Across the Afrotropical and Malagasy regions, ants are one of the most conspicuous and ecologically dominant animal groups. From driver ants to weaver ants, there are over 2,000 species in Africa alone and over 600 in Madagascar. Ants of Africa and Madagascar introduces readers to the fascinating and diverse ant fauna of the Afrotropical and Malagasy regions. Featuring illustrated keys to subfamilies, separate keys to Afrotropical and Malagasy ant genera, and distribution maps, it also describes diagnostic characters, explores ant ecology and natural history, and includes a list of all currently recognized ant species in the regions. This detailed guide is an essential tool for entomologists and myrmecologists working with and learning about this diverse population of Formicidae.

Insects display a staggering diversity of mating and social behaviours. Studying these systems provides insights into a wide range of evolutionary and behavioural questions, such as the evolution of sex, sexual selection, sexual conflict, and parental care. This edited volume provides an authoritative update of the landmark book in the field, The Evolution of Insect Mating Systems (Thornhill and Alcock, 1983), which had such a huge impact in shaping adaptationist approaches to the study of animal behaviour and influencing the study of the evolution of reproductive behaviour far beyond the taxonomic remit of insects. This accessible new volume brings the empirical and conceptual scope of the original book fully up to date, incorporating the wealth of new knowledge and research of the last 30 years. It explores the evolution of complex forms of sex determination in insects, and the role of sexual selection in shaping the evolution of mating systems. Selection arising via male contest competition and female choice (both before and after copulation) are discussed, as are the roles of parasites and pathogens in mediating the strength of sexual selection, and the role that parental care plays in successful reproduction. The Evolution of Insect Mating Systems is suitable for both graduate students and researchers interested in insect mating systems or behaviour from an evolutionary, genetical, physiological, or ecological perspective. Due to its interdisciplinary and concept-driven approach, it will also be of relevance and use to a broad audience of evolutionary biologists.

Insects display a staggering diversity of mating and social behaviours. Studying these systems provides insights into a wide range of evolutionary and behavioural questions, such as the evolution of sex, sexual selection, sexual conflict, and parental care. This edited volume provides an authoritative update of the landmark book in the field, The Evolution of Insect Mating Systems (Thornhill and Alcock, 1983), which had such a huge impact in shaping adaptationist approaches to the study of animal behaviour and influencing the study of the evolution of reproductive behaviour far beyond the taxonomic remit of insects. This accessible new volume brings the empirical and conceptual scope of the original book fully up to date, incorporating the wealth of new knowledge and research of the last 30 years. It explores the evolution of complex forms of sex determination in insects, and the role of sexual selection in shaping the evolution of mating systems. Selection arising via male contest competition and female choice (both before and after copulation) are discussed, as are the roles of parasites and pathogens in mediating the strength of sexual selection, and the role that parental care plays in successful reproduction. The Evolution of Insect Mating Systems is suitable for both graduate students and researchers interested in insect mating systems or behaviour from an evolutionary, genetical, physiological, or ecological perspective. Due to its interdisciplinary and concept-driven approach, it will also be of relevance and use to a broad audience of evolutionary biologists.

First published in 1956, this classic work on the anatomy of honey bee by R. (Robert)E. Snodgrass is acclaimed as much for the author's remarkably detailed line drawings of the various body parts and organs of his subject as for his authoritative knowledge of entomology and the engaging prose style with which he conveys it.This book should be in the library of every student of the honey bee and bee behavior beekeepers (both amateur and professional)as well as scientists."

'Consider the most common mosquito on Earth. This soft, little, dusty-brown insect is Culex Pipiens. You've seen her land on your arm. You have caught her just at the end of her feeding, her translucent belly swelling red with your very own blood. At such a moment, you can be forgiven for failing to notice what an elegant and hardy thing she is. But she is . . . ' No creature has touched directly the lives of more human beings than the mosquito. She has been a nuisance, a pollinator of plants and an angel of death all over the globe. And throughout history, much of our trouble with the mosquito has been caused by man himself. Professor Andrew Spielman has dedicated his life to understanding this insect. In Mosquito he tells the story of man's struggle to live with the mosquito, from the defeat of Sir Francis Drake's fleet, to the death of thousands of Frenchmen working on the Panama Canal and to the recent panic over the West Nile Virus in New York. And he shows us how we have accelerated the spread of disease, describing the catastrophic failures of mosquito control which have ensured that - even now - one person dies of malaria every twelve seconds.

