Insect Ecology: An Ecosystem Approach, Fifth Edition provides the most updated and comprehensive knowledge of the diversity of insect responses to environmental changes and their effects on ecosystem properties and services. Written by an expert in the field, this book addresses ways in which insect morphology, physiology and behavior tailor their adaptation to particular environmental conditions, how those adaptations affect their responses to environmental changes, and how their responses affect ecosystem properties and the ecosystem services on which humans depend for survival. This edition also addresses recent reports of global declines in insect abundance and how these declines could affect human interests. Insect Ecology: An Ecosystem Approach, Fifth Edition is an important resource for researchers, entomologists, ecologists, pest managers and conservationists who want to understand insect ecology and to manage insects in ways that sustain the delivery of ecosystem services. Graduate and advanced undergraduate students may also find this as a useful resource for entomology and specifically insect ecology courses. The only insect ecology text that emphasizes insect effects on ecosystem properties and services, as well as evolutionary adaptations to environmental conditions Includes new material on long-term trends in insect abundance, addressing the so-called “insect apocalypse Offers crucial updates on mechanisms by which insects affect, and potentially regulate, ecosystem structure and function Applies ecological principles to improved management of insects for the sustainable delivery of ecosystem services
Written by recognized experts in the study of proteins, Proteomics for Biological Discovery begins by discussing the emergence of proteomics from genome sequencing projects and a summary of potential answers to be gained from proteome-level research. The tools of proteomics, from conventional to novel techniques, are then dealt with in terms of underlying concepts, limitations and future directions. An invaluable source of information, this title also provides a thorough overview of the current developments in post-translational modification studies, structural proteomics, biochemical proteomics, microfabrication, applied proteomics, and bioinformatics relevant to proteomics. Presents a comprehensive and coherent review of the major issues faced in terms of technology development, bioinformatics, strategic approaches, and applications Chapters offer a rigorous overview with summary of limitations, emerging approaches, questions, and realistic future industry and basic science applications Discusses higher level integrative aspects, including technical challenges and applications for drug discovery Accessible to the novice while providing experienced investigators essential information Proteomics for Biological Discovery is an essential resource for students, postdoctoral fellows, and researchers across all fields of biomedical research, including biochemistry, protein chemistry, molecular genetics, cell/developmental biology, and bioinformatics.
A question that sometimes drives me hazy: am I-or are the others crazy?" -Albert Einstein For more than half his life, author Tim Nuske thought he was crazy. During a certain ten-year period and beyond, he could have fulfilled the diagnostic criteria for at least half of the close to 400 mental disorders described in psychiatry's billing bible, the DSM. Building on these experiences, Nuske presents a thought-provoking theory of the mind and how it relates to mental illness, a widespread social concern affecting countless millions. But are such experiences a real biological illness or brain disease? Are they caused by a chemical imbalance or genetic defect? And what does the mind have to do with a mental illness/disorder/disease? Following a life changing experience and spiritual awakening Tim entered university to study psychology, intent on gaining a better understanding of his own madness and the mind, and to help others with what he had learned. The Map of the Psyche: The Truth of Mental Illness is the result of four years of research and over a decade of personal experience with mental illness. He had to be mental to map the mind. Psychologists and philosophers have been trying to understand the mind for hundreds of years: Tim mapped it in under three (plus a lifetime of prior experience). Offering an alternative to psychiatric labelling and drugging, he shares what he considers to be a more accurate and effective approach to mental health care. The truth is in the psyche. The truth is found within.
Newly streamlined and focused on quick-access, easy-to-digest content, Mulholland and Greenfield’s Surgery: Scientific Principles & Practice, 7th Edition, remains an invaluable resource for today’s residents and practicing surgeons. This gold standard text balances scientific advances with clinical practice, reflecting rapid changes, new technologies, and innovative techniques in today’s surgical care. New lead editor Dr. Justin Dimick and a team of expert editors and contributing authors bring a fresh perspective and vision to this classic reference.
