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In Butterflies: Ecology and Evolution Taking Flight, the world's leading experts synthesize current knowledge of butterflies to show how the study of these fascinating creatures as model systems can lead to deeper understanding of ecological and evolutionary patterns and processes in general. The twenty-six chapters are organized into broad functional areas, covering the uses of butterflies in the study of behavior, ecology, genetics and evolution, systematics, and conservation biology. Especially in the context of the current biodiversity crisis, this book shows how results found with butterflies can help us understand large, rapid changes in the world we share with them—for example, geographic distributions of some butterflies have begun to shift in response to global warming, giving early evidence of climate change that scientists, politicians, and citizens alike should heed. The first international synthesis of butterfly biology in two decades, Butterflies: Ecology and Evolution Taking Flight offers students, scientists, and amateur naturalists a concise overview of the latest developments in the field. Furthermore, it articulates an exciting new perspective of the whole group of approximately 15,000 species of butterflies as a comprehensive model system for all the sciences concerned with biodiversity and its preservation. Contributors: Carol L. Boggs, Paul M. Brakefield, Adriana D. Briscoe, Dana L. Campbell, Elizabeth E. Crone, Mark Deering, Henri Descimon, Erika I. Deinert, Paul R. Ehrlich, John P. Fay, Richard ffrench-Constant, Sherri Fownes, Lawrence E. Gilbert, André Gilles, Ilkka Hanski, Jane K. Hill, Brian Huntley, Niklas Janz, Greg Kareofelas, Nusha Keyghobadi, P. Bernhard Koch, Claire Kremen, David C. Lees, Jean-François Martin, Antónia Monteiro, Paulo César Motta, Camille Parmesan, William D. Patterson, Naomi E. Pierce, Robert A. Raguso, Charles Lee Remington, Jens Roland, Ronald L. Rutowski, Cheryl B. Schultz, J. Mark Scriber, Arthur M. Shapiro, Michael C. Singer, Felix Sperling, Curtis Strobeck, Aram Stump, Chris D. Thomas, Richard VanBuskirk, Hans Van Dyck, Richard I. Vane-Wright, Ward B. Watt, Christer Wiklund, and Mark A. Willis
The Heliconius butterflies are one of the classic systems in evolutionary biology and have contributed hugely to our understanding of evolution over the last 150 years. Their dramatic radiation and remarkable mimicry has fascinated biologists since the days of Bates, Wallace, and Darwin. The Ecology and Evolution of Heliconius Butterflies is the first thorough and accessible treatment of the ecology, genetics, and behaviour of these butterflies, exploring how they offer remarkable insights into tropical biodiversity. The book starts by outlining some of the evolutionary questions that Heliconius research has helped to address, then moves on to an overview of the butterflies themselves and their ecology and behaviour before focussing on wing pattern evolution, and finally, speciation. Richly illustrated with 32 colour plates, this book makes the extensive scientific literature on Heliconius butterflies accessible to a wide audience of professional ecologists, evolutionary biologists, entomologists, and amateur collectors.
Mimicry is one of the best examples of adaptive evolution. The phenomenon was first identified by Bates in 1862 to describe butterflies in the Amazon. Since that time numerous additional mimicry systems have been described across a diverse range of taxa. Here we characterize a mimicry system involving variable phenotypes. Using a generalized avian predator, black female Chlosyne palla is shown to be a Female-limited polymorphic mimic (FPM) of black Euphydryas chalcedona, whereas both species are palatable in the red form. We also demonstrate that a related species, C. hoffmanni, is palatable to a generalized avian predator. We use a long-term dataset to test theories pertaining to the flight time and abundance of Batesian and FPM systems with emphasis on checkerspots in California, E. chalcedona and C. palla. We found evidence of negative frequency-dependent selection in Batesian mimics, but not in FPM systems. We also found evidence for the model-first emergence hypothesis in Batesian, but not FPM, systems. In an effort to understand the evolution of mimicry in this system we produced a Bayesian time-calibrated phylogeny of the Nymphalid butterfly tribe Melitaeini. The resulting phylogenetic hypothesis is compared to previously published hypotheses of this tribe. The phylogeny presented here is the most complete hypothesis to date, incorporating more species and more genetic information than any previous version.
Hanski, a leading thinker in metapopulation ecology, studies checkerspot butterfly populations in Finland. Ehrlich, one of the leading ecologists and conservation biologist, investigates checkerspot butterfly populations in California. This book reports on and synthsizes the major long-term research of both workers' careers on the population biology of checkerspot butterflies.
In Butterfly Biology Systems Roger Dennis explores key topics and contentious issues in butterfly biology, specifically those in life history and behaviour. Uniquely, using a systems approach, the book focuses on the degree of integration and feedback between components and elements affecting each issue, as well as the links between different issues. The book comprises four sections. The first two sections introduce the reader to principles and approaches for investigating complex relationships, and provide a platform of knowledge on butterfly biology. The final two sections deal in turn with life history and behaviour, covering key issues affecting different stages of development from eggs to adults.
Due to the attractiveness of butterflies, and their usefulness as model systems for biological questions, there has been a considerable amount of material written on butterfly biology, largely in Europe. This book synthesizes all relevant and recent knowledge in the field, which is a must for those making use of this taxonomic group as a model system. It is divided into five major parts which deal with habitat use, population ecology and genetics, evolutionary ecology, distribution and phylogeny, and global change and conservation. There are growing numbers of scientific projects and networks in Europe in which the use of butterflies as tools and targets for conservation is central, and application of knowledge is closely related to European cultural landscapes. However, the chapters can also be applied to a wide geographic scope. Written by an international team of experts, this timely book is suitable for students, researchers and enthusiasts.
"Throughout his career, Henry Horn developed a unique approach to the study of butterflies. In this book, he brings together his research with recent findings to present the most recent account of social butterflies-that is, butterflies whose interactions are sufficiently complex as to resemble the level of organization and communication typically associated with vertebrates and some bees. The core of the book consists of focused studies of five species: the Plain Ringlet, Eyed Brown, Great-Spangled Fritillaries, Viceroy, and Pearly Eye, in order of increasing complexity of social interaction. In each chapter, Horn presents a descriptive account of the species' natural history and behavioral idiosyncrasies, ranging behavior, and a model to explain a characteristic aspect of its behavior. He then proceeds to emphasize key departures from these models in order to present the hypothesis that some butterflies make decisions-that is, they are not simply pre-conditioned to react to stimuli in a certain way-by looking at how butterflies interact with the landscape and each other. The book ends with a summary of key conclusions as well as a list of intriguing but yet unanswered questions in need of future research"--