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The accurate identification of fish 'ear-bones', known as otoliths, is essential to determine the fish prey of marine and terrestrial predators. Fish otoliths are species-specific when combining size, shape and surface features, and can remain undigested for long periods. As a result, they can indicate which fish make up the diet of various predators, including cephalopod, seabird, marine mammal and fish species. Such studies are crucial for understanding marine ecosystems, and trophodynamics in particular. Increasingly, these methods are being used to understand the diet of some terrestrial predators, also extending to that of humans in archaelogical studies.
Otoliths of Common Australian Temperate Fish offers users a verified reference collection to assist in the accurate identification of species and size of fish using otoliths. It covers 141 fish species from a broad geographic range of the Australian temperate region and includes commercial and non-commercial fish species. A standardised written description of the otolith structure, size and surface features is provided for each species. Included are brief distribution and ecology notes, and regression for both otolith and fish lengths, together with high-quality SEM photographs of the otolith described.
This guide will be an essential reference for marine scientists and marine mammal researchers; ornithologists, fisheries researchers and fish biologists studying age and growth or comparative anatomy; and archaeologists.
Dianne Furlani has worked in temperate marine science for 20+ years in the fields of taxonomy, biology and ecology, predominantly in SE Australian shelf and inshore waters, and predominantly working on finfish species and ecological work typically with links to trophodynamic studies.
Dr Rosemary Gales is Section Head, Wildlife and Marine Conservation Section, Biodiversity Conservation Branch, Department of Primary Industries and Water (DPIW).
David Pemberton is Senior Curator of Southern Ocean and Antarctica, The Tasmanian Museum and Art Gallery.
The development of science, technology and industry in the near future requires new materials and devices, which will differ in many aspects from that of past years. This is due to the fact that many sophisticated processes and new materials are being invented. The computer engineering field is a typical example. The main building block for these achievements is science, and leading it is physics, which provides the foundation for the chemical, biological and atomic industries.
Physics for Chemists contains many instructive examples complete with detailed analysis and tutorials to evaluate the student's level of understanding. Specifically it is focused to give a robust and relevant background to chemistry students and to eliminate those aspects of physics which are not relevant to these students.
This book is aimed at chemistry students and researches who would by using the book, not only be able to perform relevant physical experiments, but would then also be in a position to provide a well founded explanation of the results.
* Fundamental principles of modern physics are explained in parallel with their applications to chemistry and technology
* Large number of practical examples and tasks
* Presentation of new aspects of chemical science and technology e.g. nanotechnology and synthesis of new magnetic materials
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