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Environmental engineers support the well-being of people and the planet in areas where the two intersect. Over the decades the field has improved countless lives through innovative systems for delivering water, treating waste, and preventing and remediating pollution in air, water, and soil. These achievements are a testament to the multidisciplinary, pragmatic, systems-oriented approach that characterizes environmental engineering. Environmental Engineering for the 21st Century: Addressing Grand Challenges outlines the crucial role for environmental engineers in this period of dramatic growth and change. The report identifies five pressing challenges of the 21st century that environmental engineers are uniquely poised to help advance: sustainably supply food, water, and energy; curb climate change and adapt to its impacts; design a future without pollution and waste; create efficient, healthy, resilient cities; and foster informed decisions and actions.
For over a century, field stations have been important entryways for scientists to study and make important discoveries about the natural world. They are centers of research, conservation, education, and public outreach, often embedded in natural environments that range from remote to densely populated urban locations. Because they lack traditional university departmental boundaries, researchers at field stations have the opportunity to converge their science disciplines in ways that can change careers and entire fields of inquiry. Field stations provide physical space for immersive research, hands-on learning, and new collaborations that are otherwise hard to achieve in the everyday bustle of research and teaching lives on campus. But the separation from university campuses that allows creativity to flourish also creates challenges. Sometimes, field stations are viewed as remote outposts and are overlooked because they tend to be away from population centers and their home institutions. This view is exacerbated by the lack of empirical evidence that can be used to demonstrate their value to science and society. Enhancing the Value and Sustainability of Field Stations and Marine Laboratories in the 21st Century summarizes field stations' value to science, education, and outreach and evaluates their contributions to research, innovation, and education. This report suggests strategies to meet future research, education, outreach, infrastructure, funding, and logistical needs of field stations. Today's technologies - such as streaming data, remote sensing, robot-driven monitoring, automated DNA sequencing, and nanoparticle environmental sensors - provide means for field stations to retain their special connection to nature and still interact with the rest of the world in ways that can fuel breakthroughs in the environmental, physical, natural, and social sciences. The intellectual and natural capital of today's field stations present a solid platform, but many need enhancements of infrastructure and dynamic leadership if they are to meet the challenges of the complex problems facing the world. This report focuses on the capability of field stations to address societal needs today and in the future.
Xi Jinping has made his ambitions for the People's Liberation Army (PLA) perfectly clear, there is no mystery what he wants, first, that China should become a "great maritime power" and secondly, that the PLA "become a world-class armed force by 2050." He wants this latter objective to be largely completed by 2035. China as a Twenty-First-Century Naval Power focuses on China's navy and how it is being transformed to satisfy the "world class" goal. Beginning with an exploration of why China is seeking to become such a major maritime power, author Michael McDevitt first explores the strategic rationale behind Xi's two objectives. China's reliance on foreign trade and overseas interests such as China's Belt and Road strategy. In turn this has created concerns within the senior levels of China's military about the vulnerability of its overseas interests and maritime life-lines. is a major theme. McDevitt dubs this China's "sea lane anxiety" and traces how this has required the PLA Navy to evolve from a "near seas"-focused navy to one that has global reach; a "blue water navy." He details how quickly this transformation has taken place, thanks to a patient step-by-step approach and abundant funding. The more than 10 years of anti-piracy patrols in the far reaches of the Indian Ocean has acted as a learning curve accelerator to "blue water" status. McDevitt then explores the PLA Navy's role in the South China Sea and the Indian Ocean. He provides a detailed assessment of what the PLAN will be expected to do if Beijing chooses to attack Taiwan potentially triggering combat with America's "first responders" in East Asia, especially the U.S. Seventh Fleet and U.S. Fifth Air Force. He conducts a close exploration of how the PLA Navy fits into China's campaign plan aimed at keeping reinforcing U.S. forces at arm's length (what the Pentagon calls anti-access and area denial [A2/AD]) if war has broken out over Taiwan, or because of attacks on U.S. allies and friends that live in the shadow of China. McDevitt does not know how Xi defines "world class" but the evidence from the past 15 years of building a blue water force has already made the PLA Navy the second largest globally capable navy in the world. This book concludes with a forecast of what Xi's vision of a "world-class navy" might look like in the next fifteen years when the 2035 deadline is reached.
TRB Special Report 306: Naval Engineering in the 21st Century: The Science and Technology Foundation for Future Naval Fleets examines the state of basic and applied research in the scientific fields that support naval engineering and explores whether Office of Naval Research (ONR) activities, under its National Naval Responsibility for Naval Engineering (NNR-NE) initiative, have been effective in sustaining these fields.
Ocean science connects a global community of scientists in many disciplines - physics, chemistry, biology, geology and geophysics. New observational and computational technologies are transforming the ability of scientists to study the global ocean with a more integrated and dynamic approach. This enhanced understanding of the ocean is becoming ever more important in an economically and geopolitically connected world, and contributes vital information to policy and decision makers charged with addressing societal interests in the ocean. Science provides the knowledge necessary to realize the benefits and manage the risks of the ocean. Comprehensive understanding of the global ocean is fundamental to forecasting and managing risks from severe storms, adapting to the impacts of climate change, and managing ocean resources. In the United States, the National Science Foundation (NSF) is the primary funder of the basic research which underlies advances in our understanding of the ocean. Sea Change addresses the strategic investments necessary at NSF to ensure a robust ocean scientific enterprise over the next decade. This survey provides guidance from the ocean sciences community on research and facilities priorities for the coming decade and makes recommendations for funding priorities.
TRB Special Report 306: Naval Engineering in the 21st Century: The Science and Technology Foundation for Future Naval Fleets examines the state of basic and applied research in the scientific fields that support naval engineering and explores whether Office of Naval Research (ONR) activities, under its National Naval Responsibility for Naval Engineering (NNR-NE) initiative, have been effective in sustaining these fields. The committee developed a series of conclusions and recommendations in five areas--the value of the NNR-NE, the state of science and technology supporting naval engineering, the wholeness of the NNR-NE research portfolio, opportunities for enhancement of research and education, and the effectiveness of the NNR-NE initiative. The report's recommendations are addressed to the administrators of the NNR-NE initiative and of ONR.
This book describes emerging and unresolved sustainability issues related to the oceans and marine environment, for policy makers, students and academics.
This volume is one of the most significant results of the conference "Science-Technology Synergy for Research in Marine Environment: Challenges for the XXI Century" held in Erice and Ustica, Italy, September 1999. It presents state of the art developments in technology and scientific research in sea floor observatories. Scientific conclusions of earth science and environmental studies obtained from these observatories as well as results from long term monitoring are provided. Descriptions of new technologies enabling deep sea long term observatories are offered and marine environment and risk assessment issues are discussed.This is the first work detailing recent and on going experiments world wide specifically devoted to deep sea multi disciplinary observation systems, the technology enabling sea floor observatories, and the presentation of first results from these systems.
A Century of Innovation: The Engineering that Transformed Our Lives is a full-color coffee table book that details the greatest achievements of 20th-century engineering. Each chapter details one specific engineering "feat" with a discussion of the discovery's impact on society and descriptions and illustrations of how that discovery "works."