Milwaukee has established itself as a leader in water management and technology, hosting a widely recognized cluster of industrial, governmental, nonprofit, and academic activity focused on freshwater. At the same time, Milwaukee faces a wide range of challenges with freshwater, some unique to the region and others common to cities throughout the country. These challenges include vulnerability to flooding and combined sewer overflows after heavy rainfall, biological and pharmaceutical contamination in surface water, lead in drinking water infrastructure, and inequity in access to beaches and other recreational water amenities. Like other cities, Milwaukee grapples with the challenges global climate change imposes on urban water systems, including changing patterns of precipitation and drought.
These problems are further complicated by Milwaukee's acute racial and economic residential segregation. With a population of approximately 595,000, embedded within a metropolitan area of over 1.5 million, Milwaukee remains one of the country's most segregated cities. There is increasing urgency to engage the public--and especially those who are most vulnerable to environmental impacts--more deeply in the stewardship of urban water and in the task of creating sustainable urban futures. The primary goal of this four-year project is to foster community-engaged learning and environmental stewardship by developing a framework that integrates art with Science, Technology, Engineering, and Mathematics (STEM) experiences along with geography, water management, and social science. Synergies between STEM learning and the arts suggest that collaborations among artists, scientists, and communities can open ways to bring informal learning about the science of sustainability to communities.
WaterMarks provides an artist generated conceptual framework developed by Mary Miss / City as Living Laboratory (CALL) to help people better understand their relationship to the water systems and infrastructure that support their lives. Project activities include artist/scientist/community member-led Walks, which are designed to engage intergenerational participants both from the neighborhoods and from across the city, in considering the conditions, characteristics, histories, and ecosystems of neighborhoods. Walks are expanded upon in Workshops with residents, local scientists/experts, and other stakeholders, and include exploring current water-related environmental challenges and proposing solutions. The Workshops draw on diverse perspectives, including lived experience, scientific knowledge, and policy expertise. Art projects created by local artists amplify community engagement with the topics, including programming for teens and young adults. Free Wi-Fi will be integrated into various Marker sites around the city providing access to online, self-guided learning opportunities exploring the water systems and issues facing surrounding neighborhoods. Current programming focuses primarily on Milwaukee's predominantly African American near North Side and the predominantly Latinx/Hispanic near South Side. Many neighborhoods in these sections are vulnerable to such problems as frequent flooding, lead contamination in drinking water, inequities in safety and maintenance of green space, and less access to Lake Michigan, the city's primary natural resource and recreational amenity.
The WaterMarks project advances informal STEM learning in at least two ways. First, while the WaterMarks project is designed to fit Milwaukee, the project includes the development of an Adaptable Model Guide. The Guide is designed so that other cities can modify and employ its inclusive structure, programming, and process of collaboration among artists, scientists, partner organizations, and residents to promote citywide civic engagement in urban sustainability through the combination of informal STEM learning and public art. The Guide will be developed by a Community-University Working Group (CULab) hosted by UW-Milwaukee's Center for Community-Based Learning, Leadership, and Research and made up of diverse community and campus-wide stakeholders. In addition to overseeing the Guide’s creation, CULab will conceptualize onboarding and mentorship strategies for new participants as well as a framework for the program’s expansion and sustainability.
Second, through evaluation and research, the project will build a theoretical model for the relationships among science learning, engagement with the arts, and the distinctive contexts of different neighborhoods within an urban social-ecological system. The evaluation team, COSI’s Center for Research and Evaluation, and led by Co-PI Donnelly Hayde, aims to conduct formative, summative, and process evaluation of the Watermarks project, with the additional goal of producing evaluative research findings that can contribute to the broader field of informal learning. Evaluation foci include: How does the implementation of WaterMarks support positive outcomes for the project’s communities and the development of an adaptable model for city-scale informal science learning about urban environments? 2. To what extent do the type and degree of outcome-related change experienced by participating community residents vary across and/or between project sites? What factors, if any, appear to be linked to these changes? 3. To what extent and in what ways do the activities of the WaterMarks projects appear to have in situ effects related to the experience of place at project sites?
