As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This Research in Service to Practice project will examine how a wide range of pre-college out-of-school-time activities facilitate or hinder females' participation in STEM fields in terms of interest, identity, and career choices. The study will address the ongoing problem that, despite females' persistence to degree once declaring a major in college, initially fewer females than males choose a STEM career path. To uncover what these factors might be, this study will look at the extent to which college freshmen's pre-college involvement in informal activities (e.g., science clubs, internships, shadowing of STEM professionals, museum-going, engineering competitions, citizen science pursuits, summer camps, and hobbies) is associated with their career aspirations and avocational STEM interests and pursuits. While deep-seated factors, originating in culture and gender socialization, sometimes lower females' interest in STEM throughout schooling, this study will examine the degree to which out-of-school-time involvement ameliorates the subtle messages females encounter about women and science that can interfere with their aspiration to a STEM careers.
The Social Cognitive Career Theory will serve as the theoretical framework to connect the development of interest in STEM with students' later career choices. An epidemiological approach will be used to test a wide range of hypotheses garnered from a review of relevant literature, face-to-face or telephone interviews with stakeholders, and retrospective online surveys of students. These hypotheses, as well as questions about the students' demographic background and in-school experiences, will be incorporated into the main empirical instrument, which will be a comprehensive paper-and-pencil survey to be administered in classes, such as English Composition, that are compulsory for both students with STEM interests and those without by 6500 students entering 40 large and small institutions of higher learning. Data analysis will proceed from descriptive statistics, such as contingency tables and correlation matrices, to multiple regression and hierarchical modeling that will link out-of-school-time experiences to STEM interest, identity, and career aspirations. Factor analysis will be used to combine individual out-of-school activities into indices. Propensity score weighting will be used to estimate causal effects in cases where out-of-school-time activities may be confounded with other factors. The expected products will be scholarly publications and presentations. Results will be disseminated to out-of-school-time providers and stakeholders, educators, and educational researchers through appropriate-level journals and national meetings and conferences. In addition, the Public Affairs and Information Office of the Harvard-Smithsonian Center for Astrophysics will assist with communicating results through mainstream media. Press releases will be available through academic outlets and Op-Ed pieces for newspapers. The expected outcome will be research-based evidence about which types of out-of-school STEM experiences may be effective in increasing young females' STEM interests. This information will be crucial to educators, service providers, as well as policy makers who work toward broadening the participation of females in STEM.
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TEAM MEMBERS:
Roy GouldPhilip SadlerGerhard Sonnert
The Northwest Passage Project (NPP) is a collaborative effort between the University of Rhode Island (URI), Inner Space Center (ISC), Graduate School of Oceanography (GSO), the film company David Clark Inc., and several other partners, including six Minority Serving Institutions (MSIs) and three informal science education institutions. The project centers on a research expedition into the Arctic's Northwest Passage, which will engage intergenerational cohorts of high school, undergraduate, and graduate students in hands-on research aboard the U.S. tall ship SSV Oliver Hazard Perry (OHP). During the expedition, a professional film crew will produce a two-hour documentary focused on the NPP's innovative model of interdisciplinary informal STEM (science, technology, engineering, and mathematics) learning and highlight the expedition's research, participants, and the sociological issues related to the changing Arctic environment. Because the Canadian Arctic is remote and costly to access, the project will maximize NSF's investment by giving broad audiences access to the science and excitement of the expedition through the documentary. In addition, this informal science learning opportunity will not only engage students with scientists in authentic research, but also train the students to deliver daily live broadcasts from sea to three well-established U.S. informal science education institutions: the Smithsonian National Museum of Natural History (NMNH), the Exploratorium, and the Alaska Sea Life Center (ASLC). The daily broadcasts will also reach the public in real time via the project's interactive website, providing the opportunity for people to post questions to the scientists and students onboard the ship. The NPP has great potential to benefit society by enhancing awareness of the changing Arctic's ecosystems and increasing science literacy. The hands-on research experiences will enhance the college readiness of the participating high school students and encourage the undergraduate students from the six partner MSIs to consider a graduate course of study and/or pursue STEM careers. The graduate students will also be more career-ready, as they gain public communication and leadership skills necessary for 21st century scientists. The Northwest Passage Project is designed to advance knowledge and