What do eggs, flour, and milk have in common? They form the basis of waffles, of course, but these staples of breakfast bounty also share an evolutionary function: eggs, seeds (from which we derive flour by grinding), and milk have each evolved to nourish offspring. Indeed, ponder the genesis of your breakfast, lunch, or dinner, and you'll soon realize that everything we eat and drink has an evolutionary history. In Dinner with Darwin, join Jonathan Silvertown for a multicourse meal of evolutionary gastronomy, a tantalizing tour of human taste that helps us to understand the origins of our diets and the foods that have been central to them for millennia--from spices to spirits. A delectable concoction of coevolution and cookery, gut microbiomes and microherbs, and both the chicken and its egg, Dinner with Darwin reveals that our shopping lists, recipe cards, and restaurant menus don't just contain the ingredients for culinary delight. They also tell a fascinating story about natural selection and its influence on our plates--and palates. Digging deeper, Silvertown's repast includes entrees into GMOs and hybrids, and looks at the science of our sensory interactions with foods and cooking--the sights, aromas, and tastes we experience in our kitchens and dining rooms. As is the wont of any true chef, Silvertown packs his menu with eclectic components, dishing on everything from Charles Darwin's intestinal maladies to taste bud anatomy and turducken. Our evolutionary relationship with food and drink stretches from the days of cooking cave dwellers to contemporary creperies and beyond, and Dinner with Darwin serves up scintillating insight into the entire, awesome span. This feast of soup, science, and human society is one to savor. With a wit as dry as a fine pinot noir and a cache of evolutionary knowledge as vast as the most discerning connoisseur's wine cellar, Silvertown whets our appetites--and leaves us hungry for more.

The profound consequences of the deceptively obvious statement that plants stand still but their genes don't are only just becoming clear. In this volume, an international team of authors, experts in the field of population biology, aim to advance our understanding of ecological and evolutionary processes by integrating them within a common frame of reference: space. Processes operating at three different spatial scales are examined: that of the population, metapopulation and the geographical range. Themes that recur at these different scales include spatial population dynamics, population genetics at boundaries, the imprint of spatial population dynamics upon genetic structure, adaptation, evolution of mating systems and the consequences of population genetics for ecological dynamics. Whilst the focus is largely on plants, the questions addressed are equally applicable to animals. It will be a valuable tool for researchers and advanced students, not only in this field, but also evolutionary biology and resource management.

Cities pose formidable obstacles to nonhuman life. Vast expanses of asphalt and concrete are inhospitable to plants and animals; traffic noise and artificial light disturb natural rhythms; sewage and pollutants imperil existence. Yet cities teem with life: In rowhouse neighborhoods, tiny flowers bloom from cracks in the sidewalk. White clover covers lawns, its seeds dispersed by shoes and birds. Moths flutter and spiders weave their webs near electric lights. Sparrows and squirrels feast on the scraps people leave behind. Pairs of red-tailed hawks nest on window ledges. How do wild plants and animals in urban areas find mates? How do they navigate the patchwork of habitats to reproduce while avoiding inbreeding? In what ways do built environments enable or inhibit mating? This book explores the natural history of sex in urban bacteria, fungi, plants, and nonhuman animals. Kenneth D. Frank illuminates the reproductive behavior of scores of species. He examines topics such as breeding systems, sex determination, sex change, sexual conflict, sexual trauma, sexually transmitted disease, sexual mimicry, sexual cannibalism, aphrodisiacs, and lost sex. Frank offers a guide to urban reproductive diversity across a range of conditions, showing how understanding of sex and mating furthers the appreciation of biodiversity. He presents reproductive diversity as elegant but vulnerable, underscoring the consequences of human activity. Featuring compelling photographs of a multitude of life forms in their city habitats, this book provides a new lens on urban natural history.

Cities pose formidable obstacles to nonhuman life. Vast expanses of asphalt and concrete are inhospitable to plants and animals; traffic noise and artificial light disturb natural rhythms; sewage and pollutants imperil existence. Yet cities teem with life: In rowhouse neighborhoods, tiny flowers bloom from cracks in the sidewalk. White clover covers lawns, its seeds dispersed by shoes and birds. Moths flutter and spiders weave their webs near electric lights. Sparrows and squirrels feast on the scraps people leave behind. Pairs of red-tailed hawks nest on window ledges. How do wild plants and animals in urban areas find mates? How do they navigate the patchwork of habitats to reproduce while avoiding inbreeding? In what ways do built environments enable or inhibit mating? This book explores the natural history of sex in urban bacteria, fungi, plants, and nonhuman animals. Kenneth D. Frank illuminates the reproductive behavior of scores of species. He examines topics such as breeding systems, sex determination, sex change, sexual conflict, sexual trauma, sexually transmitted disease, sexual mimicry, sexual cannibalism, aphrodisiacs, and lost sex. Frank offers a guide to urban reproductive diversity across a range of conditions, showing how understanding of sex and mating furthers the appreciation of biodiversity. He presents reproductive diversity as elegant but vulnerable, underscoring the consequences of human activity. Featuring compelling photographs of a multitude of life forms in their city habitats, this book provides a new lens on urban natural history.

The story of seeds, in a nutshell, is a tale of evolution. With "An Orchard Invisible", Jonathan Silvertown presents the oft-ignored seed with the natural history it deserves, one nearly as varied and surprising as the earth's flora itself. In a clear and engaging style, he delves into the science of seeds: How and why do some lie dormant for years on end? How did seeds evolve? The wide variety of uses that humans have developed for seeds of all sorts also receives a fascinating look, studded with examples, including foods, oils, perfumes, and pharmaceuticals. An able guide with an eye for the unusual, Silver-town is happy to take readers on unexpected - but always interesting - tangents, from Lyme disease to human color vision to the Salem witch trials. But he never lets us forget that the driving force behind the story of seeds - its theme, even - is evolution, with its irrepressible habit of stumbling upon new solutions to the challenges of life.

The profound consequences of the deceptively obvious statement that plants stand still but their genes don't are only just becoming clear. In this volume, an international team of authors, experts in the field of population biology, aim to advance our understanding of ecological and evolutionary processes by integrating them within a common frame of reference: space. Processes operating at three different spatial scales are examined: that of the population, metapopulation and the geographical range. Themes that recur at these different scales include spatial population dynamics, population genetics at boundaries, the imprint of spatial population dynamics upon genetic structure, adaptation, evolution of mating systems and the consequences of population genetics for ecological dynamics. Whilst the focus is largely on plants, the questions addressed are equally applicable to animals. It will be a valuable tool for researchers and advanced students, not only in this field, but also evolutionary biology and resource management.

This book reexamines patterns of relationship among plant life history traits in phylogenetic perspective. The reexamination first recognizes that because evolution is a branching process, traits are not randomly distributed across taxa and that therefore analysis of trait correlations cannot treat species as independent data points. It then discusses the use of phylogeny to reconstruct the evolutionary pathways of traits. Part 1 looks at the use of the phylogenetic perspective on trait correlation. Parts 2-4 examine traits from the reproductive phase from seed production and dispersal to recruitment and growth. The final section looks at interactions between plants and competitors, herbivores and microbial symbionts, recognizing that these interactions may have an ancient evolutionary history.