Program Design Principles to Support Teen-Adult Community Conservation Efforts

Cisneros, Laura M.; Simmons, Jonathan; Campbell, Todd; Freidenfelds, Nicole A.; Arnold, Chester; Chadwick, Cary; Dickson, David; Moss, David M.; Rodriguez, Laura; Volin, John C.

doi:10.3389/feduc.2021.674667

Cited by 5 publications

(8 citation statements)

References 38 publications

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“…Smaller universities with fewer faculty and funding may struggle in committing two instructors to classes. This could be addressed through adjustments in class sizes, engagements with fewer communities, or through condensing activities to a shorter duration than a semester, such as done through something like a two-day conservation workshop described in Cisneros et al (2021) and Chadwick et al (2018). Also, colleges with fewer numbers of experienced STEM faculty could benefit by bridging more diverse fields.…”

Section: Discussionmentioning

confidence: 99%

E-Corps’ Implementation of Environmental Sustainability-Focused Service-Learning: Conditions Supporting the Establishment of an Epistemic Community

Campbell‐Montalvo

Campbell

Park

et al. 2021

JSTEM

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Background: Environmental sustainability-focused service-learning programs can aid communities in addressing environmental problems and provide students with hands-on training. Understanding the implementation of such programs can inform research and application. Purpose: We investigate the implementation of an environmental sustainability-focused service-learning program (E-Corps) at a large New England public university. Our inquiry sought to better understand epistemic communities by addressing the research question: What conditions, including contextual factors and resources (i.e., funding, university context) and people (i.e., faculty, their orientation to teaching, how they work together), supported the establishment of an epistemic community in the implementation of E-Corps? Methodology/Approach: We employ frameworks of 1) Design Based Implementation Research (DBIR), which considers problems from multiple stakeholders' perspectives, collaborative design, pedagogical theory and knowledge, and capacity for sustaining change, and 2) epistemic communities-the stakeholders recursively generating, using, and refining pedagogical knowledge. We thematically analyzed interviews with students (n=7), two rounds of interviews with faculty (n=7), and participant observations of four E-Corps team meetings (n=13). Findings/Conclusions: Findings show that epistemic community within E-Corps' implementation was supported by 1) an existing context of resources within the university, and 2) a robust university-partnership prioritizing community benefits with aligned instructor approaches. Our work informs both research on DBIR and epistemic communities as well as the practical implementation of university-community environmental partnerships.

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Section: Discussionmentioning

confidence: 99%

E-Corps’ Implementation of Environmental Sustainability-Focused Service-Learning: Conditions Supporting the Establishment of an Epistemic Community

Campbell‐Montalvo

Campbell

Park

et al. 2021

JSTEM

Self Cite

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“…This participatory and action-oriented approach enables learners to reflect upon and address social aspects of environmental problems that are relevant and meaningful to them (Schusler and Krasny, 2010). Examples of environmental action include developing urban gardens in vacant lots to provide fresh produce to the community, controlling erosion along stream banks in response to high sedimentation levels, and monitoring black bear activity patterns in public areas to educate the community about wildlifehuman interactions (Cisneros et al, 2021).…”

Section: Need For Community Action-oriented Environmental-steam Programsmentioning

confidence: 99%

“…A primary focus is on inclusivity, identity authoring, and career interest through expansive forms of participation by those historically excluded in E-STEAM. Building on the success of our previous related work, we draw on strategies for connecting projects to the interests and identities of teens and community partners (Cisneros et al, 2021). The focus on geospatial technology gives participants access to local spatial and temporal data that support place-based community exploration, environmental action work, and community decision-making.…”

Section: The Uniqueness Of the Eco-digital Storytelling Programmentioning

confidence: 99%

“…The EDS approach begins as school pods attend two immersive workshop field trips in late fall at the University of Connecticut's main campus where they (1) discover how geospatial technology can be used to investigate local environmental issues (Chadwick et al, 2018), and (2) explore and engage in digital storytelling. Considerable time during the workshops is also dedicated to guiding school pods through brainstorming and designing local environmental action projects tailored to their interests and their community's needs using project support resources (e.g., project planning templates, communication best-practices, references to past student projects; Cisneros et al, 2021).…”

