This project brings together polar researchers, science centers and broadcast media reporters to tell the story of four polar research expeditions to the general public, teachers and students. The four expeditions to the Arctic and Antarctic were chosen based on their relevance to the three primary IPY research emphasis areas defined by NSF. A science writer and a professional photographer/oceanographer reporting on each expedition will do daily webcasts on the "Polar Discovery web site (http://polardiscovery.whoi.edu)" as well as several scheduled real-time phone patches to audiences at the Museum of Science, Boston, the Smithsonian Natural History Museum, The Field Museum (Chicago), the Houston Museum of Natural Science, the Pacific Science Center (Seattle), the Birch Aquarium (San Diego), National Public Radio stations, CBS News and to student "reporters" writing for Scholastic Online. Programs will also be broadcast on University of California TV. A museum exhibit at the WHOI Exhibit Center will highlight polar research. Components of it will either travel to partner museums or be replicated in the partnering museums. Photo archives of the expeditionary material will also be created and made available to interested users.
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TEAM MEMBERS:
Christopher LinderFrederic HeideJames Kent
resourceprojectProfessional Development, Conferences, and Networks
The Ecological Society of America will host an Ecology and Education Summit in the fall of 2010. It will bring together leaders of diverse national ecology and environmental education organizations and scientific societies, as well as organizations of teachers, technology experts, and the business sector, to disseminate best practices that will advance Environmental Literacy for a Sustainable World, reduce duplication of efforts, and coordinate strategies to build capacity and pathways of support for green careers for the next generation. In this effort, strategies to increase the participation of underrepresented minorities and women into the ecological and environmental agenda are of critical priority. By bringing the best in science, educational practice, and technology development to one event, the Summit aims to accelerate the transformation of teaching and learning among K-20+ audiences in both formal and informal settings in response to the urgent and complex environmental challenges faced today.
Maine is a rural state with unequal access to computers and information technology. To remedy this, the Maine laptop program supplies iBooks to every seventh and eighth grade student in the state. The goal of EcoScienceWorks is to build on this program and develop, test and disseminate a middle school curriculum featuring computer modeling, simple programming and analysis of GIS data coupled with hands-on field experiences in ecology. The project will develop software, EcoBeaker: Maine Explorer, to stimulate student exploration of information technology by introducing teachers and students to simple computer modeling, applications of simulations in teaching and in science, and GIS data manipulation. This is a three-year, comprehensive project for 25 seventh and eighth grade teachers and their students. Teachers will receive 120 contact hours per year through workshops, summer sessions and classroom visits from environmental scientists. The teachers' classes will field test the EcoScienceWorks curriculum each year. The field tested project will be distributed throughout the Maine laptop program impacting 150 science teachers and 17,000 middle school students. EcoScienceWorks will provide middle school students with an understanding of how IT skills and tools can be used to identify, investigate and model possible solutions to scientific problems. EcoScienceWorks aligns with state and national science learning standards and integrates into the existing middle school ecology curriculum. An outcome of this project will be the spread of a field tested IT curriculum and EcoBeaker: Maine Explorer throughout Maine, with adapted curriculum and software available nationally.
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TEAM MEMBERS:
Walter AllanEric KlopferEleanor Steinberg
Norbert Wu and collaborators will create an extensive library of visual media documenting polar marine ecosystems in Antarctica. The PI will partner with the BBC to film and photograph images of marine life in Antarctica at McMurdo and the PI will also film at Palmer. Some of the video footage will contribute to the BBC Natural History Unit production, Life, to be released in 2010. The video and still imagery will also be used to extend the Underwater Field Guide to McMurdo Sound maintained by Scripps. The series of podcasts will profile women researchers at both McMurdo and Palmer. The Ocean Institute will use material as part of their polar science education curricula, "Girls in Ocean Science." Archived materials will be made available to both scientists and the public, and other interested publishing and broadcasting entities, including a number of existing IPY projects. The visual media produced during this project are designed for national and international distribution to enhance the legacy of the International Polar Year.
Glaciers: A Chronology of Climate Change is a CRPA project that seeks to explain the historical cycling of glaciers in the context of climate change. By using chemical isotopes (Beryllium 10), the age of rocks that have been covered with glacier ice and exposed to sunlight later can be determined fairly accurately. Through this method, the glaciation cycles have been determined for the last 70,000 years. In collaboration between the Lamont-Doherty Earth Observatory at Columbia University and the American Museum of Natural History (AMNH), this project is designed to impact adult audiences, youth in grades 6th-12th, and teachers writ large. The research results shall be expressed via an eight-minute high definition film for large screen viewing in the \"Science Bulletins\" section of the AMNH and the affiliated museums. A rigorous front-end evaluation will be used to inform the presentation and assess audience impact. Subsequent formative evaluations are designed to measure the learning impact of the film and the retention of longer term concepts. It is anticipated that more than 700,000 individuals will have access to current, scientifically accurate data and related information on glaciation cycles and climate change through the educational film and website. Materials will be easily accessible to teachers and the film will be closed captioned in both English and Spanish.
