From a journalist and former lab researcher, a penetrating investigation of the explosion in cases of scientific fraud and the factors behind it. In the 1970s, a scientific scandal about painted mice hit the headlines. A cancer researcher was found to have deliberately falsified his experiments by coloring transplanted mouse skin with ink. This widely publicized case of scientific misconduct marked the beginning of an epidemic of fraud that plagues the scientific community today. From manipulated results and made-up data to retouched illustrations and plagiarism, cases of scientific fraud have skyrocketed in the past two decades, especially in the biomedical sciences. Fraud in the Lab examines cases of scientific misconduct around the world and asks why this behavior is so pervasive. Nicolas Chevassus-au-Louis points to large-scale trends that have led to an environment of heightened competition, extreme self-interest, and emphasis on short-term payoffs. Because of the move toward highly specialized research, fewer experts are qualified to verify experimental findings. And the pace of journal publishing has exacerbated the scientific rewards system—publish or perish holds sway more than ever. Even when instances of misconduct are discovered, researchers often face few consequences, and falsified data may continue to circulate after an article has been retracted. Sharp and damning, this exposé details the circumstances that have allowed scientific standards to decline. Fraud in the Lab reveals the intense social pressures that lead to fraud, documents the lasting impact it has had on the scientific community, and highlights recent initiatives and proposals to reduce the extent of misconduct in the future.
An argument that what makes science distinctive is its emphasis on evidence and scientists' willingness to change theories on the basis of new evidence. Attacks on science have become commonplace. Claims that climate change isn't settled science, that evolution is “only a theory,” and that scientists are conspiring to keep the truth about vaccines from the public are staples of some politicians' rhetorical repertoire. Defenders of science often point to its discoveries (penicillin! relativity!) without explaining exactly why scientific claims are superior. In this book, Lee McIntyre argues that what distinguishes science from its rivals is what he calls “the scientific attitude”—caring about evidence and being willing to change theories on the basis of new evidence. The history of science is littered with theories that were scientific but turned out to be wrong; the scientific attitude reveals why even a failed theory can help us to understand what is special about science. McIntyre offers examples that illustrate both scientific success (a reduction in childbed fever in the nineteenth century) and failure (the flawed “discovery” of cold fusion in the twentieth century). He describes the transformation of medicine from a practice based largely on hunches into a science based on evidence; considers scientific fraud; examines the positions of ideology-driven denialists, pseudoscientists, and “skeptics” who reject scientific findings; and argues that social science, no less than natural science, should embrace the scientific attitude. McIntyre argues that the scientific attitude—the grounding of science in evidence—offers a uniquely powerful tool in the defense of science.
The twentieth century saw dramatic changes in the once Kurd-dominated Kirkuk region of Iraq. Despite having repeatedly relied on the Kurdish population of Iraq for military support, on three occasions the United States have abandoned their supposed allies in Kirkuk. The Great Betrayal provides a political and diplomatic history of the Kirkuk region and its international relations from the 1920s to the present day. Based on first-hand interviews and previously unseen sources, it provides an accessible account of a region at the very heart of America's foreign policy priorities in the Middle East. In September 2017, Iraqi Kurdistan held an independence referendum, intended to be a starting point on negotiations with the Iraqi Government in Baghdad on the terms of a friendly divorce. Though the US, Turkey, and Iran opposed it, the referendum passed with 93% of the vote. Rather than negotiate, Iraq's Prime Minister Heider al-Abadi issued an ultimatum and then attacked the region. Iraq's Kurdish population have been abandoned, once again, by their supposed allies in the US. In this book, David L. Phillips reveals the failings of America's policies towards Kirkuk and the devastating effects of betraying an ally.
The integrity of knowledge that emerges from research is based on individual and collective adherence to core values of objectivity, honesty, openness, fairness, accountability, and stewardship. Integrity in science means that the organizations in which research is conducted encourage those involved to exemplify these values in every step of the research process. Understanding the dynamics that support â€" or distort â€" practices that uphold the integrity of research by all participants ensures that the research enterprise advances knowledge. The 1992 report Responsible Science: Ensuring the Integrity of the Research Process evaluated issues related to scientific responsibility and the conduct of research. It provided a valuable service in describing and analyzing a very complicated set of issues, and has served as a crucial basis for thinking about research integrity for more than two decades. However, as experience has accumulated with various forms of research misconduct, detrimental research practices, and other forms of misconduct, as subsequent empirical research has revealed more about the nature of scientific misconduct, and because technological and social changes have altered the environment in which science is conducted, it is clear that the framework established more than two decades ago needs to be updated. Responsible Science served as a valuable benchmark to set the context for this most recent analysis and to help guide the committee's thought process. Fostering Integrity in Research identifies best practices in research and recommends practical options for discouraging and addressing research misconduct and detrimental research practices.
