Nanobiotechnology for the Livestock Industry: Animal Health and Nutrition delivers a multidisciplinary reference of nanobiotechnology applications in various sectors, including farming practices, healthcare and breeding practices, market and economic analysis/benefits, biosafety, regulation, and more. The book explores nanobiotechnology's role in livestock handling, including hygiene maintenance and feed/nutrient delivery. The book also examines nanobiotechnology's role in maintaining nutrient quality in food products, and covers healthcare practices utilizing nanobiotechnology, such as maintaining and monitoring livestock health, diagnosis and treatment of disease, monitoring drug delivery, optimizing breeding patterns, and cryopreservation of sperm and eggs.

Next-Generation Antimicrobial Nanocoatings for Medical Devices and Implants provides a detailed, up-to-date overview of nano-based antimicrobial coatings used to combat medical device-related biofilms. An introduction to biofilms and how they infect medical devices is included, as well as strategies/modification techniques used to target these biofilms. This book evaluates the various antimicrobial coatings formed using nanomaterials such as silver, inorganic materials, organic materials, carbon dots, surfactants, and electrospun fibers, specifically for us on medical devices and implants. Numerous coating methods are discussed along with the biological characterizations of these coating materials, and their toxicological and environmental impact.Next-generation Antimicrobial Nanocoatings for Medical Devices and Implants is a useful reference for materials scientists, biomedical engineers, and those working on the development of novel biomaterials for use in medical devices and implants.

Nanobiotechnology for Bioremediation: Fundamentals and Mechanisms provides detailed information on nanomaterial applications for the bioremediation of a heavily contaminated environment. Relevant information is provided on the application of nanofibers, nanoscale zero-valent iron (nZVI), nanocomposites, carbon nanotubes for rejuvenation of a heavy environment from different pollutants, such as heavy metals, chlorinated compounds, organic compounds, polyaromatic hydrocarbon, and hydrocarbons. The book also explores the application of nanomaterials as a sustainable green solution that help prevent various high levels of contamination in the environment. Each chapter addresses the application of nanomaterials as a sustainable tool for managing innumerable environmental challenges. This helps readers translate their research findings into sustainable innovations to resolve their immediate environmental challenges.

Nanotechnological Aspects for Next-generation Wound Management provides detailed, up-to-date literature on nanotechnology's role in wound management and its applications using nanoparticles, nanocomposites, carbon-based nanostructures and nanomaterials. Scaffolds, three-dimensional approaches, skin tissue engineering, and polymer-based films are discussed to treat wounds. This one-of-a-kind reference is ideal for health practitioners, clinicians and researchers who will find the book to be excellent reference material for updates on recent trends in nanotechnology for wound management.

Nanotechnology for Drug Delivery and Pharmaceutical Sciences presents various drug-delivery techniques that utilize nanotechnology for the biomedical domain, highlighting both therapeutic and diagnostic applications. The book provides important facts and detailed studies on different promising nanocarriers like liposomes, exosomes and virus-based nanocarriers. Moreover, it explores these nanocarriers' utilization in the therapeutic applications of various diseases such as cancer, inflammation, neurodegenerative disorders like Huntington's disease, Alzheimer's disease, human immunodeficiency virus (HIV), and inflammatory bowel disease. In addition, the book describes how nanotechnology has efficiently overtaken conventional dosage forms and provided comfort and ease to patients. Relevant information regarding market trends, patents and social-economic factors are also provided, making this the perfect reference for doctors, researchers and scientists working in the fields of medicine, biochemistry, biotechnology, nanobiotechnology and the pharmaceutical sciences.

