added to new materials, the millimetric plastics added to shampoos and cosmetics, the artificial fibres in the clothes we wear, and the noise and light pollution from our expanding industries and cities. Marine Pollution is aimed at senior undergraduates, masters and graduate level students studying marine sciences. It will also serve as a useful reference for researchers and professionals working in the fields of environmental management, marine planning, marine environmental regulation and protection, as well as those working for government departments, environmental NGOs and marine environmental consultancies.

The diversity, quantity and vitality of fish life in the seas that bathe the Galapagos archipelago is every bit as dramatic as the exotic wildlife above! It is completely updated with many new photos added. It is a much improved identification book for one of the world's natural underwater wonders. If you are even thinking of diving the Galapagos this beautiful, comprehensive fish identification guide is a must.

This volume is a collection of short essays articles on the multidimensional aspects of the blue economy. It presents perspectives on the concept and the essential ingredients of the blue economy such as marine resources, maritime infrastructure and marine environment. International cooperative approaches to promote blue economy, the role of maritime governance and capacity building are discussed in the context of implementing the blue economy. The book also promotes the importance of sustainable utilization of the oceans which lies at the core of the blue economy.

Killer tales from an award-winning cinematographer and marine biologist. Marine biologist and underwater cameraman Richard 'Shark Tracker' Fitzpatrick wrangles sharks and other deadly marine creatures for a living. From the coral gardens of the Great Barrier Reef to the murky depths of the Amazon, Fitzpatrick shares his real-life experiences with predators of the deep - from sharks and box jellyfish to sea snakes. A mixture of mind-boggling anecdotes and science provide an intimate insight into marine life and the conservation issues at stake.

The University of Florida has an ambitious goal: to harness the power of its faculty, staff, students, and alumni to solve some of society's most pressing problems and to become a resource for the state of Florida, the nation, and the world. In 1958, a panel funded by the Office of Naval Research initiated the formation of the International Shark Attack File, the first comprehensive documentation of shark attacks on a global and historical level. In 1988, the file was transferred to the Florida Museum of Natural History at the University of Florida. It is part of the Florida Program for Shark Research, directed by George H. Burgess, the planet's expert on shark attacks, and staffed by a world-renowned team of research scientists and educators. Travel the globe with Burgess, the Sherlock Holmes of shark attacks, as he studies mauled remains and the scars of the lucky survivors. His most famous case took him to an idyllic Red Sea resort where panic had set in after five attacks occurred in a single week. The attacks were carried out by Oceanic White Tips and a Mako, deep-water species that had no business being so close to the beach. Following the clues--dive-boat operators feeding sharks by hand to entertain tourists, the disappearance of the yearly tuna catch, and the dead sheep New Zealand cargo companies had been tossing overboard--Burgess solves the mystery of the shark attacks for Egyptian tourism officials and offers a list of best practices. But not all cases end with an easy prescription. In St. Petersburg Beach, Florida, he visits a recent shark-attack victim, bitten just off her dock on Boca Ciega Bay. While the victim would prefer to forget the fateful day the sharp-toothed jaws of the Bull Shark latched onto her leg just below the knee, Burgess gently coaxes the story from her. It will go in the file, to educate other shark researchers and educators and help us better understand the world's most feared predator.

Beach Trip Biology is a resource for parents to use with children traveling to the Caribbean or South Florida. The book provides background information for parent to provide biological learning experiences. Chapters have learning objectives and identifies essential biology concepts that are reinforced.

This book is the third companion volume to 'An Introduction To Using GIS In Marine Biology'. It is designed to augment the information on using GIS in marine biology provided in that book, and, indeed, to be used alongside it rather than to be used independently as a stand-alone volume. Therefore, this book will be of most interest to those who have already read 'An Introduction To Using GIS In Marine Biology'.
This book consists of five exercises covering the practical use of GIS in marine biology using ERSI's ArcGIS(r) 10.2 GIS software and R statistical software. These exercises are based around integrating GIS and Species Distribution Modelling (SDM), and work through an example of an SDM from processing your survey data, through making raster data layers of environmental variables to constructing an SDM, visualising its predicted spatial distribution and validating its predictive ability. The exercises are designed to be followed in the order they are presented, and work with a specific data set, which can be downloaded separately for free.
Working through these five exercises will help the novice GIS user obtain experience in creating and using SDMs, and so develop their GIS skills. Unlike most other GIS tutorials, this information is specifically presented in a marine biological context and all the exercises use real data from a marine biological study. Therefore, these exercises are more likely to provide the kind of experience in using GIS that marine biologists will find useful and applicable to their own research.
These exercises are presented in the same easy-to-follow flow diagram-based format first introduced in the 'How To...' section of 'An Introduction To Using GIS In Marine Biology'. They are accompanied by images which show the user how their GIS project should look as they progress through the exercises, allowing them to compare their own work to the expected results.
This is part of the PSLS series of books which use Task-Oriented Learning (TOL) to teach the practical application of research skills to the life sciences. This involves demonstrating how these skills can be used in the specific circumstances in which they are likely to be required rather than concentrating on teaching theoretical frameworks or on teaching skills in a generic or abstract manner. By seeing how the similar processes are used to achieve a variety of different goals within a specific field, it becomes easier for the reader to identify the general rules behind the practical application of these processes and, therefore, to transfer them to novel situations they may encounter in the future.
Table Of Contents:
Preface.
1. Introduction.
2. How To Use The ArcGIS 10.2 Software User Interface.
3. Exercise One: Creating A Presence-Absence Raster Grid For A Species From Survey Data.
4. Exercise Two: Creating Raster Data Layers Of Environmental Variables.
5. Exercise Three: Creating A Species Distribution Model (SDM).
6. Exercise Four: Visualising The Results Of An SDM In A GIS Project.
7. Exercise Five: Validating The Predictive Ability Of An SDM Using An Independent Data Set.
Appendix I.