Macrofungi Associated with Oaks of Eastern North America, which was written as a companion to Field Guide to Oak Species of Eastern North America, represents the first major publication devoted exclusively to the macrofungi that occur in association with oak trees in the forests of eastern North America. The macrofungi covered in this volume include many of the more common examples of the three groups—mycorrhizal fungi, decomposers, and pathogens—that are ecologically important to the forest ecosystems in which oaks occur. More than 200 species of macrofungi are described and illustrated via vibrantly colored photographs. Information is given on edibility, medicinal properties, and other novel uses as well. This publication reflects the combined expertise of six mycologists on the macrofungi anyone would be likely to encounter in an oak forest.
A key component in healthy ecosystems, lichens can be found in almost any natural habitat in the Pacific Northwest. This comprehensive guide to the region’s macrolichens is intended for use by beginners as well as specialists: weekend naturalists will be able to identify specimens and recognize the great diversity of lichens, while lichenologists and mycologists will gain greater knowledge of the distribution and abundance of various species.
This revised and expanded edition of Macrolichens of the Pacific Northwest includes includes keys to over 600 species —all the macrolichens known or expected to occur in Oregon and Washington. The keys also provide coverage for lichens of Idaho and Montana, inland to the Continental Divide. Almost all macrolichens known from northern California and southern British Columbia, and from coastal southeast Alaska, are included as well.
Color photographs and detailed descriptions are provided for more than 250 species, emphasizing lichens prevalent in forested ecosystems. The illustrated glossary and introductory material cover the terminology needed to identify macrolichens and provide information on collection and handling. The biology, ecology, and air-quality sensitivity of lichens are discussed. Macrolichens of the Pacific Northwest will prove invaluable to anyone seeking to identify lichens or to better understand these organisms and their vital role in the natural world.
A key component in healthy ecosystems, lichens can be found in almost any natural habitat in the Pacific Northwest. This comprehensive guide to the region’s macrolichens is intended for use by beginners as well as specialists: weekend naturalists will be able to identify specimens and recognize the great diversity of lichens, while lichenologists and mycologists will gain greater knowledge of the distribution and abundance of various species.
This revised and expanded edition of Macrolichens of the Pacific Northwest includes 116 new species and 176 additional illustrations and incorporates an understanding of macrolichens that has advanced tremendously in the past decade.
Macrolichens of the Pacific Northwest includes keys to 113 genera and 586 species of Oregon and Washington macrolichens—all the macrolichens known or expected to occur in the two states. The keys also provide reasonable coverage for lichens of Idaho and Montana, inland to the Continental Divide. Color photographs and detailed descriptions are provided for 246 species, emphasizing lichens prevalent in forested ecosystems.
The illustrated glossary and introductory material cover the terminology needed to identify macrolichens and provide information on collection and handling. The biology, ecology, and air-quality sensitivity of lichens are discussed; regional air-quality sensitivities are provided for 184 species.
Macrolichens of the Pacific Northwest will prove invaluable to anyone seeking to identify lichens or to better understand these organisms and their vital role in the natural world.
An elucidating collection of ten original essays, Making Animal Meaning reconceptualizes methods for researching animal histories and rethinks the contingency of the human-animal relationship. The vibrant and diverse field of animal studies is detailed in these interdisciplinary discussions, which include voices from a broad range of scholars and have an extensive chronological and geographical reach. These exciting discourses capture the most compelling theoretical underpinnings of animal significance while exploring meaning-making through the study of specific spaces, species, and human-animal relations. A deeply thoughtful collection — vital to understanding central questions of agency, kinship, and animal consumption — these essays tackle the history and philosophy of constructing animal meaning.
Drawing on past speculation and present knowledge, reproductive biologist David Bainbridge conducts us through the forty weeks of a human pregnancy, from conception to breastfeeding, explaining the complex biology behind human gestation in a clear and unassuming manner.
Making Babies sets the latest findings in pregnancy biology in a challenging evolutionary, historical, and sociological context, proving that when it comes to drama, pregnancy has it all: sibling rivalry, a battle of the sexes, and a crisis of gender identity. Along the way, Bainbridge revisits some of the key puzzles about pregnancy: What's sex got to do with it? How does the fetus hijack its mother's immune system? What is the point, if any, of morning sickness? Just how does a fertilized ovum develop into eight pounds or so of baby, with ten fingers and ten toes? Does the baby or the mother control the onset of labor, and why is it such an ordeal for them both?
Entertaining and informative, Making Babies shows how the study of human pregnancy can help us understand our genesis as individuals and our evolution as a species, and provide insight into who we are and why we behave as we do.
Humans possess the most expressive faces in the animal kingdom. Adam Wilkins presents evidence ranging from the fossil record to recent findings of genetics, molecular biology, and developmental biology to reconstruct the fascinating story of how the human face evolved. Beginning with the first vertebrate faces half a billion years ago and continuing to dramatic changes among our recent human ancestors, Making Faces illuminates how the unusual characteristics of the human face came about—both the physical shape of facial features and the critical role facial expression plays in human society.
Offering more than an account of morphological changes over time and space, which rely on findings from paleontology and anthropology, Wilkins also draws on comparative studies of living nonhuman species. He examines the genetic foundations of the remarkable diversity in human faces, and also shows how the evolution of the face was intimately connected to the evolution of the brain. Brain structures capable of recognizing different individuals as well as “reading” and reacting to their facial expressions led to complex social exchanges. Furthermore, the neural and muscular mechanisms that created facial expressions also allowed the development of speech, which is unique to humans.
In demonstrating how the physical evolution of the human face has been inextricably intertwined with our species’ growing social complexity, Wilkins argues that it was both the product and enabler of human sociality.
Making Sense of Evolution explores contemporary evolutionary biology, focusing on the elements of theories—selection, adaptation, and species—that are complex and open to multiple possible interpretations, many of which are incompatible with one another and with other accepted practices in the discipline. Particular experimental methods, for example, may demand one understanding of “selection,” while the application of the same concept to another area of evolutionary biology could necessitate a very different definition.
