The New York Hall of Science (NYSCI) will develop, test, market, and disseminate an interactive graphic novel iBook that will use the interests of young people (ages 10–14) in animals and comics to engage them in learning about health and clinical research. Provisionally called “Transmission: Astonishing Tales of Human-Animal Diseases,” the project represents a new approach to engaging young people in biomedical science learning.
Graphic novels are one of the fastest growing categories in publishing and bookselling, and today, they are significantly more sophisticated than the comics that came before them. They are also enormously popular among young people. The proposed graphic novel iBook will focus on the diseases that humans and animals share and pass between them (sometimes to devastating consequences), from Ebola, bird flu, and West Nile disease to influenza, measles, and pneumonia. Moreover, like many other contemporary graphic novels, it will address a pressing issue of the day—amely, the growth of zoonotic and anthropozoonotic diseases.
The iBook will be developed in a digital, interactive format (a growing trend within the genre) and, like many graphic novel titles, will take a mystery and forensic crime approach to exploring its content. Ultimately, Transmission will become a national model for conveying biomedical understanding through the use of up-to-the-minute interactive iBook technologies and an engaging graphic novel format.
The Computational Thinking in Ecosystems (CT-E) project is funded by the STEM+Computing Partnership (STEM+C) program, which seeks to advance new approaches to, and evidence-based understanding of, the integration of computing in STEM teaching and learning. The project is a collaboration between the New York Hall of Science (NYSCI), Columbia University's Center for International Earth Science Information Network, and Design I/O. It will address the need for improved data, modeling and computational literacy in young people through development and testing of a portable, computer-based simulation of interactions that occur within ecosystems and between coupled natural and human systems; computational thinking skills are required to advance farther in the simulation. On a tablet computer at NYSCI, each participant will receive a set of virtual "cards" that require them to enter a computer command, routine or algorithm to control the behavior of animals within a simulated ecosystem. As participants explore the animals' simulated habitat, they will learn increasingly more complex strategies needed for the animal's survival, will use similar computational ideas and skills that ecologists use to model complex, dynamic ecological systems, and will respond to the effects of the ecosystem changes that they and other participants elicit through interaction with the simulated environment. Research on this approach to understanding interactions among species within biological systems through integration of computing has potential to advance knowledge. Researchers will study how simulations that are similar to popular collectable card game formats can improve computational thinking and better prepare STEM learners to take an interest in, and advance knowledge in, the field of environmental science as their academic and career aspirations evolve. The project will also design and develop a practical approach to programing complex models, and develop skills in communities of young people to exercise agency in learning about modeling and acting within complex systems; deepening learning in young people about how to work toward sustainable solutions, solve complex engineering problems and be better prepared to address the challenges of a complex, global society.
Computational Thinking in the Ecosystems (CT-E) will use a design-based study to prototype and test this novel, tablet-based collectable card game-like intervention to develop innovative practices in middle school science. Through this approach, some of the most significant challenges to teaching practice in the Next Generation Science Standards will be addressed, through infusing computational thinking into life science learning. CT-E will develop a tablet-based simulation representing six dynamic, interconnected ecosystems in which students control the behaviors of creatures to intervene in habitats to accomplish goals and respond to changes in the health of their habitat and the ecosystems of which they are a part. Behaviors of creatures in the simulation are controlled through the virtual collectable "cards", with each representing a computational process (such as sequences, loops, variables, conditionals and events). Gameplay involves individual players choosing a creature and habitat, formulating strategies and programming that creature with tactics in that habitat (such as finding food, digging in the ground, diverting water, or removing or planting vegetation) to navigate that habitat and survive. Habitats chosen by the participant are part of particular kinds of biomes (such as desert, rain forest, marshlands and plains) that have their own characteristic flora, fauna, and climate. Because the environments represent complex dynamic interconnected environmental models, participants are challenged to explore how these models work, and test hypotheses about how the environment will respond to their creature's interventions; but also to the creatures of other players, since multiple participants can collaborate or compete similar to commercially available collectable card games (e.g., Magic and Yu-Go-Oh!). NYSCI will conduct participatory design based research to determine impacts on structured and unstructured learning settings and whether it overcomes barriers to learning complex environmental science.