The project’s research team led by PI Ryan Holifield and Co-PI Woonsup Choi, will investigate how visual artistic activities introduced by the programming team as part of the Walks (and potentially other engagement activities) interact with personal, sociocultural, and physical contexts to produce distinctive experiences and outcomes of informal science learning about urban water systems. The aim of the research will be to synthesize the results from the different WaterMarks sites into an analysis generalizable beyond specific neighborhoods and applicable to other cities. The project's research questions include: 1. How does participation in Walks focused on visual artistic activities affect outcomes and experiences of informal STEM learning about urban water systems? 2. How do outcomes and experiences of informal STEM learning vary across different urban water topics, participants from different demographic groups, and contrasting sociocultural and biophysical contexts?
This Innovations in Development project is led by the University of Wisconsin-Milwaukee (UWM), in collaboration with City as Living Laboratory (CALL) and the COSI Center for Research and Evaluation.
This poster, which was presented in Alexandria, VA at the CAISE AISL PI meeting in February 2019, summarizes the Under the Arctic: Digging into Permafrost traveling exhibition developed for the Hidden World of Permafrost project.
This NSF INCUDES Design and Development Launch Pilot will increase the recruitment, retention, and matriculation of racial and ethnic minorities in STEM Ph.D. programs contributing to hazards and disaster research. Increasing STEM focused minorities on hazards mitigation, and disaster research areas will benefit society and contribute to the achievements of specific, desired societal outcomes following disasters. The Minority SURGE Capacity in Disasters (SURGE) launch pilot will provide the empirical research to identify substantial ways to increase the underrepresentation of minorities in STEM disciplines interested in hazards mitigation and disaster research. Increasing the involvement of qualified minorities will help solve the broader vulnerability concerns in these communities and help advance the body of knowledge through the diversity of thought and creative problem solving in scholarship and practice. Utilizing workshops and a multifaceted mentorship program SURGE creates a new model that addresses the diversity concerns in both STEM and disaster fields, and make American communities more resilient following natural disasters. This project will be of interest to policymakers, educators and the general public.
The Minority SURGE Capacity in Disasters (SURGE) NSF INCLUDES Design and Development Launch Pilot will enhance the social capital of racial and ethnic minority communities by increasing their networks, connections, and access to disaster management decision-making among members of their community from STEM fields. The four-fold goals of SURGE are to: (1) increase the number of minority graduate researchers in STEM fields with a disaster focus; (2) develop and guide well-trained, qualified disaster scholars from STEM fields; (3) provide academic and professional mentorship for next generation minority STEM scholars in hazards mitigation and disaster research; and (4) develop professional and research opportunities that involve outreach and problem solving for vulnerable communities in the U.S. The SURGE project is organized as a lead-organization network through the University of Nebraska at Omaha and includes community partners. As a pilot project, SURGE participation is limited to graduate students from research-intensive universities across the country. Each student will attend workshops and training programs developed by the project leads. SURGE investigators will conduct project evaluation and assessment of their workshops, training, and mentorship projects. Results from evaluations and assessments will be presented at STEM and disaster-related conferences and published in peer-reviewed academic journals.
