Mosquitoes, Communities, and Public Health in Texas focuses on 87 known species of mosquitoes found throughout Texas. It includes information on the ecology, medical and public health importance, and biological diversity of each species. In addition, it provides detailed identification keys for both larval and adult stages of all mosquito genera and species known to occur in Texas, along a review of surveillance and control strategies. The expansion of invasive mosquitoes from other regions (including Mexico), together with climate change occurrences increase the likelihood for an increase in diseases, such as West Nile Virus, Yellow Fever, Dengue, Chikungunya and Zika. This unique work is the first unified reference and resource rich in mosquito information for medical entomologists, mosquito and vector control professionals, pest management professionals, biologists, environmentalists, wildlife professionals, government regulators, instructors of medical entomology and public health professionals who have disease or vector responsibilities, mosquito taxonomists, epidemiologists, entomology students, academia, pest control industry, and libraries, etc., with utility for medical, veterinary and health professionals.

A valuable new reference on insect behavior, this exceptional new text delves into the primary sensory communication system used by most insects -- their sense of smell. This important text covers how insects produce pheromones and how they detect pheromones and plant volatiles. Since insects rely on pheromone detection for both feeding and breeding, a better understanding of insect olfaction and pheromone biosynthesis could help curb the behavior of pests without the use of harmful pesticides and even help to reduce the socio-economic impacts associated to human-insect interactions.
* Covers biochemistry and molecular biology of insect pheromone production
* Explains pheromone production in moths, beetles, flies, and social insects
* Describes pheromone and plant volatile reception

The Evolution of Social Wasps resolves one of evolution's most intriguing problems - the origin of insect sociality. It also challenges conceptual approaches that have dominated three decades of social behaviour research. Hunt's innovative model integrates life history, nutrition, development and ecology. His broad synthesis of empirical knowledge on social wasps should interest evolution biologists, behavioural ecologists, or entomologists alike.

The World Catalogue of the Dermestidae (Coleoptera) contains the list of subfamilies, tribes and subtribes, list of genera and subgenera, systematic catalogue of all known taxons including new nomenclatorial acts, new distributional records, list of type depositions, infrasubspecific names, bibliography and alphabetical index of names of genera, subgenera and their synonyms. It contains all the taxa described until February 28, 2014.

Australia's varied grasslands have suffered massive losses and changes since European settlement, and those changes continue under increasingly intensive human pressures for development and agricultural production. The values of native grasslands for conservation of endemic native biodiversity, both flora and fauna, have led to strong interests in the protection of remaining fragments, especially near urban centres, and documentation of the insects and other inhabitants of grasslands spanning tropical to cool temperate parts of the country. Attention to conservation of grassland insects in Australia is relatively recent, but it is increasingly apparent that grasslands harbour many localised and ecologically specialised endemic species. Their conservation necessarily advances from very incomplete documentation, and draws heavily on lessons from the far better-documented grasslands elsewhere, most notably in the northern hemisphere, and undertaken over far longer periods. From those cases, and the extensive background to grassland management to harmonise conservation with production and amenity values through honing use of processes such as grazing, mowing and fire, the needs and priorities for Australia can become clearer, together with needs for grassland restoration at a variety of scales. This book is a broad overview of conservation needs of grassland insects in Australia, drawing on the background provided elsewhere in the world on the responses to disturbances, and the ecological importance, of some key insect groups (notably Orthoptera, Hemiptera and Lepidoptera) to suggest how insect conservation in native, pastoral and urban grasslands may be advanced. The substantial references given for each chapter facilitate entry for non-entomologist grassland managers and stewards to appreciate the diversity and importance of Australia's grassland insects, their vulnerabilities to changes, and the possibilities for conserving them and the wider ecological roles in which they participate.

The book reviews key developments in downy mildew research, including the disease, its distribution, symptomatology, host range, yield losses, and disease assessment; the pathogen, its taxonomy, morphology, phylogeny, variability, sporulation, survival and perpetuation, spore germination, infection, pathogenesis, seed infection, disease cycle, epidemiology, forecasting, and fine structures. The book also elaborates the mechanisms of host resistance (biochemical, histological, genetic, and molecular, including cloning and the mapping of R-genes), disease resistance breeding strategies, and the genetics of host-parasite interactions. It explores disease management based on cultural, chemical, biological, host resistance, and integrated approaches; and provides suggestions for future research areas. This book offers a comprehensive guide to an economically important disease, reviewing in detail the extant body of literature. Divided into 16 chapters, each of which includes a wealth of photographs, graphs, histograms, tables, figures, flow charts, micrographs etc., it represents an invaluable source of information for all researchers, teachers, students, industrialists, farmers, policymakers, and all others who are interested in growing healthy and profitable cruciferous crops all over the world.

