With its portable, pocket-sized format, The Right Imaging Study: A Guide for Physicians is the definitive reference tool that is sure to improve your diagnostic and decision-making skills when ordering imaging studies.
A Summer Reading Pick for President Barack Obama, Bill Gates, and Mark Zuckerberg
From a renowned historian comes a groundbreaking narrative of humanity’s creation and evolution—a #1 international bestseller—that explores the ways in which biology and history have defined us and enhanced our understanding of what it means to be “human.”
One hundred thousand years ago, at least six different species of humans inhabited Earth. Yet today there is only one—homo sapiens. What happened to the others? And what may happen to us?
Most books about the history of humanity pursue either a historical or a biological approach, but Dr. Yuval Noah Harari breaks the mold with this highly original book that begins about 70,000 years ago with the appearance of modern cognition. From examining the role evolving humans have played in the global ecosystem to charting the rise of empires, Sapiens integrates history and science to reconsider accepted narratives, connect past developments with contemporary concerns, and examine specific events within the context of larger ideas.
Dr. Harari also compels us to look ahead, because over the last few decades humans have begun to bend laws of natural selection that have governed life for the past four billion years. We are acquiring the ability to design not only the world around us, but also ourselves. Where is this leading us, and what do we want to become?
Featuring 27 photographs, 6 maps, and 25 illustrations/diagrams, this provocative and insightful work is sure to spark debate and is essential reading for aficionados of Jared Diamond, James Gleick, Matt Ridley, Robert Wright, and Sharon Moalem.
In Cat Sense, renowned anthrozoologist John Bradshaw takes us further into the mind of the domestic cat than ever before, using cutting-edge scientific research to dispel the myths and explain the true nature of our feline friends. Tracing the cat's evolution from lone predator to domesticated companion, Bradshaw shows that although cats and humans have been living together for at least eight thousand years, cats remain independent, predatory, and wary of contact with their own kind, qualities that often clash with our modern lifestyles. Cats still have three out of four paws firmly planted in the wild, and within only a few generations can easily revert back to the independent way of life that was the exclusive preserve of their predecessors some 10,000 years ago. Cats are astonishingly flexible, and given the right environment they can adapt to a life of domesticity with their owners-but to continue do so, they will increasingly need our help. If we're to live in harmony with our cats, Bradshaw explains, we first need to understand their inherited quirks: understanding their body language, keeping their environments-however small-sufficiently interesting, and becoming more proactive in managing both their natural hunting instincts and their relationships with other cats.
A must-read for any cat lover, Cat Sense offers humane, penetrating insights about the domestic cat that challenge our most basic assumptions and promise to dramatically improve our pets' lives-and ours.
The Earth teems with life: in its oceans, forests, skies and cities. Yet there’s a black hole at the heart of biology. We do not know why complex life is the way it is, or, for that matter, how life first began. In The Vital Question, award-winning author and biochemist Nick Lane radically reframes evolutionary history, putting forward a solution to conundrums that have puzzled generations of scientists.
For two and a half billion years, from the very origins of life, single-celled organisms such as bacteria evolved without changing their basic form. Then, on just one occasion in four billion years, they made the jump to complexity. All complex life, from mushrooms to man, shares puzzling features, such as sex, which are unknown in bacteria. How and why did this radical transformation happen?
The answer, Lane argues, lies in energy: all life on Earth lives off a voltage with the strength of a lightning bolt. Building on the pillars of evolutionary theory, Lane’s hypothesis draws on cutting-edge research into the link between energy and cell biology, in order to deliver a compelling account of evolution from the very origins of life to the emergence of multicellular organisms, while offering deep insights into our own lives and deaths.
Both rigorous and enchanting, The Vital Question provides a solution to life’s vital question: why are we as we are, and indeed, why are we here at all?
Early studies of the human brain used a simple method: wait for misfortune to strike -- strokes, seizures, infectious diseases, horrendous accidents -- and see how victims coped. In many cases their survival was miraculous, if puzzling. Observers were amazed by the transformations that took place when different parts of the brain were destroyed, altering victims' personalities. Parents suddenly couldn't recognize their own children. Pillars of the community became pathological liars. Some people couldn't speak but could still sing.
In The Tale of the Dueling Neurosurgeons, Sam Kean travels through time with stories of neurological curiosities: phantom limbs, Siamese twin brains, viruses that eat patients' memories, blind people who see through their tongues. He weaves these narratives together with prose that makes the pages fly by, to create a story of discovery that reaches back to the 1500s and the high-profile jousting accident that inspired this book's title.* With the lucid, masterful explanations and razor-sharp wit his fans have come to expect, Kean explores the brain's secret passageways and recounts the forgotten tales of the ordinary people whose struggles, resilience, and deep humanity made neuroscience possible.
