The John G. Shedd Aquarium’s Department of Learning Planning & Evaluation synthesizes learning research, develops evaluation plans with Learning Group staff, and assists with data analysis and interpretation for education programs. The Research Associate’s primary responsibility is reviewing literature, both research-based and practitioner-based, and synthesizing these findings into comprehensive research narratives. These narratives are used by staff members in the Learning Group to help them determine their suite of experiences and instructional strategies. Depending on the topic of the
America's adult populace has failed to keep pace with the rapid inundation of science-centric knowledge affecting nearly every facet of personal, familial, and communal life. With three out of eveiy four American adults considered scientifically illiterate, adult civic science literacy (CSL) has reached alarmingly low levels. The purpose of this research is to determine if the CSL of adults can be elevated through a renewed citizen science paradigm (RCSP)-incorporating nonformal outdoor adult education and structured experiential learning-in which volunteers conduct scientific research in an
"Birds in the Hood" or "Aves del Barrio" builds on the Cornell Laboratory of Ornithology's (CLO) successful Project Pigeon Watch, and will result in the creation of a web-based citizen science program for urban residents. The primary target audience is urban youth, with an emphasis on those participating in programs at science centers and educational organizations in Philadelphia, Tampa, Milwaukee, Los Angeles, Chicago and New York. Participants will develop science process skills, improve their understanding of scientific processes and design research projects while collecting, submitting and retrieving data on birds found in urban habitats. The three project options include a.) mapping of pigeon and dove habitats and sightings, b.) identifying and counting gulls and c.) recording habitat and bird count data for birds in the local community. Birds in the Hood will support CLO's Urban Bird Studies initiative by contributing data on population, community and landscape level effects on birds. Support materials are web-based, bilingual and include downloadable instructions, tally sheets, exercises and results. The website will also include a web-based magazine with project results and participant contributions. A training video and full color identification posters will also be produced. The program will be piloted at five sites in year one, and then field-tested at 13 sites in year two. Regional dissemination and training will occur in year three. It is anticipated that 5,000 urban bird study groups will be in place by the end of the funding period, representing nearly 50,000 individuals.
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Rick BonneyJohn FitzpatrickMelinda LaBranche
I respond to Pike and Dunne by exploring the utilization of citizen science in science education. Their results indicate that students fail to pursue science beyond the secondary level, in part, because of prior educational experiences with science education. Students lack motivation to pursue degrees and careers in science because they feel science is not relevant to their lives or they are simply not good at science. With this understanding, the science education community now needs to move beyond a discussion of the problem and move forward with continued discourse on possible solutions
Mueller, Tippins, and Bryan's contrast of the current limitations of science education with the potential virtues of citizen science provides an important theoretical perspective about the future of democratized science and K-12 education. However, the authors fail to adequately address the existing barriers and constraints to moving community-based science into the classroom. We contend that for these science partnerships to be successful, teachers, researchers, and other program designers must reexamine questions about traditional science education and citizen-science programs and attend to
Mueller, Tippins, and Bryan (2012) presented a new conceptualization of citizen science that is meant to facilitate emerging trends in the democratization of science and science education to produce civically engaged students. This article reviews some relevant trends in the field of citizen science, for clarity here referred to as public participation in scientific research (PPSR), and presents overlooked styles and outcomes of PPSR. Education efforts should seize the opportunity to emphasize the key and distinct roles students can play in both the science and the values elements that inform
Citizen science programs are increasingly popular for a variety of reasons, from public education to new opportunities for data collection. The literature published in scientific journals resulting from these projects represents a particular perspective on the process. These articles often conclude with recommendations for increasing “success”. This study compared these recommendations to those elicited during interviews with program coordinators for programs within the United States. From this comparison, success cannot be unilaterally defined and therefore recommendations vary by perspective
SciStarter is the place to find out about, take part in, and contribute to science through citizen science, recreational activities and research projects. If you're a scientist or a representative of a citizen science organization or community group: This is the place to tell eager people about your work and get them interested in helping out. We aim to: 1) Enable and encourage people to learn about, participate in, and contribute to science through both informal recreational activities and formal research efforts; 2) Inspire greater appreciation and promote a better understanding of science and technology among the general public; 3) Create a shared space where scientists can talk with citizens interested in working on or learning about their research projects and 4) Satisfy the popular urge to tinker, build, and explore by making it simple and fun for people to jump in and get their hands dirty with science.
