This is an NSF Postdoctoral Research Fellowship in Biology, under the program Broadening Participation of Groups Under-represented in Biology. The fellow, Robert Habig, is conducting research and receiving training that is increasing the participation of groups underrepresented in biology. The fellow is being mentored by David Lahti at Queens College, City University of New York. The goal of the fellow's project is to perform a comparative evolutionary analysis of nest construction in the weaverbirds (Ploceus spp.). The evolutionary history of behavior can be nearly intractable and resistant to quantitative analysis. One strategy for illuminating our understanding of behavioral evolution is to conduct comparative studies of animal architectures, such as nests. Unlike behaviors themselves, nests persist through time, and have structures that can be disassociated into several quantitative features, which permits easy and comparable measurements and allows scientists to address questions about evolutionary history and functional relevance. The fellow's research addresses two major questions: (1) How do patterns of nest construction vary within and between species? (2) How do interrelated evolutionary processes shape variation in nest structure? This project is important for advancing foundational scientific knowledge, and will be the first study of weavers incorporating both molecular data and nest morphology to better understand the evolutionary underpinnings of a complex behavioral process. The fellow is also broadening participation in science by mentoring students underrepresented in biology.
The Fellow will reconstruct the evolution of nest construction in Ploceus weaverbirds incorporating advanced phylogenetic and morphological techniques including bioinformatics, computer modeling, X-ray computed tomography, and image processing. The Fellow will also conduct fieldwork in two hotspots of weaverbird diversity, the Awash Valley in Ethiopia and the Limpopo Province of South Africa, and collect behavioral data (e.g. rates of predation and brood parasitism; mating and parental behavior) and morphological data (e.g. nest structure) to test hypotheses of how distinct types of evolutionary selection shape the evolution of nest construction. The proposed comparative study can thus address questions such as how rapidly certain nest structural features evolve, which features are ancestral versus derived, which tend to exhibit phylogenetic signal, and which evolve in response to environmental features. The Fellow is receiving training in three-dimensional morphological analyses, phylogenetic tree construction, bioinformatics, computer modeling, and mentoring skills. The plan to broaden participation includes (1) recruitment, training, and mentoring of Queens College students from underrepresented groups in biology; (2) designing an evolutionary biology curriculum that ties in the research of the fellowship; (3) teaching an evolutionary biology class to underrepresented middle and high school students at the American Museum of Natural History; and (4) facilitating a research team for middle school and high school students.
Informal learning institutions (ILIs) create opportunities to increase public understanding of science and promote increased inclusion of groups underrepresented in Science, Technology, Engineering, and Math (STEM) careers but are not equally distributed across the United States. We explore geographic gaps in the ILI landscape and identify three groups of underserved counties based on the interaction between population density and poverty percentage. Among ILIs, National Park Service lands, biological field stations, and marine laboratories occur in areas with the fewest sites for informal
Final External Evaluation Report for Informal STEM Learning at Biological Field Stations, an NSF AISL Exploratory Pathways project, which studied the pedagogical and andragogical characteristics of informal educational outreach activities at field stations. This report summarizes the project team’s major research activities and the contextual factors that supported that work.
Appendix includes interview protocol.
The Swinomish Indian Tribal Community developed an informal environmental health and sustainability (EHS) curriculum based on Swinomish beliefs and practices. EHS programs developed and implemented by Indigenous communities are extremely scarce. The mainstream view of EHS does not do justice to how many Indigenous peoples define EHS as reciprocal relationships between people, nonhuman beings, homelands, air, and waters. The curriculum provides an alternative informal educational platform for teaching science, technology, engineering, art, and mathematics (STEAM) using identification, harvest
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments. This includes providing multiple pathways for broadening access to and engagement in STEM learning experiences, advancing innovative research on and assessment of STEM learning in informal environments, and developing understandings of deeper learning by participants. This project will research core methods of science documentary film production and impact on audience engagement and understanding. The findings from this study will be used to later produce a film on how the CRISPR genome editing technology will shape agriculture, ecology, and the natural world. The research study and film to be produced will be a collaboration of science communication practitioners and researchers. The intended outcomes are to improve effective science filmmaking and increase impact on audiences. Many people rely on documentary film and videos for science information outside of formal learning environments. Research has shown that video programming can reduce knowledge gaps between those of higher and lower levels of education. But there is little research with findings about what makes a particular style of storytelling effective for engagement and learning outcomes. A recent report of the National Academies of Sciences, Engineering and Medicine identified a significant shortage of social science research with directly applicable lessons for filmmakers. This project addresses this need by providing new frameworks for research and methods to produce science documentaries. Project partners are iBiology, a producer of video resources for learning, and science communication researchers at the University of Wisconsin-Madison.