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TEAM MEMBERS:
Joerg SchaeferGeorge DentonMichael Kaplan
The goal of the FOCUSSS project is to engage high school students in a need-to-know pursuit for learning science that leads to the discovery of sustainable resources and practices for use in their communities. The project is a collaboration among Loyola University Chicago, Adler Planetarium, the Chicago Museum of Science and Industry, and four local, urban high schools to construct student and family activities involving essential science concepts and tools within a sustainability context. Through this project, high school students engage in school and family activities around specific themes related to sustainable resources and practices in their communities, such as the availability and access to nutritious food, the quality of air or availability of clean water resources, the effective use of energy resources, or similar topics. The project intends to help students develop as informed and responsible citizens who utilize the principles and tools of basic science for their decisions and actions. The blended instructional model that deeply involves family and community will be studied for its potential to make formal learning relevant to the lives of children and to the health of the community. As an exploratory project, the project tests a curriculum design that bridges formal and informal education and draws upon the resources in the community. Students interact with online learning communities that include their teachers, their families, fellow students, and sustainability organizations. Participating teachers are involved in intensive workshops that focus on developing sustainability principles within inquiry-based science curricula and lessons plans. Service projects provide opportunities for students to invite their families to participate and be supported in family workshops at local museums and in site visits to organizations involved in related initiatives. Data collection includes surveys administered to students and participating family members, observations, interviews, classroom assessments, and other open-ended instruments intended to surface themes and related variables. These will inform the design of the materials and activities as well as the assessments. The project deliverables include fully implemented classroom lessons supported by family projects and online sustainability courses for students and families. The project fosters students and families connecting to their communities, resources and organizations in order to improve the quality of their neighborhoods and to promote individual, family, and public health.
The University of Cincinnati Arlitt Child and Family Research and Education will conduct a two-year research investigation to document and understand young children's scientific dialog, interactions, behaviors, and thinking within expressly designed natural play environments called playscapes. Two existing environmental science-focused playscapes will serve as the informal context for the study. Pre-school children and their teachers at early childhood centers, Head Start programs and informal learning institutions such as zoos, nature centers, and museums will participate in the study. The Cincinnati Nature Center and the Cincinnati Playscape Initiative will partner with the University of Cincinnati for this research endeavor. The results of the study are expected to not only address a significant gap in the literature base related to self-directed play and young children\'s scientific thinking within playscapes environments, but the study also has the potential to inform the field more broadly about scientific learning and teaching across informal and formal contexts at the early childhood levels. Nine research questions will frame the study and seek to investigate: (a) children\'s behaviors in intentionally designed playscapes, (b) children\'s scientific thinking in intentionally designed playscapes, and the relationship between access to the playscape environment and children's attitudes about science and their own scientist identities. The study sample includes over 200 children (ages 3-5) will be recruited from local university, child care centers and head start programs. Each child will participate in research activities at one of two test sites, with sixty children participating in research activities at both test sites. As part of the study, the children will visit the test sites at least three different times and will be asked to explore the playscape environments on their own, with other children, and with their teachers. Lavalier microphones will capture the students' self-talk and dialogs with others, as they explore the specially designed playscape environments. Other data collection methods include: behavior mapping, direct observation, dialog analysis, surveys, focus groups, and curriculum-based assessments. A team of researchers, including university faculty and graduate assistants, will employ inductive, deductive, and abductive analytical methods and reasoning to analyze and synthesize the data. Concurrently, an external evaluator at the Evaluation Services Center will employ a mixed-methods approach for the formative, remedial, and summative project evaluations. An ultimate goal of the project is to use the research findings to provide a scientific base for the development of an early childhood approach that promotes scientific thinking and learning within self-directed, informal contexts.
The University of Minnesota is partnering with several nature centers in the Midwest to transform citizen "technicians" into citizen "scientists." The Driven to Discover project will use existing citizen science programs with strong educational components to engage 12-14 year old youth and their adult mentors in authentic research. The goal of the project is to develop a training model for adults who work with youth in a variety of informal education settings to involve them in authentic scientific inquiry via citizen science rather than just data collection activities. In the proof-of-concept phase, teams consisting of 4-H youth, adult leaders, and several scientists are conducting participatory action research to understand what factors lead youth to full engagement in ecological research. In phase two, project personnel are training 4-H educators, naturalists, and teachers how to engage youth and their adult leaders in other 4-H programs and other informal education programs to conduct ecological research with scientists in advisory roles. Phase one involves approximately 10 adults and 70 youth, whereas phase two involves approximately 40 adults and 300 youth. A front-end study defined the project's target audiences and partners. Formative evaluation study will monitor interactions among members of the research teams and summative evaluation will measure impacts on participants' knowledge, skills development, attitudes, and behavior. Project deliverables include youth-generated ecological research findings, web-based program implementation materials, an annual conference, and a model for engaging youth groups in informal settings in authentic scientific inquiry. The model is expected to impact more than six million youth nationwide.