*"The Tale of the Dueling Neurosurgeons" refers to the case of French king Henri II, who in 1559 was lanced through the skull during a joust, resulting in one of the most significant cases in neuroscience history. For hundreds of years scientists have gained important lessons from traumatic accidents and illnesses, and such misfortunes still represent their greatest resource for discovery.
In Babel No More, Michael Erard, “a monolingual with benefits,” sets out on a quest to meet language superlearners and make sense of their mental powers. On the way he uncovers the secrets of historical figures like the nineteenth-century Italian cardinal Joseph Mezzofanti, who was said to speak seventy-two languages, as well as those of living language-superlearners such as Alexander Arguelles, a modern-day polyglot who knows dozens of languages and shows Erard the tricks of the trade to give him a dark glimpse into the life of obsessive language acquisition.
With his ambitious examination of what language is, where it lives in the brain, and the cultural implications of polyglots’ pursuits, Erard explores the upper limits of our ability to learn and use languages and illuminates the intellectual potential in everyone. How do some people escape the curse of Babel—and what might the gods have demanded of them in return?
In her third enthralling book about the brain, Judith Horstman takes us on a lively tour of our most important sex and love organ and the whole smorgasbord of our many kinds of love-from the bonding of parent and child to the passion of erotic love, the affectionate love of companionship, the role of animals in our lives, and the love of God.
Drawing on the latest neuroscience, she explores why and how we are born to love-how we're hardwired to crave the companionship of others, and how very badly things can go without love. Among the findings: parental love makes our brain bigger, sex and orgasm make it healthier, social isolation makes it miserable-and although the craving for romantic love can be described as an addiction, friendship may actually be the most important loving relationship of your life.
Based on recent studies and articles culled from the prestigious Scientific American and Scientific American Mind magazines, The Scientific American Book of Love, Sex, and the Brain offers a fascinating look at how the brain controls our loving relationships, most intimate moments, and our deep and basic need for connection.
By showing us the true nature of chance and revealing the psychological illusions that cause us to misjudge the world around us, Mlodinow gives us the tools we need to make more informed decisions. From the classroom to the courtroom and from financial markets to supermarkets, Mlodinow's intriguing and illuminating look at how randomness, chance, and probability affect our daily lives will intrigue, awe, and inspire.
From the Trade Paperback edition.
The common ancestry of all humanity
The role of genes in sickness and health
Debates over the use of genetic technology
Written in an engaging, narrative manner, this concise introduction is an ideal starting point for anyone who wants to know more about genes, DNA, and the genetic ties that bind us all.
We are in the midst of a sleep deprivation crisis, with profound consequences to our health, our job performance, our relationships and our happiness. What we need is nothing short of a sleep revolution: only by renewing our relationship with sleep can we take back control of our lives.
In The Sleep Revolution, Arianna explores all the latest science on what exactly is going on while we sleep and dream. She takes on the sleeping pill industry, and all the ways our addiction to technology disrupts our sleep. She also offers a range of recommendations and tips from leading scientists on how we can get better and more restorative sleep, and harness its incredible power.
The result is a sweeping, scientifically rigorous, and deeply personal exploration of sleep from all angles, from the history of sleep, to the role of dreams in our lives, to the consequences of sleep deprivation, and the new golden age of sleep science that reveals the vital role sleep plays in our every waking moment and every aspect of our health--from weight gain, diabetes, and heart disease to cancer and Alzheimer’s.
In today's fast-paced, always-connected, perpetually-harried and sleep-deprived world, our need for a good night’s sleep is more important--and elusive--than ever. The Sleep Revolution both sounds the alarm on our worldwide sleep crisis and provides a detailed road map to the great sleep awakening that can help transform our lives, our communities, and our world.
In this second edition, the author includes greatly expanded treatments of families of lycophytes, ferns, gymnosperms, and flowering plants (all with full-color plates), a new chapter on species concepts and the role of systematics in conservation biology, and a new appendix summarizing basic statistical and morphometric techniques used in plant systematics studies. An explanation of maximum likelihood and Bayesian inference algorithms is included in methods of phylogenetic inference, and chapters on morphology and plant nomenclature have been augmented with new material.
The second edition of Plant Systematics has been expanded to include:
* Fifteen fern families, 9 gymnosperm families, and an increase of angiosperm family treatments from 100 to 129. Each family description includes a plate of full color photographs, illustrating exemplars of the group along with dissected and labeled material to show diagnostic features.