understanding within the practice of informal science education, as well as in the field of Arctic science. The project goals include: increasing public awareness and understanding of the changing Arctic ecosystem; increase public understanding about Arctic research and the scientific process; increase the Informal Science Education (ISE) field's understanding of the public's learning process when engaged in live interactions with scientists and student 'science communicators'; increase the ISE field's understanding of the value of immersive science experiences and impact on students from underserved and underrepresented populations; and to build or extend the capacity of ISE institutions to make connections between polar scientists, students, journalists and the public. The NPP is creative in that it combines the engagement of students in field-based scientific research, live broadcasts from sea to ISE institutions, and the production of a full-scale documentary for public audiences. A potentially transformative component to the ISE activities involves six Minority Serving Institution partners--Florida International University; University of Illinois, Chicago; California State University, Channel Islands; Texas State University; Virginia Commonwealth University and City College of New York--whose students will have the opportunity for a life-changing experience that may tip the scale toward their interest in STEM careers. Each of these students will develop news stories, host screenings of the film at their respective campuses, and share their experiences with peers, providing visual role models for other underrepresented students, who may never have thought themselves capable of becoming a scientist or science communicator. An additional project goal is to enhance the capacity and infrastructure of the three ISE partner institutions so that they may receive live broadcasts from the Inner Space Center in the future, beyond the funding period of the project. People, Places & Design Research will conduct the project's front-end and formative evaluation; MEM & Associates will conduct the summative evaluation. Some of the key evaluation questions will be: * Have ISE and MSI institution public visitors, who view either the live broadcasts or the documentary film (or both), become more aware of the changing Arctic ecosystem and the importance of scientific research in the Arctic? * What is the relative impact of the live broadcasts compared to the finished documentary, and the strengths and weakness of the respective media in translating the on-board experience? * Does a real environmental and social context for scientific evidence stimulate audiences to become more interested in the role of science/STEM? * Have students gained leadership skills and the ability to communicate science to their peers? * Have students increased their motivation and interest in pursuing STEM careers? This project is funded by the Advancing Informal STEM Learning (AISL) program, which 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.
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TEAM MEMBERS:
Gail ScowcroftDavid ClarkBrice LooseDwight Coleman
This award supports the production of a longitudinal video documentary of the evolution of Advanced LIGO and will chronicle the most critical and exciting period in the history of gravitational wave science in the past 100 years. LIGO resumed the search for gravitational waves in 2015 with a newly upgraded detector and on September 14, 2015 detected gravitational waves for the first time, astounding not only the scientific community but the entire world. Using footage captured at critical periods between August 2015 and March 2016 during the discovery phase as well as new filming taking place over the next two years, the team will produce films which will impact at least hundreds of thousands of people and possibly many more than that. The goal is to educate, inspire, and motivate. Students at the high school and undergraduate levels may be more inspired to pursue STEM careers after watching scientific vignettes focusing on the exciting science and technology of Advanced LIGO. Scientific historians and sociologists will have the opportunity to use the hundreds of hours of available film clips as a video database to investigate in detail the discovery of gravitational waves as a case study of large scale collaborations ("Big Science"). Videos highlighting the cutting edge technological advances brought about by Advanced LIGO and their impacts on other fields of science and technology may prove effective for educating officials and policy makers on the benefits of fundamental science.
During the course of the project, a series of professionally made video shorts will be produced for the LIGO Laboratory and LSC for education and public outreach purposes through distribution on LIGO Laboratory, LSC web sites, and the LIGO YouTube Channel. Through an extensive series of film shoots, XPLR Productions will work with the LIGO Laboratory and the LIGO Scientific Collaboration (LSC) to capture key moments as LIGO scientists work to achieve Advanced LIGO's design sensitivity and carry out a series of observing runs over the next two years. The team will produce a series of video shorts explaining the important scientific and technological concepts and issues of Advanced LIGO by the scientific experts who create them. In the longer term, footage will used to produce either a feature length documentary film or a twelve-part series on television entitled 'LIGO' chronicling the discovery of gravitational waves and the exploration of exotic high-energy astrophysical phenomena such as colliding black holes. Intended for broad distribution through cinema or television, 'LIGO' will bring science to life for a wide audience.
