The project is supported under the NSF Science, Engineering and Education for Sustainability Fellows (SEES Fellows) program, with the goal of helping to enable discoveries needed to inform actions that lead to environmental, energy and societal sustainability while creating the necessary workforce to address these challenges. Sustainability science is an emerging field that addresses the challenges of meeting human needs without harm to the environment, and without sacrificing the ability of future generations to meet their needs. A strong scientific workforce requires individuals educated and trained in interdisciplinary research and thinking, especially in the area of sustainability science. With the SEES Fellowship support, this project will enable a promising early career researcher to establish herself in an independent research career related to sustainability. This project builds upon Resiliency Theory and theories of applied community participation to explore two specific contexts of participatory communication (i.e., processes of collective learning and shared meaning) at the science-society interface: (1) adaptive co-management meetings in New Mexico and Oklahoma, and (2) existing education efforts by drought scientists at two Great Plains universities (Oklahoma State University and University of Nebraska-Lincoln). A mixed methods approach (including, household surveys, oral histories, key informant interviews, and pilot tests) will model community-partnership capacity for drought adaptation in Cimarron (OK) and Union (NM) Counties, and assess the impact of community-academic partnerships on drought literacy and adaptive capacity across the Great Plains. Research in adaptive co-management meetings and interactive media (as contexts for participatory communication between scientists and citizens) provides the context for innovative case study research on the role of public communication about science in community drought adaptation.
Collaboration in case study research with Host Mentor Vadjunec and outreach efforts with Partner Institution Mentor Thomas (UNL) offers a unique opportunity to research the intersections of participatory communication and scientific literacy about the human and climatic drivers of extreme drought. The core research questions addressed by this proposal are, (1) What formal and informal pathways, players, and partnerships exist for participatory communication between scientists and citizens about drought vulnerability and adaptation, (2) How does communication about drought risk and recovery inform the effective diffusion and translation of drought literacy efforts in the Great Plains, and (3) How can we design forums and spaces for sustained interaction (i.e., engagement and collective learning) between stakeholders involved in adaptive drought communication? The project objectives uniquely related to advancing research at the intersections of sustainability science and education are, (1) to identify dimensions of community and partnership capacity for drought education and pathways of adaptive drought communication across scales, (2) to advance dynamic participatory models which assist in the adaptive co-management of water resources in local communities (i.e., increasing citizen-science dialogue, mobilizing community leaders, and fostering the drought education partnerships), and (3) to design and measure the success of drought literacy efforts based on inputs from sustainability scientists at various stages of community decision-making. The adaptive drought co-management workshops in NM and OK provide spaces for stakeholder interaction, which may lead to new approaches, innovations, and learning outcomes for communities in those regions. Outreach partnerships with UNL maximize dissemination of user-friendly and culturally-relevant drought outreach products, including a project website to consolidate scientific knowledge about drought in the Great Plains and interactive media templates. Interdisciplinary collaborations and research findings will inform efforts in academic community partnerships for sustainable practices across many NSF-supported disciplines.
This Advancing Informal Science Learning Pathways project, Using Technology to Research After Class (UTRAC), explores whether a combination of technology (e.g., iPad-enabled sensors, web-based inquiry-focused portal) and facilitated visits improves learning outcomes for rural and Native American elementary-age youth in after school programs. Expected outcomes include improved engagement, knowledge, skills, and attitudes toward science, technology, engineering, and math (STEM). Project goals include promoting STEM learning through science inquiry activities keyed to specific Next Generation Science Standards as well as improving how technology can be used to enhance learning outcomes in afterschool programs. The experimental design of this project - testing the effects of physical or virtual facilitation visits on learning outcomes - will lead to improvements in STEM learning outcomes among rural and underrepresented students. This project will employ several innovations in utilizing technology to teach STEM topics including: (i) hands-on, real-time, crowd sourced data collected by participants in their schoolyards; (ii) a pedagogic emphasis on communication of schoolyard data among and between participants; (iii) testing of motivational incentives; and (iv) partnerships between after school providers, preservice teachers, and university researchers as facilitators. The entire process will be modularized so that it can be modified in terms of place, STEM topic or student cohort. The topic focus of the project -- Life Under Snow -- is relevant to participating students, as Montana school playgrounds lie blanketed under snow for the majority of the school year; it includes elements of snow science, carbon cycle science, and a combination at the intersection of three recent literacy initiatives (e.g., Earth Science, Climate, or Energy). UTRAC will pilot and evaluate facilitated snow science/carbon cycle science activities that couple real-time schoolyard data with tools patterned after those available through WISE (Web-based Inquiry Science Environment; wise.berkeley.edu). Participants will collect and compare data with other youth participants, and researchers will use formative assessments to define interventions with potential to maximize student engagement and learning improvements among underserved youth. The project will advance understanding of informal education's potential to improve STEM engagement, knowledge, skills and attitudes by quantifying how - and to what extent - youth engage with emerging technologies iPad-enabled sensors, and crowdsourcing and visualization tools. The deliverables include a quantifying metric for learning outcomes, a training model for the iPad sensors and web application, an orientation kit, a social media portal, and database for the measurements.