* A new chapter on species concepts and the role and impact of plant systematics in conservation biology.
* A new appendix on statistical and morphometric techniques in plant systematics.
* In addition, the second edition contains more detailed explanations of maximum likelihood and Bayesian phylogeny inference methods, an expanded coverage and glossary of morphological terms, and an updated chapter on botanical nomenclature.
This major new edition features many topics not covered in the original, including graphical models, random forests, ensemble methods, least angle regression & path algorithms for the lasso, non-negative matrix factorization, and spectral clustering. There is also a chapter on methods for ``wide'' data (p bigger than n), including multiple testing and false discovery rates.
Trevor Hastie, Robert Tibshirani, and Jerome Friedman are professors of statistics at Stanford University. They are prominent researchers in this area: Hastie and Tibshirani developed generalized additive models and wrote a popular book of that title. Hastie co-developed much of the statistical modeling software and environment in R/S-PLUS and invented principal curves and surfaces. Tibshirani proposed the lasso and is co-author of the very successful An Introduction to the Bootstrap. Friedman is the co-inventor of many data-mining tools including CART, MARS, projection pursuit and gradient boosting.
Exploring the natural history of these animals, the Coppingers explain how the village dogs of Vietnam, India, Africa, and Mexico are strikingly similar. These feral dogs, argue the Coppingers, are in fact the truly archetypal dogs, nearly uniform in size and shape and incredibly self-sufficient. Drawing on nearly five decades of research, they show how dogs actually domesticated themselves in order to become such efficient scavengers of human refuse. The Coppingers also examine the behavioral characteristics that enable dogs to live successfully and to reproduce, unconstrained by humans, in environments that we ordinarily do not think of as dog friendly.
Providing a fascinating exploration of what it actually means—genetically and behaviorally—to be a dog, What Is a Dog? will undoubtedly change the way any beagle or bulldog owner will reflect on their four-legged friend.
You will follow your oxygen atoms through fire and water and from forests to your fingernails. Hydrogen atoms will wriggle into your hair and betray where you live and what you have been drinking. The carbon in your breath will become tree trunks, and the sodium in your tears will link you to long-dead oceans. The nitrogen in your muscles will help to turn the sky blue, the phosphorus in your bones will help to turn the coastal waters of North Carolina green, the calcium in your teeth will crush your food between atoms that were mined by mushrooms, and the iron in your blood will kill microbes as it once killed a star.
You will also discover that much of what death must inevitably do to your body is already happening among many of your atoms at this very moment and that, nonetheless, you and everyone else you know will always exist somewhere in the fabric of the universe.
You are not only made of atoms; you are atoms, and this book, in essence, is an atomic field guide to yourself.
The Scientific American Day in the Life of Your Brain reveals what’s going on in there while you sleep and dream, how your brain makes memories and forms addictions and why we sometimes make bad decisions. The book also offers intriguing information about your emotional brain, and what’s happening when you’re feeling love, lust, fear and anxiety—and how sex, drugs and rock and roll tickle the same spots.
Based on the latest scientific information, the book explores your brain’s remarkable ability to change, how your brain can make new neurons even into old age and why multitasking may be bad for you.
Your brain is uniquely yours – but research is showing many of its day-to-day cycles are universal. This book gives you a look inside your brain and some insights into why you may feel and act as you do.
The Scientific American Day in the Life of Your Brain is written in the entertaining, informative and easy-to-understand style that fans of Scientific American and Scientific American Mind magazine have come to expect.
So we've all heard of genes, but how do they actually work?
There are 2.2 metres of DNA inside every one of your cells, encoding roughly 20,000 genes. These are the 'recipes' that tell our cells how to make the building blocks of life, along with myriad control switches ensuring they're turned on and off at the right time and in the right place. But rather than a static string of genetic code, this is a dynamic, writhing biological library. Figuring out how it all works – how your genes build your body – is a major challenge for researchers around the world. And what they're discovering is that far from genes being a fixed, deterministic blueprint, things are much more random and wobbly than anyone expected.
Drawing on stories ranging from six toed cats and stickleback hips to Mickey Mouse mice and zombie genes – told by researchers working at the cutting edge of genetics – Kat Arney explores the mysteries in our genomes with clarity, flair and wit, creating a companion reader to the book of life itself.