Spotlighting these conceptual difficulties and presenting alternate theoretical interpretations that alleviate this incompatibility, Massimo Pigliucci and Jonathan Kaplan intertwine scientific and philosophical analysis to produce a coherent picture of evolutionary biology. Innovative and controversial, Making Sense of Evolution encourages further development of the Modern Synthesis and outlines what might be necessary for the continued refinement of this evolving field.
What do biologists want? If, unlike their counterparts in physics, biologists are generally wary of a grand, overarching theory, at what kinds of explanation do biologists aim? How will we know when we have “made sense” of life? Such questions, Evelyn Fox Keller suggests, offer no simple answers. Explanations in the biological sciences are typically provisional and partial, judged by criteria as heterogeneous as their subject matter. It is Keller’s aim in this bold and challenging book to account for this epistemological diversity—particularly in the discipline of developmental biology.
In particular, Keller asks, what counts as an “explanation” of biological development in individual organisms? Her inquiry ranges from physical and mathematical models to more familiar explanatory metaphors to the dramatic contributions of recent technological developments, especially in imaging, recombinant DNA, and computer modeling and simulations.
A history of the diverse and changing nature of biological explanation in a particularly charged field, Making Sense of Life draws our attention to the temporal, disciplinary, and cultural components of what biologists mean, and what they understand, when they propose to explain life.
Knowing where things are seems effortless. Yet our brains devote tremendous computational power to figuring out the simplest details about spatial relationships. Going to the grocery store or finding our cell phone requires sleuthing and coordination across different sensory and motor domains. Making Space traces this mental detective work to explain how the brain creates our sense of location. But it goes further, to make the case that spatial processing permeates all our cognitive abilities, and that the brain’s systems for thinking about space may be the systems of thought itself.
Our senses measure energy in the form of light, sound, and pressure on the skin, and our brains evaluate these measurements to make inferences about objects and boundaries. Jennifer Groh describes how eyes detect electromagnetic radiation, how the brain can locate sounds by measuring differences of less than one one-thousandth of a second in how long they take to reach each ear, and how the ear’s balance organs help us monitor body posture and movement. The brain synthesizes all this neural information so that we can navigate three-dimensional space.
But the brain’s work doesn’t end there. Spatial representations do double duty in aiding memory and reasoning. This is why it is harder to remember how to get somewhere if someone else is driving, and why, if we set out to do something and forget what it was, returning to the place we started can jog our memory. In making space the brain uses powers we did not know we have.
Born by mistake, or connivance, to struggling parents in a small Lancashire cotton town in 1903, an uninspired Darlington inadvertently escaped the obscurity of farming life and rose instead, against all odds, to become within a few short years the world's greatest expert on chromosomes, and one of the most penetrating biological thinkers of the twentieth century. Harman follows Darlington's path from bleak prospects to world fame, showing how, within the most miniscule of worlds, he sought answers to the biggest questions--how species originate, how variation occurs, how Nature, both blind and foreboding, random and insightful, makes her way from deep past to unknown future. But Darlington did not stop there: Chromosomes held within their tiny confines untold, dark truths about man and his culture. This passionate conviction led the once famed Darlington down a path of rebuke, isolation, and finally obscurity.
As The Man Who Invented the Chromosome unfolds Darlington's forgotten tale--the Nazi atrocities, the Cold War, the crackpot Lysenko, the molecular revolution, eugenics, Civil Rights, the welfare state, the changing views of man's place in nature, biological determinism--all were interconnected. Just as Darlington's work provoked him to ask questions about the link between biology and culture, his life raises fundamental questions about the link between science and society.
With their tonsured heads, white faces, and striking cowls, the monkeys might vaguely resemble the Capuchin monks for whom they were named. How they act is something else entirely. They climb onto each other’s shoulders four deep to frighten enemies. They test friendship by sticking their fingers up one another’s noses. They often nurse—but sometimes kill—each other’s offspring. They use sex as a means of communicating. And they negotiate a remarkably intricate network of alliances, simian politics, and social intrigue. Not monkish, perhaps, but as we see in this downright ethnographic account of the capuchins of Lomas Barbudal, their world is as complex, ritualistic, and structured as any society.
Manipulative Monkeys takes us into a Costa Rican forest teeming with simian drama, where since 1990 primatologists Susan Perry and Joseph H. Manson have followed the lives of four generations of capuchins. What the authors describe is behavior as entertaining—and occasionally as alarming—as it is recognizable: the competition and cooperation, the jockeying for position and status, the peaceful years under an alpha male devolving into bloody chaos, and the complex traditions passed from one generation to the next. Interspersed with their observations of the monkeys’ lives are the authors’ colorful tales of the challenges of tropical fieldwork—a mixture so rich that by the book’s end we know what it is to be a wild capuchin monkey or a field primatologist. And we are left with a clear sense of the importance of these endangered monkeys for understanding human behavioral evolution.
A Manual of Aquatic Plants can be said to be a classic; it made the identification of aquatic plants in sterile as well as in flowering or fruiting condition as simple as possible, and covers a region from Minnesota to Missouri and eastward to the Gulf of St. Lawrence and Virgina.
The taxonomy of recent mammals has lately undergone tremendous revision, but it has been decades since the last update to Timothy E. Lawlor’s acclaimed identification guide the Handbook to the Orders and Families of Living Mammals. Integrating the latest advances in research, Douglas A. Kelt and James L. Patton provide this long-overdue update in their new, wholly original work, A Manual of the Mammalia.
Complemented by global range maps, high-resolution photographs of skulls and mandibles by Bill Stone, and the outstanding artwork of Fiona Reid, this book provides an overview of biological attributes of each higher taxon while highlighting key and diagnostic characters needed to identify skulls and skins of all recent mammalian orders and most families. Kelt and Patton also place taxa in their currently understood supra-familial clades, and discuss current challenges in higher mammal taxonomy. Including a comprehensive review of mammalian anatomy to provide a foundation for understanding all characters employed throughout, A Manual of the Mammalia is both a user-friendly handbook for students learning to identify higher mammal taxa and a uniquely comprehensive, up-to-date reference for mammalogists and mammal-lovers from across the globe.
