The intent of this network is to encourage volunteers to get involved with our annual horseshoe crab monitoring program on various reference beaches throughout New York’s Marine District. “Citizen Scientists” will work with trained site coordinators to help collect data on horseshoe crab spawning abundance, size, sex and tag returns around full and new moon evenings from May to July. The data collected through this program is used to assess the status of horseshoe crabs in NY State, and will help determine the management and conservation of this important species throughout the region.
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TEAM MEMBERS:
Matthew SclafaniNew York State Department of Environmental Conservation
This article features critiques of the "Goose Bumps! The Science of Fear" exhibit at the Liberty Science Center. Brenda Cowan, Chairperson of the Graduate Exhibition Design program at SUNY/Fashion Institute of Technology, Paul Orselli, Chief Instigator of Paul Orselli Workshop, and Martin Weiss, Science Interpretation Consultant at the New York Hall of Science, share their analysis of the exhibition and assess its strengths and weaknesses.
In early 2004 Explorit Science Center (Explorit) contracted with Visitor Studies Services (VSS) to design and conduct an evaluation of Explorit's Health In Your World Project (HIYW). HIYW is a traveling, science-based health education program for children and adults in low-income communities. HIYW features interactive experiments designed to make learning about the human body, health, and healthy choices fun and accessible. The program serves students in grades K-6, and is designed to engage parents and involve them as an integral part of the learning process. The HIYW Project was developed in
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
Explore Evolution is a three-year project that uses a combination of traveling exhibits and activity kits to introduce the concept of evolution to museum audiences and 4-H groups. Six museum partners will collaborate on the development of eleven interactive exhibit modules on the following topics: disease in humans, eye development in animals, fruit fly diversity, sexual selection, hominoid development and extinction. The museum consortium includes the Kansas Museum and Biodiversity Center, Museum of the Rockies (MT), Sam Noble Oklahoma Museum of Natural History, Science Museum of Minnesota, University of Nebraska State Museum and the Exhibits Museum of the University of Michigan. The inquiry-based activity kits will be modeled after the University of Nebraska-Lincoln's "Wonderwise" kits, funded in part by NSF, and designed for middle school audiences. An "Explore Evolution" website will be launched to support the exhibits and activity kits. Dissemination will occur through museum education programs as well as a consortium of 4-H programs in Iowa, Minnesota, Montana, Michigan, Nebraska and Wyoming. It is anticipated that more than 1.8 million museum visitors and 800,000 4-H members will participate in this project.
Math in the Garden is a collaborative project between the University of California's Botanic Garden and 17 organizations around the nation that work with underserved urban youth, as well as rural communities. The project will create a series of five (5) guidebooks with activities that bring adults and children together in the garden to learn the mathematics inherent in the nature of gardening. The materials and activities will teach mathematical concepts and skills, feature plants, flowers, and fruits as math manipulatives, promote active learning, and support NCTM and National Science Standards. The guides will organize activities into clusters for various times of the year and contain appropriate activities for elementary through middle school-aged youth. Partner organizations will coordinate a trial test. Afterwards, the formative evaluation will guide the revision and finally, national distribution of the guides will be in conjunction with Dale Seymour Publishers. A national Advisory Committee of mathematicians, botanists, science educators, math educators, botanical garden staff, and leaders working in community gardens has been established. The entire project will be evaluated at every stage of development for its ability to increase math skills, garden knowledge, and to encourage young people to engage in active, inquiry learning.