On August 21, 2017, a total solar eclipse will traverse the United States from Oregon to South Carolina. Millions of Americans will witness totality, in which the Moon completely blocks the Sun, and over 500 million people across North America will experience a partial eclipse. In this project, the American Astronomical Society (AAS) will forge an umbrella organization consisting of an eclipse project manager, a centralized website of resources, and a mini-grants program to coordinate and facilitate local and national activities that will educate the public about the science of this rare event. The project will leverage this fascinating display of beauty to engage as many people as possible in the endeavor of science.
This project will involve scientists, educators, and amateur and professional eclipse observers in developing extensive plans for unique outreach activities to reach a significant fraction of the diverse U.S. population. The goal is to use the eclipse, which will generate significant media attention, to educate a broad audience about the associated science and to encourage young people from widely diverse backgrounds to pursue careers in science. Special emphasis will be placed on citizen science projects and on educational activities targeting groups that are underrepresented in STEM disciplines. A mini-grants program will be established to fund efforts specifically targeting underrepresented groups in order to increase their participation. The evaluation plan will focus on the utilization of the materials on the website and the learning gains of participants in specific activities funded by the mini-grants. All lessons learned will be collated in a publicly available formal report and will lay the groundwork for a strategic plan to fully capitalize on the next U.S.-based solar eclipse in 2024. Because this project aligns well with the objectives of multiple NSF directorates, this award is co-funded by the Division of Undergraduate Education and the Division of Research on Learning in the Directorate for Education and Human Resources; the Division of Astronomical Sciences in the Directorate for Mathematical and Physical Sciences; and the Division of Atmospheric and Geospace Sciences in the Directorate for Geosciences.
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TEAM MEMBERS:
Kevin MarvelAngela SpeckShadia HabbalRichard Fienberg
Citizen science engages members of the public in science. It advances the progress of science by involving more people and embracing new ideas. Recent projects use software and apps to do science more efficiently. However, existing citizen science software and databases are ad hoc, non-interoperable, non-standardized, and isolated, resulting in data and software siloes that hamper scientific advancement. This project will develop new software and integrate existing software, apps, and data for citizen science - allowing expanded discovery, appraisal, exploration, visualization, analysis, and reuse of software and data. Over the three phases, the software of two platforms, CitSci.org and CyberTracker, will be integrated and new software will be built to integrate and share additional software and data. The project will: (1) broaden the inclusivity, accessibility, and reach of citizen science; (2) elevate the value and rigor of citizen science data; (3) improve interoperability, usability, scalability and sustainability of citizen science software and data; and (4) mobilize data to allow cross-disciplinary research and meta-analyses. These outcomes benefit society by making citizen science projects such as those that monitor disease outbreaks, collect biodiversity data, monitor street potholes, track climate change, and any number of other possible topics more possible, efficient, and impactful through shared software.
The project will develop a cyber-enabled Framework for Advancing Buildable and Reusable Infrastructures for Citizen Science (Cyber-FABRICS) to elevate the reach and complexity of citizen science while adding value by mobilizing well-documented data to advance scientific research, meta-analyses, and decision support. Over the three phases of the project, the software of two platforms, CitSci.org and CyberTracker, will be integrated by developing APIs and reusable software libraries for these and other platforms to use to integrate and share data and software. Using participatory design and agile methods over four years, the project will: (1) broaden the inclusivity, accessibility, and reach of citizen science; (2) elevate the value and rigor of citizen science software and data; (3) improve interoperability, usability, scalability and sustainability of citizen science software and data; and (4) mobilize data to allow cross-disciplinary research and meta-analyses. These outcomes benefit society by making citizen science projects and any number of other possible topics more possible, efficient, and impactful through shared software and data. Adoption of Cyber-FABRICS infrastructure, software, and services will allow anyone with an Internet or cellular connection, including those in remote, underserved, and international communities, to contribute to research and monitoring, either independently or as a team. This project is also being supported by the Advancing Informal STEM Learning (AISL) program, which seeks to advance new approaches to, and evidence-based understanding of, the design and development of STEM learning in informal environments.