Though nothing in the natural world would be quite the same without them, microbes go mostly unnoticed. They are the tiny, mighty force behind the pop in Champagne and the holes in Swiss cheese, the granite walls of Yosemite and the white cliffs of Dover, the workings of snowmaking machines, Botox, and gunpowder; and yet we tend to regard them as peripheral, disease-causing, food-spoiling troublemakers. In this book renowned microbiologist John Ingraham rescues these supremely important and ubiquitous microorganisms from their unwonted obscurity by showing us how we can, in fact, see them—and appreciate their vast and varied role in nature and our lives.
Though we might not be able to see microbes firsthand, the consequences of their activities are readily apparent to our unaided senses. March of the Microbes shows us how to examine, study, and appreciate microbes in the manner of a birdwatcher, by making sightings of microbial activities and thereby identifying particular microbes as well as understanding what they do and how they do it. The sightings are as different as a smelly rock cod, a bottle of Chateau d’Yquem, a moment in the Salem witch trials, and white clouds over the ocean. Together they summarize the impact of microbes on our planet, its atmosphere, geology, weather, and other organisms including ourselves, to whom they dole out fatal illnesses and vital nutrients alike.
In the end, Ingraham leaves us marveling at the power and persistence of microbes on our planet and gives credence to Louis Pasteur’s famous assertion that “microbes will have the last word.”
Humans are terrestrial animals, and our capacity to see and understand the importance and vulnerability of life in the sea has trailed our growing ability to harm it. While conservation biologists are working to address environmental problems humans have created on land, loss of marine biodiversity, including extinctions and habitat degradation, has received much less attention. At the same time, marine sciences such as oceanography and fisheries biology have largely ignored issues of conservation.
Marine Conservation Biology brings together for the first time in a single volume, leading experts from around the world to apply the lessons and thinking of conservation biology to marine issues. Contributors including James M. Acheson, Louis W. Botsford, James T. Carlton, Kristina Gjerde, Selina S. Heppell, Ransom A. Myers, Julia K. Parrish, Stephen R. Palumbi, and Daniel Pauly offer penetrating insights on the nature of marine biodiversity, what threatens it, and what humans can and must do to recover the biological integrity of the world's estuaries, coastal seas, and oceans.
Sections examine: distinctive aspects of marine populations and ecosystems; threats to marine biological diversity, singly and in combination; place-based management of marine ecosystems; the often-neglected human dimensions of marine conservation.
Marine Conservation Biology breaks new ground by creating the conceptual framework for the new field of marine conservation biology -- the science of protecting, recovering, and sustainably using the living sea. It synthesizes the latest knowledge and ideas from leading thinkers in disciplines ranging from larval biology to sociology, making it a must-read for research and teaching faculty, postdoctoral fellows, and graduate and advanced undergraduate students (who share an interest in bringing conservation biology to marine issues). Likewise, its lucid scientific examinations illuminate key issues facing environmental managers, policymakers, advocates, and funders concerned with the health of our oceans.
Pioneered in the late 1980s, the concept of macroecology—a framework for studying ecological communities with a focus on patterns and processes—revolutionized the field. Although this approach has been applied mainly to terrestrial ecosystems, there is increasing interest in quantifying macroecological patterns in the sea and understanding the processes that generate them. Taking stock of the current work in the field and advocating a research agenda for the decades ahead, Marine Macroecology draws together insights and approaches from a diverse group of scientists to show how marine ecology can benefit from the adoption of macroecological approaches.
Divided into three parts, Marine Macroecology first provides an overview of marine diversity patterns and offers case studies of specific habitats and taxonomic groups. In the second part, contributors focus on process-based explanations for marine ecological patterns. The third part presents new approaches to understanding processes driving the macroecolgical patterns in the sea. Uniting unique insights from different perspectives with the common goal of identifying and understanding large-scale biodiversity patterns, Marine Macroecology will inspire the next wave of marine ecologists to approach their research from a macroecological perspective.
Conventional fishery management practices have failed to prevent the collapse of numerous fish stocks around the world. Amid growing concern about our ability to protect marine biodiversity and ecosystem integrity, scientists and managers alike are seeking alternative management tools. One of the most promising of those is no-take marine reserves -- areas of the sea where all consumptive use of natural resources is prohibited.
Marine Reserves is the first guidebook on no-take marine reserves, providing a synthesis of information on the underlying science, as well as design and implementation issues. The book, by Jack Sobel and Craig Dahlgren, describes the need for marine reserves and their potential benefits, examines how reserves can be designed to achieve specific objectives, and considers gaps in our knowledge and the research needed to address those gaps. Chapters examine: marine biological and geophysical issues relevant to reserve design; potential economic and biological benefits of marine reserves, and the likelihood of achieving them; influence of social and economic factors on reserve design and implementation; lessons learned from past efforts to establish marine reserves.
Also included are three case studies from California, Belize, and the Bahamas, as well as a review of experiences globally across a broad range of geographical locations, socioeconomic conditions, and marine environments. Case studies provide background on the history of marine reserves in each location, the process by which reserves were created, and the effect of the reserves on marine populations and communities as well as on human communities.
Marine Reserves represents an invaluable guide for fishery managers and marine protected area managers in creating and implementing effective marine reserves, and an accessible reference for environmentalists and others concerned with the conservation of marine resources. It will also be useful in undergraduate and graduate courses in marine ecology, fisheries, marine policy, and related fields.