Students find meaning and relevance in their learning when they connect lessons to real-world issues and possible career paths. The U.S. Fish and Wildlife Service’s (FWS) Conservation Connect, a freely available video series, connects learners to wildlife, technology, and careers. Videos and supplementary resources are designed to serve middle school youth, but elementary and high school educators—and even FWS retirees—report that they also use the tools. Each episode features a species, a conservation career, and technology that professionals use to study or protect that species and its
The mixed methods randomized experimental study assessed a model of engagement and education that examined the contribution of SciGirls multimedia to fifth grade girls’ experience of citizen science. The treatment group (n = 49) experienced 2 hours of SciGirls videos and games at home followed by a 2.5 hour FrogWatch USA citizen science session. The control group (n = 49) experienced the citizen science session without prior exposure to SciGirls. Data from post surveys and interviews revealed that treatment girls, compared to control girls, demonstrated significantly greater interest in their
The project will research and further develop an interactive platform, Visitor Interactions in Microbiology (VIM), that enables museum visitors to influence and learn about the behavior of live microorganisms. Hands-on museum exhibits encourage visitors to engage with, and manipulate, scientific content. Currently, museum visitors experience microbiology by observing microorganisms through a microscope, through models, or through simulations, all of which limit interactivity. With the VIM platform, visitors draw on a screen or use a Kinect motion sensor to generate microscopic light images. The single celled organisms respond to these images in real-time. Preliminary testing shows that the platform has significant potential to promote prolonged engagement and science inquiry by visitors. The project will develop and research additional technological and design considerations to understand how VIM can be translated into effective museum exhibits. This project is supported by the Advancing Informal STEM Learning (AISL) program which funds research and innovative resources for use in a variety of settings as a part of its overall strategy to enhance learning in informal environments.
Project researchers will first compare VIM to existing microscopic exhibits to investigate both advantages as well as limitations with the platform. Based on that research, three iterations of prototypes of VIM and user testing will explore possible extensions of VIM with respect to modes of visitor interactions, types of organisms and types of stimuli. In addition to improving the VIM platform, the knowledge gained from this study will inform a new approach to informal science learning -- an approach that supports self-directed inquiry, interest in microbiology, and interest in underlying technology. The project will produce: (1) research results concerning the potential of VIM and the variety of interaction modes that are effective using the system and (2) an open-source catalogue of hardware, software and protocol instructions that will enable other institutions to take advantage of the research on VIM. Project research findings and resources will be widely disseminated to practitioners via conferences and professional journals. The research will provide the foundation for future work that will include the design of a permanent exhibition.
As a part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds research and innovative resources for use in a variety of settings. This Innovations in Development project will develop new knowledge about joint parent-child participation in science talk and practices using a 2nd screen app synced with a television program. "Splash! Ask-Me Adventures" is an app designed to work in conjunction with a marine science-focused television program for children 2-8 years old that will premier nationally on PBS Kids (Fall 2016). This free app will include a variety of "Conversation Catalysts" tied to the television episodes to help parents support children's science learning at home and in other venues such as aquariums and science centers. The project aims to support children's conceptual understanding of science concepts and practices, empower parents and caregivers to facilitate learning during media engagement, and contribute to the research literature on joint engagement with media. Collaborating project partners include The Jim Henson Company, Curious Media, SRI Education, and The Concord Consortium. Innovation in new methodology and instrumentation resulting from this project includes the creation of two new research tools to measure (1) families' discourse while engaging with media and (2)the impact of "Splash! Ask-Me Adventures" on children's science learning. Potential contributions to society-at-large are: (1)young learners will be better prepared to meet STEM curriculum milestones in school and scientific/technical challenges as adults; (2) parents will use new dialogic questioning skills to become more confident and active learning facilitators during media and non-media experiences with their children; (3) Conversation Catalysts, a new sub-genre of educational apps will emerge, based on proven theories of beneficial adult-child interaction and the impact of designed joint engagement with media on informal learning; and (4)a new generation will embrace marine stewardship.