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TEAM MEMBERS:
Gregory NewmanLouis LiebenbergStacy LynnMelinda Laituri
Adult education beyond K-12 and postsecondary levels is very important as this citizenry group is often the policy and decision makers in local communities, as well as for state and federal issues that impact the Nation. Moreover, they are responsible for advising their progeny on a myriad of choices. This project will plan, execute, and promote four annual public lecture events, working with a professional educational evaluation expert to develop an appropriate assessment tool for adult learners in the structured informal learning environment of a science café. These planned events will be used to test and refine an assessment tool for making this work widely available to the community of informal science practitioners and researchers. Further, this project is a pilot for epitomizing the use of science cafés to address the learning needs of unique citizens of Richmond, Virginia. The project is committed to including under-represented citizens including Veterans with disabilities. The evaluation and research efforts will validate the education mechanisms so science cafés can be more effective in the future. 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 project is a collaboration that includes Virginia Commonwealth University (VCU), Rockman et al (an evaluation firm), Science Pub RVA (Science Pub RVA is a long-running and award-nominated Richmond, VA science café), Carver Community Partnership, East District Family Resource Center, VCU Partnership for People with Disabilities, VCU Department of Rehabilitation Counseling, VCU Medical Center, and a variety of other VCU departments. The investigators will conduct a series of science cafés to determine motivation, interests, and best practices for educating the diverse citizens of Richmond, Virginia. The objective of the research is to rigorously analyze the characteristics of participants and cohesively determine the best practices for the effective learning for each person. Further, rigorous evaluation will determine validity of the best and most effective learning practices enabling the project to derive an adaptable model. The investigators' hypothesis is that the participant's knowledge base is derived from the traditional learning which occurred in the K-12 classroom. Thus, in this work, the investigators hope to add to the participant's knowledge base with STS (Science, Technology, and Society) content and enhance the depth and breadth of knowledge and knowledge acquisition. The research scope will embrace an assessment that is based on the three vertices of a triangle composed of cognition, observation, and interpretation, all of which converge on the nature of science, the relevance of science to everyday life, and decision-making behaviors.
As part of its overall strategy to enhance learning in informal environments, the Advancing Informal STEM Learning (AISL) program funds innovative resources for use in a variety of settings. This proposed effort embraces broad participation by the three Ute tribes, History Colorado, and scientists in the field of archaeology to investigate and integrate traditional ecological knowledge and contemporary Western science. The project will preserve knowledge from the Ute peoples of Colorado and Utah, including traditional technology, ethnobotany, engineering and math. Results from this project will inform educational efforts in similar communities.
This project will build on the long-standing collaborations between History Colorado (HC), the Southern Ute Indian Tribe, Ute Mountain Ute Tribe and Ute Indian Tribe, Uintah & Ouray Reservation, and the Dominguez Archaeological Research Group DARG). HC will implement and evaluate a regional informal learning collaboration focused on Ute traditional and contemporary STEM knowledge serving over 128,000 learners through tribal programs, local history museums and educational networks. This project will advance the understanding of integrated knowledge and the role of Ute people as STEM learners and practitioners. This Informal Science Learning project will increase lifelong STEM learning in rural communities and create a replicable model for collaboration among tribes, history museums, and scientists.
The Center for Advancement of Informal Science Education (CAISE) is a National Science Foundation (NSF) funded resource center, working in cooperation with the NSF Advancing Informal STEM Learning (AISL) program to build and advance the informal STEM education field. CAISE continues the work it began in 2007--serving professional audiences in informal STEM learning, which includes those working in science centers and museums, zoos and aquariums, parks, botanical gardens and nature centers, events and festivals, libraries, making and tinkering spaces, media (TV, radio, film, social), cyberlearning and gaming, and youth, community, and out-of-school time programs.