This project will examine two key questions: 1) In a science documentary film, how does the diversity of the scientists profiled and the use of a narrator shape audiences? perception of content and scientists? and 2) What are effective methods in science filmmaking to visualize the invisible (i.e. explain scientific phenomena that are not easily visualized)? The project begins by testing a recently produced film, Human Nature, that tells the story of the discovery of CRISPR (genome editing), told by the scientists who led the effort. Phase 1 testing will include screenings, focus groups, and experiments run through Amazon Mechanical Turk to test what features of the film (editorial voice and visualization styles) are most effective for communicating scientific content. In Phase 2 video test clips will be produced using a combination of narration and visualization strategies. An experimental design run through Amazon Turk will randomly assign participants to watch a clip using different combinations. Researchers will use this data to parse out what effect seems to be related to particular narration and visualization choices. This quantitative experimental data will be supplemented by qualitative data from focus groups with participants with a diverse range of science experience and demographic backgrounds. Researchers will design a survey-embedded experiment with a U.S. nationally representative sample to see how well the findings translate and change in a broader population.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Dietram ScheufeleSarah GoodwinElliot Kirschner
The science museum field is only starting to look at ways of providing visitors with opportunities for the authentic observation of complex, real-time biological phenomenon. The project will develop and research a microscope-based exhibit with pedagogical scaffolding (i.e., helpful prompts) that responds to visitors' changing views as they explore live samples and biological processes. As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings. Scientific observation is a systematic, complex practice, critical in the biological sciences where investigation is heavily reliant on visual data. Using techniques and equipment similar to what scientists themselves use, the exhibit will enable visitors to see and explore the complex, dynamic visual evidence that scientists themselves see. The exhibit will use new and more affordable high-resolution imaging technology and image analysis software to make microscopic images of living organisms visible. Armed with "smart" (i.e., computer-assisted) pedagogical scaffolding that supports inquiry, the project will develop exhibits that help informal learners bridge the gap between everyday observation and authentic scientific observation. The platform will incorporate strategies grounded in prior work on learning through observation that will be applicable to a range of biological content and live specimens. The project platform will be designed for use to a variety of informal science learning environments, including nature centers and mobile laboratories as well as interactive science centers. The project platform itself, including the microscope, related imaging, and learning technologies will be relatively inexpensive, bring it within reach of small science museum and schools. The exhibit will directly engage thousands of learners who visit the Exploratorium and will reach underserved audiences through partnerships with BioBus, a mobile unit that serves the New York City area, and the Noyo Center of Marine Science, a science museum that serves rural areas in Northern California.
The project will move beyond simulation and modeling of complex visual phenomena and provide learners with experiences using real visual evidence that can deeply engage them with the content and practice of biological science. By grounding the work in prior theoretical and empirical findings, project research will refine and broaden understanding of scaffolding strategies and their effect on informal science learning at exhibits. Project research will investigate how the project supports learners (1) asking productive questions (i.e., those answerable through observations) that are meaningful to them, (2) interpreting what they see, and (3) connecting their observations to biological concepts to build a more coherent understanding of the content and practice of biological disciplines. A series of comparative studies across and within venues, specimens, and content will assess engagement and scaffolding strategies, with a particular focus on appropriately integrating computational imaging techniques in a way that is responsive to the interests and needs of different venues' audiences. Project research will contribute important knowledge on ways to support informal learners who are engaged in authentic observation of biological phenomenon. Project research findings and technology resources will be widely shared with informal STEM researchers and practitioners concerned with engaging the public in current research in biology, as well as those interested in supporting observation in other disciplines (e.g., meteorology, ocean science, environmental science) that rely on an evidence base of live, dynamic, complex imagery.
