This latest volume in this series contains articles on Arachnid Physiology and Behaviour.The papers in this special issue give rise to key themes for the future. Contributions from the leading researchers in entomology Discusses arachnid physiology and behavior Includes in-depth reviews with valuable information for a variety of entomology disciplines
This latest volume in this series contains articles on Arachnid Physiology and Behaviour. The papers in this special issue give rise to key themes for the future. Contributions from the leading researchers in entomology Discusses Arachnid physiology and behavior Includes in-depth reviews with valuable information for a variety of entomology disciplines
This latest volume in this series contains articles on Arachnid Physiology and Behaviour. The papers in this special issue give rise to key themes for the future. Contributions from the leading researchers in entomology Discusses Arachnid physiology and behavior Includes in-depth reviews with valuable information for a variety of entomology disciplines
This latest volume in this series contains articles on Arachnid Physiology and Behaviour.The papers in this special issue give rise to key themes for the future. Contributions from the leading researchers in entomology Discusses arachnid physiology and behavior Includes in-depth reviews with valuable information for a variety of entomology disciplines
Table of contents vol. 41: The Sensory and Behavioural Biology of Whip Spiders (Arachnida, Amblypygi) Dynamic Population Structure and the Evolution of Spider Mating Systems Spider Cognition The Form and Function of Spider Orb Webs: Evolution from Silk to Ecosystems
Spiders are wonderful creatures. Their varied and complex range of behavior and highly developed sensory systems are excellently adapted to the environmental conditions - as is proven by their evolutionary success. Over 400 million years, spiders have developed their sensory organs to a fascinating technical perfection and complexity. In his intriguing book, Professor Friedrich G. Barth puts this technical perfection into the context of "biology", in which the interaction between environment and sensory organs and the selectivity of the senses as a link between environment and behavior play a major role.
Recently another book on insect physiology was published. It was restricted to a few focal points as are many of these new insect physiology books, but there was considerable depth in its specialized point of view. We were dis cussing the structure of this book and of insect physiology books, in general, when Prof. Remmert asked me " . . . and what about books on spider physio logy?" Silence. Then I started to explain "oh yes, there is a congress pro ceedings volume on this topic and there is a group with excellent publica tions on another topic . . . ", but I felt that this answer was weak. One can no longer buy the proceedings volume in a bookshop and to read a series of publications on a given topic one must search in a library for a dozen journals. Why is there not a single book on spider physiology comparable with the many books on insect physiology? Are spiders a scientific ivory tower, far from public interest and commercial importance? I do not think so, although spiders are one of the many "forgotten" animal groups which always grew in the shadow of the insects. There are research groups working on spider physiology, there are fascinating phenomena in this animal group and there are plenty of exciting results. Spiders may have been always underresearch ed, but research is progressing. In the last few years, new books have been published, e. g.
With over 43,000 species, spiders are the largest predacious arthropod group. They have developed key characteristics such as multi-purpose silk types, venoms consisting of hundreds of components, locomotion driven by muscles and hydraulic pressure, a highly evolved key-lock mechanism between the complex genital structures, and many more unique features. After 300 million years of evolutionary refinement, spiders are present in all land habitats and represent one of the most successful groups of terrestrial organisms. Ecophysiology combines functional and evolutionary aspects of morphology, physiology, biochemistry and molecular biology with ecology. Cutting-edge science in spiders focuses on the circulatory and respiratory system, locomotion and dispersal abilities, the immune system, endosymbionts and pathogens, chemical communication, gland secretions, venom components, silk structure, structure and perception of colours as well as nutritional requirements. Spiders are valuable indicator species in agroecosystems and for conservation biology. Modern transfer and application technologies research spiders and their products with respect to their value for biomimetics, material sciences, and the agrochemical and pharmaceutical industries.
Spiders are often underestimated as suitable behavioural models because of the general belief that due to their small brains their behaviour is innate and mostly invariable. Challenging this assumption, this fascinating book shows that rather than having a limited behavioural repertoire, spiders show surprising cognitive abilities, changing their behaviour to suit their situational needs. The team of authors unravels the considerable intra-specific as well as intra-individual variability and plasticity in different behaviours ranging from foraging and web building to communication and courtship. An introductory chapter on spider biology, systematics and evolution provides the reader with the necessary background information to understand the discussed behaviours and helps to place them into an evolutionary context. Highlighting an under-explored area of behaviour, this book will provide new ideas for behavioural researchers and students unfamiliar with spiders as well as a valuable resource for those already working in this intriguing field.