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TEAM MEMBERS:
DeeDee BennettLori PeekTerri NortonHans Louis-Charles
The Sustainability Teams Empower and Amplify Membership in STEM (S-TEAMS), an NSF INCLUDES Design and Development Launch Pilot project, will tackle the problem of persistent underrepresentation by low-income, minority, and women students in STEM disciplines and careers through transdisciplinary teamwork. As science is increasingly done in teams, collaborations bring diversity to research. Diverse interactions can support critical thinking, problem-solving, and is a priority among STEM disciplines. By exploring a set of individual contributors that can be effect change through collective impact, this project will explore alternative approaches to broadly enhance diversity in STEM, such as sense of community and perceived program benefit. The S-TEAMS project relies on the use of sustainability as the organizing frame for the deployment of learning communities (teams) that engage deeply with active learning. Studies on the issue of underrepresentation often cite a feeling of isolation and lack of academically supportive networks with other students like themselves as major reasons for a disinclination to pursue education and careers in STEM, even as the numbers of underrepresented groups are increasing in colleges and universities across the country. The growth of sustainability science provides an excellent opportunity to include students from underrepresented groups in supportive teams working together on problems that require expertise in multiple disciplines. Participating students will develop professional skills and strengthen STEM- and sustainability-specific skills through real-world experience in problem solving and team science. Ultimately this project is expected to help increase the number of qualified professionals in the field of sustainability and the number of minorities in the STEM professions.
While there is certainly a clear need to improve engagement and retention of underrepresented groups across the entire spectrum of STEM education - from K-12 through graduate education, and on through career choices - the explicit focus here is on the undergraduate piece of this critical issue. This approach to teamwork makes STEM socialization integral to the active learning process. Five-member transdisciplinary teams, from disciplines such as biology, chemistry, computer and information sciences, geography, geology, mathematics, physics, and sustainability science, will work together for ten weeks in summer 2018 on real-world projects with corporations, government organizations, and nongovernment organizations. Sustainability teams with low participation by underrepresented groups will be compared to those with high representation to gather insights regarding individual and collective engagement, productivity, and ongoing interest in STEM. Such insights will be used to scale up the effort through partnership with New Jersey Higher Education Partnership for Sustainability (NJHEPS).
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TEAM MEMBERS:
Amy TuiningaAshwani VasishthPankaj Lai
This project is developing and implementing a strong environmental literacy and science education program to accompany NOAA's Science on a Sphere (SOS) at The National Maritime Center's Nauticus museum. The program will use the SOS as a focal point to support learning about global oceanic and atmospheric circulations and their effect on local environments. The team is creating real-time global displays of environmental phenomena for the SOS from the expansive University of Wisconsin environmental satellite database. Computer visualization systems and user-driven interactive displays will allow viewers to move from global scale to regional and local scale in order to explore specific features of the phenomena being visualized and to understand them in greater detail. The displays will be integrated with high quality education materials that are aligned with national standards and specifically address the NOAA Education Strategic Plan. The teaming of the University of Wisconsin, Hampton University, and the National Maritime Center offers the opportunity to expose students from ethnic minority groups to various NOAA career paths and help produce graduates with solid technical backgrounds.
The Ocean Project will empower America's zoos, aquariums and science museums to become centers of innovation and effective leadership for healthy oceans and conservation in their communities, providing meaningful engagement opportunities for their 200 million annual visitors to become involved in helping with solutions. To help them do so, The Ocean Project is launching a competitive Innovative Solutions Grants Program that will provide financial resources for zoos, aquariums and science museums to develop innovative local and regional ocean conservation solutions and stewardship initiatives, with a special emphasis on engaging youth and minorities. To leverage and maximize the benefit of this small grants program, The Ocean Project will also provide the awardees with opportunities for capacity building in strategic communications and share the resulting new strategies and successes with our growing partner network of 2000 zoos, aquariums, science museums and other conservation and education organizations in all 50 States and worldwide.
Ciencia Pública is a National Science Foundation (NSF) -funded initiative in which the Exploratorium, in collaboration with the Boys and Girls Club of San Francisco (BGCSF), developed a parklet to engage Latino families in STEM content. The Parklet is located in San Francisco’s Mission District (the Mission), a historically Latino neighborhood. Buena Vista Horace Mann School (BVHM) is an additional project partner and hosts the Parklet on its site. Garibay Group conducted a summative evaluation of the project outcomes. This report discusses evaluation findings.