What We Do:
CAISE seeks to characterize, highlight, and connect quality, evidence-based informal STEM learning work supported by a diversity of federal, local, and private funders by providing access to over 8,000 (and growing) resources that include project descriptions, research literature, evaluation reports and other documentation on the InformalScience.org website. In addition, CAISE convenes inquiry groups, workshops and principal investigator meetings designed to facilitate discussion and identify the needs and opportunities for informal STEM learning.
In this award, CAISE is also tasked with advancing and better integrating the professional fields of informal STEM learning and science communication by (1) broadening participation in these fields, (2) deepening links between research and practice, and (3) building capacity in evaluation and measurement. These activities are being undertaken by cross-sector task forces of established and emerging who will be responsible for conducting field-level analyses, engaging stakeholders, and creating roadmaps for future efforts. CAISE is also building on existing communication channels for dissemination to the larger field, and through the InformalScience.org website. An External Review Board and Inverness Research are providing oversight of CAISE's program activities and evaluation of the center.
Who We Are:
CAISE operates as a network of core staff housed at the Association of Science-Technology Centers (ASTC) in Washington, D.C. and co-principal investigators and other collaborators at academic institutions and informal STEM education (ISE) organizations across the U.S. Other key collaborators are the American Association for the Advancement of Science's Center for Public Engagement with Science, the National Informal STEM Education Network, and Arizona State University.
The Orlando Science Center (OSC) in partnership with BASE Camp Children's Cancer Foundation and the University of Central Florida (UCF) will engage chronically ill children (cancer, sickle-cell, HIV/AIDS, etc.) and other Orlando area youth ages 10-18 who face the greatest educational disparities in NASA-themed Aeronautics, Space Exploration, and Space Science exhibits through a STEM engagement and educator professional development project entitled STEM Satellites: A Mobile Mathematics and Science Initiative for Orlando Metropolitan Area Children's Hospitals. OSC will partner with educational researchers, evaluators, and planetary scientists from the University of Central Florida to create three mobile exhibits for each of the three children's hospitals in the Orlando metropolitan area. Two additional sets of the three mobile carts will be used at OSC and UCF. The three mobile exhibits will be based on the planned NASA missions that the UCF planetary scientists are leading including a Mars-themed exhibit focusing on space exploration, an asteroid-themed exhibit, and an exhibit on microgravity. Each cart will include multiple STEM activities that incorporate NASA data and artifacts from prior NASA missions, UCF planetary science collections, and Kennedy Space Center. OSC will provide professional development and training to BASE Camp volunteers who will supervise the use of the mobile exhibits in the hospitals. These exhibits will provide authentic experiences that mirror current and planned NASA missions at a level that the children can understand. These hands-on and engaging exhibits will not only help motivate children to pursue STEM careers but will also help educate the general public about the exciting and important work that NASA carries out. Providing this level of engaging and authentic STEM activities through the mobile exhibits to this historically underrepresented population is unprecedented.
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TEAM MEMBERS:
JoAnn NewmanJosh ColwellBrandan LanmanMegan Nickels
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.
San Francisco Health Investigators (SF HI), developed and led by the Science & Health Education Partnership at UC San Francisco, will use a community-based participatory research model to provide authentic research experiences for high school students, the majority from backgrounds underrepresented in the sciences.
SF HI will:
1) Develop a community of high school Student Researchers who will conduct research into health issues in their communities, study how adolescents respond to health messages, create new health messages informed by this research, and study the broader impacts of the materials they develop.
2) Partner with educational researchers to research the effects of SF HI on the high school student participants and the impact of the materials on the broader community.
3) Disseminate those materials shown to have the greatest impact nationally.
4) Publish results on the public understanding and awareness of health issues in peer-reviewed journals and other forums to inform and advance the field of public health.
The SF HI model is designed to leverage students’ cultural and technological knowledge and their social capital in the role of Student Researchers as they study the awareness, knowledge and attitudes about current health issues in their communities. It will have a broad range of impacts. Over the course of the project, 100 urban public high school students will be immersed in research projects that have the potential to directly benefit the health of their communities. These Student Researchers will design health messages informed by their social, cultural, and community knowledge and by their research results. They will collectively survey more than 8,500 community members – their peers, neighbors, and attendees at public gatherings to assess the effectiveness of these materials. Student-developed materials will be distributed broadly via the web, high school and college wellness centers, the NIH SEPA community, and other networks – thus these materials have the potential to reach over 1.5 million adolescents and young adults over the life of the project.