Red Hills Studios proposes to design and develop BioArcade, a suite of online biology games for youth ages 9 to 13. Unique to the field of educational games is the specialized and innovative modding feature that Red Hills Studio will develop. Modding will allow learners to create their own customized versions of BioArcade games for dissemination to other learners. BioArcade games are intended to encourage extended game play and motivation for learning key biology concepts through exciting interactive game modules developed by a leading group of game developers and science content experts. The underlying educational and scientific framework for BioArcade will be developed collaboratively with Co-PI, Dr. Janis Cannon-Bowers at the University of Central Florida and Roger Bybee at the Biological Sciences Curriculum Study (BSCS), along with the projects Scientific and Design Advisory Boards. The project will rigorously evaluate modding as a potential new approach in game design. The modding innovation will be studied in a three-condition randomized controlled trial to determine its effectiveness in promoting deep exploration of scientific concepts and increased knowledge gain. Results of the study will be disseminated to the informal learning community through peer-reviewed educational journals, papers, and presentations at science education and game conferences. Extensive formative and summative evaluations, conducted by Knight Williams Research Communications, will provide valuable insight and assessment of the game design approach for science content learning in informal venues. BioArcade will be widely disseminated daily to millions of young learners online through PBSKids: www.pbskids.org/
Life on Earth aims to advance (1) public understanding of the history of life on Earth and biodiversity, and (2) our knowledge of how people interact and learn from large interactive science data visualizations on multi-touch displays in public settings. Our multi-institutional project team has developed the DeepTree, the FloTree, and Build-A-Tree (BAT). The focal exhibit, called the DeepTree, utilizing large data sets from four online databases including Tree of Life web project (www.tolweb.org), Encyclopedia of Life (www.eol.org), National Center for Biotechnology Information (https://www.ncbi.nlm.nih.gov/) and Time Tree (www.timetree.org), allow museum visitors to explore the relationships of 70,000 species, spanning over 3.5 billion years of evolutionary history using touch gestures on a large multi-touch computer display. Embedded inside the DeepTree, the "FloTree" encourages exploration of evolutionary processes within a single population. "Build-a-Tree" (BAT) is a multi-level phylogenetic tree-building game. These learning experiences are designed to target core evolutionary concepts and be self-directed, physically interactive, embodied, and collaborative. The Life on Earth exhibit has been installed at California Academy of Sciences in San Francisco, the Field Museum in Chicago, University of Nebraska State Museum in Lincoln Nebraska, and Harvard Museum of Natural in Cambridge Massachusetts. Please visit the Life on Earth website at https://lifeonearth.seas.harvard.edu/ to find more details on publications, and the ongoing learning research and summative evaluation. The Life on Earth project brings together a team of interdisciplinary researchers in human-computer interaction and information visualization, learning sciences, museum exhibit design, cognitive and developmental psychology, and evolutionary biology.
The Lost Ladybug Project (LLP) is a Cornell University citizen science project that connects science to education by using ladybugs to teach non-scientists concepts of biodiversity, invasive species, and conservation. The project has successfully engaged thousands of children (ages 5-11) in collecting field data on ladybugs and building a ladybug biology database that is useful to scientists. It has also reached 80,000 people over the Internet. The goal of the project is to promote lifelong appreciation of biodiversity and science, and provide scientists with data on the changing distribution and abundance of ladybug species across the country. The current project is broadening the Lost Ladybug Project's reach geographically, culturally, demographically, and contextually by creating new tools and materials for the website, and forging new connections with (1) youth groups, (2) science centers, community centers, botanical gardens, nature centers, and organic farms, (3) adults, (4) Native Americans, and (5) Spanish-speakers. The expanded project could potentially involve tens of thousands of new individuals in ladybug monitoring research. An evaluation study is measuring the impacts of the expansion on new participants' knowledge, skills, attitudes, interests, and behavior. The Lost Ladybug Project has been important in advancing scientific discovery and building scientific knowledge. Data collected by the project's volunteers have improved scientists' understanding of (1) ladybug species presence/absence, (2) shifts in ladybug species composition, (3) shifts in ladybug species ranges, and (4) change in ladybug body size and spot number. Evaluation data show that the project has a broad audience reach and is achieving its learning goals for adults and children. Broadening the project's reach will further increase the project's importance to ecology, conservation biology and biodiversity research, as well as education research.