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TEAM MEMBERS:
Karen OberhauserNathan MeyerAndrea Lorek StraussPamela NippoltKatie ClarkRobert Blair
Video games have been heralded as models of technology-enhanced learning environments as they exemplify many of the ideas emerging from contemporary learning sciences research. In particular, such games promote learning through goal-directed action in simulated environments, through producing as well as consuming information, embedded assessments, and through participation in self-organizing learning systems. Research suggests that participation in such environments involves many forms of scientific thinking and may lead to increased civic engagement, although to date, there are few examples of game-based learning environments that capitalize on these affordances. This project will investigate the potential of online role playing games for scientific literacy through the iterative design and research of Saving Lake Wingra, an online role playing game around a controversial development project in an urban area. Saving Lake Wingra positions players as ecologists, department of natural resources officials, or journalists investigating a rash of health problems at a local lake, and then creating and debating solutions. Players will solve challenges within an interactive, simulated lake ecosystem as they attempt to save the lake, working for one of several constituencies. This design-based research project will span the full life cycle of a project, from case studies of learning in small, constrained settings to controlled experimental studies of games implemented across classrooms. In addition to asking if participation in scientific role-playing games can produce robust conceptual understandings, it will also examine if role playing games might serve as assessment tools for comprehending scientific texts, assessing conceptual understandings within scientific domains, and designing innovative solutions to environmental problems that draw upon scientific understandings. The education plan includes the production of game-based media that can be used to support a variety of research studies, an online professional development community of educators using games for learning, support for graduate students trained in game theory, the learning sciences, and new forms of assessment, and new courses in game-based learning and assessment.
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
The Cornell Lab of Ornithology is creating a new type of interactive, question-driven, online bird-identification tool called "Merlin," along with associated games, social networking tools, and other media. Unlike existing bird-identification guides, which are based on traditional taxonomic keys written by scientists, Merlin uses machine learning algorithms and crowd-sourced data (information provided by thousands of people) to identify birds and improve Merlin's performance with each interaction. The tool will help millions of people identify birds and participate in a collective effort to help others. The Crowd ID project will make it easier for people to discover the names of birds, learn observation and identification skills, find more information, and appreciate Earth's biodiversity. The summative evaluation plan is measuring increases in participants' knowledge, engagement, and skills, as well as changes in behavior. Impacts on participants will be compared to a control group of users not using Merlin. Merlin tools will be integrated into the Cornell Lab's citizen science and education projects, which reach more than 200,000 participants, schoolchildren, and educators across the nation. Merlin will be broadly adapted for use on other websites, social networking platforms, exhibits, mobile devices, curricula, and electronic field guides. Once developed, Merlin can be modified to identify plants, rocks, and other animals. Merlin will promote growth of citizen science projects which depend on the ability of participants to identify a wide range of organisms.
The University of Minnesota and the University of Florida are collaborating on the creation of a Master Naturalist Program for adults that will serve as a model for nationnwide dissemination. This program, which builds on the existing Florida Master Naturalist Program, will provide intensive 40-hour training sessions in ecology, natural/cultural history and the environment for volunteers in Minnesota. Participants will then complete 40 hours of supervised volunteer service at local natural history centers while volunteers in both Florida and Minnesota will have the option of participating in advanced training workshops. Staff members at informal science education institutions and natural history centers take part in train-the-trainer workshops to assist with dissemination. Deliverables include three training modules (Big Woods, Big Rivers; Prairies and Potholes; North Woods, Great Lakes), advanced training workshops, local Master Naturalist Chapters, annual conferences, training materials and workshops for Master Naturalist Instructors, and a project website. It is anticipated that this project will result in the implementation of 64 Master Naturalist workshops, directly reaching 1,280 volunteers, while 750 participants are anticipated for advanced training workshops. It is estimated that 130 staff will participate as Master Naturalist Instructors. Indirect impacts will be realized as volunteers contribute more than 51,000 hours in service to nature centers and informal science institutions interacting with public audiences while conducting natural history activities. Strategic impact will be realized in the outcomes of the comprehensive evaluation plan that will assess immediate and longitudinal impacts on public and professional audiences.
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TEAM MEMBERS:
Robert BlairMartin MainAmy RagerKaren Oberhauser