Books in Insect ecology and behaviour

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Biology of Disease Vectors

• 2nd Edition
• December 2, 2004
• William H. Marquardt
• English
• eBook 978-0-08-049406-7

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Biology of Disease Vectors presents a comprehensive and advanced discussion of disease vectors and what the future may hold for their control. This edition examines the control of disease vectors through topics such as general biological requirements of vectors, epidemiology, physiology and molecular biology, genetics, principles of control and insecticide resistance. Methods of maintaining vectors in the laboratory are also described in detail.No other single volume includes both basic information on vectors, as well as chapters on cutting-edge topics, authored by the leading experts in the field. The first edition of Biology of Disease Vectors was a landmark text, and this edition promises to have even more impact as a reference for current thought and techniques in vector biology.

Plant Virus Vector Interactions

• 1st Edition
• Volume 36
• April 9, 2002
• R. T. Plumb
• English
• Hardback 978-0-12-005935-5

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Most viruses that infect plants need an intermediary (vector) for their spread between plants. This book describes, for the main vector groups, the current state of knowledge of what happens to viruses in their passage through their vectors and what interactions within the vector determine whether or not they are passed on to new plants. This volume of Advances in Botanical Research brings together current research on virus-vector interactions, with chapters on aphids, fungi, whitefly, beetles, nematodes, thrips, leafhoppers, treehoppers, and planthoppers, and other vectors. Advances in Botanical Research is a multi-volume publication that brings together reviews by recognized experts on subjects of importance to those involved in botanical research. First published in 1963, Advances in Botanical Research has earned a reputation for excellence in the field for more than thirty years. In 1995, Advances in Botanical Research was merged with Advances in Plant Pathology to provide one comprehensive resource for the plant science community, with equal coverage of plant pathology and botany in both thematic and mixed volumes. Now edited by J.A. Callow (University of Birmingham, UK), supported by an international Editorial Board, Advances in Botanical Research publishes in-depth and up-to-date reviews on a wide range of topics which will appeal to post-graduates and researchers in plant sciences including botany, plant biochemistry, plant pathology and plant physiology. Eclectic volumes in the serial are supplemented by thematic volumes on such topics as Plant Protein Kinases, and Plant Trichomes. In 1999, the Institute for Scientific Information released figures showing that Advances in Botanical Research has an Impact Factor of 4.378, placing it 8th in the highly competitive category of Plant Sciences.

Insect Timing

• 1st Edition
• June 19, 2001
• D.L. Denlinger + 2 more
• English
• Hardback 978-0-444-50608-5

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• eBook 978-0-08-053472-5

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Leading experts in the field bring together diverse aspects of insect timing mechanisms. This work combines three topics that are central to the understanding of biological timing in insects: circadian rhythms, photoperiodism, and diapause. The common theme underlining each of the contributions to this book is an understanding of the timing of events in the insect life cycle. Most daily activities (emergence, feeding, mating, egg laying, etc.) undertaken by insects occur at precise times each day. Likewise, seasonal events such as the entry into or termination from an overwintering dormancy (diapause) occur at distinct times of the year. This book documents such events and provides an up-to-date interpretation of the molecular and physiological events undergirding these activities.The study of circadian rhythms has undergone a flowering in recent years with the molecular dissection of the components of the circadian clock. Now that many of the clock genes have been identified it is possible to track daily patterns of clock-related mRNAs and proteins to link the entraining light cycles with molecular oscillations within the cell. Insect experiments have led the way in demonstrating that the concept of a "master clock" can no longer be used to explain the temporal organization within an animal. Insects have a multitude of cellular clocks that can function independently and retain their function under organ culture conditions, and they thus offer a premier system for studying how the hierarchical organization of clocks results in the overall temporal organization of the animal. Photoperiodism, and its most obvious manifestation, diapause, does not yet have the molecular underpinning that has been established for circadian rhythms, but recent studies are beginning to identify genes that appear to be involved in the regulation of diapause. Overall, the book presents the rich diversity of challenges and opportunities provided by insects for the study of timing mechanisms.