Evolutionary maternal effects occur whenever a mother’s phenotypic traits directly affect her offspring’s phenotype, independent of the offspring’s genotype. Some of the phenotypic traits that result in maternal effects have a genetic basis, whereas others are environmentally determined. For example, the size of a litter produced by a mammalian mother—a trait with a strong genetic basis—can affect the growth rate of her offspring, while a mother’s dominance rank—an environmentally determined trait—can affect the dominance rank of her offspring.
The first volume published on the subject in more than a decade, Maternal Effects in Mammals reflects advances in genomic, ecological, and behavioral research, as well new understandings of the evolutionary interplay between mothers and their offspring. Dario Maestripieri and Jill M. Mateo bring together a learned group of contributors to synthesize the vast literature on a range of species, highlight evolutionary processes that were previously overlooked, and propose new avenues of research. Maternal Effects in Mammals will serve as the most comprehensive compendium on and stimulus for interdisciplinary treatments of mammalian maternal effects.
Over the last several decades, mathematical models have become central to the study of social evolution, both in biology and the social sciences. But students in these disciplines often seriously lack the tools to understand them. A primer on behavioral modeling that includes both mathematics and evolutionary theory, Mathematical Models of Social Evolution aims to make the student and professional researcher in biology and the social sciences fully conversant in the language of the field.
Teaching biological concepts from which models can be developed, Richard McElreath and Robert Boyd introduce readers to many of the typical mathematical tools that are used to analyze evolutionary models and end each chapter with a set of problems that draw upon these techniques. Mathematical Models of Social Evolution equips behaviorists and evolutionary biologists with the mathematical knowledge to truly understand the models on which their research depends. Ultimately, McElreath and Boyd’s goal is to impart the fundamental concepts that underlie modern biological understandings of the evolution of behavior so that readers will be able to more fully appreciate journal articles and scientific literature, and start building models of their own.
A whirlwind journey through fungus frontiers that underscores how appreciating fungi is key to understanding our planet’s power and fragility.
What can we learn from the lives of fungi? Splitting time between the northern and southern hemispheres, ecologist Alison Pouliot ensures that she experiences two autumns per year in the pursuit of fungi—from Australia’s deserts to Iceland’s glaciers to America’s Cascade Mountains. In Meetings with Remarkable Mushrooms, we journey alongside Pouliot, magnifiers in hand, as she travels the world.
With Pouliot as our guide, we smell fire-loving truffles that transform their scent after burning to lure mammals who eat them and, ultimately, spread their spores. We spot the eerie glow of the ghost fungus, a deceptive entity that looks like an edible oyster mushroom but will soon heave back out—along with everything else in your stomach—if you take a bite. And we crawl alongside vegetable caterpillars, which are neither vegetable nor caterpillar but a fungus that devours insects from the inside out.
Featuring stunning color photographs of these mycological miracles, Meetings with Remarkable Mushrooms shows that understanding fungi is fundamental for harmonizing with the natural world.
Picture your twenty-first birthday. Did you have a party? If so, do you remember who was there? Now step back: how clear are those memories? Should we trust them to be accurate, or is there a chance that you’re remembering incorrectly? And where have the many details you can no longer recall gone? Are they hidden somewhere in your brain, or are they gone forever?
Such questions have fascinated scientists for hundreds of years, and, as Alison Winter shows in Memory: Fragments of a Modern History, the answers have changed dramatically in just the past century. Tracing the cultural and scientific history of our understanding of memory, Winter explores early metaphors that likened memory to a filing cabinet; later, she shows, that cabinet was replaced by the image of a reel of film, ever available for playback. That model, too, was eventually superseded, replaced by the current understanding of memory as the result of an extremely complicated, brain-wide web of cells and systems that together assemble our pasts. Winter introduces us to innovative scientists and sensationalistic seekers, and, drawing on evidence ranging from scientific papers to diaries to movies, explores the way that new understandings from the laboratory have seeped out into psychiatrists' offices, courtrooms, and the culture at large. Along the way, she investigates the sensational battles over the validity of repressed memories that raged through the 1980s and shows us how changes in technology—such as the emergence of recording devices and computers—have again and again altered the way we conceptualize, and even try to study, the ways we remember.
Packed with fascinating details and curious episodes from the convoluted history of memory science, Memory is a book you'll remember long after you close its cover.
Males account for roughly 50 percent of the global population, but in America and other places, they account for over 85 percent of violent crime. A graph of relative risk of death in human males shows that mortality is high immediately following birth, falls during childhood, then exhibits a distinct rise between the ages of 15 and 35—primarily the result of accidents, violence, and risky behaviors. Why? What compels males to drive fast, act violently, and behave stupidly? Why are men's lives so different from those of women?
Men presents a new approach to understanding the human male by drawing upon life history and evolutionary theory. Because life history theory focuses on the timing of, and energetic investment in, particular aspects of physiology, such as growth and reproduction, Richard Bribiescas and his fellow anthropologists are now using it in the study of humans. This has led to an increased understanding of human female physiology—especially growth and reproduction—from an evolutionary and life history perspective. However, little attention has been directed toward these characteristics in males. Men provides a new understanding of human male physiology and applies it to contemporary health issues such as prostate cancer, testosterone replacement therapy, and the development of a male contraceptive.
Men proves that understanding human physiology requires global research in traditionally overlooked areas and that evolutionary and life history theory have much to offer toward this endeavor.
Even after 150 years, Darwin’s theory of evolution by natural selection is irresistibly compelling. But how can this idea—in which competition prevails—be consistent with all that we know about the thoroughly cooperative nature of life at the genetic and cellular level? This book reconciles these discrepancies.
Assembling a set of general principles, authors Kenneth Weiss and Anne Buchanan build a comprehensive, unified theory that applies on the evolutionary time scale but also on the developmental and ecological scales where daily life is lived, and cells, organisms, and species interact. They present this story through a diversity of examples spanning the fundamental challenges that organisms have faced throughout the history of life. This shows that even very complex traits can be constructed simply, based on these principles. Although relentless competitive natural selection is widely assumed to be the primary mover of evolutionary change, The Mermaid’s Tale shows how life more generally works on the basis of cooperation. The book reveals that the focus on competition and cooperation is largely an artifact of the compression of time—a distortion that dissolves when the nature and origins of adapted life are viewed primarily from developmental and evolutionary time scales.
