Research misconduct has become an important matter of concern in the scientific community. The extent to which such behavior occurs early in science education has received little attention. In the current study, using the web-based data collection program REDCap, we obtained responses to an anonymous and voluntary survey about science fair from 65 high school students who recently competed in the Dallas Regional Science and Engineering Fair and from 237 STEM-track, post-high school students (undergraduates, 1st year medical students, and 1st year biomedical graduate students) doing research at
Diversity among scientists can foster better science, yet engaging and retaining a diversity of students and researchers in science has been difficult. Actions that promote diversity are well defined, organizations are increasingly focused on diversity, and many institutions are developing initiatives to recruit and enroll students from underrepresented minority (URM) groups (racial, ethnic, gender, sexual identity, or persons with disabilities). Yet representation of URM groups in science, technology, engineering, and math (STEM) fields lag behind demographics in society at large, and many
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TEAM MEMBERS:
Chandler PurittyLynette R. StricklandEanas AliaBenjamin BlonderEmily KleinMichael T. KohlEaryn McGeeMaclovia QuintanaRobyn E. RidleyBeth TellmanLeah R. Gerber
Many scientists want to connect with the public, but their efforts to do so are not always easy or effective. Visionary programs and institutions are leading the way identifying the support needed to enable scientists’ connections with the public. However, the current appetite by -- and demand for -- scientists to do this exceeds the capacity of those who facilitate quality communication and engagement efforts. More can be done to ensure that those who support scientists are networked, sharing best practices, and supported by a reliable infrastructure.
This workshop series, convened by the Kavli, Rita Allen, Packard and Moore Foundations, was intended to view the entire system of people who support scientists’ engagement and communication efforts in order to explore how this system can be most effective and sustainable. The discussions examined where this system is thriving, the limits people within the system face and what can be done to ensure their efforts are commensurate with the demand for quality communication and engagement support.
Conducted over four closely scheduled workshops in late 2017 and early 2018, the convenings brought together leaders in different parts of the field who bridge scientists and the public and led to the emergence of a number of key priority areas. While the initial intention was to also hold a plenary event to provide a more holistic view of scientists’ support system in order to collectively discern directions to advance the field, we feel a more efficient way forward right now is to focus our efforts and resources on building community and advancing these priority areas.
Our invitation-only workshops brought together scientists, academic leaders, engagement professionals, researchers, communication trainers, and foundation leaders. For each workshop, we also commissioned a “landscape overview”, to better understand the high-level state of each community. Workshops included:
Workshop I: Communication and engagement training programs - Dec. 4-5, 2017 at SUNY Global Center/Alan Alda Center for Communicating Science in New York
Workshop II: Associations, societies and other professional organizations - Feb. 28 - March 1, 2018 at the Howard Hughes Medical Institute in Chevy Chase, MD
Workshop III: Academic institutions - March 27-28, 2018 at UC San Diego
Workshop IV: Science engagement facilitators (museums, science festivals, connectors) - May 2-3, 2018 at Monterey Bay Aquarium
TBD - Workshop V: Plenary event
The goal of the workshops was to explore how to ensure scientists’ communication and engagement support is effective and sustained. In doing so, we hoped to 1) deepen our understanding of how scientists are currently supported in these areas, 2) map the broader support system to expose the opportunities and obstacles that play a role in achieving this goal, and 3) identify strategic and practical next steps that move us closer to this goal. This initiative also aimed to forge and strengthen networks across communities and institutions – and in so doing, take a view of the entire system to explore how everyone can better ensure their efforts are impactful, mutually supportive, and connected to a greater whole.
Included in the links below are summaries from each workshop.
The American Museum of Natural History (AMNH), in collaboration with New York University's Institute for Education and Social Policy and the University of Southern Maine Center for Evaluation and Policy, will develop and evaluate a new teacher education program model to prepare science teachers through a partnership between a world class science museum and high need schools in metropolitan New York City (NYC). This innovative pilot residency model was approved by the New York State (NYS) Board of Regents as part of the state’s Race To The Top award. The program will prepare a total of 50 candidates in two cohorts (2012 and 2013) to earn a Board of Regents-awarded Masters of Arts in Teaching (MAT) degree with a specialization in Earth Science for grades 7-12. The program focuses on Earth Science both because it is one of the greatest areas of science teacher shortages in urban areas and because AMNH has the ability to leverage the required scientific and educational resources in Earth Science and allied disciplines, including paleontology and astrophysics.