This is the third in a series of catalogs and bibliographies of the Cicadoidea covering 1981-2010. The work summarizes the cicada literature, providing a means for easy access to information previously published on a particular species or to allow researchers the ability to locate similar work that has been published on other species. A total of 2,591 references are included in the bibliography. The book is a source of biological and systematic information that could be used by zoologists, entomologists, individuals interested in crop protection, and students studying entomology as well as anyone interested in cicadas or who require specific information on the insects. Each genus/species is identified with the reference, the page number, any figures (if applicable), the topics covered by the reference, any synonymies, and any biogeographic information mentioned for the species in the individual reference. An added benefit to the catalog is that it is the first complete species list for the Cicadoidea, including all synonymies and new combinations through 2012.
Provides nearly four times the number of references of the previous catalog, demonstrating the explosion of data since that timeContains all references found that mention a genus or species name in the workIncludes more than 300 additional references that were not in the two previous works on this subjectFeatures the first complete species list for the Cicadoidea, including all synonymies

How the nature illustrations of a Renaissance polymath reflect his turbulent age This pathbreaking and stunningly illustrated book recovers the intersections between natural history, politics, art, and philosophy in the late sixteenth-century Low Countries. Insect Artifice explores the moment when the seismic forces of the Dutch Revolt wreaked havoc on the region's creative and intellectual community, compelling its members to seek solace in intimate exchanges of art and knowledge. At its center is a neglected treasure of the late Renaissance: the Four Elements manuscripts of Joris Hoefnagel (1542-1600), a learned Netherlandish merchant, miniaturist, and itinerant draftsman who turned to the study of nature in this era of political and spiritual upheaval. Presented here for the first time are more than eighty pages in color facsimile of Hoefnagel's encyclopedic masterwork, which showcase both the splendor and eccentricity of its meticulously painted animals, insects, and botanical specimens. Marisa Anne Bass unfolds the circumstances that drove the creation of the Four Elements by delving into Hoefnagel's writings and larger oeuvre, the works of his friends, and the rich world of classical learning and empirical inquiry in which he participated. Bass reveals how Hoefnagel and his colleagues engaged with natural philosophy as a means to reflect on their experiences of war and exile, and found refuge from the threats of iconoclasm and inquisition in the manuscript medium itself. This is a book about how destruction and violence can lead to cultural renewal, and about the transformation of Netherlandish identity on the eve of the Dutch Golden Age.

Ants are probably the most dominant insect group on Earth, representing ten to fifteen percent of animal biomass in terrestrial ecosystems. Flowering plants, meanwhile, owe their evolutionary success to an array of interspecific interactions--such as pollination, seed dispersal, and herbivory--that have helped to shape their great diversity. "The Ecology and Evolution of Ant-Plant Interactions" brings together findings from the scientific literature on the coevolution of ants and plants to provide a better understanding of the unparalleled success of these two remarkable groups, of interspecific interactions in general, and ultimately of terrestrial biological communities.
"The Ecology and Evolution of Ant-Plant Interactions" synthesizes the dynamics of ant-plant interactions, including the sources of variation in their outcomes. Victor Rico-Gray and Paulo S. Oliveira capture both the emerging appreciation of the importance of these interactions within ecosystems and the developing approaches that place studies of these interactions into a broader ecological and evolutionary context. The collaboration of two internationally renowned scientists, "The Ecology and Evolution of Ant-Plant Interactions" will become a standard reference for understanding the complex interactions between these two taxa.

Neither pest management nor resistance management can occur with only an understanding of pest biology. For years, entomologists have understood, with their use of economic thresholds, that at least a minimal use of economics was necessary for proper integrated pest management. IRM is even more complicated and dependent on understanding and using socioeconomic factors. The new edition of "Insect Resistance Management" addresses these issues and much more.

