The increasing number of citizen science projects around the world brings the need to evaluate the effectiveness of these projects and to show the applicability of the data they collect. This research describes the Wabash River Sampling Blitz, a volunteer water-quality monitoring program in Central Indiana developed by the Wabash River Enhancement Corporation (WREC). Results indicate that field test strips for nitrate+nitrite-N read by volunteers generally agree with lab-determined values. Orthophosphate results are less transferable owing to low observed concentrations, although the field
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TEAM MEMBERS:
Rebecca MuenichSara PeelLaura BowlingMegan HaasRonald TurcoJane FrankenbergerIndrajeet Chaubey
The success of citizen science in producing important and unique data is attracting interest from scientists and resource managers. Nonetheless, questions remain about the credibility of citizen science data. Citizen science programs desire to meet the same standards of credibility as academic science, but they usually work within a different context, for example, training and managing significant numbers of volunteers with limited resources. We surveyed the credibility-building strategies of 30 citizen science programs that monitor environmental aspects of the California coast. We identified
The field of citizen science is growing with breathtaking speed. Thousands of citizen science projects are now under way around the world, engaging millions of individuals in the process of scientific discovery. In the US, citizen science has been featured at the White House and the federal government has launched a website to showcase federally funded citizen science projects (citizenscience.gov). The largest research and innovation funding program in the European Union, Horizon 2020, is investing heavily in citizen science to tackle societal problems. The Australian government has published
Pacific Science Center (Science Center) has been a pillar of science education programming in Seattle, Washington since 1962. Through interactive exhibits, planetarium shows, IMAX movies and outreach, the Science Center works to inspire a lifelong interest in science, math and technology. In 2010, the Science Center joined forces with the National Aeronautics and Space Administration (NASA) through NASA Now: Using Current Data, Planetarium Technology and Youth Career Development to Connect People to the Universe. NASA Now was designed to increase the awareness, knowledge and understanding of
This poster was presented at the 2016 Advancing Informal STEM Learning (AISL) PI Meeting held in Bethesda, MD on February 29-March 2. The United States is facing a crisis: not enough students are being trained in the areas of science, technology, engineering and mathematics (STEM) to support and foster economic growth. In response, the State University of New York (SUNY) and the New York Academy of Sciences (The Academy) are collaborating to train SUNY graduate students and post-doctoral fellows to deliver mentoring and STEM content to underserved middle-school children in afterschool programs
While several scientific communities have discussed the emergence of Open Access publishing in depth, in the science communication community this debate has never been central. Scholars in most scientific disciplines have at their disposal Open Access options such as journals, repositories, preprint archives and the like. Ironically enough, a community devoted to the study of science’s communication structures is witnessing this transformation without being directly involved. Both structural and cultural obstacles hamper the growth of an Open Access sector in science communication publishing
The demand for evaluation of science communication practices and the number and variety of such evaluations are all growing. But it is not clear what evaluation tells us - or even what it can tell us about the overall impacts of the now-global spread of science communication initiatives. On the other hand, well-designed evaluation of particular activities can support innovative and improved practices.
Citizen Science has become an umbrella term for a variety of forms of public participation in scientific research. This participation ranges from data gathering to more collaborative and community-led forms. Distinct national and cultural traditions shape how and in what fields nonscientists get involved with scientific projects. While public participation is not new, the recent trend to label many activities as “Citizen Science” raises important questions: Who brings what to Citizen Science projects? What relationships develop between experts, communities and policymakers? Where is the line
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TEAM MEMBERS:
Simone RoedderGeoffrey Haines-StilesBruce LewensteinYaela GolumbicAyelet Baram TsabariClaudia GoebelLisa PettiboneEmma WeitkampMuseum für Naturkunde Berlin, Leibniz Institute für Evolution and Biodiversity Science
Providence Children’s Museum was tasked with examining how children demonstrate their learning and thinking through their play at the museum, and how exhibit activities and resources can be designed to build awareness of these learning processes among children’s caregivers and museum educators. The project team created a set of resources, including an exhibit space called Mind Lab, a Circuit Block activity, and an Observation Tool for caregivers that highlighted different types of behaviors associated with learning that happens naturally while children play. Rockman et al conducted a summative
A short outline of the evolution of communications at CERN since 1993 and the parallel growth of the need both for professional communications and, at the same time, the need for training in more and more complex competencies for the new profession.
The profession of explainer is still pretty much undefined and underrated and the training of explainers is many times deemed to be a luxury. In the following pages we make the argument that three main factors contribute to this state of affairs and, at the same time, we try to show why the training of explainers should really be at the core of any science communication institution. These factors are: an erroneous perception of what a proper scientific training means for explainers; a lack of clear definition of the aptitudes and role of explainers required by institutions that are evolving
Project TRUE seeks to increase the interest of high school students in pursuing science, technology, engineering and mathematics majors by increasing participants’ exposure to urban ecology research conducted with college mentors. The Lifelong Learning Group is conducting research that explores the program’s longer-term influence on academic and career choices. More specifically, the research addresses the question: How do the four key elements of youth development in Project TRUE contribute to pursuit of advanced STEM study and career path in the short- and medium-term? This report presents