This book focuses on interdisciplinary issues of human health in the changing urban environments of India's largest megacities-Delhi and Mumbai. The authors explore human health concerns related to increased temperatures and air pollution in these cities in a study based on primary data collected through interviews, as well as secondary data on causes of mortality from 2001 to 2012. During this period, the surface temperatures for both megacities were mapped using Landsat Images. The rapidly increasing populations of cities and urban centers alter ecosystem services such as water, air and land cover, with disastrous impacts on health and wellbeing, particularly in megacities. In 2015, polluted air was estimated to have been responsible for 6.4 million deaths worldwide, and it is projected that it will cause between 6 and 9 million deaths per year by 2060. In 2017, outdoor air pollution resulted in 1.2 million deaths in India and brought about a 3% loss in GDP. The increase in population, vehicles, and industries has led to changes in land use and land cover and a rise in city temperatures and air pollution, creating urban heat islands (UHIs). Together, UHIs and air pollution have damaging impacts on human health that range from stress and headache to asthma, bronchitis, and chronic diseases, and even to death. Delhi has been experiencing emergency conditions in terms of environmental health over the past two years. At the same time, both the Delhi and Mumbai urban agglomerations are growing at a rapid pace, and the United Nations has projected that they will be the second and third most populous cities in the world by 2025. In this context, the book offers significant insights into the past patterns and responses to the present global urban health emergencies, and explores sustainable means of combating the problem to enable college and university researchers to develop innovative solutions. Further. It presents trans-disciplinary research that cuts across the WHO Action Plan, the Sustainable Development Goals, the Sendai Framework for Disaster Risk Reduction, and Habitat III to help policymakers gain a better understanding of the global challenges of urban health and wellbeing. The book is especially useful for students and researchers in geography, urban demography, urban studies, environmental studies, health sciences, and policy studies.

The over-exploitation of important earth resources such as land and water has led to a number of environment-related problems the world over. At the same time, land-use change caused by various human activities has led to extinction of many plant and animal habitats and species. In this context, the relevance of biodiversity for human survival is becoming a major international political issue as scientific evidence builds on the global health implications of biodiversity loss. These issues are closely linked with the issue of climate change, as many of the health risks due to climate change are associated with rapid degradation of biodiversity. This present work focuses on holistic natural resource-based spatio-temporal planning, development and management and considers them as essential to save the degraded ecosystem for sustainable resource management. Contributions are compiled in two volumes: 1. Climate Change and Biodiversity and 2. Landscape Ecology and Water Management. Geoinformatics along with its tools such as remote sensing and Geographical Information Systems (GIS) have been used in assessing the results of various environmental problems both physical and social. These volumes will be useful for geographers, geoscientists, hydrologists, landscape ecologists, environmentalists, engineers, planners and policy makers.

In this book, an interdisciplinary research group of faculty members, researchers, professionals, and planners contributed to an understanding of the dynamics and dimensions of emerging challenges and risks in megacities in the rapidly changing urban environments in Asia and examined emerging resilience themes from the point of view of sustainability and public policy. The world's urban population in 2009 was approximately 3.4 billion and Asia's urban population was about 1.72 billion. Between 2010 and 2020, 411 million people will be added to Asian cities (60 % of the growth in the world's urban population). By 2020, of the world's urban population of 4.2 billion, approximately 2.2 billion will be in Asia. China and India will contribute 31.3 % of the total world urban population by 2025. Developing Asia's projected global share of CO2 emissions for energy consumption will increase from 30 % in 2006 to 43 % by 2030. City regions serve as magnets for people, enterprise, and culture, but with urbanisation , the worst form of visible poverty becomes prominent. The Asian region, with a slum population of an estimated 505.5 million people, remains host to over half of the world's slum population . The book provides information on a comprehensive range of environmental threats faced by the inhabitants of megacities. It also offers a wide and multidisciplinary group of case studies from rapidly growing megacities (with populations of more than 5 million) from developed and developing countries of Asia.

This book discusses various issues relating to water resources, climate change and sustainable development. Water is the main driving force behind three major pillars of sustainable development: environmental, social and economic. As stated in the United Nations Sustainable Development Goals, development of these pillars rests on the availability and management of resources to fulfill the demand for water. By identifying the various challenges in the context of water resources and climate change, the book offers insights into achieving a better and more sustainable future. It provides a unique forum for practitioners and academics to exchange ideas on emerging issues, approaches, and practices in the area of water resources, climate change, and sustainability, while also presenting valuable information for policymakers on the changing contours of water management and climate change mitigation. As such it is a useful resource for decision-makers at the local as well as the global level.

Many students at undergraduate level struggle with the basic concepts of thermodynamics and statistical physics such as entropy, phase space, y-space, micro-canonical, canonical and grand canonical ensembles, statistical weight (thermodynamic probability), accessible states, density of states, partition function. In this book the author has made every effort to explain these basic concepts and notions in the simplest possible way, keeping in mind the limitations and difficulties of an average student. The book begins with the kinetic theory of gases and transport phenomena and gives the students a thorough grounding in the fundamental aspects of the topics such as Maxwell's law of distribution of molecular speeds, mean free path, viscosity, thermal conduction and diffusion. Next, the topics on equation of state and critical constant are discussed. The chapters from 4 - 9 are devoted to the development of thermodynamic concepts and the application of the laws of thermodynamics to the thermodynamic processes. A sufficient number of solved examples enable the students to test their conceptual understanding and analytical skills. A comprehensive discussion of on the failure of classical theory of radiation and the emergence of quantum concepts viz. the particle nature of radiation is presented in the chapters on radiations. Part II of the book presents a lucid and systematic exposition of the fundamental principles of the most fascinating, exciting, stimulating and challenging subject - statistical physics. The understanding of statistical physics requires knowledge of quantum mechanics at introductory level and a little bit of mathematics of undergraduate level. Though this book provides a self-contained study material, the knowledge of more advanced mathematical tools will make the learning process of statistical physics easier.

