Evolutionary theory is all the rage, but how accurate is the information we are being fed? Jim Alexander casts a critical eye over the new popular concensus, addressing important issues in one of the key debates in modern society.

Viruses and Climate Change, Volume 114 in the Advances in Virus Research series, highlights new advances in the field, with this new volume presenting interesting chapters on carbon-cycle and vector-borne viruses. Chapters in this release cover Viruses in the carbon cycle and the impacts on climate change and Climate change and mosquito-borne virus transmission.

How are we to understand the actor's work as a fully embodied process? 'Embodied cognition' is a branch of contemporary philosophy which attempts to frame human understanding as a fully embodied interaction with the environment. Engaging with ideas of contemporary significance from neuroscience, psychology, linguistics, and philosophy, Why Do Actors Train? challenges outmoded mind/body dualistic notions that permeate common conceptions of how actors work. Theories of embodiment are drawn up to shed important light on the ways and reasons actors do what they do. Through detailed, step-by-step analyses of specific actor-training exercises, the author examines the tools that actors use to perform roles. This book provides theatre practitioners with a new lens to re-examine their craft, offering a framework to understand the art form as one that is fundamentally grounded in embodied experience.

Advances in Applied Microbiology, Volume 121 continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas relating to the topics of microbiology.

Human Microbiome in Health and Disease, Volume 192, Part B includes chapters surrounding the role of human microbiome in different diseases. Chapters in this comprehensive new volume include The microbiome and communicable diseases, Gut Microbiome and Antimicrobial Resistance in bacterial pathogens, Dysbiosis of human microbiome and infectious disease, Gastrointestinal microbiome in the context of infection in stomach and gastroduodenal diseases, Respiratory tract microbiome and pneumonia, Gut microbiome and neonatal sepsis, Diarrheal disease and gut microbiome, The microbiome and non-communicable diseases, Gut microbiome and inflammatory bowel disease, Gut microbiome and undernutrition, Human microbiome and cardiovascular disease, and much more.

BENEFICIAL CHEMICAL ELEMENTS OF PLANTS Understand beneficial elements and their role in the future of botany and agriculture Beneficial elements are those which, while not essential to plant life, can provide stimulation and enhance plant growth. Properly harnessed, these elements can bolster plant growth in the face of environmental conditions—including drought, nutrient deficiency, and excessive soil salinity—and biotic stresses like pathogens and animal activity. As climate change and population growth pose increasingly serious challenges to agriculture and essential plant production, it has never been more important to unleash the potential of beneficial elements. Beneficial Chemical Elements of Plants is an essential resource for researchers and industry specialists looking to enhance their understanding of these elements and the range and variety of their enhancements to plant growth. Written by leading scholars in the field of plant stress tolerance and nutrient enrichment, it discusses not only the rich possibilities of beneficial elements but their mechanisms of action at both biochemical and molecular levels. It details the precise potential roles played by each major beneficial element and surveys a range of elemental responses to specific environmental conditions and plant stresses. Beneficial Chemical Elements of Plants readers will also find: Chapters covering beneficial elements including aluminum, cobalt, sodium, selenium, and silicon Discussion of application methods and typical plant responses Treatment of beneficial elements in a wider environmental context Beneficial element applications to the field of sustainable agriculture Beneficial Chemical Elements of Plants is a fundamental starting point for researchers and students in the fields of plant physiology, crop science, agriculture, and botany, as well as for professionals in the biotechnology and agricultural industries.

Faced with climate changes, pest pressure on plants is increasing and new pest complexes are appearing, for which plant protection solutions are not yet available. The reduction of anthropic pressure on agroecosystems requires a reduction in the use of chemical inputs and the promotion of biocontrol approaches. In this book, we present new advances on plant disease management that are emerging from research outputs. The ability of biocontrol products to directly (e.g. production of antimicrobial peptides or quorum quenching activities by microorganisms, use of plant or agro-industrial by-products as biopesticides, etc.) or indirectly (e.g. via the increase of plant defense or plant growth pathways) protect plants against pathogens and pests is also considered. We also address new strategies like the development of phage-based biocontrol products and those that consider the plant as a holobiont and plant microbiota as targets of biocontrol treatments. The important question of the current regulatory process needed to launch plant production products on the market is also addressed, such as methods to evaluate their environmental impact.

Nutrition and Cancer, Volume 373 presents a collection of chapters that describe the effect of different metabolic situations, their contribution to metabolic modulation, and their impact on tumor growth. Specific chapters in this release include Impact of obesity on cancer progression and treatment, Impact of dietary protein on cancer progression and treatment, Fasting mimicking diet and cancer therapy, Fasting and cancer responses to chemotherapy, Dietary polyamines and cancer, Ketogenic diets and cancer therapy, and Nutritional and metabolic approaches to target OXPHOS and glycolysis in cancer cells.

The Fourth Edition of The Neuron provides a comprehensive first course in the cell and molecular biology of nerve cells. The book begins with properties of the many newly discovered ion channels that have emerged through mapping of the genome. These channels shape the way a single neuron generates varied patterns of electrical activity. Covered next are the molecular mechanisms that convert electrical activity into the secretion of neurotransmitter hormones at synaptic junctions between neurons. The following section examines the biochemical pathways that are linked to the action of neurotransmitters and that can alter the cellular properties of neurons or sensory cells that transduce information from the outside world into the electrical code used by neurons. The final section reviews our rapidly expanding knowledge of the molecular factors that induce an undifferentiated cell to become a neuron, and then guide it to form appropriate synaptic connections with its partners. This section also focuses on the role of ongoing experience and activity in shaping these connections, and finishes with an account of mechanisms thought to underlie the phenomena of learning and memory. The book contains scores of color figures and fully updated chapters; online content packaged exclusively with the Fourth Edition includes detailed animations of neural processes, in-depth supplemental reading, and additional full-color figures and tables.