The Yellowstone Altai-Sayan Project (YASP) brings together student and professional researchers with Indigenous communities in domestic (intermountain western U.S.) and international (northwest Mongolian) settings. Supported by a National Science Foundation grant, MSU and tribal college student participants performed research projects in their home communities (including Crow, Northern Cheyenne, Fort Peck Assiniboine & Sioux, and Fort Berthold Mandan, Hidatsa and Sahnish) during spring semester 2016. In the spirit of reciprocity, these projects were then offered in comparative research contexts during summer 2016, working with Indigenous researchers and herder (semi-nomadic) communities in the Darhad Valley of northwestern Mongolia, where our partner organization, BioRegions International, has worked since 1998. In both places, Indigenous Research Methodologies and a complementary approach called Holistic Management guided how and what research was performed, and were in turn enriched by Mongolian research methodologies. Ongoing conversations with community members inspire the research questions, methods of data collection, as well as how and what is disseminated, and to whom. The Project represents an ongoing relationship with and between Indigenous communities in two comparable bioregions*: the Big Sky of the Greater Yellowstone Ecosystem, and the Eternal Blue Sky of Northern Mongolia.
*A ‘bioregion’ encompasses landscapes, natural processes and human elements as equal parts of the whole (see http://bioregions.org/).
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TEAM MEMBERS:
Kristin RuppelClifford MontagneLisa Lone Fight
This proposed Communicating Research to Public Audiences (CRPA) project outlines a pathway for communicating how climate change can affect a watershed area that supplies water for a specific region. The educational platforms will address the geology of the Caldera along with meteorology, ecology and hydrology. The project will focus on the ongoing scientific research processes and the impact of climate change to the physical system as well as to the citizens who depend on this resource. Partners in this endeavor include New Mexico EPSCOR, the University of New Mexico, the Valles Caldera National Preserve, the New Mexico Museum of Natural History and Science, Santa Fe Productions and Tim Aydelott Productions. The project team will create a PBS television documentary in English and Spanish, including a Native American Jemez Pueblo storyteller who will describe the natural environment of the Caldera. The team will also create a YouTube channel with updatable clips, a Facebook fan page, and a climate change exhibit. The evaluation will include front-end and summative components, and will be conducted by Minnick & Associates and Elsa Bailey Consulting. The intended impact of this CRPA is to educate the public about the importance of the Caldera in securing the region's water supply and how climate changes could impact their lives. Further, aspects of the multidisciplinary science used in this research will be described with the goal of encouraging more young people from the region to choose STEM careers.
This project by teams at the University of Alaska and the Oregon Museum of Science and Industry will engage the public in the topic of the nature and prevalence of permafrost, its scale on the earth and the important role it plays in the global climate. It builds on 50 years of informal education and outreach at the Alaskan Permafrost Tunnel near Fairbanks, AK, which, since the 1960s, has been the Nation's only underground facility for research related to permafrost and climate. The project has four components: (1) a nationally distributed 2,000 square-foot traveling exhibition; (2) exhibit and program enhancements to the learning opportunities at the tunnel; (3) programs, table-top exhibits and oral history research in 27 Native Alaskan villages; and (4) an education research study. Each of these components will be evaluated over the course of the work. By upgrading the displays at the tunnel, and by taking traveling programs to the villages, the work will extend the tunnel experience across Alaska. In the villages the team will collect stories about climate change, along with samples of real ancient ice and permafrost. These stories and materials will be used in the traveling exhibit which is expected to be at three museums per year for eight years. The research component of the initiative will build on the observation to date that the tunnel has provided thousands of visitors with an underground immersive environment where they learn about the science research being conducted and engage with climate-sensitive materials (e.g., permafrost, wedge ice, frozen silt, Pleistocene bones) using all of their senses. It has been conjectured that their learning experiences are enhanced by interacting with real vs. replicated objects. As museums often contain exhibits that are more likely to contain replicated and/or virtual objects and environments, understanding the impact that these different categories of objects have on learning is important. Using both types of materials, the project will investigate differences in their efficacy in informal science learning institutions related to climate change. Real objects are postulated to have the following attributes that stimulate fuller engagement; they are (1) information-rich by virtue of such features as their texture, odor, and dimensionality; (2) at real-life scale; (3) authentic, i.e., original objects; and (4) often unique, i.e., have inherent value. Research questions will explore the potential impacts on learning of these and related features. Methods employed will be observation, video, and interviews of the public with a particular focus on visitor talk with respect to explanations and elaborations about permafrost, tipping points, climate change, and geological time.