Roots of Wisdom (also known as Generations of Knowledge; NSF-DRL #1010559) is a project funded by the National Science Foundation that aims to engage Native and non-Native youth (ages 11-14) and their families in Traditional Ecological Knowledge (TEK) and western science within culturally relevant contexts that present both worldviews as valuable, complementary ways of knowing, understanding, and caring for the natural world. The Oregon Museum of Science and Industry (OMSI) and its partner organizations, The Indigenous Education Institute (IEI), The National Museum of the American Indian (NMAI
Roots of Wisdom (also known as Generations of Knowledge) is a 5-year project funded by the National Science Foundation (NSF-DRL #1010559) in support of a cross-cultural reciprocal collaboration to develop a traveling exhibit, banner exhibit, and education resources that bring together Traditional Ecological Knowledge (TEK) and western science. The summative evaluation for public audience impacts was conducted by the Lifelong Learning Group (COSI, Columbus, OH), in collaboration with Native Pathways (Laguna, NM).
The majority of the world’s billions of biodiversity specimens are tucked away in museum cabinets with only minimal, if any, digital records of the information they contain. Global efforts to digitize specimens are underway, yet the scale of the task is daunting. Fortunately, many activities associated with digitization do not require extensive training and could benefit from the involvement of citizen science participants. However, the quality of the data generated in this way is not well understood. With two experiments presented here, we examine the efficacy of citizen science participants
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TEAM MEMBERS:
Elizabeth EllwoodHenry BartMichael DooseyDean JueJustin MannGil NelsonNelson RiosAustin Mast
The lack of diversity in the clinician-scientist workforce is a “very serious concern to the NIH” and to health care professions. Current efforts to broaden participation in STEM fields typically target high school and college-age students. Yet, history and national trends suggest that these efforts alone will not result in rapid or significant change because racial and ethnic disparities are already evident by this time. Children are forming career preferences as early as elementary school, a time when they have little exposure to science and STEM career options. The overall vision of this team is to meet the nation’s workforce goal of developing a diverse, clinician-scientist workforce while meeting the nation’s STEM goals. As a step toward this vision, the goal of This Is How We “Role” is to inspire elementary school students towards careers as clinician-scientists by increasing the number of K-4 students with authentic STEM experiences.
This goal will be attained through two specific aims. The focus of Aim 1 is to distribute and evaluate a K-4 afterschool program across the diverse geographic regions of the US, to support the development of a robust and diverse clinician-scientist workforce. Aim 2 is focused on developing the community resources (afterschool program curriculum, informational books and online certificate program) for promoting health science literacy and encouraging careers in biomedical and clinical research for K-4 students from underserved and underrepresented communities. Combined, these aims will enhance opportunities for young children from underserved communities to have authentic STEM experiences by providing culturally responsive, afterschool educational programs which will be delivered by university student and clinician-scientist role models who are diverse in gender, race, and ethnicity.
Books and an online certificate program about health issues impacting people and their animals (i.e. diabetes, tooth decay) will be developed and distributed to children unable to attend afterschool programs. Further, by engaging veterinary programs and students from across the US, along with practicing veterinarians, this program will examine whether the approaches and curriculum developed are effective across the diverse communities and geographic regions that span the country. Elementary school teachers will serve as consultants to ensure that educational materials are consistent with Next Generation Science Standards, and will assist in training university students and clinician-scientists to better communicate the societal impact of their work to the public.
The program will continue to use the successful model of engaging elementary school students in STEM activities by using examples of health conditions that impact both people and their animals. Ultimately, this project will educate, improve the health of, and attract a diverse pool of elementary school students, particularly those from underserved communities, to careers as clinician-scientists.
Science and wildlife films are very common and widely viewed. Yet, most of the makers of these films have entered the profession because of their knowledge or interest in science and wildlife. Given the potential for a rather circuitous route to the profession many filmmakers benefit tremendously from engagement in professional development. We have detailed the professional development needs of novice and expert science and wildlife filmmakers ranging from keeping current with technology to consideration of engaging audiences beyond the viewing. We have also addressed gaps in the current
"Genetically Modified Organisms" are not a consistent category: it is impossible to discuss such a miscellaneous bunch of products, deriving from various biotech methods, as if they had a common denominator. Critics are too often pre-emptively suspicious of peculiar risks for health or the environment linked to this ill-assorted ensemble of microorganisms, plants or animals: yet, even before being unscientific, the expression "GMO(s)" has very poor semantic value. Similarly, claims that recombinant DNA technology is always safe are a misjudgement: many unsatisfactory "GMOs" have been discarded