Addition, Elimination and Substitution: Markovnikov, Hofmann, Zaitsev and Walden: Discovery and Development discusses foundational reactions in organic chemistry and their major protagonists, contributions to synthesis, and history. Hofmann, Zaitsev, and Markovnikov are introduced, along with their major discoveries and contributions to organic chemistry. The history of controversies around Markovnikov's Rule are addressed. The book introduces Walden's original demonstration of configuration inversion, then discusses bimolecular elimination reactions, regioselective addition reactions, regiospecific alkene synthesis, and the development of modern reactions with configuration inversion. With its unique perspective, focus, and comprehensive coverage, this book belongs on the shelf of every organic chemist.

Wastewaters generated from food production and agricultural activities are a source of environmental pollution due to their huge amount of nutrients, organic carbon, nitrogenous organics, inorganics, suspended and dissolved solids, and high biochemical and chemical oxygen demands. Advanced Technologies in Wastewater Treatment: Food Processing Industry provides an update on emerging technologies including oxidative and anaerobic processes (flotation, coagulation, sedimentation, filtration, adsorption, primary settling, secondary activated sludge, anaerobic digestion), ion exchange, membrane-based operations, adsorption/bio-sorption and advanced biological treatment to provide safe and clean water as well as to recover primary resources from food processing wastewaters. In addition, the integration of these technologies will be also considered in the logic of the process intensification strategy. Innovative and affordable solutions are proposed in the field of fruit and vegetable processing industry, fishing industry, meat and poultry industry, dairy production, oil and fat processing.

Role of TRPV4 Channels in Different Organ Systems, Volume 89, the latest release in the Current Topics in Membranes series, provides an in-depth description of the role of TRPV4 ion channels in different organ systems under healthy and disease conditions. Research over the last two decades shows crucial physiological and pathological roles for TRPV4 channels. In this volume, we present chapters focusing on TRPV4 channels in the vasculature, lungs, heart, kidney, bladder, skin, musculoskeletal system, eye, and immune cells. Understanding the behavior of TRPV4 channels in various organ systems will provide a big picture on their physiological roles and therapeutic targeting.

Fifty Years of Peeling Away the Lead Paint Problem: Saving Our Children's Future with Healthy Housing documents the history of childhood lead poisoning from paint between 1970 and 2022. Tracing the failure of the medical model (treatment after exposure) that marked the 1970s and 1980s and its replacement with a prevention housing-focused effort, the book documents the changes in health, housing and environmental science and policy. It is the first book to examine how the lead poisoning law in the U.S. was passed in 1992 and later implemented, with implications for the future, in particular, the emergence of a healthy housing movement. The book describes the roles played by Congress, various administrations, agencies, local governments, the private sector, researchers, and a popular citizen's movement, especially parents. The role of the courts is discussed, including a controversial lead paint case on research ethics in Baltimore through an environmental justice lens. This book is the first to examine another recent case in California, where ten local jurisdictions established a precedent by successfully suing the lead paint industry to help pay for abatement.

The Plant Hormone Ethylene: Stress Acclimation and Agricultural Applications presents current knowledge on our understanding of ethylene perception and signaling, its role in the regulation of plant physiological processes, and its contribution to acclimation in stressful environments. Plants regularly face environmental constraints due to their immobile nature. In persistently changing environmental conditions, several stress factors influence cellular metabolism, ultimately causing reduced plant growth and development with a significant loss in agricultural productivity. Sustainable agriculture depends on the acclimation of plant processes to the changing environment through altered physiological and molecular responses, which are controlled by plant hormones, including ethylene. Ethylene interacts with other plant hormones and signaling molecules to regulate several cellular processes, plant growth and development, and, ultimately, crop productivity. This book begins with an introduction to ethylene before providing a detailed study of the latest findings on the role of ethylene in plants, including its role in photosynthetic processes, flower development, leaf senescence, nutrients acquisition, and regulation of abiotic stress responses as well as its application in agriculture. The book is an ideal guide for researchers exploring plant physiology and biochemistry as well as for those investigating the use of ethylene knowledge in agriculture in persistently changing environmental conditions.

Advances in Genetics, Volume 109 in this ongoing series, highlights new advances in the field, with this new volume presenting interesting chapters written by an international board of authors. Chapters in this new release include Epigenetic regulation of angiogenesis in tumor progression, RecBCD and Chi hotspots as determinants of self vs. non-self: A re-evaluation, Horizontal gene transfer to plants from Agrobacterium and related bacterial species, and more.

Collective Memory, Volume 274 in the Progress in Brain Research series, highlights new advances in the field, with this new volume presenting interesting chapters on a variety of interesting topics, including Deriving testable hypotheses through an analogy between individual and collective memory and updated information on Collective future thinking: Current research and future directions.

Advances in Microbial Physiology, Volume 81 highlights new advances in the field with this new release presenting interesting chapters written by an international board of authors. Updates in this release include sections on Antibiotic tolerance, Lanthanides in bacterial proteins, Bacterial toxins and host-microbe interactions, and Nitric oxide.

Neurotoxicity of Drugs of Abuse, Volume Eight provides carefully crafted reviews on the disruptive impact of drugs of abuse on the central nervous system. The neurotoxicity potential of several agents including marijuana, fentanyl, and ketamine are carefully reviewed, and their short-term and chronic effects are categorized. Pharmacokinetic profiles as well as mechanisms of action for these and other drugs of abuse such as alcohol and nicotine are also evaluated. The implications of short and long-term abuse for agents such as PCP are also characterized. The reader will come away with a fuller understanding of the adverse effects of drugs of abuse on the nervous system.