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The untold story of the rise of the new scientific field of ancient DNA research, and how Jurassic Park and popular media influenced its development Ancient DNA research-the recovery of genetic material from long-dead organisms-is a discipline that developed from science fiction into a reality between the 1980s and today. Drawing on scientific, historical, and archival material, as well as original interviews with more than fifty researchers worldwide, Elizabeth Jones explores the field's formation and explains its relationship with the media by examining its close connection to de-extinction, the science and technology of resurrecting extinct species. She reveals how the search for DNA from fossils flourished under the influence of intense press and public interest, particularly as this new line of research coincided with the book and movie Jurassic Park . Ancient DNA is the first account to trace the historical and sociological interplay between science and celebrity in the rise of this new research field. In the process, Jones argues that ancient DNA research is more than a public-facing science: it is a celebrity science.

The untold story of the rise of the new scientific field of ancient DNA research, and how Jurassic Park and popular media influenced its development   Ancient DNA research—the recovery of genetic material from long-dead organisms—is a discipline that developed from science fiction into a reality between the 1980s and today. Drawing on scientific, historical, and archival material, as well as original interviews with more than fifty researchers worldwide, Elizabeth Jones explores the field's formation and explains its relationship with the media by examining its close connection to de-extinction, the science and technology of resurrecting extinct species. She reveals how the search for DNA from fossils flourished under the influence of intense press and public interest, particularly as this new line of research coincided with the book and movie Jurassic Park. Ancient DNA is the first account to trace the historical and sociological interplay between science and celebrity in the rise of this new research field. In the process, Jones argues that ancient DNA research is more than a public-facing science: it is a celebrity science.

“Ancient DNA Research” is the practice of extracting, sequencing, and analyzing degraded DNA from dead organisms that are hundreds to thousands of years old. Today, many researchers are interested in adapting state-of-the-art molecular biological techniques and high-throughput sequencing technologies to optimize the recovery of DNA from fossils, then use it for studying evolutionary history. However, the recovery of DNA from fossils has also fueled the idea of resurrecting extinct species, especially as its emergence corresponded with the book and movie Jurassic Park in the 1990s. In this paper, I use historical material, interviews with scientists, and philosophical literature to argue that the search for DNA from fossils can be characterized as a data-driven and celebrity-driven practice. Philosophers have recently argued the need to seriously consider the role of data-driven inquiry in the sciences, and likewise, this history highlights the need to seriously consider the role of celebrity in shaping the kind of research that gets pursued, funded, and ultimately completed. On this point, this history highlights that the traditional philosophical and scientific distinctions between data-driven and hypothesis-driven research are not always useful for understanding the process and practice of science. Consequently, I argue that the celebrity status of a particular research practice can be considered as a “serious epistemic strategy” that researchers, as well as editors and funders, employ when making choices about their research and publication processes. This interplay between celebrity and methodology matters for the epistemology of science.

Although the buying, selling, and trading of fossils has been a principle part of paleontological practice over the centuries, the commercial collection of fossils today has re-emerged into a pervasive and lucrative industry. In the United States, the number of commercial companies driving the legal, and sometimes illegal, selling of fossils is estimated to have doubled since the 1980s, and worries from academic paleontologists over this issue has increased accordingly. Indeed, some view the commercialization of fossils as one of the greatest threats to paleontology today. In this article, I address the story of “Sue”—the largest, most complete, and most expensive  Tyrannosaurus rex  ever excavated—whose discovery incited a series of high-profile legal battles throughout the 1990s over the question of “Who owns Sue?” Over the course of a decade, various stakeholders from academic paleontologists and fossil dealers to Native Americans, private citizens, and government officials all laid claim to Sue. In exploring this case, I argue that assumptions of authority are responsible for initiating and sustaining debates over fossil access. Here, assumptions of authority are understood as assumptions of ownership, or expertise, or in some cases both. Viewing the story from this perspective illuminates the significance of fossils as boundary objects. It also highlights the process of boundary-work by which individuals and groups constructed or deconstructed borders around Sue (specifically) and fossil access (more generally) to establish their own authority. I draw on science studies scholarship as well as literature in the professionalization, commercialization, and valuation of science to examine how assumptions of authority facilitated one of the most divisive episodes in recent paleontological history and the broader debate on the commercial collection of vertebrate fossil material in the United Sates.

Food insecurity and hunger are significant problems in Canada, with millions of Canadians experiencing some level of food insecurity. The purpose of the present article is to review what is currently known about the effects of food insecurity and hunger on children. Longitudinal studies in Canada indicate that hunger is related to poor health outcomes, including a higher risk of depression and suicidal ideation in adolescents, and chronic conditions, particularly asthma. In addition, nutrient deficiencies, such as iron deficiency, are known to impair learning and cause decreased productivity in school-age children, and maternal depressive disorders. School-based nutrition programs and innovations, such as subsidized food (apples, cheese, soy nuts, carrots and broccoli), are an essential immediate need, but long-term solutions lie in adequate incomes for families.

ObjectivesTo better understand how social pediatric initiatives (SPIs) enact equitable, integrated, embedded approaches with high-needs children and families while facilitating proportionate distribution of health resources.MethodsThe realist review method incorporated the following steps: (1) identifying the review question, (2) formulating the initial theory, (3) searching for primary studies, (4) selecting and appraising study quality, (5) synthesizing relevant data and (6) refining the theory.ResultsOur analysis identified four consistent patterns of care that may be effective in social pediatrics: (1) horizontal partnerships based on willingness to share status and power; (2) bridged trust initiated through previously established third party relationships; (3) knowledge support increasing providers’ confidence and skills for engaging community; and (4) increasing vulnerable families’ self-reliance through empowerment strategies.ConclusionsThis research is unique because it focused on “how” outcomes are achieved and offers insight into the knowledge, skills and philosophical orientation clinicians need to effectively deliver care in SPIs. Research insights offer guidance for organizational leaders with a mandate to address child and youth health inequities and may be applicable to other health initiatives.

Charles Pellegrino was a polymath. He was a writer, scientist, and futurist who spread his interests across different disciplines from paleontology and archeology to space science and religion. He helped design rockets and worked in part on the excavations of Pompeii and the Titanic. Over the years, he wrote more than a dozen books—fiction and nonfiction alike—and enjoyed close connections with other futurist writers from Isaac Asimov to Arthur C. Clarke. In other words, Pellegrino’s interests were wide-ranging, his ideas visionary. He was far from conventional, operating on the fringes of science but often at the center of

By the mid-to late 1980s, the search for DNA from ancient and extinct organisms was attracting both professional and popular attention, but scientists were aware of their need for better technology that could reliably amplify the decayed and damaged DNA characteristic of old specimens. They knew that new technologies and techniques were necessary if they wanted to transform the search for DNA from fossils into a full-fledged research program. Rather conveniently, the innovation of a new molecular biological technique, the polymerase chain reaction (PCR), coincided with this search for ancient DNA, presenting a convenient solution. PCR was first developed in

Following the publication of Michael Crichton’s Jurassic Park in 1990 and the first ancient DNA conference in 1991, a handful of scientists tried their luck at the recovery of DNA from insects in ancient amber. With the added advantage of PCR, David Grimaldi, an entomologist at the American Museum of Natural History (AMNH) in New York, teamed up with Rob DeSalle, a molecular biologist at the same institution, to test the idea. Not only was DeSalle an expert molecular biologist but he had also worked as a postdoctoral researcher with Allan Wilson nearly ten years earlier. Indeed, he was familiar