This poster was presented at the 2014 AISL PI Meeting in Washington, DC. The Community Collaborative Rain, Hail and Snow (CoCoRaHS) network is an existing backyard citizen science project that is enhancing the research efforts of scientists and promoting climate literacy among the public by engaging volunteers in precipitation-monitoring activities.
BioTrails is a project of the MDI Biological Laboratory in collaboration with the National Park Service and the Schoodic Education and Research Center Institute, and is supported by an award from the National Science Foundation (DRL-1223210). The goal of the project is to establish practices for combining public participation in scientific research (citizen science) with DNA-based species identification (DNA barcoding) to scale-up and improve the accuracy of research projects that monitor animal and plant species in the sea and on land as they respond to climate and environmental changes. Once established through this project, the BioTrails team will expand the model to other national parks and long-distance trails, paving the way for engaging more citizen scientists in more places to understand, monitor, and manage biodiversity in a changing world.
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TEAM MEMBERS:
Mount Desert Island Biological LaboratoryKaren JamesBill ZoellickAbraham Miller-Rushing
This poster was presented at the 2014 AISL PI Meeting held in Washington, DC. The goal of the project is to establish practices for combining public participation in scientific research (citizen science) with DNA-based species identification (DNA barcoding) to scale-up and improve the accuracy of research projects that monitor animal and plant species in the sea and on land as they respond to climate and environmental changes.
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TEAM MEMBERS:
Mount Desert Island Biological LaboratoryKaren James
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
The purpose of this three-year collaborative design research project is to examine the role of culture in the development of knowledge and reasoning about the natural world and the subsequent sense-making of and participation in natural resource management. The PIs propose to examine the ways in which culture impacts observational habits, explanation constructing, uses and forms of evidence, and orientations towards socio-scientific challenges such as natural resource management. Collaborating on this project are researchers from the American Indian Center of Chicago, Northwestern University, and the Menominee Indian Tribe of Wisconsin. The audience for this study includes the academic informal science education community and indigenous science educators. This project also offers extensive cross-cultural, cross-disciplinary research opportunities for pre- and post-doctoral research trainees. The project will employ a mixed methods approach and proposes evaluation through an advisory board and community input. A community assessment team is proposed to review activities, obtain feedback from the larger community, and identify challenges to the effective implementation of the program. The project is comprised of two main panels of studies: the first consisting of a series of investigations of learning in everyday activities and the second consisting of two community design experiments that engage two Native American communities and two non-Native communities, one rural and one urban for both communities, in a culturally based citizen science (CBCS) project focused on ecosystem disruption (e.g. invasive species; climate change) and natural resource management. The CBCS project will engage participants in question formation, data collection, data analysis, forming policy recommendations, and citizen action around the findings. This project will develop a citizen science model that effectively engages diverse communities towards productive science learning, helpful scientific data collection, and citizen engagement in community planning and local policy decisions. The researchers believe that fundamental advances in STEM teaching and learning are needed across the broad landscape of learning environments and that the success of such advances may pivot on innovations and discoveries made in informal environments. Insights obtained from prior research on learning in indigenous cultures, especially in biological and environmental sciences, combined with the anticipated results from this study could lead to a deeper understanding of cross-cultural similarities and differences in science learning.
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TEAM MEMBERS:
Karen WashinawatokMegan BangDouglas MedinUniversity of Washington