The proposed 15-month, 36-credit residency program is followed by two additional years of mentoring for new teachers. In addition to a full academic year of residency in high-needs public schools, teacher candidates will undertake two AMNH-based clinical summer residencies; a Museum Teaching Residency prior to entering their host schools, and a Museum Science Residency prior to entering the teaching profession. All courses will be taught by teams of doctoral-level educators and scientists.
The project’s research and evaluation components will examine the factors and outcomes of a program offered through a science museum working with the formal teacher preparation system in high need schools. Formative and summative evaluations will document all aspects of the program. In light of the NYS requirement that the pilot program be implemented in high-need, low-performing schools, this project has the potential to engage, motivate and improve the Earth Science achievement and interest in STEM careers of thousands of students from traditionally underrepresented populations including English language learners, special education students, and racial minority groups. In addition, this project will gather meaningful data on the role science museums can play in preparing well-qualified Earth Science teachers. The research component will examine the impact of this new teacher preparation model on student achievement in metropolitan NYC schools. More specifically, this project asks, "How do Earth Science students taught by first year AMNH MAT Earth Science teachers perform academically in comparison with students taught by first year Earth Science teachers not prepared in the AMNH program?.”
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TEAM MEMBERS:
Maritza MacdonaldMeryle WeinsteinRosamond KinzlerMordecai-Mark Mac LowEdmond MathezDavid Silvernail
Objective: Although upward transfer in science, technology, engineering, and mathematics (STEM) fields represents a prominent national policy concern, community college students’ aspirations for transfer in STEM are often impeded, resulting in lower transfer rates. This study investigated four aspects of community college STEM students’ aspirational experiences and behaviors with regard to transfer: support for transfer, transfer service usage, transfer-oriented interactions, and transfer information acquisition. Particular attention was paid to how these factors may impact students’
This project, an NSF INCLUDES Design and Development Launch Pilot, managed by the University of Nevada, Reno, addresses the grand challenge of increasing underrepresentation regionally in the advanced manufacturing sector. Using the state's Learn and Earn Program Advanced Career Pathway (LEAP) as the foundation, science, technology, engineering and mathematics (STEM) activities will support and prepare Hispanic students for the region's workforce in advanced manufacturing which includes partnerships with Truckee Meadows Community College (TMCC), the state's Governor's Office of Economic Development, Charles River Laboratories, Nevada Established Program to Stimulate Competitive Research (Nevada EPSCoR) and the K-12 community.
The expected outcomes from the project will inform the feasibility, expandability and transferability of the LEAP framework in diversifying the state's workforce locally and the STEM workforce nationally. Formative and summative evaluation will be conducted with a well-matched comparison group. Dissemination of project results will be disseminated through the Association for Public Land-Grant Universities (APLU), STEM conferences and scholarly journals.
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TEAM MEMBERS:
David ShintaniJulie EllsworthKarsten HeiseRobert StachlewitzRegina Tempel
Arizona State University's Ira A. Fulton Schools of Engineering with the Maricopa County Community Colleges District and K-12 school districts along with industry partners, Honeywell, Intel, and Texas Instruments, and the Helios Education Foundation will implement an NSF Design and Development Launch Pilot to address the broadening participation objectives of enhancing entry and persistence of underrepresented groups in engineering. This alliance will identify and develop effective mechanisms to impact entry and persistence in engineering at scale and to expand the effort for the region, serving as a model for Arizona and other universities nationally. Diversity is often seen as a valuable commodity for fostering innovation and creativity in engineering, and extant theoretical and empirical literature provides evidence of the importance a diversified engineering workforce can have to spark scientific and technological innovation to solve complex problems. Nationally, there is a consistent shortage of available diverse engineers and scientists, which is believed to compromise the country's ability to sustain its leadership position as a global force. This project will create engineering pathways for underrepresented groups and identify and develop effective mechanisms that impact these students' entry and persistence in engineering.
A total of 500 high school students, 100 2-year college students, and 200 four-year college students will participate in the project. The research measures will focus on students' academic/career awareness and interest in engineering and the degree to which students develop a strong identity and affinity for engineering. It is expected that the alliance affiliates will develop into adaptive systems that respond to needs of first-generation students at various pathway junctures. This project has the potential to transform educational experiences and support systems for first-generation students.