This project will develop a prototype intelligent cyberlearning platform for middle school audiences at a museum location to test and evaluate the use of virtual learning technologies. The content for this test is focused on sustainability issues that enable students to develop an age-appropriate understanding of the relationships between specific conservation decisions, energy use, human health, and population growth within Earth's ecosystem. The prototype cyberlearning system will demonstrate how users can learn about science topics by interacting with a display of environmental factors that enable them to explore the impact of social, economic, and technological forces that may change one existing state and condition to another. The system will enable users to understand the interrelationships of those elements by enabling them to change conditions and then observing the effect of the changes they make on the conditions presented in the initial model. The prototype intelligent cyberlearning system will provide a unique integration of a sophisticated agent-based modeling simulation of environmental, social, and economic phenomena with three advanced learning technologies: game-based learning systems, intelligent tutoring systems, and narrative-centered learning systems. The game-based and narrative aspects of the project are embodied in the interactive time-travel focus of the 3D display on a multi-touch surface computing table in which users will play the role of environmental scientists who have been charged with helping earth become a thriving green planet. They will go back in time and be given the opportunity to make different decisions on any range of options. After they make their decisions, they will travel forward in time to see the results of their decisions. All of the interactions will be used to dynamically generate their time-travel adventures. The intelligent tutoring system will track user\'s problem-solving activities in the simulated world. As users make decisions, the intelligent tutoring system will draw inferences about their level of understanding of key environmental concepts. Given the current problem-solving goal (e.g., reduce green house gases) and the current state of the environment (e.g., climatological state, earth's population, factory emissions), the intelligent tutoring system will draw on its knowledge of common environmental misconceptions to assist students as they progress through the sustainability narratives. The intelligent tutoring system will receive the updated state from the agent-based simulation, which will then provide explanatory commentary and advice through the virtual human to the users about the causal connections underlying the results of the decisions they have made. Similarly, during the course of decision-making, users will be able to request advice, and the same computational framework will drive the virtual human\'s advice generation functionalities. The project will design, development, deploy, and evaluate a prototype intelligent cyberlearning platform for sustainability that supports independent, but guided, exploration of science topics. Because all users interactions will be accompanied by a virtual environmental scientist who will narrate their journeys and offer problem-solving advice, users will be afforded rich learning opportunities that support independent inquiry but also provided guided exploration of complex science topics. With a focus on group learning experiences in the out-of-school setting, the virtual environmental scientist will answer questions that will engage groups of users in a collaborative effort to understand the rich interrelationships of sustainability. The project will demonstrate the transformative potential of intelligent cyberlearning systems that integrate agent-based modeling with game-based learning, intelligent tutoring systems, and narrative-centered learning in an out-of-school setting to enable users to experience science in fundamentally new ways.
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TEAM MEMBERS:
James LesterBradford MottJames MinoguePatrick Fitzgerald
In this full-scale research and development project, Oregon State University (OSU), Oregon Sea Grant (OSG) and the Hatfield Marine Science Center Visitors Center (HMSCVC) is designing, developing, implementing, researching and evaluating a cyberlaboratory in a museum setting. The cyberlaboratory will provide three earth and marine science learning experiences with research and evaluation interwoven with visitor experiences. The research platform will focus on: 1) a climate change exhibit that will enable research on identity, values and opinion; 2) a wave tank exhibit that will enable research on group dynamics and problem solving in interactive engineering challenges; and 3) remote sensing exhibits that will enable research on visitor interactions through the use of real data and simulations. This project will provide the informal science educaton community with a suite of tools to evaluate learning experiences with emerging technologies using an iterative process. The team will also make available to the informal science community their answers to the following research questions: For the climate change exhibit, "To what extent does customizing content delivery based on real-time visitor input promote learning?" For the wave tank exhibit, "To what extent do opportunities to reflect on and share experiences promote STEM reasoning processes at a build-and-test exhibit?" For the data-sensing exhibit, "Can visitors' abilities to explain or use visualizations be improved by shaping their visual searches of images?" Mixed-methods using interviews, surveys, behavioral instruments, and participant observations will be used to evaluate the overall program. Approximately 60-100 informal science education professionals will discuss and test the viability of the exhibit's evaluation tools. More than 150,000 visitors, along with community members and local middle and high school students, will have the opportunity to participate in the learning experiences at the HMSCVC. This work contributes to the fields of cyberlearning and informal science education. This project provides the informal science education field with important knowledge about learning, customized content delivery and evaluation tools that are used in informal science settings.
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.