Occasionally in the world of science, unexpected results that appear to violate accepted laws of nature can herald revolutionary advances in human knowledge. Many of these 'revolutionary' discoveries do, however, turn out to be wrong, and eminent scientists must carry the burden of a tarnished reputation for mistakenly thinking they have made a great discovery. In this entertaining text, Robert Park examines the social, economic, and political forces that elicit or support flawed or fake science and then go on to sustain it in the face of often overwhelming contrary evidence. Readers are made aware of the fine line that exists between foolishness and fraud and are warned against irrational beliefs dressed up as scientific garb.
An in-depth look at scientific fraud Fraud in science is not as easy to identify as one might think. When accusations of scientific misconduct occur, truth can often be elusive, and the cause of a scientist's ethical misstep isn't always clear. On Fact and Fraud looks at actual cases in which fraud was committed or alleged, explaining what constitutes scientific misconduct and what doesn't, and providing readers with the ethical foundations needed to discern and avoid fraud wherever it may arise. In David Goodstein's varied experience—as a physicist and educator, and as vice provost at Caltech, a job in which he was responsible for investigating all allegations of scientific misconduct—a deceptively simple question has come up time and again: what constitutes fraud in science? Here, Goodstein takes us on a tour of real controversies from the front lines of science and helps readers determine for themselves whether or not fraud occurred. Cases include, among others, those of Robert A. Millikan, whose historic measurement of the electron's charge has been maligned by accusations of fraud; Martin Fleischmann and Stanley Pons and their "discovery" of cold fusion; Victor Ninov and the supposed discovery of element 118; Jan Hendrik Schön from Bell Labs and his work in semiconductors; and J. Georg Bednorz and Karl Müller's discovery of high-temperature superconductivity, a seemingly impossible accomplishment that turned out to be real. On Fact and Fraud provides a user's guide to identifying, avoiding, and preventing fraud in science, along the way offering valuable insights into how modern science is practiced.
Forensic Fraud is the culmination of 12 years of research by author Brent E. Turvey. A practicing forensic scientist since 1996, Turvey has rendered this first of its kind study into the widespread problem of forensic fraud in the United States. It defines the nature and scope of the problem, the cultural attitudes and beliefs of those involved, and establishes clear systemic contributors. Backed up by scrupulous research and hard data, community reforms are proposed and discussed in light of the recently published National Academy of Sciences report on forensic science. An adaptation of Dr. Turvey's doctoral dissertation, this volume relentlessly cites chapter and verse in support of its conclusions that law enforcement cultural and scientific values are incompatible, and that the problem of forensic fraud is systemic in nature. It begins with an overview of forensic fraud as a sub-type of occupational fraud, it explores the extent of fraud in both law enforcement and scientific employment settings, it establishes and then contrasts the core values of law enforcement and scientific cultures and then it provides a comprehensive review of the scientific literature regarding forensic fraud. The final chapters present data from Dr. Turvey's original research into more than 100 fraudulent examiners between 2000 and 2010, consideration of significant findings, and a review of proposed reforms to the forensic science community based on what was learned. It closes with a chapter on the numerous crime lab scandals, and closures that occurred between 2010 and 2012 – an update on the deteriorating state of the forensic science community in the United States subsequent to data collection efforts in the present research. Forensic Fraud is intended for use as a professional reference manual by those working in the criminal system who encounter the phenomenon and want to understand its context and origins. It is intended to help forensic scientist and their supervisors to recognize, manage and expel it; to provide policy makers with the necessary understaffing for acknowledging and mitigating it; and to provide agents of the courts with the knowledge, and confidence, to adjudicate it. It is also useful for those at the university level seeking a strong secondary text for courses on forensic science, law and evidence, or miscarriages of justice. - First of its kind overview of the cultural instigators of forensic fraud - First of its kind research into the nature and impact of forensic fraud, with data (2000-2010) - First of its kind typology of forensic fraud, for use in future case examination in research - Numerous profiles of forensic fraudsters - Review of major crime lab scandals between 2010 and 2012
A searing exposé of the misuses and misrepresentations of science from the time of Galileo continuing through to the present day, this new edition includes updates on the asbestos industry, the chemicals industry, the sugar industry, the agriculture industry (the abuse of antibiotics), and the automobile industry (lead in gasoline). The final chapter has been expanded to include the full-blooded assault on science mounted by the Trump administration.