Freshwater turtles and goldfish can survive for several days without oxygen, some diving turtles for several months; hibernating animals can exist without food for long periods; others can survive extreme conditions such as desiccation, freezing, and thawing. These creatures are, in effect, self-sustaining life-support systems, with a mysterious ability to regulate their own metabolisms.
These capabilities raise important questions, which Hochachka and Guppy explore in this seminal new book. What mechanisms turn down (or off) cell metabolism and other cell functions? How does an animal such as an opossum know when to activate mechanisms for slowing or stopping tissue and organ functions? How does it know when to turn them on again? How extensive is metabolic arrest as a defense against harsh environmental conditions? Can we decipher universal principles of metabolic arrest from available data? The lessons to be learned are of potentially great interest to clinicians, because the authors provide a theoretical framework in which to organize an attack on the all-too-practical problem of protecting tissues against hypoxia. Areas that may be influenced include research on cardiac arrest, strokes, acute renal failure, liver ischemia, lung injury, respiratory defense syndrome, claudication, shock, and organ transplant. Investigation of other metabolic arrest mechanisms may be similarly useful in both clinical and agricultural fields.
This is a pioneering book of great use to biomedical/clinical researchers and to biologists, biochemists, and physiologists generally.
First published in 1974 as a companion volume to Darwin on Man by Howard E. Gruber, Paul Barrett’s transcriptions of Darwin’s M and N notebooks served to shed new light on the evolutionist’s methods and motivation.
According to Stephen Jay Gould in the New York Times Book Review, “Darwin kept [these notebooks] primarily in 1838, when he was 29 years old. In them, he recorded his early conviction of evolutionary continuity between humans and all other animals. . . . These notebooks display all the features of humanistic intellect that his detractors denied. We find erudition in his comments on Plato, Locke, Hume, Adam Smith, Whewell, Burke, Montaigne, Lessing and Spencer. . . . We appreciate an artistic bent in his delight with nature and her prophet Wordsworth. . . . We grasp the breadth of his bold attempt to clothe all human thought and behaviour in a new evolutionary garb. . . . Charles Darwin was reconstructing the world and he knew exactly what he was doing.”
Development of rural landscapes is converting once-vast expanses of open space into pockets of habitat where wildlife populations exist in isolation from other members of their species. The central concept of metapopulation dynamics -- that a constellation of partially isolated patches can yield overall stability to a system that is chaotic at the level of the individual patch -- offers an important new way of thinking about the conservation and management of populations dispersed among small habitat fragments. This approach is proving to be a rich resource for biologists hoping to arrest the current catastrophic loss of biodiversity.
An understanding of metapopulation theory and analysis is critical to the modern practice of wildlife conservation and management. This volume provides a comprehensive overview of the subject, addressing the needs of an applied professional audience for comprehensible information to integrate into their practices. Leading conservation biologists, ecologists, wildlife managers, and other experts consider the emergence and development of metapopulation theory and explore its applicability and usefulness to real-world conservation programs.
Introductory chapters provide background information on basic concepts such as models, genetics, landscape configuraton, and edges and corridors. Subsequent chapters present detailed methods of analyzing metapopulation structure. Case studies of an array of vertebrate species, including the Swedish pool frog, the northern spotted owl, Stephens' kangaroo rat, Florida scrub jay, Mediterranean monk seal, Steller sea lion, tule elk, and others, illustrate nuances of metapopulation theory analysis and its practical applications.
Contributors describe what metapopulation approaches bring to wildlife conservation and management, present models of how metapopulation thinking has been applied in specific situations, and suggest the analysis required in given cases. Metapopulations and Wildlife Conservation is essential reading for anyone working in the field of wildlife conservation and managment.
Mice in the Freezer, Owls on the Porch is in many ways a love story—about a quiet scientist and his flamboyant wife, but also about their passions for hunting, for wild lands, and for the grouse and raptor species that they were instrumental in saving from destruction.
From the papers and letters of Frederick and Frances Hamerstrom, the reminiscences of contemporaries, and her own long friendship with this extraordinary couple who were her neighbors, Helen Corneli draws an intimate picture of Fran and "Hammy" from childhood through the genesis and maturation of a romantic, creative, and scientific relationship. Following the Hamerstroms as they give up a life of sophisticated convention and comfort for the more "civilized" (as Aldo Leopold would have it) pleasures of living and conducting on-the-spot research into diminishing species, Corneli captures the spirit of the Hamerstroms, their profession, and the natural and human environments in which they worked. A nuanced account of the labors, adventures, and achievements that distinguished the Hamerstroms over the years—and that inspired a generation of naturalists—this book also provides a dramatic account of conservation history over the course of the twentieth century, particularly in Wisconsin during the eventful years from the 1920s through the 1970s.
Why the global health project to avert emerging microbes continually fails
In 1989, a group of U.S. government scientists met to discuss some surprising findings: new diseases were appearing around the world, and viruses that they thought long vanquished were resurfacing. Their appearance heralded a future perpetually threatened by unforeseeable biological risks, sparking a new concept of disease: the “emerging microbe.” With the Cold War nearing its end, American scientists and security experts turned to confront this new “enemy,” redirecting national security against its risky horizons. In order to be fought, emerging microbes first needed to be made perceptible; but how could something immaterial, unknowable, and ever mutating be coaxed into visibility, knowability, and operability?
Microbial Resolution charts the U.S.-led war on the emerging microbe to show how their uncertain futures were transformed into objects of global science and security. Moving beyond familiar accounts that link scientific knowledge production to optical practices of visualizing the invisible, Gloria Chan-Sook Kim develops a theory of “microbial resolution” to analyze the complex problematic that arises when dealing with these entities: what can be seen when there is nothing to see? Through a syncretic analysis of data mining, animal-tracking technologies, media networks, computer-modeled futures, and global ecologies and infrastructures, she shows how a visual impasse—the impossibility of seeing microbial futures—forms the basis for new modes of perceiving, knowing, and governing in the present.
