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A little-known yet critical part of NASA history Life in Space explores the many aspects and outcomes of NASA’s research in life sciences, a little-understood endeavor that has often been overlooked in histories of the space agency. Maura Mackowski details NASA’s work in this field from spectacular promises made during the Reagan era to the major new directions set by George W. Bush’s Vision for Space Exploration in the early twenty-first century. At the first flight of NASA’s space shuttle in 1981, hopes ran high for the shuttle program to achieve its potential of regularly transporting humans, cargo, and scientific experiments between Earth and the International Space Station. Mackowski describes different programs, projects, and policies initiated across NASA centers and headquarters in the following decades to advance research into human safety and habitation, plant and animal biology, and commercial biomaterials. Mackowski illuminates these ventures in fascinating detail by drawing on rare archival sources, oral histories, interviews, and site visits. While highlighting significant achievements and innovations such as space radiation research and the Neurolab Spacelab Mission, Mackowski reveals frustrations—lost opportunities, stagnation, and dead ends—stemming from frequent changes in presidential administrations and policies. For today’s dreams of lunar outposts or long-term spaceflight to become reality, Mackowski argues, a robust program in space life sciences is essential, and the history in this book offers lessons to help prevent leaving more expectations unfulfilled.
This last volume of the SpringerBriefs in Space Life Sciences series is setup in 5 main parts. The 1st part shortly summarizes the history of life science research in space from the late 40s until today with focus on Europe and Germany, followed by a part on describing flight opportunities including the Space Shuttle/Spacelab system and the International Space Station ISS; in the 3rd part it focuses on extraordinary success stories of this constantly challenging research program and highlights some important key findings in space life science research. The book introduces in the 4th part innovative developments in non-invasive biomedical diagnostics and training methods for astronauts that emerge from this program and are of benefit for people on Earth especially in the aging society. Last but not least in its 5th part it closes with an outlook on the future of space life sciences in the upcoming era of space exploration. The book is intended for students and research scientists in the life sciences and biomedicine as well as for interested lay persons, who wish to get an overview of space life science research: its ́ early days, current status and future directions.
The achievement of future manned space flight no longer appears to be subject to serious question. Solution of a broad variety of problems involved in the attainment of manned space flight requires extensive scientific activity and progress--but the time is approaching when the scale of accomplishments will be in balance with the scale of requirements. Because the achievement of space flight also requires that man survive and function productively, one of the most important areas of space research resides in the life sciences, more frequently referred to by the term "space medicine."
In response to requests from Congress, NASA asked the National Research Council to undertake a decadal survey of life and physical sciences in microgravity. Developed in consultation with members of the life and physical sciences communities, the guiding principle for the study is to set an agenda for research for the next decade that will allow the use of the space environment to solve complex problems in life and physical sciences so as to deliver both new knowledge and practical benefits for humankind as we become a spacefaring people. The project's statement of task calls for delivery of two books-an interim report and a final survey report. Although the development of specific recommendations is deferred until the final book, this interim report does attempt to identify programmatic needs and issues to guide near-term decisions that are critical to strengthening the organization and management of life and physical sciences research at NASA.
Life Sciences and Space Research, Volume XVII contains the proceedings of the Open Meeting of the Working Group on Space Biology of the Twenty-first Plenary Meeting of COSPAR, held in Innsbruck, Austria, from May 29 to June 10, 1978 and of the Symposium on Gravitational Physiology which also took place in Innsbruck, Austria, on June 2 and 3, 1978. The papers review the results of research in the life sciences with respect to space biology, including chemical data returned from the Viking Lander experiments. The engineering design of biologically closed ecological systems suitable for very long term space flight or space colonies is also described. This volume is comprised of 41 chapters and begins with a discussion on closed regenerative life support systems for space travel and their implications for ecological science. Subsequent chapters examine closed ecology in space from a bioengineering perspective; technology requirements for nonterrestrial ecosystems; carbon suboxide polymer as an explanation for the wave of darkening observed on Mars; and volcanism and soil mercury on Mars, along with their consequences for terrestrial microorganisms. The next sections focus on the biology of extreme environments such as Central Antarctica, radiation biology in space, and gravitational physiology in relation to humans and animals. This book will be of interest to space scientists, space biologists, and those engaged in the life sciences, space research, molecular biophysics, biochemistry, and physiology.
During its more than 50-year history, NASA's success in human space exploration has depended on the agency's ability to effectively address a wide range of biomedical, engineering, physical sciences, and related obstacles. This achievement is made possible by NASA's strong and productive commitments to life and physical sciences research for human space exploration, and by its use of human space exploration infrastructures for scientific discovery. Research for a Future in Space: The Role of Life and Physical Sciences explains how unique characteristics of the space environment can be used to address complex problems in the life and physical sciences. This booklet also helps deliver both new knowledge and practical benefits for humankind as it embarks on a new era of space exploration. Research for a Future in Space: The Role of Life and Physical Sciences is based on the in depth report, Recapturing a Future for Space Exploration: Life and Physical Sciences Research for a New Era. To learn more about the future of space exploration, visit our catalog page and download this report for free.
Early in 1984, NASA asked the Space Science Board to undertake a study to determine the principal scientific issues that the disciplines of space science would face during the period from about 1995 to 2015. The findings of this study are published in this volume.