The book is divided into three sections covering optical principles in diffraction and image formation, basic modes of light microscopy, and components of modern electronic imaging systems and image processing operations. Each chapter introduces relevant theory, followed by descriptions of instrument alignment and image interpretation. This revision includes new chapters on live cell imaging, measurement of protein dynamics, deconvolution microscopy, and interference microscopy.
PowerPoint slides of the figures as well as other supplementary materials for instructors are available at a companion website:
Why Size Matters, a pioneering book of big ideas in a compact size, gives size its due by presenting a profound yet lucid overview of what we know about its role in the living world. Bonner argues that size really does matter--that it is the supreme and universal determinant of what any organism can be and do. For example, because tiny creatures are subject primarily to forces of cohesion and larger beasts to gravity, a fly can easily walk up a wall, something we humans cannot even begin to imagine doing.
Bonner introduces us to size through the giants and dwarfs of human, animal, and plant history and then explores questions including the physics of size as it affects biology, the evolution of size over geological time, and the role of size in the function and longevity of living things.
As this elegantly written book shows, size affects life in its every aspect. It is a universal frame from which nothing escapes.
With The Longevity Seekers, science writer Ted Anton takes readers inside this tale that began with worms and branched out to snare innovative minds from California to Crete, investments from big biotech, and endorsements from TV personalities like Oprah and Dr. Oz. Some of the research was remarkable, such as the discovery of an enzyme in humans that stops cells from aging. And some, like an oft-cited study touting the compound resveratrol, found in red wine—proved highly controversial, igniting a science war over truth, credit, and potential profit. As the pace of discovery accelerated, so too did powerful personal rivalries and public fascination, driven by the hope that a longer, healthier life was right around the corner. Anton has spent years interviewing and working with the scientists at the frontier of longevity science, and this book offers a behind-the-scenes look at the state-of-the-art research and the impact it might have on global public health, society, and even our friends and family.
With spectacular science and an unforgettable cast of characters, The Longevity Seekers has all the elements of a great story and sheds light on discoveriesthat could fundamentally reshape human life.
The aim of this book is to sort the fact from the fiction for the benefit of those involved in training, managing or working with horses, and to provide an up-to-date summary of the state of play in equine exercise physiology. Scientific theories are explained from first principles, with the assumption that the reader has no previous scientific background. The book is designed to save competitors and trainers a lot of time and effort trying to extract information in piecemeal fashion from a host of reference sources. For the first time, everything you need to know about exercising and training horses is here in one text.
PHILOSOPHERS, THEOLOGIANS, ARTISTS, AND BOY BANDS HAVE WAXED poetic for centuries about the nature of love. But what does the brain have to say about the way we carry our hearts? In the wake of a divorce, science writer and single mother Kayt Sukel made herself a guinea pig in the labs of some unusual love experts to find out. This Is Your Brain on Sex is her lively and hilarious examination of the big questions about love and sex, previously published in hardcover as Dirty Minds.
Each chapter of this edgy romp through the romantic brain looks at a different aspect of love above the belt. What in your brain makes you love someone—or simply lust after them? Why do good girls like bad boys? Is monogamy practical? How thin is that line between love and hate? After reading this gimlet-eyed look at love, sex, and the brain, you’ll never look at romance the same way again.
With The Long and the Short of It, biologist and writer Jonathan Silvertown offers readers a witty and fascinating tour through the scientific study of longevity and aging. Dividing his daunting subject by theme—death, life span, aging, heredity, evolution, and more—Silvertown draws on the latest scientific developments to paint a picture of what we know about how life span, senescence, and death vary within and across species. At every turn, he addresses fascinating questions that have far-reaching implications: What causes aging, and what determines the length of an individual life? What changes have caused the average human life span to increase so dramatically—fifteen minutes per hour—in the past two centuries? If evolution favors those who leave the most descendants, why haven’t we evolved to be immortal? The answers to these puzzles and more emerge from close examination of the whole natural history of life span and aging, from fruit flies, nematodes, redwoods, and much more. The Long and the Short of It pairs a perpetually fascinating topic with a wholly engaging writer, and the result is a supremely accessible book that will reward curious readers of all ages.
This second edition of the Handbook of Poisonous and Injurious Plants is created to assist the clinician in the initial response to the needs of a child or adult exposed to a poisonous or injurious plant. It lists common plants that might lead to the development of the symptom complex and describes the mechanisms of action of the implicated toxin, additional clinical manifestations, and specific therapeutics for each presentation. It has methodically enhanced the previous edition’s botanical rigor with insights from both pharmacognosy and clinical medicine to make it a truly comprehensive source.
