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Social Insects, Volume I is a part of a four-volume discourse and collection of research on insect sociobiology. This volume covers the "modern theory with certain concepts of insect sociality, particularly through genetic, behavioral, and evolutionary pathways. This book consists of eight chapters, which mostly deal with the sociality of insects and other aspects. The first chapter provides an introduction to the subject of insect sociality. Topics in this chapter include definition of sociality, types of social insects, and insect sociobiology. The next chapter focuses on the origin and evolution of insect sociality and discusses the theories of origin of sociality. The following chapters discuss the aspects of social insects in terms of antiquity and territoriality. Caste differentiation and division of labor is also emphasized, as well as the genetics of sociality. The last two chapters deal with the larvae of the social hymenoptera and the social and evolutionary significance of social insect symbionts. This volume is a good reference for students and teachers in the study of entomology, zoology, and biology.
Basic Principles in Nucleic Acid Chemistry, Volume I provides information pertinent to the fundamental aspects of nucleic acids. This book discusses the development of the basic principles in nucleic acid research that will serve as a foundation for further advancement in nucleic acid research. Organized into six chapters, this volume begins with an overview of the history of the scientific study of nucleic acid as a genetic material. This text then examines the utility of the analogs of the naturally occurring nucleic acid components as biochemical tools and as therapeutic agents. Other chapters consider mass spectrometry that deals with the production and chemistry of ions in the vapor phase. This book discusses as well the various aspects of the excited states of the nucleic acids. The final chapter deals with the systematic study of the physiochemical properties of the monomeric units of nucleic acid. This book is a valuable resource for molecular biologists, scientists, and research workers.
In this pathbreaking and far-reaching work George Oster and Edward Wilson provide the first fully developed theory of caste evolution among the social insects. Furthermore, in studying the effects of natural selection in generally increasing the insects' ergonomic efficiency, they go beyond the concentration of previous researchers on the physiological mechanisms of the insects and turn our attention instead to the scale and efficiency of the insects' division of labor. Recognizing that the efficiency of the insect colony is based on a complex fitting of the division of labor to many simultaneous needs, including those imposed by the distribution of resources and enemies around the nest, Professors Oster and Wilson are able to construct a series of mathematical models to characterize the agents of natural selection that promote particular caste systems. The social insects play a key role in the subject of sociobiology because their social organization is so rigid and can be related to genetic evolution. Because of this important consideration, the authors' work has consequences not only for entomology but also for general evolutionary theory.
Social insects are among the most successful and ecologically important animals on earth. The lifestyle of these insects has fascinated humans since prehistoric times. These species evolved a caste of workers that in most cases have no progeny. Some social insects have worker sub-castes that are morphologically specialized for discrete tasks. The organization of the social insect colony has been compared to the metazoan body. Males in the order Hymenoptera (bees, ants and wasps) are haploid, a situation which results in higher relatedness between female siblings. Sociality evolved many times within the Hymenoptera, perhaps spurred in part by increased relatedness that increases inclusive fitness benefits to workers cooperating to raise their sisters and brothers rather than reproducing themselves. But epigenetic processes may also have contributed to the evolution of sociality. The Hymenoptera provide opportunities for comparative study of species ranging from solitary to highly social. A more ancient clade of social insects, the termites (infraorder Isoptera) provide an opportunity to study alternative mechanisms of caste determination and lifestyles that are aided by an array of endosymbionts. This research topic explores the use of genome sequence data and genomic techniques to help us explore how sociality evolved in insects, how epigenetic processes enable phenotypic plasticity, and the mechanisms behind whether a female will become a queen or a worker.
This book analyzes for the first time how parasites shape the biology of social insects: the ants, wasps, bees, and termites. Paul Schmid-Hempel provides an overview of the existing knowledge of parasites in social insects. Current ideas are evaluated using a broad database, and the role of parasites for the evolution and maintenance of the social organization and biology of insects is carefully scrutinized. In addition, the author develops new insights, especially in his examination of the intricate relationships between parasites and their social hosts through the rigorous use of evolutionary and ecological concepts. Schmid-Hempel identifies gaps in our knowledge about parasites in social insects and uses models to develop new questions for future research. In addition, issues that are usually considered separately--such as division of labor, genetics, immunology, and epidemiology--are placed in a common framework to analyze two of the most successful adaptations of life: parasitism and sociality. This work will appeal not only to practitioners in the fields of behavioral ecology and sociobiology, but also to others interested in host-parasite relationships or in social organisms, such as apiculturists struggling to overcome the problems arising from mite infestations of honeybee colonies.
Advances in Insect Physiology, Volume 59, examines the molecular and developmental origins of insect extended phenotypes, their diverse physiological functions, their consequences for the ecology and evolution of insects, and their biotic partners. Chapters cover recent ideas about the significance and roles of extended phenotypes and provide overviews of the latest advances. Written for a broad audience of researchers and students, the book's chapters establish extended phenotypes as focal structures for understanding genotype-to-phenotype maps, the origins and consequences of complex traits among multiple interacting partners, and the roles they may play in providing resilience against climate change. - Compiles and synthesizes the latest advances in understanding extended phenotypes - Provides detailed information on molecular and cellular mechanisms underpinning formation and control of extended phenotypes - Gives comprehensive implications of extended phenotypes for ecology, evolution and applied systems