Butterfly Wing Patterns and Mimicry, Volume 54, provides an essential reference for those interested in molecular Entomology and the study of natural selection. The volume spans work on the genetics of polymorphism in Heliconius butterflies through to a detailed analysis of the role of CRISPR-CAS in dissecting wing patterning. The volume covers both the evolution and fine scale development of both pattern and pigmentation. The role of wing shape is also considered for the first time in a formal analysis. It should be of interest to both experts and students interested in Entomology and its application to fundamental questions in evolution.

Michael P Hassell examines the population dynamics of the interaction between insect parasitoids and their hosts. He incorporates all the major recent advances in our understanding of these interactions to show how the resulting body of theory makes direct contact with systems in the field, and can provide us with an in-depth understanding of a whole area of population dynamics. Hassell gives us a new and authoritative synthesis of his subject, as well as an elegant and exciting demonstration of how ecological studies advance.

Insect Immunity, Volume 52 provides readers with the latest interdisciplinary reviews on the topic. It is an essential reference source for invertebrate physiologists, neurobiologists, entomologists, zoologists and insect chemists, providing invaluable chapters on Insect Antimicrobial Defenses: A Brief History, Recent Findings, Biases, and a Way Forward in Evolutionary Studies, Phagocytosis in Insect Immunity, The Melanization Response in Insect Immunity, Microbiota, Gut Physiology, and Insect Immunity, Intestinal Stem Cells: A Decade of Intensive Research in Drosophila and the Road Ahead, and Insect Symbiosis and Immunity: The Bean Bug-Burkholderia Interaction as a Case Study, along with other related topics.

This book covers advanced concepts and creative ideas with regard to insect biorational control and insecticide resistance management. Some chapters present and summarize general strategies or tactics for managing insect pests such as the principles of IPM in various crop systems and biorational control of insect pests, advances in organic farming, alternative strategies for controlling orchard and field-crop pests. Other chapters cover alternative methods for controlling pests such as disruption of insect reproductive systems and utilization of semiochemicals and diatomaceous earth formulations, and developing bioacoustic methods for mating disruption. Another part is devoted to insecticide resistance: mechanisms and novel approaches for managing insect resistance in agriculture and in public health.

This volume focuses on the latest methods used to sequence, assemble, and analyze insect genomes. The collection of protocols in this book provides an introduction to the workflows and bioinformatics tools available for researchers. The chapters cover a range of useful topics such as determining genome size by flow cytometry; High Molecular Weight DNA extraction; improvements to a genome assembly provided by long-range sequencing approaches; assessments of orthology and single-copy genes at different phylogenetic levels; detecting regulatory regions with FAIRE, RAMPAGE, and computational analysis of cis-regulatory modules in insects; bioinformatics analysis of epigenetic modifications, high-throughput scanning of insect genomes (TEEseq) for the presence of endosymbionts, and leveraging genome sequence information to design RNAi strategies. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Cutting-edge and thorough, Insect Genomics: Methods and Protocols is a valuable resource for graduate students, postdocs, and novice research scientists who are interested in learning more about this developing field.

-- Beat Wermelinger has been researching forest insects for 25 years. This book also showcases his impressive photography, taken from his archive of more than 14,000 insect pictures. In addition to conveying knowledge, the author also reveals the aesthetics and subtleties of this often unknown and seemingly strange group of animals. The book not only presents the importance of insects, but also intrigues and surprises the reader -- The recently reported loss of insect biomass has increased awareness of the importance of insects and will stimulate public as well as professional and academic interest in this book. The book deals with many topical insect groups (like bark beetles) that increase its relevance in today's era of climatic shifts and insect outbreaks. -- This is the only book on the importance of forest insects published for a non-American market. It will be adoptable on undergraduate and graduate entomological courses (Insects and Ecology modules) as well as having both professional and public appeal.

Documenting and understanding intricate ecological interactions involving insects is a central need in conservation, and the specialised and specific nature of many such associations is displayed in this book. Their importance is exemplified in a broad global overview of a major category of interactions, mutualisms, in which the interdependence of species is essential for their mutual wellbeing. The subtleties that sustain many mutualistic relationships are still poorly understood by ecologists and conservation managers alike. Examples from many parts of the world and ecological regimes demonstrate the variety of mutualisms between insect taxa, and between insects and plants, in particular, and their significance in planning and undertaking insect conservation - of both individual species and the wider contexts on which they depend. Several taxonomic groups, notably ants, lycaenid butterflies and sucking bugs, help to demonstrate the evolution and flexibility of mutualistic interactions, whilst fundamental processes such as pollination emphasise the central roles of, often, highly specific partnerships. This compilation brings together a wide range of relevant cases and contexts, with implications for practical insect conservation and increasing awareness of the roles of co-adaptations of behaviour and ecology as adjuncts to designing optimal conservation plans. The three major themes deal with the meanings and mechanisms of mutualisms, the classic mutualisms that involve insect partners, and the environmental and conservation lessons that flow from these and have potential to facilitate and improve insect conservation practice. The broader ecological perspective advances the transition from primary focus on single species toward consequently enhancing wider ecological contexts in which insect diversity can thrive.