This Innovations in Development award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
This front-end evaluation study is part of Designing Our Tomorrow: Mobilizing the Next Generation of Engineers, a five-year project (2018–2023) led by the Oregon Museum of Science and Industry (OMSI) with the support of the National Science Foundation (NSF, DRL-1811617) and project partners: Adelante Mujeres, the Biomimicry Institute, and the Fleet Science Center. The Designing Our Tomorrow (DOT) project seeks to promote and strengthen family engagement and engineering learning via compelling exhibit-based design challenges, presented through the lens of sustainable design exemplified by
Our goal in creating this guide is to provide practitioners, organizations, researchers, and others with a “one-stop shop” for measuring nature connections. The guide is for those interested in assessing and enhancing the connections their audiences have to nature; we use the term “audience” to refer broadly to your participants or to any group you are trying to assess. The guide can help you choose an appropriate tool (for example, a survey or activity) for your needs, whether you work with young children, teenagers, or adults (see the Decision Tree on p. 14). The guide also includes 11 tools
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TEAM MEMBERS:
Gabby SalazarKristen KunkleMartha Monroe
Learning to See, Seeing to Learn is a National Science Foundation-funded project to develop www.macroinvertebrates.org, a digital observation tool and set of informational resources that can supplement volunteer biomonitoring trainings and improve aquatic macroinvertebrates identification. Project researchers are interested in how trainers and volunteers use the tool, as well as how training that incorporates the tool impacts volunteers’ confidence in and accuracy around aquatic macroinvertebrates identification. In November 2018, project partner, Stroud Water Research Center, conducted a
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative research, approaches, and resources for use in a variety of settings.
This RAPID was submitted in response to the NSF Dear Colleague letter related to the COVID-19 pandemic. This award is made by the AISL program in the Division of Research on Learning, using funds from the Coronavirus Aid, Relief, and Economic Security (CARES) Act. The project will develop and research an integrated package of high-quality, widely accessible media and other outreach materials designed to engage middle school youth, educators, and libraries in learning about viruses in relation to COVID-19. There is an immediate need to provide youth with accurate, engaging, and accessible materials to help them understand the basic biology underlying the COVID-19 pandemic, including the routes of COVID-19 transmission and mechanisms to prevent its spread. This is particularly important for those without science backgrounds or interests so that the rumors, hearsay, and gossip circulating among youth can be replaced with research-based information. Since 2007, the project team and partners have focused on developing and studying new ways of educating youth and the public about biology, virology, and infectious disease. The project will develop a web-accessible package of customizable graphics, illustrated stories, and essays--all of which can be easily incorporated into free-choice and directed on-line learning as well standards-based lesson plans for Grades 6-8. These resources will be disseminated broadly and at no cost to youth and educators of all kinds, including schools, libraries, museums, and other established networks for formal and informal science education. The project web package will be linked to multiple websites that serve as important educational resources on science and virology for youth, the general public, and educators. A prominent university press will publish and promote the illustrated stories and support distribution of 7,000 free copies.
The project will conduct research examining how richly-illustrated science narratives impact youth understanding of and curiosity about science. The research will help develop the foundation for better understanding how to educate youth about COVID-19 (and future pandemics) while generating new knowledge about effective methods for public science outreach during a major unanticipated natural event. For formative evaluation, the project will use an innovative rapid response feedback method. Youth will be invited to provide timely, specific comments on the serialized stories through a curated portal. As new excerpts are related online, different questions will be posed to youth who are selected because of specific characteristics (e.g., low or high initial science interest). These data will guide story development in real time and provide a mechanism to gauge the story appeal, comprehensibility, and initial impacts. The project will address two research questions: (1) How effective are illustrated stories in having positive impacts among participants on COVID-19 knowledge, science identity, attitudes, and interest in science careers?; and (2) How do story lines and characters have differential impacts on virus knowledge, epidemiology, and youth attitudes towards science and science careers? To conduct this research, the project will conduct online surveys using adapted items from prior research conducted by the project team. Additional items will assess COVID-19 knowledge, attitudes, personal experiences with the virus, well-being, and exposure to public health messaging about the virus. Research findings will be shared widely to inform the field about new ways delivering science education content during the advent of rapidly evolving global and educational challenges.
This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.
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TEAM MEMBERS:
Judy DiamondJulia McQuillanPatricia Wonch HillElizabeth VanWormer
Char Associates conducted an evaluation of the four-year, NSF-funded project, Interpreters and Scientists Working on Our Parks (iSWOOP). The project brought interpreters and scientists together in multi-day professional development sessions at five national parks with the purpose of showcasing scientific research that usually goes unseen and unappreciated by park visitors. iSWOOP coordinated the development and delivery of digital libraries including animations, still photos, thermal and high-speed videos, and maps to give visual support to explanations of particular scientific studies. In
This document represents the story of Native Universe: Indigenous Voice in Science Museums and how it has unfolded at the project level, the three case study museum sites, and through partnerships between tribal communities and the three science museums. Modeled on the project itself, our research and evaluation team brings together Indigenous and conventional, western evaluation and research practices, through a collaborative partnership between the Lifelong Learning Group, based at COSI’s Center for Research and Evaluation (Columbus, OH) and Native Pathways (Laguna, NM). The results of