A chemocentric view of the molecular structures of antibiotics, their origins, actions, and major categories of resistance Antibiotics: Challenges, Mechanisms, Opportunities focuses on antibiotics as small organic molecules, from both natural and synthetic sources. Understanding the chemical scaffold and functional group structures of the major classes of clinically useful antibiotics is critical to understanding how antibiotics interact selectively with bacterial targets. This textbook details how classes of antibiotics interact with five known robust bacterial targets: cell wall assembly and maintenance, membrane integrity, protein synthesis, DNA and RNA information transfer, and the folate pathway to deoxythymidylate. It also addresses the universe of bacterial resistance, from the concept of the resistome to the three major mechanisms of resistance: antibiotic destruction, antibiotic active efflux, and alteration of antibiotic targets. Antibiotics also covers the biosynthetic machinery for the major classes of natural product antibiotics. Authors Christopher Walsh and Timothy Wencewicz provide compelling answers to these questions: What are antibiotics? Where do antibiotics come from? How do antibiotics work? Why do antibiotics stop working? How should our limited inventory of effective antibiotics be addressed? Antibiotics is a textbook for graduate courses in chemical biology, pharmacology, medicinal chemistry, and microbiology and biochemistry courses. It is also a valuable reference for microbiologists, biological and natural product chemists, pharmacologists, and research and development scientists.
For nearly 40 years, Rosen’s Emergency Medicine has provided emergency physicians, residents, physician assistants, and other emergency medicine practitioners with authoritative, accessible, and comprehensive information in this rapidly evolving field. The fully revised 10th Edition delivers practical, evidence-based knowledge and specific recommendations from clinical experts in a clear, precise format, with focused writing, current references, and extensive use of illustrations to provide definitive guidance for emergency conditions. With coverage ranging from airway management and critical care through diagnosis and treatment of virtually every emergency condition, from highly complex to simple and common, this award-winning, two-volume reference remains your #1 choice for reliable, up-to-date information across the entire spectrum of emergency medicine practice. Please note the following important change for printed copies of Rosen’s Emergency Medicine, 10e. On page 1029, in table 74.3, the dosage for Rivaroxaban should be 15mg by mouth. You may contact Elsevier Customer Service to request a sticker (Part no. 9996133834) to make the correction in your printed copy. Corrections have been made to the eBook versions of this title. Offers the most immediately clinically relevant content of any emergency medicine resource, providing diagnostic and treatment recommendations and workflows with clear indications and preferred actions. Contains eight entirely new chapters covering coronaviruses/COVID-19, the morbidly obese patient, human trafficking, sexual minority (LGBTQ) patients, social determinants of health, community violence, and humanitarian aid in war and crisis. Features over 1,700 figures, including more than 350 new anatomy drawings, graphs and charts, algorithms, and photos. Includes new information across the spectrum of emergency care, such as adult and pediatric airway management, shock, pandemic disease, emergency toxicology, sepsis syndrome, resuscitation, medical emergencies of pregnancy, the immunocompromised patient, child abuse, pediatric sedation, pediatric trauma, and more. Features revised and refined chapter templates that enhance navigation, making it easy to find key information quickly. Provides access to more than 1,200 questions and answers online to aid in exam preparation, as well as two dozen new video clips showing how to best perform critical emergency procedures in real time. Reviewed and verified cover-to-cover by a team of expert clinical pharmacists to ensure accuracy and completeness of all drug information and treatment recommendations.
Helps researchers in proteomics and oncology work together to understand, prevent, and cure cancer Proteomic data is increasingly important to understanding the origin and progression of cancer; however, most oncologic researchers who depend on proteomics for their studies do not collect the data themselves. As a result, there is a knowledge gap between scientists, who devise proteomic techniques and collect the data, and the oncologic researchers, who are expected to interpret and apply proteomic data. Bridging the gap between proteomics and oncology research, this book explains how proteomic technology can be used to address some of the most important questions in cancer research. Proteomic Applications in Cancer Detection and Discovery enables readers to understand how proteomic data is acquired and analyzed and how it is interpreted. Author Timothy Veenstra has filled the book with examples many based on his own firsthand research experience that clearly demonstrate the application of proteomic technology in oncology research, including the discovery of novel biomarkers for different types of cancers. The book begins with a brief introduction to systems biology, explaining why cancer is a systems biology disease. Next, it covers such topics as: Mass spectrometry in cancer research Application of proteomics to global phosphorylation analysis Search for biomarkers in biofluids Rise and fall of proteomic patterns for cancer diagnostics Emergence of protein arrays Role of proteomics in personalized medicine The final chapter is dedicated to the future prospects of proteomics in cancer research. By guiding readers through the latest proteomic technologies and their applications in cancer research, Proteomic Applications in Cancer Detection and Discovery enhances the ability of researchers in proteomics and researchers in oncology to collaborate in order to better understand cancer and develop strategies to prevent and treat it.
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