Construction behaviour occurs across the entire spectrum of the animal kingdom and affects the survival of both builders and other organisms associated with them. Animal Architecture provides a comprehensive overview of the biology of animal building. The book recognizes three broad categories of built structure: homes, traps, and courtship displays. Even though some of these structures are complex and very large, the behaviour required to build them is generally simple andthe anatomy for building unspecialized. Standardization of building materials helps to keep building repertoires simple, while self-organizing effects help create complexity. In a case-study approach to function, insects demonstrate how homes can remain operational while they grow, spiderwebs illustratemechanical design, and the displays of bowerbirds raise the possibility of persuasion through design rather than just decoration. Studies of the costs to builders provide evidence of optimal designs and of trade-offs with other life history traits. As ecosystem engineers, the influence of builders is extensive and their effect is generally to enhance biodiversity through niche construction. Animal builders can therefore represent model species for the study of the emerging subject ofenvironmental inheritance. Building, and in particular building with silk, has been demonstrated to have important evolutionary consequences.This book is intended for students and researchers in comparative animal biology, but will also be of relevance and use to the increasing numbers of architects and civil engineers interested in developing ideas from the animal kingdom.
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nature origins and processing
behaviour and anatomy
4 Work organisation and building complexity
5 Mechanics growth and design
6 Building costs optimal solutions and tradeoffs
7 Animal architects as ecosystem engineers
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Adapted animal ants architecture arthropods bees birds bower bowerbird builders building behaviour building material built caddis larvae capture spiral capture thread cavity cells cocoon Collias colonies comb compared complex construction behaviour costs Craig create Ecology ecosystem engineers ecribellate effect eggs energy envelope environment eusocial evidence evolution evolved example experimental extended phenotype feeding females fibres foraging fossorial function glands greater habitat Hansell Hymenoptera hypothesis individuals Jeanne keystone species larvae leaf male mesh mound mucus mud shrimp nest building nest material niche construction orb webs organisms particles Polistes Polistinae polychaete predation predictions prey capture produced pulp radii rodents role Ropalidia secretion sediment selection self-secreted materials sequence shrimp silk social insects soil specialised speciation Sphecidae spiders spinning spotted bowerbird stabilimentum Stenogastrinae stigmergic structure surface task temperature tension termites tion tool trap Uloboridae Vespidae Vollrath wasp weaver