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SciStarter (a division of Science For Citizens)Darlene Cavalier
This is a collaborative research project between Montana State University (MSU), Bozeman, USA and Gorno-Altaisk State University (GASU), Altai Republic, Russian Federation. In this NSF International Research Experiences for Students project MSU students will travel to the Altai Republic and work with faculty and students at Gorno-Altaisk University to conduct research related to native language use in learning ecological sciences in informal settings. Student researchers will conduct individual studies related to the project theme of science learning in ecological contexts. This project will help students learn how to conduct educational research related to the ecological learning experiences of indigenous youth (ages12-16) and the use and influence of native language in learning about environment. This research directly addresses the results of our prior NSF supported work that identified shared issues of indigenous people, natural resources and the decline of native language use among underserved populations in the Altai and Yellowstone systems. This project contributes significantly to our emerging understanding of science learning in informal settings. It addresses a unique conception of ecological learning in three dimensions; personal, community and cultural perspectives. Research and education objectives align with modern conceptualizations of informal science learning as proposed by the National Academies of Science (2009). The MSU-GASU collaboration provides a holistic view of science learning and will unite diverse intellectual resources and research efforts in unique ecological and social systems. Both the Yellowstone and Altai mountain systems are of global concern as part of worldwide natural and cultural resources impacted by pervasive development, recreation and tourism activities and climate change. The underlying theoretical foundation for learning proposed in this research project is the basis for effective approaches to enable isolated rural populations to contribute traditional knowledge and wisdom to contemporary issues related to world-wide ecological and cultural issues including global climate change. Aspects of sustainability practices that are embedded in the knowledge and social processes of both marginalized and dominant societies will be better understood and taken into consideration for future research and education activities. Research outcomes will contribute to more effective informal, place-based and experiential science learning to help empower communities and decision makers in meeting challenges of sustainability. Inevitably, we expect this work to extend our understanding of science learning related to critical natural and cultural resources and their management. An understanding of how, why and where learning takes place will help extend the US and international research and education agendas related to informal science learning, natural and cultural resource management and sustainability.
Non-technical part.
This is a collaborative research project between Montana State University (MSU), Bozeman, USA and Gorno-Altaisk State University (GASU), Altai Republic, Russian Federation. In this NSF International Research Experiences for Students project MSU students will travel to the Altai Republic and work with faculty and students at Gorno-Altaisk University to conduct research related to native language use in learning ecological sciences in informal settings. Student researchers will conduct individual studies related to the project theme of science learning in ecological contexts. This project we will help students learn how to conduct educational research related to the ecological learning experiences of indigenous youth (ages12-16) and the use and influence of native language in learning about environment. Three cohorts of five MSU students will travel to the Altai Republic for eight weeks in the summers of 2013, 2014 & 2015. MSU students will comprise a research team with GASU science, education and language faculty to conduct research in the city of Gorno-Altaisk, two medium size villages such as Onguday and two small villages such as Karakol. We expect to work with youth in each setting and interview a representative sample at each site. As a research team we expect to gain a better understanding of how indigenous youth use native Altai language in informal settings to learn about environment. We expect to compare sights within the study. As part of our larger research interests in ecological learning and native people, we will conduct a similar comparative study in the Yellowstone Ecosystem with Native American youth. The studies associated with this project will add to our understanding about the extent and nature of native language use to learn science in underserved populations in very sensitive and unique ecological and cultural settings.
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TEAM MEMBERS:
Michael BrodyClifford MontagneArthur BangertChristine StantonShane Doyle
Across the globe, citizen science projects are becoming increasingly poised to address social and environmental challenges and answer broad scientific questions. Although rapidly increasing in number, these projects need easy-to-use software tools for data management, analysis, and visualization to be successful. This project transforms how citizen science projects unfold locally, regionally, and globally by creating software that supports the full spectrum of project activities. It empowers projects to ask and answer their own local questions while contributing data critical to larger-scale issues. These tools will allow projects to announce training events; track volunteers; create datasheets; enter, review, analyze, and visualize data; publish reports; discover resources; integrate data; and ensure that data are contributed to repositories (e.g., DataONE, NEON, GBIF, HydroShare, and EOL). Tools will be made available to citizen science projects and will be delivered as reusable software elements for use in existing websites; as website features on CitSci.org; and as Application Programming Interface (API) services and mobile applications. The tools will expand the national reach, local appeal, computational abilities, visualization techniques, statistical analysis capabilities, and interoperability of the nations' cyber-infrastructure. Using participatory design and agile methods, the project will: (1) develop reusable software elements that citizen science organizations can embed into their own websites, (2) harden and expand the functionality and capabilities of CitSci.org through new website features, and (3) extend the APIs of CitSci.org and develop associated mobile applications to increase system and tool interoperability. The target user communities will include citizen science project coordinators. It will deliver customizable tools and services related to all project activities and engage projects across a wide array of disciplines. Project coordinators will be able to customize all tools developed to suit their specific project needs. Adoption and use of the tools developed will create a cyber-ready workforce capable of collecting, contributing, and applying high quality ecological, geophysical, social, and human health related observations to solve real-world problems. These broader impacts will help the citizen science community better understand effective models of public engagement to ensure more impactful application of citizen science to societal challenges.