With its thorough references and full-color photos of hundreds of potentially toxic and injurious plants inside the home, anyone who has an interest in plants will find this book useful outside in the garden or out in the wild.
This book will fascinate botanists, horticulturists, and naturalists as well as hikers, gardeners, and all those who simply enjoy the wonders of nature and the great outdoors!
With Foreword by Lewis R. Goldfrank, MD and Introduction by Andrew Weil, MD
Through his voyage of discovery, international bestselling author Brian Cox explains how the astonishing inventiveness of nature came about and uncovers the milestones in the epic journey from the origin of life to our own lives, with beautiful full-color illustrations throughout. From spectacular fountains of superheated water at the bottom of the Atlantic to the deepest rainforest, Cox seeks out the places where the biggest questions about life may be answered: What is life? Why do we need water? Why does life end?
Physicist and professor Brian Cox uncovers the secrets of life in the most unexpected locations and in the most stunning detail in this beautiful full-color volume.
*Strong emphasis on the relationship between engineering and product quality/safety
*Links theory and practice
*Considers topics in light of factors such as cost and environmental issues
Applied Hierarchical Modeling in Ecology: Distribution, Abundance, Species Richnessoffers a new synthesis of the state-of-the-art of hierarchical models for plant and animal distribution, abundance, and community characteristics such as species richness using data collected in metapopulation designs. These types of data are extremely widespread in ecology and its applications in such areas as biodiversity monitoring and fisheries and wildlife management.
This first volume explains static models/procedures in the context of hierarchical models that collectively represent a unified approach to ecological research, taking the reader from design, through data collection, and into analyses using a very powerful class of models. Applied Hierarchical Modeling in Ecology, Volume 1 serves as an indispensable manual for practicing field biologists, and as a graduate-level text for students in ecology, conservation biology, fisheries/wildlife management, and related fields.Provides a synthesis of important classes of models about distribution, abundance, and species richness while accommodating imperfect detectionPresents models and methods for identifying unmarked individuals and speciesWritten in a step-by-step approach accessible to non-statisticians and provides fully worked examples that serve as a template for readers' analysesIncludes companion website containing data sets, code, solutions to exercises, and further information
Rapid advances in DNA sequencing technology have led to a major change in the way that prokaryotes are classified. Sequence analysis of highly conserved regions of the bacterial genome, such as the small subunit rRNA gene, now provide us with a universal method of estimating the evolutionary relationships among all organisms. Such gene-based phylogenetic classifications have led to many new discoveries about prokaryotes that were not reflected in the classification used in the first edition of the Manual. We now know that the prokaryotes fall into two broad domains: the Archaea and the Bacteria. Whereas the Archaea were once thought of as the more primitive of the prokaryotic lineages, we now realize that they are more closely related to the eukaryotes than to the Bacteria by this measure. We have come to realize that many taxa based on shared phenotypic features may be quite distinct from one another based on phylogenetic evidence. The Chromatium, a genus of anoxygenic photosynthetic bacteria are more closely related to E. coli than to some other lineages of anoxygenic photosynthetic bacteria; Mycoplasma and other cell-wall deficient species are members of the Gram-positive clade; the medically important Chlamydia are aligned with the Planctomyces; and the Clostridium, which form a phenotypically coherent group, fall into more than a dozen phylogenetically disparate groups of Gram-positive bacteria. We have also come to realize that prokaryotes represent one of the major sources of biodiversity in nature and play a major role in the functioning of all ecosystems.
In addition to such fundamental revelations, the widespread application of new methods of classifying prokaryotes has led to an explosive growth in the number of validly published species and higher taxa. Since completion of the first edition of the Manual, the number of published species has more than tripled and has been accompanied by numerous taxonomic realignments that take into consideration newly published findings.
Phylogenetic classification is now broadly accepted as the preferred method of representing taxonomic relationships among prokaryotes and eukaryotes alike. While the evolutionary history of the prokaryotes is far from complete, there is already sufficient data to provide a reasonable view of the major lines of descent of the cultivable species. Although the second edition of the Manual retains it’s unique and highly structured style of presentation of information along genus and species lines, the arrangement of content is along the phylogenetic lines of the small subunit rRNA gene, so that the reader is presented with the information in a more natural, biological perspective. The second edition of the Manual also contains more in-depth ecological information about individual taxa and many new introductory essays.
In the preface to the first edition of Bergey’s Manual of Determinative Bacteriology, published in 1923, one of the stated goals of that work was to "stimulate efforts to perfect the classification of bacteria..." The editors of the first edition regarded the Manual as "a progress report leading to a more satisfactory classification in the future" rather than a definitive classification. Bergey’s Manual Trust continues in this tradition and recognizes that, for the Manual to remain scientifically meaningful and useful to the scientific community, it is time for the new edition.