Timely and thought provoking, Microbial Resolution opens up the rich paradoxes, irreconcilabilities, and failures inherent in this project and demonstrates how these tensions profoundly animate twenty-first-century epistemologies, aesthetics, affects, and ecologies.
For three centuries, concepts of the state have been animated by one of the most powerful metaphors in politics: the body politic, a claustrophobic and bounded image of sovereignty. Climate change, neoliberalism, mass migration, and other aspects of the late Anthropocene have increasingly revealed the limitations of this metaphor. Just as the human body is not whole and separate from other bodies—comprising microbes, bacteria, water, and radioactive isotopes—Stefanie R. Fishel argues that the body politic of the state exists in dense entanglement with other communities and forms of life.
Drawing on insights from continental philosophy, science and technology studies, and international relations theory, this path-breaking book critiques the concept of the body politic on the grounds of its very materiality. Fishel both redefines and extends the metaphor of the body politic and its role in understanding an increasingly posthuman, globalized world politics. By conceiving of bodies and states as lively vessels, living harmoniously with multiplicity and the biosphere, she argues that a radical shift in metaphors can challenge a politics based on fear to open new forms of global political practice and community.
Reframing the concept of the body politic to accommodate greater levels of complexity, Fishel suggests, will result in new configurations for the political and social organization necessary to build a world in which the planet’s inhabitants do not merely live but actively thrive.
Insects that are the least bit social may gather in modest groups, like the dozen or so sawfly larvae feeding on a pine needle, or they may form huge masses, like a swarm of migratory locusts in Africa or a cloud of mayflies at the edge of a midwestern lake or river. Why these insects get together and what they get out of their associations are questions finely and fully considered in this learned and entertaining look at the group behavior and social lives of a wide array of bugs.
The groups that Gilbert Waldbauer discusses here are not as complex or tightly organized as the better-known societies of termites, wasps, ants, and bees. Some, like the mayflies, come together merely because they emerge from the water in the same place at the same time. But others, like swarms of locusts, are loosely organized, the individual insects congregating to migrate together for distances of hundreds of miles. And yet others form a simple cooperative society, such as the colony of tent caterpillars that weaves a silken tent to house the whole group.
Waldbauer tells us how individuals in these and other insect aggregations communicate (or don't), how they coordinate their efforts, how some congregate the better to mate, how some groups improve the temperature and humidity of their microenvironment, and how others safeguard themselves (or the future of their kind) by amassing in such vast numbers as to confound predators.
As engaging and authoritative as Waldbauer's previous books, Millions of Monarchs, Bunches of Beetles will enlighten and delight those who know their insects well and those who wish to know them better.
Understanding the chimpanzee mind is akin to opening a window onto human consciousness. Many of our complex cognitive processes have origins that can be seen in the way that chimpanzees think, learn, and behave. The Mind of the Chimpanzee brings together scores of prominent scientists from around the world to share the most recent research into what goes on inside the mind of our closest living relative.
Intertwining a range of topics—including imitation, tool use, face recognition, culture, cooperation, and reconciliation—with critical commentaries on conservation and welfare, the collection aims to understand how chimpanzees learn, think, and feel, so that researchers can not only gain insight into the origins of human cognition, but also crystallize collective efforts to protect wild chimpanzee populations and ensure appropriate care in captive settings. With a breadth of material on cognition and culture from the lab and the field, The Mind of the Chimpanzee is a first-rate synthesis of contemporary studies of these fascinating mammals that will appeal to all those interested in animal minds and what we can learn from them.
“Never before has the case been more compellingly made that America’s dependence on a free and abundant water supply has become an illusion. Cynthia Barnett does it by telling us the stories of the amazing personalities behind our water wars, the stunning contradictions that allow the wettest state to have the most watered lawns, and the thorough research that makes her conclusions inescapable. Barnett has established herself as one of Florida’s best journalists and Mirage is a must-read for anyone who cares about the future of the state.”
—Mary Ellen Klas, Capital Bureau Chief, Miami Herald
“Mirage is the finest general study to date of the freshwater-supply crisis in Florida. Well-meaning villains abound in Cynthia Barnett’s story, but so too do heroes, such as Arthur R. Marshall Jr., Nathaniel Reed, and Marjorie Harris Carr. The author’s research is as thorough as her prose is graceful. Drinking water is the new oil. Get used to it.”
—Michael Gannon, Distinguished Professor of history, University of Florida, and author of Florida: A Short History
“With lively prose and a journalist’s eye for a good story, Cynthia Barnett offers a sobering account of water scarcity problems facing Florida—one of our wettest states—and the rest of the East Coast. Drawing on lessons learned from the American West, Mirage uses the lens of cultural attitudes about water use and misuse to plead for reform. Sure to engage and fascinate as it informs.”
—Robert Glennon, Morris K. Udall Professor of Law and Public Policy, University of Arizona, and author of Water Follies: Groundwater Pumping and the Fate of America’s Fresh Waters
Part investigative journalism, part environmental history, Mirage reveals how the eastern half of the nation—historically so wet that early settlers predicted it would never even need irrigation—has squandered so much of its abundant freshwater that it now faces shortages and conflicts once unique to the arid West.
Florida’s parched swamps and supersized residential developments set the stage in the first book to call attention to the steady disappearance of freshwater in the American East, from water-diversion threats in the Great Lakes to tapped-out freshwater aquifers along the Atlantic seaboard.
Told through a colorful cast of characters including Walt Disney, Jeb Bush and Texas oilman Boone Pickens, Mirage ferries the reader through the key water-supply issues facing America and the globe: water wars, the politics of development, inequities in the price of water, the bottled-water industry, privatization, and new-water-supply schemes.