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Gregory NewmanStacy LynnMelinda Laituri
The Exploring Engagement and Science Identity Through Participation is a research project that examines the outcomes of various citizen science models for Public Participation in Scientific Research (PPSR). The investigation specifically targets citizen science projects that focus on relationships between science learning and science identity. A mixed-method, meta-analysis approach will be employed. The two primary goals of the study are to better understand science learning and science identify within PPSR contexts and to develop a valid Participant Engagement Metric (PEM) for use within PPSR contexts. Data will be collected and analyzed from several PPSR projects and over 4,000 PPSR participants. The project will address several research questions: (1) What are the dimensions of PPSR engagement and how can we measure them across different project models? The research for this question will include approximately 50 interviews of participants in six primary projects representing a range of PPSR approaches to develop and validate a Participant Engagement Metric (PEM) that will be constructed from the frequency, duration and intensity of involvement in key activities. The project will use a constant comparative method of data analysis (processing of data as they are gathered in order to compare them with emerging categories. The development of the PEM will be one concrete outcome of the proposed research. (2) Within and among projects, what is the relationship between participant engagement and individual learning outcomes? The project will use validated measures of learning outcomes derived from Learning Science in Informal Environments (NRC, 2009) and developed for the DEVISE project described below. The six measures include: Behavior & Stewardship, Skills of Science Inquiry, Knowledge of the Nature of Science, Interest in Science & the Environment, Efficacy, and Motivation. The proposed research will look at how engagement affects learning outcomes, as assessed by these six measures (science interest, efficacy, etc.). The project will conduct participant surveys in the six participating citizen science projects in addition to several other PPSR projects to test the relationship of the PEM and other measures of activity involvement to the learning outcomes measured by the survey instruments developed and validated through a previous project. The data analysis will begin with univariate summary statistics that will provide an overview of the basic dataset. Inferential statistics including multiple regression analysis will be used to test the relationships among the independent variables (type of PPSR project, demographics), PEM as a mediator variable, and the dependent variables. (3) How does degree and quality of participation in scientific research develop and/or reinforce individual science identity? The project will conduct a 3-year longitudinal study using surveys, a series of in-depth interviews, and on-site observations of 36 participants from the six primary projects to understand the development of individual science identity within PPSR environments over time. Quantitative and qualitative data and findings will be "triangulated" to determine if convergent, inconsistent or complementary results can be identified. The project proposes a strong dissemination plan, using these approaches, to present research in journals, disseminate research briefs, host online forums, and launching various listserves and online forums at the citizenscience.org website.
SciGirls and Citizen Science: Real Data, Real Kids, Real Discoveries SciGirls is showcasing Citizen Science! From their own backyards to a NASA research center, the bright, relatable, real girls featured on the groundbreaking PBS series are seriously into science, technology, engineering and math, or STEM. And Season Three of SciGirls finds these STEM adventurers tracking toads, counting clouds and much more, all in the name of citizen science. The brand-new season of the Emmy-winning show, featuring six stand-out episodes, debuted April 2015 on PBS KIDS (check local listings) and online at http://pbskids.org/scigirls. Citizen science is the newest STEM frontier that engages the general public –and kids – in real science. Scientists worldwide invite ordinary people—like the SciGirls—to observe and record data about everything from birds to beaches, monarch butterflies to maple trees. The data is then shared with scientists, who use it to generate new scientific knowledge. In six exciting new episodes, middle school girls and their female STEM professional mentors hit the great outdoors, cataloging frog calls, tracking the changing seasons, verifying satellite imagery of clouds, monitoring fragile butterfly populations, improving urban bird habitats, and advocating for healthy oceans. In addition, animated characters Izzie and Jake are back and finding themselves in sticky situations that can only be solved by STEM—and the SciGirls. When the SciGirls share their data with professional scientists, they save the day for Izzie and Jake and help save the environment! The new mobile-friendly website at http://pbskids.org/scigirls lets kids play new games, watch episodes and videos, and connect with fellow STEM explorers anywhere, anytime. “Collaboration is the key to successful citizen science,” said SciGirls executive producer Richard Hudson. “Since SciGirls’ beginning, working together—making discoveries, mistakes and friends—is one of the important research-based methods we use to engage girls around STEM. This new season underscores the importance of collaboration within the scientific research community and workforce. SciGirls is fortunate to have powerful partners advising us about citizen science, including the Cornell Lab of Ornithology, NASA and SciStarter.” The SciGirls creative team is headed by Twin Cities Public Television’s Director of Science Content Richard Hudson, Executive Producer of the long-running PBS children’s science series Newton's Apple and creator of DragonflyTV and the SciGirls initiative. Animation is created by Soup2Nuts, producers of PBS’ WordGirl. Strategic partners for the new series are the Cornell Lab of Ornithology, Rick Bonney co-PI, and the National Girls Collaborative Project, co-PI Karen Peterson. SciGirls is made possible by a major grant from the National Science Foundation. Additional funding is provided by INFOR, Northrop Grumman Foundation, and PPG Industries Foundation.