Today’s conservation challenges are complex. Solving these challenges often requires scientific collaborations that extend beyond the scope, expertise, and capacity of any single agency, organization, or institution. Conservation efforts can benefit from interdisciplinary collaboration, scientific and technological innovations, and the leveraging of capacity and resources among partners. Here we explore a series of case studies demonstrating how collaborative scientific partnerships are furthering the mission of the US Fish and Wildlife Service (USFWS), including: (1) contaminants of emerging
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TEAM MEMBERS:
Shauna MarquardtMandy AnnisRyan DrumStephanie HummelDavid MosbyTamara Smith
With the acceleration and increasing complexity of macro-scale problems such as climate change, the need for scientists to ensure that their work is understood has become urgent. As citizens and recipients of public funds for research, scientists have an obligation to communicate their findings in ways many people can understand. However, developing translations that are broadly accessible without being “dumbed down” can be challenging. Fortunately, tenets of visual literacy, combined with narrative methods, can help to convey scientific knowledge with fidelity, while sustaining viewers’
Human-induced global change has triggered the sixth major extinction event on earth with profound consequences for humans and other species. A scientifically literate public is necessary to find and implement approaches to prevent or slow species loss. Creating science-inspired art can increase public understanding of the current anthropogenic biodiversity crisis and help people connect emotionally to difficult concepts. In spite of the pressure to avoid advocacy and emotion, there is a rich history of scientists who make art, as well as art–science collaborations resulting in provocative work
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TEAM MEMBERS:
Jennifer HarrowerJennifer ParkerMartha Merson
Science museums have made a concerted effort to work with researchers to incorporate current scientific findings and practices into informal learning opportunities for museum visitors. Many of these efforts have focused on creating opportunities and support for researchers to interact face-to-face with the public through, for example, speaker series, community forums, and engineering competitions. However, there are other means by which practicing scientists can find a voice on the museum floor—through the design and development of exhibits. Here we describe how researchers and museum
Scientists can reap personal rewards through collaborations with science and natural history museums, zoos, botanical gardens, aquaria, parks, and nature preserves, and, while doing so, help to advance science literacy and broaden participation in the natural sciences. Beyond volunteer opportunities, which allow scientists to contribute their knowledge and passion within the context of existing programs and activities, there are also opportunities for scientists to bring their knowledge and resources to the design and implementation of new learning experiences for visitors to these informal
Most researchers are keenly interested in disseminating their work beyond traditional publication routes. With an eye to increasing broader impacts, scientists can benefit from partnerships with informal educators who interact daily with the public and see their role as translating science to increase the public’s intellectual and emotional connections with the natural world. Typically, researchers give a one-time lunch hour talk, generally a modified version of a presentation aimed at scientific peers. Talks during which scientists show slides and interpreters mainly listen are a missed
The USA has set aside over 400 national parks and other protected areas to be managed by the National Park Service (NPS). Collectively, these sites attract over 300 million visits per year which makes the NPS one of the largest informal education institutions in the country. Because the NPS supports and facilitates scientific studies in parks, the national park system provides abundant opportunity for biologists and other scientists to engage global audiences in learning, exploring, and even conducting science. Those opportunities are best pursued through collaborations among scientists and
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TEAM MEMBERS:
Tim WatkinsAbraham Miller-RushingSarah Nelson
With stories of struggle and dramatic breakthroughs, science has incredible potential to interest the public. However, as the rhetoric of outrage surrounds controversies over science policy there is an urgent need for credible, trusted voices that frame science issues in a way that resonates with a diverse public. A network of informal educators, park rangers, museum docents and designers, and zoo and aquarium interpreters are prepared to do so during millions of visits a year; just where science stories are most meaningfully told—in the places where members of the public are open to learning
Immersion in well-designed outdoor environments can foster the habits of mind that enable critical and authentic scientific questions to take root in students' minds. Here we share two design cases in which careful, collaborative, and intentional design of outdoor learning environments for informal inquiry provide people of all ages with embodied opportunities to learn about the natural world, developing the capacity for understanding ecology and the ability to empathize, problem-solve, and reflect. Embodied learning, as facilitated by and in well-designed outdoor learning environments, leads
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TEAM MEMBERS:
Katherine GillJocelyn GlazierBetsy Towns
We cannot take access to equitable out‐of‐school science learning for granted. Data compiled in 2012 show that between a fifth (22% in Brazil) and half (52% in China and the United States) of people in China, Japan, South Korea, India, Malaysia, the United States, the European Union, and Brazil visited zoos, aquaria, and science museums (National Science Foundation, 2012). But research suggests participation in out‐of‐school science learning is far from equitable and is marked by advantage, not least the social axes of age, social class, and ethnicity (Dawson, 2014, 2014; National Science
For many children, gaining access to STEM education is an uphill battle. Inequity and underrepresentation of children from marginalized communities persist. Research has pointed not only to an access opportunity gap but also to an identity gap--children from nondominant communities often do not "see" themselves in dominant STEM structures (Authors 2013). The maker movement has evoked interest for its potential role in breaking down barriers to STEM learning and attainment (Martin 2015). Characterized by hands-on working with materials (e.g., cardboard, fabric, wood) and digital components (e.g
In May, 2017, the University of Michigan School of Information hosted an NSF-funded workshop on the promise and pitfalls of using digital micro-credentials, also known as digital badges, in the college admission process. Micro-credentials are digital artifacts that can be used to recognize, display, and transmit information about an individual student’s skills, abilities, and knowledge. Modeled on the physical badges used by organizations such as the Boy/Girl Scouts of America, and websites such as Stack Overflow, micro-credentials offer learners a mechanism for displaying and sharing a wider
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TEAM MEMBERS:
Barry FishmanStephanie TeasleySteven Cederquist