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Biometeorology continues to grow as a discipline. It is increasingly recognised for its importance in providing science of relevance to society and well being of the environment. This book is the first in a new book series on Biometeorology. The purpose of the new series is to communicate the interdisciplinary philosophy and science of biometeorology to as wide an audience as possible, introduce scientists and policy makers to the societal relevance of and recent developments in its s- fields and demonstrate how a biometeorological approach can provide insights to the understanding and possible solution of cross-cutting environmental issues. One such cross-cutting environmental issue is climate change. While the literature on the science of climate change, climate change mitigation and the impacts of climate change is voluminous, that on adaptation to climate change is meagre in comparison. The purpose of this book is to partly redress this imbalance by providing insights from a biometeorological perspective. The book acknowledges that society has a long history of adapting to the impacts associated with climatic variability and change but makes the point that climate change poses a real threat to already strained coping systems. Therefore there is a need to realign human use systems with changing climate conditions.
Biometeorology is based on the proceedings of the Second International Bioclimatological Congress, held at The Royal Society of Medicine, London in September 1960. This book is a collection of selected reports from participating members of The International Society of Biometeorology. The compendium covers a wide range of issues related to the study of the direct and indirect interrelations between the geophysical and geochemical factors of the atmospheric environment and living organisms: plants, animals, and human. The book is divided into four main sections; themes are selected for the congress. The first theme covers topics on high altitude bioclimatology such as the physiological aspects of life at extreme altitudes. The second theme is about tropical bioclimatology or aspects of plant and animal life in tropical climates. The third deals with bioclimatological classifications, which is about the relations between the climate and the distribution of the living species on the Earth. The fourth theme, meteoro-pathological forecasting, discusses the consequences of anticipated meteorological conditions and weather types on living organisms. The text will be of use to biologists, health professionals, zoologists, botanists, agriculturists, sociologists, meteorologists, and ecologists.
The book begins by describing in detail the mechanisms of energy exchange – radiative, convective, conductive and evaporative – together with techniques for their determination. The discussion extends to the importance of CO2, ozone and methane, together with that of aerosol pollutants and the evolution of atmospheric CO2. Subsequent chapters apply the results of the biophysical methods to mammals, birds and aquatic animals. Discussion includes problems of shelter and shade for animals in tropical environments and techniques for the thermal evaluation for shelters and for several tree types. The details of heat exchange between animals and the environment are presented, in separate chapters covering Mammals and Birds and Aquatic Mammals. A chapter on Shade and Shelter describes the importance of shade for animals, factors of shade efficiency, the protections offered by shelter and methods of calculating the protection afforded by both shade and shelter. A Special Methods chapter offers a variety of techniques for evaluating cutaneous and respiratory evaporation, and practical methods for sampling of hairs and the evaluation of hair coat characteristics.
Proceedings of the 2d- International Biometeorological Congress, 1960-
This book introduces the UTCI (Universal Thermal Climate Index) and summarizes progress in this area. The UTCI was developed as part of the European COST Action Program and first announced to the scientific community in 2009. Since then, a decade has followed of applicability tests and research results, as well as knowledge gained from applying the UTCI in human adaptation and thermal perception. These findings are of interest to researchers in the interdisciplinary areas of biometeorology, climatology and urban planning. The book summarizes this progress, discussing the limitations found and provides pointers to future developments. It also discusses UTCI applications in the areas of human biometeorology and urban planning including possibilities of using UTCI and similar indices in climate-responsive urban planning. The book’s message is illustrated with many case studies from the real world. Chapter 10 is available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
Biometeorology in Integrated Pest Management is a resulting book from a conference with the same title held at the University of California in 1980. This book presents integrated pest management (IPM) in different viewpoints and perspectives. It serves as a helpful exchange of ideas to strengthen the research in integrated pest management. From a biometeorological viewpoint, the microclimate of agricultural systems is introduced in this book to describe the environment in which pests live. The first few chapters in this book discuss IPM in the perspective of biometeorology. Some of the topics include crop canopies (general heat exchange and wind movement), microclimate (instrumentation, techniques, and simulation), and microclimatic stress (remote sensing). The following section of the book focuses on plant pathology. The subject areas covered in this section include radiation quality and plant diseases; management of plant pathogens; and plant canopy modification and impact on plant disease. The last section focuses on weed science. The interaction of weeds to other pests, effects of light and temperature on weed growth, and weed seed germination are some of the topics discussed in this part. This book is a good source of reference to both students and professionals in the field of biometeorology, entomology, and agriculture. Other interested parties in the research of integrated pest management will also find this book helpful in their endeavors.
Biometeorological Methods provides a unified look at methodologies in biometeorology. Examples of biometeorological studies have been chosen not because the results are necessarily significant but because the method is instructive. The book begins with a brief survey of biometeorology to orient the reader approaching the subject for the first time. The remaining chapters seek to place in perspective the various experimental, empirical, analytical, and physical methods that are being used or could be used in biometeorology. Key topics discussed include space and time considerations in the sampling of the atmosphere; the design of biometeorological experiments; the use of tables, graphs, and charts in the search for biometeorological relationships; statistical and physical methods; and the synoptic approach. Also covered are studies on seasonal relationships, past climates, and climatic classification and indices. The present volume should be of value to anyone seeking assistance in the design of experiments and analysis of environmental data.