Many new ideas, facts and case studies have been developed since the previous edition of "Insect Resistance Management" published. With a new chapter focusing on Resistance Mechanisms Related to Plant-incorporated Toxins and heavily expanded revisions of several existing chapters, this new volume will be an invaluable resource for IRM researchers, practitioners, professors and advanced students. Authors in this edition include professors at major universities, leaders in the chemical and seed industry, evolutionary biologists and active IRM practitioners. This revision also contains more information about IRM outside North America, and a modeling chapter contains a large new section on uncertainty analysis, a subject recently emphasized by the U.S. Environmental Protection Agency. The final chapter contains a section on insecticidal seed treatments.

No other book has the breadth of coverage of "Insect Resistance Management, 2e." It not only covers molecular to economic issues, but also transgenic crops, seed treatments and other pest management tactics such as crop rotation. Major themes continuing from the first edition include the importance of using IRM in the integrated pestmanagement paradigm, the need to study and account for pest behavior, and the influence of human behavior and decision making in IRM.
Provides insights from the history of insect resistance management (IRM) to the latest scienceIncludes contributions from experts on ecological aspects of IRM, molecular and population genetics, economics, and IRM social issuesOffers biochemistry and molecular genetics of insecticides presented with an emphasis on recent researchEncourages scientists and stakeholders to implement and coordinate strategies based on local social conditions"

The Superorganism promises to be one of the most important scientific works published in this decade. Coming eighteen years after the publication of The Ants, this new volume expands our knowledge of the social insects (among them, ants, bees, wasps, and termites) and is based on remarkable research conducted mostly within the last two decades. These superorganisms a tightly knit colony of individuals, formed by altruistic cooperation, complex communication, and division of labor represent one of the basic stages of biological organization, midway between the organism and the entire species. The study of the superorganism, as the authors demonstrate, has led to important advances in our understanding of how the transitions between such levels have occurred in evolution and how life as a whole has progressed from simple to complex forms. Ultimately, this book provides a deep look into a part of the living world hitherto glimpsed by only a very few."

"Insect Molecular Genetics, Third Edition," summarizes and synthesizes two rather disparate disciplines-entomology and molecular genetics. This volume provides an introduction to the techniques and literature of molecular genetics; defines terminology; and reviews concepts, principles, and applications of these powerful tools. The world of insect molecular genetics, once dominated by "Drosophila," has become much more diverse, especially with the sequencing of multiple arthropod genomes (from spider mites to mosquitoes). This introduction includes discussion of honey bees, mosquitoes, flour beetles, silk moths, fruit flies, aphids, house flies, kissing bugs, cicadas, butterflies, tsetse flies and armyworms.

This book serves as both a foundational text and a review of a rapidly growing literature. With fully revised and updated chapters, the third edition will be a valuable addition to the personal libraries of entomologists, geneticists, and molecular biologists.
* Up-to-date references to important review articles, websites, and seminal citations in the disciplines
* Well crafted and instructive illustrations integral to explaining the techniques of molecular genetics
* Glossary of terms to help beginners learn the vocabulary of molecular biology

Bees existed long before human beings, but our future is perhaps more reliant upon them than any other species. They pollinate 80 per cent of the world's crops and plants, but how much do we really know about them? Small, clever and mysterious, the honeybee in particular has long been celebrated in human culture as a sacred insect, a symbol of the sun, bridging the gap between our world and the next. They are expert communicators, skilled aviators and natural alchemists, turning fresh nectar into sweet, golden honey. They are also in trouble and need our help. This beautifully illustrated guide explores the honeybee's historic relationship with humans, the basics of beekeeping, and how we can help save the bees' dwindling population.

The common fruit fly, "Drosophila, " has long been one of the most productive of all laboratory animals. From 1910 to 1940, the center of "Drosophila" culture in America was the school of Thomas Hunt Morgan and his students Alfred Sturtevant and Calvin Bridges. They first created "standard" flies through inbreeding and by organizing a network for exchanging stocks of flies that spread their practices around the world.
In "Lords of the Fly, " Robert E. Kohler argues that fly laboratories are a special kind of ecological niche in which the wild fruit fly is transformed into an artificial animal with a distinctive natural history. He shows that the fly was essentially a laboratory tool whose startling productivity opened many new lines of genetic research. Kohler also explores the moral economy of the "Drosophilists": the rules for regulating access to research tools, allocating credit for achievements, and transferring authority from one generation of scientists to the next.
By closely examining the Drosophilists' culture and customs, Kohler reveals essential features of how experimental scientists do their work.