Overview of the second edition of the Manual
As before, the Manual is subdivided into multiple volumes and each genus occurs as a separate chapter with introductory text provided at higher taxonomic levels. The second edition differs from the first in that clinically relevant species are not grouped together into two volumes. Rather, these taxa appear in their proper phylogenetic place. The text is arranged to follow the lineages defined by the large-scale phylogenetic trees maintained by the Ribosomal Database Project and the ARB Project to which a formalized, hierarchical taxonomy and nomenclature have been applied. As volume 2 goes to press, the taxonomy encompasses 6466 species that are assigned to 26 phyla, 41 classes, 88 orders, 240 families and 1194 genera. Each volume contains a collection of introductory essays on the history and use of the Manual; a detailed discussion of the prokaryotic domains; overviews of the classification, identification, and naming of prokaryotes; prokaryotic ecology and phylogeny; the role of culture collections in microbiology; and intellectual property of prokaryotes. Each volume also includes taxon specific essays and a detailed road map that presents the reader with a broad view of how the entire edition will be arranged, a mapping of phylogenetic groups to the phenotypic groups used in the first edition (Volume 1), or an update of newly published taxa and combinations appearing in print since the preceding volume (Volumes 2-5). The details of each volume in print (Volume 1), in press (Volume 2) or in preparation (Volumes 3-5) follow.
Volume 1 "The Archaea and the Deeply Branching and Phototrophic Bacteria" (2001) David R. Boone and Richard W. Castenholz (Volume Editors), George M. Garrity (Editor-in-Chief) with contributions from 105 colleagues. 742 pages with 320 figures and 95 tables. The volume provides descriptions of 413 species in 165 genera that are assigned to the phyla Crenarchaeota, Euryarchaeota, Aquificae, Thermatogae, Thermodesulfobacteria, "Deinococcus-Thermus", Chrysiogenetes, Chloroflexi, Thermomicrobia, Nitrospira, Deferribacteres, Cyanobacteria, and Chlorobi. In addition, the volume contains an introductory chapter to nonoxygenic, phototropic species of Bacteria belonging to the Proteobacteria and Firmicutes, which will be repeated in more detail in subsequent volumes.
Volume 2 "The Proteobacteria." (2004) Don J. Brenner, Noel R. Krieg, James T. Staley (Volume Editors), and George M. Garrity (Editor-in-Chief) with contributions from 339 colleagues. The volume provides descriptions of more than 2000 species in 538 genera that are assigned to the phylum Proteobacteria. This volume is subdivided into three parts. Part A, The Introductory Essays (332 pgs, 76 figures, 37 tables); Part B, The Gammaproteobacteria (1203 pages, 222 figures, and 300 tables); and Part C The Alpha-, Beta-, Delta-, and Epsilonproteobacteria (1256 pages, 512 figures, and 371 tables).
Volume 3 "The Firmicutes". (2005 anticipated). Paul De Vos, Dorothy Jones, Fred A. Rainey, Karl-Heinz Schleifer, Joseph Tully, (Volume Editors) and George M. Garrity (Editor-in-Chief), with contributions from 120 colleagues. This volume will provide descriptions of more than 1346 species in 235 genera belonging to the phylum Firmicutes. Anticipated length 2100 pages.
Volume 4 "The Actinobacteria". (2006 anticipated) 1141 species in 106 genera. Estimated page length: 878 with 192 tables and 321 figures. Michael Goodfellow, Peter Kaempfer, Peter H.A. Sneath, Stanley T. Williams (Volume Editors) and George M. Garrity (Editor-in-Chief) with contributions from 60 colleagues. This volume will provide descriptions of over 1534 species in 174 genera belonging to the phylum Firmicutes. Anticipated length 2454 pages.
Volume 5 "The Planctomycetes, Chlamydiae, Spirochetes, Fibrobacters, Bacteroidetes, Fusobacteria, Acidobacteria, Verrucomicrobia, Dictyoglomi, and Gemmatomonadetes " more than 405 species assigned to 114 genera in 10 phyla. Anticipated length: 648 pages Editors and authors under discussion.
The coverage of the text includes the relationship of culture to various health related concepts, such as pain, pharmacology, stress, and epidemiology. The book also discusses the doctor-patient relation, the various sectors of health care, and the scope of medical anthropology.