Nanomaterials in Bionanotechnology: Fundamentals and Applications offers a comprehensive treatment of nanomaterials in biotechnology from fundamentals to applications, along with their prospects. This book explains the basics of nanomaterial properties, synthesis, biological synthesis, and chemistry and demonstrates how to use nanomaterials to overcome problems in agricultural, environmental, and biomedical applications. Features Covers nanomaterials for environmental analysis and monitoring for heavy metals, chemical toxins, and water pollutant detection Describes nanomaterials-based biosensors and instrumentation and use in disease diagnosis and therapeutics Discusses nanomaterials for food processing and packaging and agricultural waste management Identifies challenges in nanomaterials-based technology and how to solve them This work serves as a reference for industry professionals, advanced students, and researchers working in the discipline of bionanotechnology.

This book identifies and analyzes livelihood impacts of recent environmental and socio-economic changes in urban and rural settings of the mountainous state of Himachal Pradesh, north western Himalaya, India. The findings of the research deal with the broader objectives of the changing patterns of agricultural production with special reference to diversification, as well as forest-based livelihood outcomes, Clean Development Mechanism forest project activities, the roles of different ethnic groups and non-governmental organizations and the benefits and shortcomings of tourism as a livelihood source. These tasks are studied by using an exploratory approach, with participant observation, interviews through random and cluster sampling among villagers, local land users and officials, as well as with land cover interpretation and secondary statistical data. This book is relevant for educational use together with policy input on the issues exploring livelihood security in a rapidly growing developing country.

This book consists of 26 contributions presented at the International Geographical Union Study Group meeting, to understand the limitations and opportunities provided by natural and human environments of different marginal regions and the potential strategies for successful spatial planning.

This book brings together the emerging trends and techniques incorporated in regional science during the first two decades of this millennium. The book includes systematic and analytical notes making scientific commentary on the innovative methods of regional development, measurement of the development, regional development models, and policy measures that have significant implications and wide applicability instrumental for India as well as the other global south countries. There is clear evidence in the global south of the uneven spatial distribution of resources, economic activities, literacy, and health conditions. The most striking fact is the coexistence of development and underdevelopment that makes the planning process complicated. This can hardly be explored without taking a deep insight into the matter of how the regional parameters are impacting regional society or economy to shape the development of that region. There can be no effective global policy framework that will be effective equally for each and every region to mitigate local issues of society or economy. It is here that the book integrates the efforts of practitioners working towards addressing these regional issues and striving for sustainable regional development through their innovative ideas. Through its contributions, the book addresses development issues, regional impact of climate change, social justice, migration, well-being, livelihood vulnerabilities, and regional urban-environmental issues from the standpoint of regional science. It is a significant resource for researchers of spatial science, and policy makers.

The over-exploitation of important earth resources such as land and water has led to a number of environment-related problems the world over. At the same time, land-use change caused by various human activities has led to extinction of many plant and animal habitats and species. In this context, the relevance of biodiversity for human survival is becoming a major international political issue as scientific evidence builds on the global health implications of biodiversity loss. These issues are closely linked with the issue of climate change, as many of the health risks due to climate change are associated with rapid degradation of biodiversity. This present work focuses on holistic natural resource-based spatio-temporal planning, development, and management and considers them as essential to save the degraded ecosystem for sustainable resource management. Contributions are compiled in two volumes: 1. Climate Change and Biodiversity and 2. Landscape Ecology and Water Management. Geoinformatics along with its tools such as remote sensing and geographical information systems (GIS) have been used in assessing the results of various environmental problems both physical and social. The volume will be useful for geographers, geoscientists, hydrologists, landscape ecologists, environmentalists, engineers, planners and policy makers.

Geosphere-biosphere interaction of certain elements and compounds is a major factor in global environmental change. This guide to the role of geographical monitoring in ecosystem modelling contains papers presented at the International Geographical Union Seminar on monitoring geosystems.