This is a collaborative research project between Montana State University (MSU), Bozeman, USA and Gorno-Altaisk State University (GASU), Altai Republic, Russian Federation. In this NSF International Research Experiences for Students project MSU students will travel to the Altai Republic and work with faculty and students at Gorno-Altaisk University to conduct research related to native language use in learning ecological sciences in informal settings. Student researchers will conduct individual studies related to the project theme of science learning in ecological contexts. This project will help students learn how to conduct educational research related to the ecological learning experiences of indigenous youth (ages12-16) and the use and influence of native language in learning about environment. This research directly addresses the results of our prior NSF supported work that identified shared issues of indigenous people, natural resources and the decline of native language use among underserved populations in the Altai and Yellowstone systems. This project contributes significantly to our emerging understanding of science learning in informal settings. It addresses a unique conception of ecological learning in three dimensions; personal, community and cultural perspectives. Research and education objectives align with modern conceptualizations of informal science learning as proposed by the National Academies of Science (2009). The MSU-GASU collaboration provides a holistic view of science learning and will unite diverse intellectual resources and research efforts in unique ecological and social systems. Both the Yellowstone and Altai mountain systems are of global concern as part of worldwide natural and cultural resources impacted by pervasive development, recreation and tourism activities and climate change. The underlying theoretical foundation for learning proposed in this research project is the basis for effective approaches to enable isolated rural populations to contribute traditional knowledge and wisdom to contemporary issues related to world-wide ecological and cultural issues including global climate change. Aspects of sustainability practices that are embedded in the knowledge and social processes of both marginalized and dominant societies will be better understood and taken into consideration for future research and education activities. Research outcomes will contribute to more effective informal, place-based and experiential science learning to help empower communities and decision makers in meeting challenges of sustainability. Inevitably, we expect this work to extend our understanding of science learning related to critical natural and cultural resources and their management. An understanding of how, why and where learning takes place will help extend the US and international research and education agendas related to informal science learning, natural and cultural resource management and sustainability.
Non-technical part.
This is a collaborative research project between Montana State University (MSU), Bozeman, USA and Gorno-Altaisk State University (GASU), Altai Republic, Russian Federation. In this NSF International Research Experiences for Students project MSU students will travel to the Altai Republic and work with faculty and students at Gorno-Altaisk University to conduct research related to native language use in learning ecological sciences in informal settings. Student researchers will conduct individual studies related to the project theme of science learning in ecological contexts. This project we will help students learn how to conduct educational research related to the ecological learning experiences of indigenous youth (ages12-16) and the use and influence of native language in learning about environment. Three cohorts of five MSU students will travel to the Altai Republic for eight weeks in the summers of 2013, 2014 & 2015. MSU students will comprise a research team with GASU science, education and language faculty to conduct research in the city of Gorno-Altaisk, two medium size villages such as Onguday and two small villages such as Karakol. We expect to work with youth in each setting and interview a representative sample at each site. As a research team we expect to gain a better understanding of how indigenous youth use native Altai language in informal settings to learn about environment. We expect to compare sights within the study. As part of our larger research interests in ecological learning and native people, we will conduct a similar comparative study in the Yellowstone Ecosystem with Native American youth. The studies associated with this project will add to our understanding about the extent and nature of native language use to learn science in underserved populations in very sensitive and unique ecological and cultural settings.
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TEAM MEMBERS:
Michael BrodyClifford MontagneArthur BangertChristine StantonShane Doyle