Insect Pests of Millets: Systematics, Bionomics, and Management focuses on protecting the cultivated cereals that many worldwide populations depend on for food across the semi-arid tropics of the world. Providing coverage of all the major cultivated millets, including sorghum, pearlmillet, finger millet, barnyard millet, prosomillet, little millet, kodomillet, and foxtail millet, this comprehensive book on insect pests is the first of its kind that explores systematics, bionomics, distribution, damage, host range, biology, monitoring techniques, and management options, all accompanied by useful illustrations and color plates. By exploring the novel aspects of Insect-plant relationships, including host signaling orientation, host specialization, pest - host evolutionary relationship, and biogeography of insects and host plants, the book presents the latest ecologically sound and innovative techniques in insect pest management from a general overview of pest management to new biotechnological interventions.

Water bugs are familiar insects in aquatic habitats throughout the World. They belong to the order Hemiptera, the largest insect order with incomplete metamorphosis. There are basically two kinds: (1) the semiaquatic bugs (Gerromorpha) which live upon the water surface and (2) the true water bugs (Nepomorpha) which live beneath the water surface. Water bugs are found in a wide variety of natural habitats from small, temporary pools to larger ponds and lakes, from small streams to rivers, and from inland freshwater bodies to coastal mangroves, tidal pools of coral reefs, and the surface of the ocean. Water bugs are chiefly predators or scavengers, feeding on any prey they can master, from tiny crustaceans and insects to tadpoles and small fish. They play a major role in aquatic ecosystems and may serve as indicators of the biological quality of aquatic habitats. They are chiefly beneficial to man since many species prey on mosquitoes and are themself preyed upon by fish. Because of their diverse lifestyles and because they are easily observed in their natural habitats, water bugs are excellent model organisms in evolutionary biology, ecology, and conservation biology. This handbook is the first comprehensive guide facilitating the identification of Australian water bugs. It provides an overview on all 15 families, 17 subfamilies, and 55 genera known to occur on mainland Australia, Tasmania and nearby islands. Illustrated keys, featuring a minimum of technical language, are offered to assist with the identification of adult water bugs. For each genus, the handbook includes a description of the characters used to identify the genus and to separate the genus from similar genera, an illustration to show overall appearance ('habitus') of a representative species, an illustrated key to species recorded from Australia, overview of the biology of the genus, and a map showing the locations where the genus has been found in Australia. Incl. 8 colour plates and 110 black and white plates with line drawings and scanning electron micrographs.

Evolution gave rise to a prominent insect diversity at every level of ecological niche. Since then, hordes of insects have threatened human and cattle health as well as most of all green lands and agricultural crops. Now, the insect problem expands from many mutant forms of yellow dengue fever mosquitoes to highly-resistant larvae of most all various phytophageous species. The tremendous expansion of insects is due not only to an increasing resistance capacity to insecticides, but also to a strong capacity for adapting to different climate and environmental changes, including global warming. Obviously insects display a number of rudimentary systems to build an extremely efficient organism to survive in a changing world. In many species, one pheromone molecule is enough to trigger mating behavior. Therefore, insects have become crucial models not only for evolutionary studies, but also for understanding specific mechanisms underlying sensory-based behaviors. Most of insect species such as ants, beetles, cockroaches, locusts, moths and mosquitoes largely rely on olfactory cues to explore the environment and find con-specifics or food sources. A conglomerate of renowned international scientific experts is gathered to expose the insect problem on the various continents of the planet and propose an alternative to the use of toxic insecticides. Sex pheromones, specific chemical signals necessary for reproduction, and pheromone detection in insects are described with full details of the olfactory mechanisms in the antennae and higher centers in the brain. Thus, new synthetic pheromones and/or plant odors with specific molecular target sites in the insect olfactory system are proposed for sustainable development in agricultural and entomological industries. Disrupting insect pheromone channels and plant odor detection mechanisms is solemnly envisioned as a unique way to control invasive insect pest species while preserving human and environment safety.