The text will be of great use to professionals in health related fields. Researchers and practitioners of anthropology, sociology, and psychology will also benefit from this book.
Describing the structure and function of the various body systems and clearly explaining the scientific rationale behind modern horse husbandry practices, this book has been written specifically for students on National and Higher Diploma courses and equine studies degree programmes, Advanced National Certificate and BHS Stage IV.
The second edition has been revised to reflect the changes in the student curriculum, and the book includes two new chapters on the cell and genetics.
Sarah Pilliner is an equine consultant specialising in horse care. She is also an experienced lecturer, competition rider and senior examiner, and the author of several books.
Zoe Davies is a former lecturer in equine science, a consultant equine nutritionist, author and external examiner for higher education courses. She has substantial experience in equine management and training.
Ben A. Minteer and Stephen J. Pyne bring together a stunning consortium of voices comprised of renowned scientists, historians, philosophers, environmental writers, activists, policy makers, and land managers to negotiate the incredible challenges that environmentalism faces. Some call for a new, post-preservationist model, one that is far more pragmatic, interventionist, and human-centered. Others push forcefully back, arguing for a more chastened and restrained vision of human action on the earth. Some try to establish a middle ground, while others ruminate more deeply on the meaning and value of wilderness. Some write on species lost, others on species saved, and yet others discuss the enduring practical challenges of managing our land, water, and air.
From spirited optimism to careful prudence to critical skepticism, the resulting range of approaches offers an inspiring contribution to the landscape of modern environmentalism, one driven by serious, sustained engagements with the critical problems we must solve if we—and the wild garden we may now keep—are going to survive the era we have ushered in.
Contributors include: Chelsea K. Batavia, F. Stuart (Terry) Chapin III, Norman L. Christensen, Jamie Rappaport Clark, William Wallace Covington, Erle C. Ellis, Mark Fiege, Dave Foreman, Harry W. Greene, Emma Marris, Michelle Marvier, Bill McKibben, J. R. McNeill, Curt Meine, Ben A. Minteer, Michael Paul Nelson, Bryan Norton, Stephen J. Pyne, Andrew C. Revkin, Holmes Rolston III, Amy Seidl, Jack Ward Thomas, Diane J. Vosick, John A. Vucetich, Hazel Wong, and Donald Worster.
This book is written in the same engaging conversational style as the published reference book The Immune Response: Basic and Clinical Principles and conveys the same fascinating appeal of immunology. The authors bring clarity, readability and continuity of voice to an audience that requires only a brief survey of the most fundamental concepts in basic and clinical immunology. Primer to The Immune Response is beautifully illustrated with over 200 superb figures and 36 full-color plates, and further enhanced by the inclusion of 60 tables and 6 Appendices. Included with purchase of the book is website access to a captivating “Immunomovie" that truly brings the immune response to pathogens to life. This new and unique immunology textbook compactly but elegantly covers both basic and clinical principles.Over 200 elegant 2-4 color illustrations36 full-color plates of basic and clinical items of interestTake-home message and “Did You Get It? self-test quiz at the end of each chapter6 Appendices that provide topic enrichment60-minute "Immunomovie" illustrating the immune response to bacterial, viral and parasitic infections
This book received the Award of Excellence in an Illustrated Medical Book from the Association of Medical Illustrators. It is organized by individual organism to facilitate classroom presentation.
This illustrated, full-color primary dissection manual is ideal for use by students or practitioners working with vertebrate anatomy. This book is also recommended for researchers in vertebrate and functional morphology and comparative anatomy. The result of this exceptional work offers the most comprehensive treatment than has ever before been available.* Received the Award of Excellence in an Illustrated Medical Book from the Association of Medical Illustrators
* Expertly rendered award-winning illustrations accompany the detailed, clear dissection direction
* Organized by individual organism to facilitate classroom presentation
* Offers coverage of a wide range of vertebrates
* Full-color, strong pedagogical aids in a convenient lay-flat presentation
Her work is both timeless and timely, and spans disciplines, continents, and millennia. It is underscored by an innate environmentalism and driven by Sussman’s relentless curiosity. She begins at “year zero,” and looks back from there, photographing the past in the present. These ancient individuals live on every continent and range from Greenlandic lichens that grow only one centimeter a century, to unique desert shrubs in Africa and South America, a predatory fungus in Oregon, Caribbean brain coral, to an 80,000-year-old colony of aspen in Utah. Sussman journeyed to Antarctica to photograph 5,500-year-old moss; Australia for stromatolites, primeval organisms tied to the oxygenation of the planet and the beginnings of life on Earth; and to Tasmania to capture a 43,600-year-old self-propagating shrub that’s the last individual of its kind. Her portraits reveal the living history of our planet—and what we stand to lose in the future. These ancient survivors have weathered millennia in some of the world’s most extreme environments, yet climate change and human encroachment have put many of them in danger. Two of her subjects have already met with untimely deaths by human hands.