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TEAM MEMBERS:
Kyle SquiresRoberta Anslow-HammondMaria ReyesJames CollofelloTirupalavanam Ganesh
The University of Texas at Austin's Texas Advanced Computing Center, Chaminade University of Honolulu (CUH), and the Georgia Institute of Technology will lead this NSF INCLUDES Design and Development Launch Pilot (DDLP) to establish a model for data science preparation of Native Hawaiian and Pacific Islander (NHPI) students at the high school and undergraduate levels. The project is premised on the promise of NHPI communities gaining access to, and the ability to work with, large data sets to tackle emerging problems in the Pacific. Such agency over "big data" sets that are relevant to Pacific issues, and contemporary skills in data science, analytics and visualization have the potential to be transformative for community improvement efforts. The effort has the potential to advance knowledge, instructional pedagogy and practices to improve NHPI high school and undergraduate students performance in and attraction to STEM education and careers.
The project team will work to: 1) Increase interest and proficiency in data science and visualization among NHPI high school and undergraduate students through a summer immersion experience that bridges computation and culture; 2) Build data science capacity at an NHPI serving undergraduate institution (CUH) through creation of a certificate program; and 3) Develop and expand partnerships with other organizations with related goals working with NHPI populations. The month-long summer training for 20 NHPI college students, and five NHPI high school students, takes place at CUH and focuses on data science, visualization, and virtual reality, including working on problem sets that require data science approaches and incorporate geographically, socially- and culturally-relevant research themes.
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TEAM MEMBERS:
Kelly GaitherRosalia Gomez
resourceprojectProfessional Development, Conferences, and Networks
The University of Maine will address the grand challenge of increasing Native American participation in the science,technology, engineering and mathematics (STEM) enterprise in an NSF INCLUDES Design and Development Launch Pilot project addressing culturally relevant pedagogy, incorporating Community Elders, Cultural Knowledge Keepers, and mainstream secondary and higher education institutions in the development of STEM pedagogy that can be replicated to other underrepresented and underserved populations. Partners in the effort include the Wabanaki Youth in Science program (WaYS)(a non-profit organization), Salish Kootenai College (a Tribal College), Massachusetts Institute of Technology (a research university), the National Indian Education Association (a non-profit membership organization) and the current NSF INCLUDES Design and Development Launch Pilot project at the University of Maine (the Stormwater Research Management Team (SMART)). This NSF INCLUDES partnership provides students with evidence-based STEM activities involving culturally relevant internships, mentoring, STEM professional development activities and other support. Non-native students will reciprocally participate in Native American learning environments.
The foundation for the project's activities is based on the WaYS program in science education that incorporates Traditional Ecological Knowledge (TEK). The goals of the project are to: 1) create and integrate curriculum that embraces TEK and western science as equal partners; 2)develop and implement protocols to incorporate a continued mentorship program for WaYS and STREAM engineering students; 3)develop a framework to bridge the gap between high school and college; and 4) foster collaboration among Community Elders, Cultural Knowledge Keepers and University of Maine faculty in a model that could be transferred to other communities. Internal and external evaluation activities will add to the scholarly literature on educating Native Americans and non-native students in STEM disciplines. Dissemination of project results will include published peer-reviewed journal articles on newly developed pedagogy and conference presentations at the American Indian Science and Engineering (AISES) national conference, the National Diversity in STEM Conference, National Science Teachers Association, AAAS, ASEE and the National NSF INCLUDES Network.
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TEAM MEMBERS:
Darren RancoJohn DaigleMindy CrandallShaleen Jain
This NSF INCLUDES Design and Development Launch Pilot, "Expanding Diversity in Energy and Environmental Sustainability (EDEES)", will develop a network of institutions in the United States mid-Atlantic region to recruit, train, and prepare a significant number of underrepresented, underserved, and underprivileged members of the American society in the areas of alternative energy generation and environmental sustainability. Researchers from Delaware State University (DSU) will lead the effort in collaboration with scientists and educators from the University of Delaware, Delaware Technical Community College, University of Maryland, and Stony Brook University. The program comprises a strong educational component in different aspects of green energy generation and environmental sciences including the development of a baccalaureate degree in Green Energy Engineering and the further growth of the recently established Renewable Energy Education Center at our University. The program comprises an active involvement of students from local K-12 institutions, including Delaware State University Early College High School. The character of the University as a Historically Black College (HBCU) and the relatively high minority population of the region will facilitate the completion of the goal to serve minority students. The program will also involve the local community and the private sector by promoting the idea of a green City of Dover, Delaware, in the years to come.
