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From Nobel Prize-winning work in atomic physics to community concerns over radiation leaks, Brookhaven National Laboratory's ups and downs track the changing fortunes of "big science" in the United States since World War II. But Brookhaven is also unique; it was the first major national laboratory built specifically for basic civilian research. In Making Physics, Robert P. Crease brings to life the people, the instruments, the science, and the politics of Brookhaven's first quarter-century.
How the discovery of a harmless leak of radiation sparked a media firestorm, political grandstanding, and fearmongering that closed a vital scientific facility. In 1997, scientists at Brookhaven National Laboratory found a small leak of radioactive water near their research reactor. Brookhaven was—and is—a world-class, Nobel Prize–winning lab, and its reactor was the cornerstone of US materials science and one of the world’s finest research facilities. The leak, harmless to health, came from a storage pool rather than the reactor. But its discovery triggered a media and political firestorm that resulted in the reactor’s shutdown, and even attempts to close the entire laboratory. A quarter century later, the episode reveals the dynamics of today’s controversies in which fears and the dismissal of science disrupt serious discussion and research of vital issues such as vaccines, climate change, and toxic chemicals. This story has all the elements of a thriller, with vivid characters and dramatic twists and turns. Key players include congressmen and scientists; journalists and university presidents; actors, supermodels, and anti-nuclear activists, all interacting and teaming up in surprising ways. The authors, each with insider knowledge of and access to confidential documents and the key players, reveal how a fact of no health significance could be portrayed as a Chernobyl-like disaster. This compelling exposé reveals the gaps between scientists, politicians, media, and the public that have only gotten more dangerous since 1997. Peter Bond is a retired physicist who worked at Brookhaven National Laboratory for 43 years in a wide variety of roles, including interim laboratory director during much of the period covered by this book.
Published by the American Geophysical Union as part of the Geophysical Monograph Series, Volume 152. Sea salt aerosol (SSA) exerts a major influence over a broad reach of geophysics. It is important to the physics and chemistry of the marine atmosphere and to marine geochemistry and biogeochemistry generally. It affects visibility, remote sensing, atmospheric chemistry, and air quality. Sea salt aerosol particles interact with other atmospheric gaseous and aerosol constituents by acting as sinks for condensable gases and suppressing new particle formation, thus influencing the size distribution of these other aerosols and more broadly influencing the geochemical cycles of substances with which they interact. As the key aerosol constituent over much of Earth's surface at present, and all the more so in pre-industrial times, SSA is central to description of Earth's aerosol burden.
In a career that included Presidential Science Advisor to George W. Bush, John Marburger stood on the front line of battles that pulled science deep into the political arena. Science controversies, he discovered, are never just about science. As his reflections show, science can no longer be shielded from public scrutiny and government supervision.
The national laboratories have occupied a central place in the landscape of American science for more than fifty years. Deeply researched and lucidly written, The National Labs is the first book to trace the confluence of diverse interests that created and sustained this extensive enterprise. Westwick takes us from the origins of the labs in the Manhattan Project to their role in building the hydrogen bomb, nuclear power reactors, and high-energy accelerators, to their subsequent entry into such fields as computers, meteorology, space science, molecular biology, environmental science, and alternative energy sources.
This book summarizes recent advances in understanding the functions of plant and algal lipids in photosynthesis, in development and signaling, and in industrial applications. As readers will discover, biochemistry, enzymology and analytical chemistry, as well as gene knock-out studies have all contributed to our rapidly increasing understanding of the functions of lipids. In the past few decades, distinct physical and biochemical properties of specific lipid classes were revealed in plant and algal lipids and the functional aspects of lipids in modulating critical biological processes have been uncovered. These chapters from international authors across relevant research fields highlight the underlying evolutionary context of lipid function in photosynthetic unicellular and multicellular organisms. The book goes on to encompass what lipids can do for industrial applications at a time of fascination with plants and algae in carbon fixation and as sources for production of food, energy and novel chemicals. The developmental context is a part of the fresh and engaging perspective that is presented in this work which graduate students and scientists will find both illuminating and useful.