Alongside the photographs, Sussman relays fascinating – and sometimes harrowing – tales of her global adventures tracking down her subjects and shares insights from the scientists who research them. The oldest living things in the world are a record and celebration of the past, a call to action in the present, and a barometer of our future.
What is shared by spawning Pacific salmon, towering trees, and suicidal bacteria? In his lucid and concise exploration of how and why things die, Tyler Volk explains the intriguing ways creatures-including ourselves-use death to actually enhance life. Death is not simply the end of the living, though even in that aspect the Grim Reaper has long been essential to natural selection. Indeed, the exquisite schemes and styles of death that have emerged from evolution have been essential to the great story from life's beginnings in tiny bacteria nearly four thousand million years ago to ancient human rituals surrounding death and continuing to the existential concerns of human culture and consciousness today. Volk weaves together autobiography, biology, Earth history, and results of fascinating studies that show how thoughts of our own mortality affect our everyday lives, to prove how an understanding of what some have called the ultimate taboo can enrich the celebration of life.
. . . and SEX
In Sex, Dorion Sagan takes a delightful, irreverent, and informative romp through the science, philosophy, and literature of humanity's most obsessive subject. Have you ever wondered what the anatomy and promiscuous behaviors of chimpanzees and the sexual bullying of gorillas tell us about ourselves? Why we lost our hair? What amoebas have to do with desire? Linking evolutionary biology to salacious readings of the lives and thoughts of such notables as the Marquis de Sade and Simone de Beauvoir, and discussing works as varied as The Story of O and Silence of the Lambs, Sex touches on a potpourri of interrelated topics ranging from animal genitalia to sperm competition, the difference between nakedness and nudity, jealousy's status as an aphrodisiac and the origins of language, Casanova and music, ovulation and clothes, mother-in-law jokes and alpha females, love and loneliness. A brief, wonderfully entertaining, highly literate foray into the origins and evolution of sex.
Two books in one cover, Death & Sex unravel and answer some of life's most fundamental questions.
Oncologists, cancer researchers, and nutritionists are separated by divergent skills and professional disciplines that need to be bridged in order to advance preventative as well as treatment strategies. While oncologists and cancer researchers may study the underlying pathogenesis of cancer, they are less likely to be conversant in the science of nutrition and dietetics. On the other hand, nutritionists and dietitians are less conversant with the detailed clinical background and science of oncology. This book addresses this gap and brings each of these disciplines to bear on the processes inherent in the oxidative stress of cancer.Nutritionists can apply information related to mitochondrial oxidative stress in one disease to diet-related strategies in another unrelated disease Dietitians can prescribe new foods or diets containing anti-oxidants for conditions resistant to conventional pharmacological treatments Dietitians, after learning about the basic biology of oxidative stress, will be able to suggest new treatments to their multidisciplinary teamsNutritionists and dietitians will gain an understanding of cell signaling, and be able to suggest new preventative or therapeutic strategies with anti-oxidant rich foods
Importantly, the slides are editable, so they can be readily adapted to a lecturer’s personal style and course content needs. The lectures are based on excerpts from 12 of the first 13 chapters of DSBMS. They are designed to highlight the key course material, as a study guide and structure for students following the full text content.
The complete PowerPoint slide package (~25 MB) can be obtained by instructors (or prospective instructors) by emailing the author directly, at: email@example.com
Visit www.wiley.com/go/rees/zoo to access the artwork from the book.
Following extensive introductory chapters covering forensic DNA profiling and forensic genetics, this comprehensive volume presents a substantial breadth of material covering:Fundamental material – including sources of DNA, validation, and accreditation Analysis and interpretation – including, extraction, quantification, amplification and interpretation of electropherograms (epgs) Evaluation – including mixtures, low template, and transfer Applications – databases, paternity and kinship, mitochondrial-DNA, wildlife DNA, single-nucleotide polymorphism, phenotyping and familial searching Court - report writing, discovery, cross examination, and current controversies
With contributions from leading experts across the whole gamut of forensic science, this volume is intended to be authoritative but not authoritarian, informative but comprehensible, and comprehensive but concise. It will prove to be a valuable addition, and useful resource, for scientists, lawyers, teachers, criminologists, and judges.