The goal of EDEES-INCLUDES pilot comprises the enrollment of at least twenty underrepresented minority students in majors related to green energy and environmental sustainability. It also entails the establishment of a baccalaureate degree in Green Energy Engineering at DSU. The program is expected to strengthen the pathway from two-year energy-related associate degree programs to four-year degrees by ensuring at least five students/year transfer to DSU in energy-related programs. The pilot is also expected to increase the number of high school graduates from underrepresented groups who choose to attend college in STEM majors. Based on previous experience and existing collaborations, the partner institutions expect to grow as an integrated research-educational network where students will be able to obtain expertise in the competitive field of green energy. The pilot program comprises a deep integration of education and research currently undergoing in the involved institutions. In collaboration with its partner institutions, DSU plans to consistently and systematically involve students from the K-12 system to nurture the future recruitment efforts of the network. A career in Green Energy Engineering is using and expanding up existing infrastructure and collaborations. The program will involve the local community through events, workshops and open discussions on energy related fields using social networks and other internet technology in order to promote energy literacy.
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TEAM MEMBERS:
Aristides MarcanoMohammed KhanGulnihal OzbayGabriel Gwanmesia
resourceprojectProfessional Development, Conferences, and Networks
Ecology Plus (Ecology+) is an NSF INCLUDES Launch Pilot project with a goal of increasing the participation of underrepresented minorities in a broad range of career pathways where ecology plays a role. This project recognizes that both innovative scientific research and wider societal participation are needed for effective and equitable solutions to environmental issues that directly impact societal well-being and national security. Both research and policy are enhanced by full participation of all sectors of society. Despite the existence of multiple programs over many years, barriers to the participation of underrepresented minorities in ecology persist. One overarching systemic issue remains critical: that insufficient connections among programs result in breaks along critical transition points in career pathways. Project activities will lay the groundwork by developing a regional approach to alliance-building that can be extended across the nation.
Ecology+ will use a collective impact framework -- characterized by a common agenda, shared measurement, mutually reinforcing activities, continuous communication, and backbone support -- to optimize career guidance and support for undergraduate students, graduate students and early career technical and professional scientists. Starting in the Washington-Baltimore region, key objectives of the project are to develop infrastructure for effective communications among partners with the capacity to expand nationally; map potential career pathways with associated sets of necessary competencies, opportunities and mentors, and; empower alliance participants to overcome institutional barriers and patterns of unconscious bias. Ecology+ will: a) establish an online mentoring platform; b) offer a career fair with motivational talks and guidance on individual career development plans; c) offer a series of relevant skills workshops; d) arrange research or internship experiences, and; e) facilitate awareness and networking opportunities with employers from agencies, business and nonprofit sectors. The value of Ecology+ lies in its comprehensive, integrated approach that will bring new partners and their resources into a transformative and systemic response to the key barriers affecting underrepresented minorities in science.
Underrepresented minorities (URMs) are less than 10% of engineering faculty, despite comprising nearly a third of the nation's population. A common explanation for their disproportionate representation, at the engineering faculty level, is related to a lack of access to effective mentorship from other faculty. This NSF INCLUDES Design and Development Launch Pilot project will expand a new mentoring and advocacy-networking paradigm to bring together two stakeholder groups: (1) underrepresented minorities (URMs) who are engineering faculty and (2) well-regarded (primarily non-URM) emeriti/retired engineering faculty. A previously-funded NSF project found that this mentor-mentee pairing was viewed favorable by both parties and beneficial, particularly by the URM engineering faculty. Because of these results, the investigators proposed to scale, test, and evaluate the approach on a broader scale by creating national infrastructural network partners to help increase capacity to serve a greater number of URM engineering faculty and to introduce tele-mentoring and training models to serve URM faculty who work in remote geographical locations with very little access to mentors.
The project will use a multi-phased phenomenological, mixed method research design to gain greater understanding of the ways in which the URM faculty and emeriti faculty experience the opportunities afforded by the project. Further, the investigators plan to collect data to examine how project participants perceive and experience conventional, direct communications (e.g., telephone calls, e-mail, and in-person meetings)through the mentoring process versus the use of Embodied Conversational Agents (ECAs), anthropomorphic interface agents that engage a user in real-time dialogue by using verbal-nonverbal channels to emulate the in-person experience. This project has the potential to broaden participation in the engineering professoriate and opens up new possibilities for supporting URM engineering faculty.
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TEAM MEMBERS:
Comas HaynesValerie ConleySylvia MendezKinnis GoshaRosario Gerhardt