From its calamitous opening scene of a sinkhole swallowing a house in Florida to its concluding meditation on the relationship between water and the American character, Mirage is a compelling and timely portrait of the use and abuse of freshwater in an era of rapidly vanishing natural resources.
At a time when the complete human genome has been sequenced and when seemingly every week feature news stories describe genes that may be responsible for personality, intelligence, even happiness, Michel Morange gives us a book that demystifies the power of modern genetics. The Misunderstood Gene takes us on an easily comprehensible tour of the most recent findings in molecular biology to show us how—and if—genes contribute to biological processes and complex human behaviors.
As Morange explains, if molecular biologists had to designate one category of molecules as essential to life, it would be proteins and their multiple functions, not DNA and genes. Genes are the centerpiece of modern biology because they can be modified. But they are only the memory that life invented so that proteins could be efficiently reproduced. Morange shows us that there is far more richness and meaning in the structure and interactions of proteins than in all the theoretical speculations on the role of genes.
The Misunderstood Gene makes it clear that we do not have to choose between rigid genetic determinism and fearful rejection of any specific role for genes in development or behavior. Both are true, but at different levels of organization. Morange agrees with those who say “we are not in our genes.” But he also wants us to understand that we are not without our genes, either. We are going to have to make do with them, and this book will show us how.
In The Mojave Desert, thirty-eight scientists who are all specialists in desert ecology address the threats to the Mojave, as well as the potential for natural recovery and active restoration. The contributing authors discuss the desert from several perspectives: regional threats such as expanding human populations, climate change, atmospheric nitrogen deposition, and invasive plants; the impact of roads in a desert ecosystem; soils and plant communities; shrinking aquifers; and the monitoring and sustainability of this fragile ecosystem. Finally, they discuss the importance of long-term data and the ways scientists and resource managers can interact to enhance understanding of the processes of change in the Mojave Desert and to advance the preservation and restoration of its precious resources.The Mojave Desert offers the fruits of extensive research in a number of disciplines and a sound assessment of the current state and possible future of one of the world's major deserts. As human intrusion and climate change increasingly threaten the Mojave's ecosystem, studies like this are essential in helping scientists, land managers, and the general public understand what is at risk and what can be done to preserve this austere and hauntingly beautiful region.
Molecular and Cellular Physiology of Neurons: Second Edition is a comprehensive, up-to-date introduction to essential concepts of cellular neuroscience. Emphasizing experimental approaches and recent discoveries, it provides an in-depth look at the structure and function of nerve cells, from protein receptors and synapses to the biochemical processes that drive the mammalian nervous system.
Starting with the basics of electrical current flow across cell membranes, Gordon Fain covers voltage gating and receptor activation in the context of channel diversity, excitatory and inhibitory synaptic transmission, neuromodulation, and sensory transduction. Emphasizing long-term processes of synaptic potentiation and depression involved in memory, consciousness, and attention, he demonstrates how cells produce neural signals and regulate signal flow to enhance or impede cell-to-cell communication. Fain also addresses the relation of molecular and cellular mechanisms to evolving theories of neurological disease and addiction.
Enhanced by more than two hundred illustrations, Molecular and Cellular Physiology of Neurons: Second Edition is intended for anyone who seeks to understand the fundamentals of nerve cell function, including undergraduate and graduate students in neuroscience, students of bioengineering and cognitive science, and practicing neuroscientists who want to deepen their knowledge of recent discoveries in molecular and cellular neurophysiology.
How computer animation technologies became vital visualization tools in the life sciences
Who would have thought that computer animation technologies developed in the second half of the twentieth century would become essential visualization tools in today’s biosciences? This book is the first to examine this phenomenon. Molecular Capture reveals how popular media consumption and biological knowledge production have converged in molecular animations—computer simulations of molecular and cellular processes that immerse viewers in the temporal unfolding of molecular worlds—to produce new regimes of seeing and knowing.
Situating the development of this technology within an evolving field of historical, epistemological, and political negotiations, Adam Nocek argues that molecular animations not only represent a key transformation in the visual knowledge practices of life scientists but also bring into sharp focus fundamental mutations in power within neoliberal capitalism. In particular, he reveals how the convergence of the visual economies of science and entertainment in molecular animations extends neoliberal modes of governance to the perceptual practices of scientific subjects. Drawing on Alfred North Whitehead’s speculative metaphysics and Michel Foucault’s genealogy of governmentality, Nocek builds a media philosophy well equipped to examine the unique coordination of media cultures in this undertheorized form of scientific media. More specifically, he demonstrates how governmentality operates across visual practices in the biosciences and the popular mediasphere to shape a molecular animation apparatus that unites scientific knowledge and entertainment culture.
Ultimately, Molecular Capture proposes that molecular animation is an achievement of governmental design. It weaves together speculative media philosophy, science and technology studies, and design theory to investigate how scientific knowledge practices are designed through media apparatuses.
The idea of evolution: it fascinates some of us, disturbs others, and leaves only a very few people indifferent. In a major new interpretation of evolutionary theory, Michael Ruse pinpoints the common source of this attraction and discomfort. A renowned writer on evolutionary theory and its history, Ruse has long been sensitive to the fact that many people--and not simply religious enthusiasts--find something deeply troubling about much of what passes for science in evolutionary circles. What causes this tension, he finds in his search of evolutionism's 250-year history, is the intimate relationship between evolution and the secular ideology of progress.
Ubiquitous in Darwin's time, the idea of an unceasing improvement in life insinuated its way into evolutionary theory from the first. In interviews with today's major figures in evolutionary biology--including Stephen Jay Gould, Edward O. Wilson, Ernst Mayr, and John Maynard Smith--and in an intimate look at the discoveries and advances in the history and philosophy of science, Ruse finds this belief just as prevalent today--however it might be denied or obscured. His book traces the delicate line between those who argue that science is and must be objective and those who deem science a "social construction" in the fashion of religion or the rest of culture. It offers an unparalleled account of evolutionary theory, from popular books to museums to the most complex theorizing, at a time when its status as science is under greater scrutiny than ever before.