Highly Recommended in CHOICE, Jan 2020, Vol 57, 5 Insects are key components of life on our planet, and their presence is essential for maintaining balanced terrestrial ecosystems. Without insects humans would struggle to survive, and on a world scale food production would be severely compromised. Many plants and animals depend directly or indirectly on insects for their very survival, and this is particularly so in the case of insectivorous birds and other such creatures. The beneficial role of insects is often overlooked or misunderstood, and in farming circles their very presence on crops is often seen to be unwelcome. In reality, however, many insects are genuinely beneficial, as in the case of parasitic and predacious species. The use of chemical pesticides to control crop pests is becoming more tightly regulated and environmentally undesirable, and low-input farming, in which natural enemies of pests are encouraged to survive or increase, is becoming far more prevalent. Accordingly, Integrated Pest Management (IPM) and Integrated Crop Management (ICM) strategies are increasingly being developed, advocated and adopted. Features: Highlights information on many groups of insects and mites that act as natural enemies or biological control agents of phytophagous insects and mites, including plant pests. Profusely illustrated with high-quality colour photographs. Focuses mainly on insects and mites as natural enemies of plant pests, including parasitic and predacious species that have been accidentally or deliberately introduced in classical biological control programmes. Reviews the role of phytophagous European insects and mites in controlling or managing European plants that have become invasive weeds in other parts of the world, notably North America, Australia and New Zealand.

The latest volume in this series contains articles on insect growth disruptors. 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.
The latest volume in this series contains articles on arachnid physiology and behavior. The papers in this special issue give rise to key themes for the future.

"Insect Pests of Potato: Biology and Management" provides a comprehensive source of up-to-date scientific information on the biology and management of insects attacking potato crops, with an international and expert cast of contributors providing its contents. This book presents a complete review of the scientific literature from the considerable research effort over the last 15 years, providing the necessary background information to the subject of studying the biology management of insect pests of potatoes, assessment of recent scientific advances, and a list of further readings. This comprehensive review will be of great benefit to a variety of scientists involved in potato research and production, as well as to those facing similar issues in other crop systems.
Written by top experts in the field, this is the only publication covering the biology, ecology and management of all major potato pestsEmphasizes ecological and evolutionary approaches to pest managementSummarizes information from hard-to-get publications in China, India, and Russia

"Advances in Insect Physiology" is committed to publishing volumes containing comprehensive and in-depth reviews on all aspects of insect physiology. First published in 1963, these volumes are an essential reference source for invertebrate physiologists, insect neurobiologists, entomologists, zoologists and insect biochemists. This volume is themed on small RNAs and RNAi in insects.
Contains" "comprehensive and in-depth reviews.
Essential reference source for invertebrate physiologists, insect neurobiologists, entomologists, zoologists and insect biochemists.
This volume is themed on small RNAs and RNAi in insects.

The publication of the extensive seven-volume work "Comprehensive Molecular Insect Science" provided a complete reference encompassing important developments and achievements in modern insect science. One of the most swiftly moving areas in entomological and comparative research is endocrinology, and this volume, "Insect Endocrinology, " is designed for those who desire a comprehensive yet concise work on important aspects of this topic. Because this area has moved quickly since the original publication, articles in this new volume are revised, highlighting developments in the related area since its original publication.

"Insect Endocrinology" covers the mechanism of action of insect hormones during growth and metamorphosis as well as the role of insect hormones in reproduction, diapause and the regulation of metabolism. Contents include articles on the juvenile hormones, circadian organization of the endocrine system, ecdysteroid chemistry and biochemistry, as well as new chapters on insulin-like peptides and the peptide hormone Bursicon. This volume will be of great value to senior investigators, graduate students, post-doctoral fellows and advanced undergraduate research students. It can also be used as a reference for graduate courses and seminars on the topic. Chapters will also be valuable to the applied biologist or entomologist, providing the requisite understanding necessary for probing the more applied research areas.
Articles selected by the known and respected editor-in-chief of the original major reference work, Comprehensive Molecular Insect ScienceNewly revised contributions bring together the latest research in the quickly moving field of insect endocrinologyReview of the literature of the past five years is now included, as well as full use of data arising from the application of molecular technologies wherever appropriate

Among the largest of all insects, dragonflies and damselflies are conspicuous. Active during the day, often brightly colored, and extremely photogenic-something about their appearance and dashing flight suggests a primeval world of tree ferns and dinosaurs. The first guide of its kind, this book includes an in-depth introduction with an overview of Costa Rican biodiversity and illustrated morphological terms. The species accounts show males and females of most species, detailed illustrations and close-ups of key distinguishing features, and descriptions of habitat, behavior, and range. Dragonflies and Damselflies of Costa Rica gives readers the information they need to identify nearly every species in the country. Experienced dragonfly fans and new enthusiasts alike will find it an indispensable resource.