Recruiting more research scientists from rural Appalachia is essential for reducing the critical public health disparities found in this region. As a designated medically underserved area, the people of Appalachia endure limited access to healthcare and accompanying public health education, and exhibit higher disease incidences and shorter lifespans than the conventional U.S. population (Pollard & Jacobsen, 2013). These health concerns, coupled with the fact that rural Appalachian adults are less likely to trust people from outside their communities, highlights the need for rural Appalachian youth to enter the biomedical, behavioral, and clinical research workforce. However, doing so requires not only the specific desire to pursue a science, technology, engineering, math, or medical science (STEMM) related degree, it also requires the more general desire to pursue post-secondary education at all. This is clearly not occurring in Tennessee’s rural Appalachian regions where nearly 75% of adults realize educational achievements only up to the high school level. Although a great deal of research and intervention has been done to increase students’ interest in STEMM disciplines, very little research has considered the unique barriers to higher education experienced by rural Appalachian youth. A critical gap in past interventions research is the failure to address these key pieces of the puzzle: combatting real and perceived barriers to higher education and STEMM pursuits in order to increase self-efficacy for, belief in the value of, and interest in pursuing an undergraduate degree. Such barriers are especially salient for rural Appalachian youth.
Our long-range goal is to increase the diversity of biomedical, clinical and behavioral research scientists by developing interventions that both reduce barriers to higher education and increase interest in pipeline STEMM majors among rural Appalachian high school students. Our objective in this application is to determine the extent to which a multifaceted intervention strategy combining interventions to address the barriers to and supports for higher education with interventions to increase interest in STEMM fields leads to increased intentions to pursue an undergraduate STEMM degree. Our hypothesis is that students who experience such interventions will show increases in important intrapersonal social-cognitive factors and in their intentions to pursue a postsecondary degree than students not exposed to such interventions. Based on the low numbers of students from this region who pursue post-secondary education and the research demonstrating the unique barriers faced by this and similar populations (Gibbons & Borders, 2010), we believe it is necessary to reduce perceived barriers to college-going in addition to helping students explore STEMM career options. In other words, it is not enough to simply offer immersive and hands-on research and exploratory career experiences to rural Appalachian youth; they need targeted interventions to help them understand college life, navigate financial planning for college, strategize ways to succeed in college, and interact with college-educated role models. Only this combination of general college-going and specific STEMM-field information can overcome the barriers faced by this population. Therefore, our specific aims are:
Specific Aim 1: Understand the role of barriers to and support for higher education in Appalachian high school students’ interest in pursuing STEMM-related undergraduate degrees. We will compare outcomes for students who participate in our interventions, designed to proactively reduce general college-going barriers while increasing support systems, to outcomes for students from closely matched schools who do not participate in these interventions to determine the extent to which such low-cost interventions, which can reach large numbers of students, are effective in increasing rural Appalachian youth’s intent to pursue STEMM-related undergraduate degrees.
Specific Aim 2: Develop sustainable interventions that decrease barriers to and increase support for higher education and that increase STEMM-related self-efficacy and interest. Throughout our project, we will integrate training for teachers and school counselors, nurture lasting community partnerships, and develop a website with comprehensive training modules to allow the schools to continue implementing the major features of the interventions long after funding ends.
This research is innovative because it is among the first to recognize the unique needs of this region by directly addressing barriers to and supports for higher education and integrating such barriers-focused interventions with more typical STEMM-focused interventions. Our model provides opportunities to assess college-going and STEMM-specific self-efficacy, outcome expectations, and barriers/supports, giving us a true understanding of how to best serve this group. Ultimately, this project will allow future researchers to understand the complex balance of services needed to increase the number of rural Appalachians entering the biomedical, behavioral, and clinical research science workforce.