From the beginning, Darwin’s dangerous idea has been a snake in the garden, denounced from pulpits then and now as incompatible with the central tenets of Christian faith. Recovered here is the less well-known but equally long history of thoughtful engagement and compromise on the part of liberal theologians. Peter J. Bowler doesn’t minimize the hostility of many of the faithful toward evolution, but he reveals the existence of a long tradition within the churches that sought to reconcile Christian beliefs with evolution by finding reflections of the divine in scientific explanations for the origin of life. By tracing the historical forerunners of these rival Christian responses, Bowler provides a valuable alternative to accounts that stress only the escalating confrontation.
Our polarized society, Bowler says, has all too often projected its rivalries onto the past, concealing the efforts by both scientists and theologians to find common ground. Our perception of past confrontations has been shaped by an oversimplified model of a “war” between science and religion. By uncovering the complexity of the debates sparked by Darwin’s theory, we might discover ways to depolarize our own debates about where we came from and why we are here.
Sibling rivalry and intergenerational conflict are not limited to human beings. Among seals and piglets, storks and burying beetles, in bird nests and beehives, from apples to humans, family conflicts can be deadly serious, determining who will survive and who will perish. When offspring compete for scarce resources, sibling rivalry kicks in automatically. Parents sometime play favorites or even kill their young. In More than Kin and Less than Kind, Douglas Mock tells us what scientists have discovered about this disturbing side of family dynamics in the natural world.
Natural selection operates primarily for the benefit of individuals (and their genes). Thus a family member may profit directly, by producing its own offspring, or indirectly, by helping close kin to reproduce. Much of the biology of family behavior rests on a simple mathematical relationship called Hamilton’s rule, which links the benefits and costs of seemingly altruistic or selfish behavior to the degree of relatedness between individuals.
Blending natural history and theoretical biology, Mock shows how Hamilton’s rule illuminates the study of family strife by throwing a spotlight on the two powerful forces—cooperation and competition—that shape all interaction in the family arena. In More than Kin and Less than Kind, he offers a rare perspective on the family as testing ground for the evolutionary limits of selfishness. When budgets are tight, close kin are often deadly rivals.
The human mind is an unlikely evolutionary adaptation. How did humans acquire cognitive capacities far more powerful than anything a hunting-and-gathering primate needed to survive? Alfred Russel Wallace, co-founder with Darwin of evolutionary theory, saw humans as "divine exceptions" to natural selection. Darwin thought use of language might have shaped our sophisticated brains, but his hypothesis remained an intriguing guess--until now. Combining state-of-the-art research with forty years of writing and thinking about language evolution, Derek Bickerton convincingly resolves a crucial problem that both biology and the cognitive sciences have hitherto ignored or evaded.
What evolved first was neither language nor intelligence--merely normal animal communication plus displacement. That was enough to break restrictions on both thought and communication that bound all other animals. The brain self-organized to store and automatically process its new input, words. But words, which are inextricably linked to the concepts they represent, had to be accessible to consciousness. The inevitable consequence was a cognitive engine able to voluntarily merge both thoughts and words into meaningful combinations. Only in a third phase could language emerge, as humans began to tinker with a medium that, when used for communication, was adequate for speakers but suboptimal for hearers.
Starting from humankind's remotest past, More than Nature Needs transcends nativist thesis and empiricist antithesis by presenting a revolutionary synthesis--one that instead of merely repeating "nature and nurture" clichés shows specifically and in a principled manner how and why the synthesis came about.
Mosquitoes of the Southeastern United States is a full-color, highly-illustrated guide to the 64 known species of mosquitoes in 11 genera that populate the South's main geographical area--from the Gulf Coastal states to the Carolinas.
Plants produce a considerable number of structures of one kind, like leaves, flowers, fruits, and seeds, and this reiteration is a quintessential feature of the body plan of higher plants. But since not all structures of the same kind produced by a plant are identical—for instance, different branches on a plant may be male or female, leaf sizes in the sun differ from those in the shade, and fruit sizes can vary depending on patterns of physiological allocation among branches—a single plant genotype generally produces a multiplicity of phenotypic versions of the same organ.
Multiplicity in Unity uses this subindividual variation to deepen our understanding of the ecological and evolutionary factors involved in plant-animal interactions. On one hand, phenotypic variation at the subindividual scale has diverse ecological implications for animals that eat plants. On the other hand, by choosing which plants to consume, these animals may constrain or modify plant ontogenetic patterns, developmental stability, and the extent to which feasible phenotypic variants are expressed by individuals.
An innovative study of the ecology, morphology, and evolution of modular organisms, Multiplicity in Unity addresses a topic central to our understanding of the diversity of life and the ways in which organisms have coevolved to cope with variable environments.
The universality of musical tones has long fascinated philosophers, scientists, musicians, and ordinary listeners. Why do human beings worldwide find some tone combinations consonant and others dissonant? Why do we make music using only a small number of scales out of the billions that are possible? Why do differently organized scales elicit different emotions? Why are there so few notes in scales? In Music as Biology, Dale Purves argues that biology offers answers to these and other questions on which conventional music theory is silent.
When people and animals vocalize, they generate tonal sounds—periodic pressure changes at the ear which, when combined, can be heard as melodies and harmonies. Human beings have evolved a sense of tonality, Purves explains, because of the behavioral advantages that arise from recognizing and attending to human voices. The result is subjective responses to tone combinations that are best understood in terms of their contribution to biological success over evolutionary and individual history. Purves summarizes evidence that the intervals defining Western and other scales are those with the greatest collective similarity to the human voice; that major and minor scales are heard as happy or sad because they mimic the subdued and excited speech of these emotional states; and that the character of a culture’s speech influences the tonal palette of its traditional music.
Rethinking music theory in biological terms offers a new approach to centuries-long debates about the organization and impact of music.
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