This latest volume in this series contains articles on the physiology of human and animal disease vectors.The papers in this special issue give rise to key themes for the future and make progress towards answering such questions as:
How do insect vectors of disease find their animal hosts?
Once a host is located, how do insects deploy their intricate mouthparts and the extraordinary complexities of salivary chemistry to secure a blood meal?

* Contributions from the leading researchers in entomology * Discusses the physiological diversity in insects * Includes in-depth reviews with valuable information for a variety of entomology disciplines

Bumblebees are familiar and charismatic insects, occurring throughout much of the world. They are increasingly being used as a model organism for studying a wide range of ecological and behavioural concepts, such as social organization, optimal foraging theories, host-parasite interactions, and pollination. Recently they have become a focus for conservationists due to mounting evidence of range contractions and catastrophic extinctions with some species disappearing from entire continents (e.g. in North America). Only by improving our understanding of their ecology can we devise sensible plans to conserve them. The role of bumblebees as invasive species (e.g. Bombus terrestris in Japan) has also become topical with the growing trade in commercial bumblebee nests for tomato pollination leading to establishment of non-native bumblebees in a number of countries.
Since the publication of the first edition of the book, there have been hundreds of research papers published on bumblebees. There is clearly a continuing need for an affordable, well-illustrated, and appealing text that makes accessible all of the major advances in understanding of the behaviour and ecology of bumblebees that have been made in the last 30 years.

Under continual attack from both microbial pathogens and multicellular parasites, insects must cope with immune challenges every day of their lives. However, this has not prevented them from becoming the most successful group of animals on the planet. Insects possess highly-developed innate immune systems which have been fine-tuned by an arms race with pathogens spanning hundreds of millions of years of evolutionary history. Recent discoveries are revealing both an unexpected degree of specificity and an indication of immunological memory - the functional hallmark of vertebrate immunity. The study of insect immune systems has accelerated rapidly in recent years and is now becoming an important interdisciplinary field. Furthermore, insects are a phenomenally rich and diverse source of antimicrobial chemicals. Some of these are already being seriously considered as potential therapeutic agents to control microbes such as MRSA. Despite a burgeoning interest in the field, this is the first book to provide a coherent synthesis and is clearly structured around two broadly themed sections: mechanisms of immunity and evolutionary ecology. This novel text adopts an interdisciplinary and concept-driven approach, integrating insights from immunology, molecular biology, ecology, evolutionary biology, parasitology, and epidemiology. It features contributions from an international team of leading experts. Insect Infection and Immunity is suitable for both graduate students and researchers interested in insect immunity from either an evolutionary, genetical, physiological or molecular perspective. Due to its interdisciplinary and concept-driven approach, it will also appeal to a broader audience of immunologists, parasitologists and evolutionary biologists requiring a concise overview.

This book presents the whole picture of the ecological and evolutionary study on the ground beetle group, the subgenus Ohomopterus of the genus Carabus, endemic to Japan. This flightless beetle group consists of many geographic races. They show divergence in key traits for reproductive isolation-body size and genital morphology, which leads to coexistence of two or more species. This beetle group provides an important material to study how a lineage of organisms diversify and form multi-species assemblage, and thereby multiply their species richness. The book introduces novel genomic approaches to resolve questions about evolution of Ohomopterus. The readers will find that this story of evolution in Carabus beetles revealed by recent approaches is much different from what was told in previous literature. Exploring different cases across a wide range of lineages is important in constructing a synthetic theory of species radiation and richness, including speciation and species coexistence. This study on Ohomopterus beetles contributes to the ongoing discussion to understand how and why species multiply and how species richness increases in one area of our planet.