What Huber discovered and wrote about here, laid the ground work for all the practical knowledge we have of bees today. His discoveries were so revolutionary, that beekeeping can be divided in two eras very easily as pre-Huber and post-Huber. This edition of Huber's Observations by far surpasses any other edition ever printed in the English language.First it has both Volume I and II, while every English edition currently in print that I am aware of is only Volume I of the 1809 edition. which is only a third of the final Huber book. The second volume was published in 1814 in French 5 years after that 1809 edition and contains Huber's research on the origin of wax, the construction of comb, the ventilation of the hive and much more.Second, it is the best English translation from the original French and the only one I know of that has both volumes. C.P. Dadant, was uniquely qualified to do the translation. Dadant was born in France and French was his first language, yet he spent most of his life beekeeping; and writing and editing beekeeping articles and books in America in English. Third, all of the English editions currently in print have only 2 plates (if any). Only the previous Dadant edition (1926) had all 14 of the original plates but unfortunately they were only halftones of some old yellow copies and are not very readable. This edition has new scans from a very good condition edition of the original 1814 French of both Volumes of Nouvelles Observations Sur Les Abeilles so these are clearer than any previous edition other than the original 1814 French edition. An additional engraving of Huber's work from Cheshire's book, plus an engraving of Francis Huber from the Dadant edition have been included. In addition, 7 more photos of a museum quality reproduction of Huber's Leaf hive have also been included. All figures have been split out and enlarged and put in the text where they are referred to. Photos of the original plates are included at the back for historic and artistic purposes.Fourth, to put this book in context I have included a memoir of Huber by Professor De Candolle, a friend of Huber. This gives a bit of background on Huber's life.Fifth, the only other edition to come close to this, the 1926 edition by Dadant, was in very small print. This one is 12 point and a typeface that appears to be larger and is very readable.

Insect Hearing provides a broadly based view of the functions, mechanisms, and evolution of hearing in insects. With a single exception, the chapters focus on problems of hearing and their solutions, rather than being focused on particular taxa. The exception, hearing in Drosophila, is justified because, due to its ever growing toolbox of genetic and optical techniques, Drosophila is rapidly becoming one of the most important model systems in neurobiology, including the neurobiology of hearing. Auditory systems, whether insectan or vertebrate, must perform a number of basic tasks: capturing mechanical stimuli and transducing these into neural activity, representing the timing and frequency of sound signals, distinguishing between behaviorally relevant signals and other sounds and localizing sound sources. Studying how these are accomplished in insects offers a valuable comparative view that helps to reveal general principles of auditory function.

The Eupithecia of China by Vladimir Mironov and Anthony Galsworthy offers a complete revision of the approximately 300 species occurring in China of this difficult genus of moths in the family Geometridae of the Lepidoptera. This fills a huge knowledge gap and clears up much taxonomic confusion resulting from limited earlier studies. All species are illustrated with colour photographs and the genitalia of both sexes, where known, are illustrated in excellent line drawings. The text gives full descriptions of all species, known distributions, hints on identification and, importantly, lists all known specimens in museum and private collections examined by the authors, thus providing a solid basis both for future researchers and collectors.

This volume describes the various applications of entomopathogenic soil microorganisms in the management and control of the devastating lepidopteran pest. An introduction describes the insecticidal properties of viruses, bacteria, fungi, nematodes and their metabolites, as well as their applications in the context of crop improvement. Subsequent chapters focus on topics such as insecticidal proteins; the role of nucleopolyhedroviruses; Bt toxins and their receptors; control of lepidopterans using entomopathogenic fungi; management of cotton defoliators; and sustainable use of entomopathogenic nematodes and their bacterial symbionts. An overview of culture collections of entomopathogenic microorganisms rounds out the volume.

A Wonderful Journey into the Insect World through Literature, Science, Art, and Popular Culture Aristotle on metamorphosis

• Alfred Russel Wallace on the rare butterflies of the Malay Archipelago
• Jean-Henri Fabre on the art of the dung beetle
• Dave Barry on naming the U.S. Official National Insect
• Charles Darwin on seagoing insects
• William Beebe on an army ant invasion
• Kevin Kelly on bee—and human—swarming
• Jonathan Schell on postnuclear insect survival
• Gary Larson on when insects take over
• May Berenbaum on maggots and murderers
• Henry David Thoreau on race wars among the ants
• Thomas Eisner on stealth bugs
• David George Gordon on appreciating the lowly cockroach
• Maurice Maeterlinck on the queen-bee’s wedding
• Edward O. Wilson on insect societies

…plus many other essays, illustrations, cartoons, screenplays, poems, recipes, tales, and observations on insect life.