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Tropical Radioecology is a guide to the wide range of scientific practices and principles of this multidisciplinary field. It brings together past and present studies in the tropical and sub-tropical areas of the planet, highlighting the unique aspects of tropical systems. Until recently, radioecological models for tropical environments have depended upon data derived from temperate environments, despite the differences of these regions in terms of biota and abiotic conditions. Since radioactivity can be used to trace environmental processes in humans and other biota, this book offers examples of studies in which radiotracers have been used to assess biokinetics in tropical biota. - Features chapters, co-authored by world experts, that explain the origins, inputs, distribution, behaviour, and consequences of radioactivity in tropical and subtropical systems. - Provides comprehensive lists of relevant data and identifies current knowledge gaps to allow for targeted radioecological research in the future. - Integrates radioecological information into the most recent radiological consequences modelling and best-practice probabilistic ecological risk analysis methodology, given the need to understand the implications of enhanced socio-economic development in the world's tropical regions.
This book presents a history of radioecology, from World War II through to the critical years of the Cold War, finishing with a discussion of recent developments and future implications for the field. Drawing on a vast array of primary sources, the book reviews, synthesizes and discusses the implications of the ecological research supported by the Atomic Energy Commission (AEC) of the United States government, from World War II to the early 1970s. This was a critical period in the history of ecology, characterized by a transition from the older, largely descriptive studies of communities of plants and animals to the modern form of the science involving functional studies of energy flow and mineral cycling in ecosystems. This transition was in large part due to the development of radioecology, which was a by-product of the Cold War and the need to understand and predict the consequences of a nuclear war that was planned but has never occurred. The book draws on important case studies, such as the Pacific Proving Grounds, the Nevada Test Site, El Verde in Puerto Rico, the Brookhaven National Laboratory and recent events such as the nuclear disasters at Chernobyl and Fukushima. By revisiting studies and archived information from the Cold War era, this book offers lessons from the history of radioecology to provide background and perspective for understanding possible present-day impacts from issues of radiation risks associated with nuclear power generation and waste disposal. Post-Cold War developments in radioecology will be also reviewed and contrasted with the AEC-supported ecology research for further perspectives. This book will be of great interest to students and scholars of radioecology, environmental pollution, environmental technology, bioscience and environmental history.
Biodiversity has been a key concept in international conservation since the 1980s, yet historians have paid little attention to its origins. Uncovering its roots in tropical fieldwork and the southward expansion of U.S. empire at the turn of the twentieth century, Megan Raby details how ecologists took advantage of growing U.S. landholdings in the circum-Caribbean by establishing permanent field stations for long-term, basic tropical research. From these outposts of U.S. science, a growing community of American "tropical biologists" developed both the key scientific concepts and the values embedded in the modern discourse of biodiversity. Considering U.S. biological fieldwork from the era of the Spanish-American War through the anticolonial movements of the 1960s and 1970s, this study combines the history of science, environmental history, and the history of U.S.–Caribbean and Latin American relations. In doing so, Raby sheds new light on the origins of contemporary scientific and environmentalist thought and brings to the forefront a surprisingly neglected history of twentieth-century U.S. science and empire.
This book is aimed to cover the phylogenetic and functional ecology with special reference to ecological shifts. I hope this book may benefit the students, fellow professors, and resource managers studying plant sciences. Since the topics stated in this book are not new but the issues and technologies mentioned were new to me, I expect that they will be new and equally advanced for the readers too. I encourage the readers to get out into the field to identify plants and to dig out the anthropogenic and social activities effecting plants to come along with the development of plant ecology; to rise and serve the topic of the enormous number of plants facing extinction; and to relish themselves and make some effort to contribute something to the world.
This volume is the outcome of an international cooperation between 73 scientists, experts, and practitioners from many countries, disciplines, and professional areas. As a part of a series of CERES publications, the volume attempts to contribute to the scientific debate about the food–biodiversity–climate nexus by developing a comprehensive region-specific and broader global understanding of the linkages between these areas, especially in the context of Global South. Instead of providing only modern science-based solutions for the nexus related challenges, the volume covers case studies that present mixed solutions, offering the use of traditional ecological knowledge in combination with modern science for both resilience and sustainability. This is increasingly instrumental in shaping the needed response options regarding the economic, social, and environmental future of the world. Based on a multi-regional and cross-sectoral analysis, the approach consists of: assessing the different natural and anthropogenic factors currently affecting ecosystems and their services, especially the impacts of climate change; highlighting the different linkages between the state of biodiversity and food systems in many contexts and scales; and exploring the various response mechanisms to effectively manage the implications of such linkages. Most chapters provide inputs for future relevant research and policy agendas.
This volume explores how the scientific tools of ecology can be used more effectively in dealing with a variety of complex environmental problems. Part I discusses the usefulness of such ecological knowledge as population dynamics and interactions, community ecology, life histories, and the impact of various materials and energy sources on the environment. Part II contains 13 original and instructive case studies pertaining to the biological side of environmental problems, which Nature described as "carefully chosen and extremely interesting."
This publication is one of the series of IAEA publications on the environmental behaviour of naturally occurring radionuclides. It outlines uranium behaviour in different environments, as well as its transfer to, and metabolism in, humans. The publication also provides concepts, models and data required for the assessment of the impacts of uranium on non-human biota. Assessing the environmental and health effects of uranium poses specific challenges because of the combination of different types of hazard and potential exposures. Therefore, both the radiotoxicity and chemical toxicity of uranium are considered in this publication.
Advances in Radiation Biology, Volume 4 provides wide-ranging analyses of progress in the various phases of radiation biology. This book discusses the repair processes for photochemical damage in mammalian cells; S-phase recovery or postreplication repair; enzymes involved in the repair of DNA; and reinsertion of nucleotides. The mutation induction in mice; dominant visible mutations; experimental radiation carcinogenesis; and dose-effect relationships are also deliberated. This text likewise covers the toxicology of plutonium; effects of ionizing radiation on terrestrial plant communities; and radiation sensitivities of plant communities. This publication is beneficial to radiation biologists, as well as students and researchers conducting work on radiobiology.