Rapid population growth, demand for increased food resources and other political,economic and social stresses have all contributed to building up pressure fordevelopment of marginal regions in both developed and developing countries.Ecological issues are also adding up to and increasing marginalization of regionsand social groups due to the pressure on natural resources. Broadly speakingmarginal regions are perceived in concepts of centre-periphery (fringes) and boundariesand frontiers. In developing countries marginal regicns are the combinedeffects of ecological, economic and social factors. For understanding the abovecomplex issues, the Study Group on Development Issues in Marginal Regionswas established in August 1992 at the Washington International GeographicalCongress.

Agriculture is the backbone of our economic system. It provides not only food and raw material but also employment opportunities to a very large number of people. Higher atmospheric temperature has an impact on crop yields while the changes in rainfall could affect both crop quality and quantity. Climate change, therefore, could increase the prices of major crops in some regions. For the most vulnerable people, lower agricultural output means lower income. In addition, climate change is expected to increase the risk of illness and death from extreme heat and poor air quality. Recent evidence is the COVID-19 pandemic. Furthermore, climate change also affects the occurrence of other infectious diseases. A number of well-known diseases are climate-sensitive - malaria, dengue fever, and cholera among others. Tourism is considered as an industry and alternative contributor to a nation's income. It can generate employment opportunities and boost up the economy. This book, consisting of 26 chapters, focuses on the issues of agriculture, tourism and health for livelihood enhancement. It is essential to discuss these diverse issues in the field of geography as it encompasses interdisciplinary topics. The range of concerns at the national, regional and local levels is not confined to geography only but also involves other disciplines as well. Therefore, this book is a valuable source for scientists and researchers in allied fields such as livelihood, agriculture, land use, tourism management, health care and tribal studies. Furthermore, this book can be of immense help to the researchers, planners and decision makers engaged in solving problems in these areas in developing countries and beyond.

This book compiles available knowledge of the response of mountain ecosystems to recent climate and land use change and intends to bridge the gap between science, policy and the community concerned. The chapters present key concepts, major drivers and key processes of mountain response, providing transdisciplinary orientation to mountain studies incorporating experiences of academics, community leaders and policy-makers from developed and less developed countries. The book chapters are arranged in two sections. The first section concerns the response processes of mountain environments to climate change. This section addresses climate change itself (past, current and future changes of temperature and precipitation) and its impacts on the cryosphere, hydrosphere, biosphere, and human-environment systems. The second section focuses on the response processes of mountain environments to land use/land cover change. The case studies address effects of changing agriculture and pastoralism, forest/water resources management and urbanization processes, landscape management, and biodiversity conservation. The book is designed as an interdisciplinary publication which critically evaluates developments in mountains of the world with contributions from both social and natural sciences.

Globally, concerns for the environment and human well-being have increased as results of threats imposed by climate change and disasters, environmental degradation, pollution of natural resources, water scarcity and proliferation of slums. Finding appropriate solutions to these threats and challenges is not simple, as these are generally complex and require state-of-the-art technology to collect, measure, handle and analyse large volumes of varying data sets. However, the recent advances in sensor technology, coupled with the rapid development of computational power, have greatly enhanced our abilities to capture, store and analyse the surrounding physical environment. This book explores diverse dimensions of geo-intelligence (GI) technology in developing a computing framework for location-based, data-integrating earth observation and predictive modelling to address these issues at all levels and scales. The book provides insight into the applications of GI technology in several fields of spatial and social sciences and attempts to bridge the gap between them.

This book identifies and provides reasoning for computed methods of local climate dynamics and the livelihood vulnerability indices assessment in the mountainous region of Himachal Pradesh, India. The outcomes of this study agree with the focused objectives on simulating climate change and its impact on livelihood security. It deals with several crucial methodologies to analyze livelihood security with and without climate change. The explorative deductive approach was used to observe climatic changes since the 1970s and simulated the climate until 2080. Additionally, the composite livelihood vulnerability index (LVI) without climate change and the climate change livelihood vulnerability index (CCLVI) with climate change impact were prepared. The book is beneficial for policymakers who are involved in framing and implementing policies chiefly in the Himalaya. It is also valuable for all stakeholders in society: students, researchers and academicians. It proposes discussions and debate on a new, integrated, inclusive and open approach to climate change and validates the significance of geographic knowledge in addressing climate change issues at various levels, suggesting policy measures to cope with them.