Section: The Uniqueness Of the Eco-digital Storytelling Programmentioning

confidence: 99%

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Eco-digital storytelling: Engaging historically excluded populations in environmental action through mentoring, geospatial technology, and digital media storytelling

et al. 2023

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The environment, science, technology, engineering, arts, and mathematics fields (a collection of fields we call E-STEAM) continue to grow and remain economically and ecologically important. However, historically excluded groups remain underrepresented in science and technology professions, particularly in environmental and digital media fields. Consequently, building pathways for historically excluded students to enter economically viable and ecologically influential E-STEAM professions is critically important. These new pathways hold promise for increasing innovation within these fields and ensuring a multiplicity of representation as these fields are shaped and reshaped to attend to the plural interests of diverse communities. Consequently, this conceptual paper describes an eco-digital storytelling (EDS) approach to engaging historically excluded populations in science, technology, engineering, and mathematics (STEM). This approach offers structured learning opportunities connected to learner interests and community needs with the aim of increasing E-STEAM identity and career interest of teens from groups historically excluded from E-STEAM fields. E-STEAM identity is a meaning one can attach to oneself or that can be ascribed externally by others as individuals interact and engage in E-STEAM fields in ways that foreground the environment. The EDS approach leverages community-based action, technology and digital media, and arts and storytelling as entry points for engaging learners. EDS is designed to increase teens’ content knowledge within multiple E-STEAM fields and to provide numerous technology-rich experiences in both application of geospatial technologies (i.e., GPS, interactive maps) and digital media creation (i.e., video, animation, ArcGIS StoryMaps) as a way to shape teens’ cultural learning pathways. Examples of rich digital media presentations developed to communicate the EDS approach and local environmental opportunities, challenges, and projects are provided that exemplify how both participation in and communication of environmental action can contribute to more promising and sustainable futures.

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“…Typically, adults who volunteer with such projects are committed to nurturing environmental awareness, and they resist age‐related hierarchies by working alongside youth as fellow community scientists (Schusler et al, 2017). Such intergenerational conservation partnerships are more likely to succeed if they respond to real‐world challenges, use open communication, proactively seek youth's input, respond to both adults' and youth's interests, and share their work with the public (Cisneros et al, 2021).…”

Section: Elements Of Cs In Practicementioning

confidence: 99%

Civic science: Addressing racial inequalities in environmental and science, technology, engineering, and math education

Flanagan

Gallay

Pykett

2022

Child Dev Perspectives

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Communities of color shoulder disproportionate health burdens from environmental pollution and climate change, regardless of their location or social class (Bullard et al., 2011). Examples include air pollution from particulate matter, proximity to hazardous waste storage, and heat islands as a result of few green spaces in the built environment. Yet historically, environmental justice has not been prominent in environmental education (Kushmerick et al., 2007). However, in recent decades, attention to justice in environmental education has grown (Calabrese Barton & Tan, 2010;Davis & Schaeffer, 2019;Gallay et al., 2021), the theme is central to some graduate student training (Miller et al., 2021), and leading organizations such as the North American Association of Environmental Education have prioritized issues of justice.Racial inequities persist in learning opportunities related to science, technology, engineering, and math, or STEM (Penuel, 2017) and contribute to the underrepresentation of ethnic minorities in STEM careers. The green energy workforce is among the least diverse: Fewer than 10% of workers in clean energy production and efficiency are Black (Muro et al., 2021). STEM pipeline models, the dominant paradigm to address divides in learning opportunities, have been criticized for ignoring the scientific relevance of minoritized students' cultural and community knowledge (Bang & Vossoughi, 2016). Instead, place-based models where students and educators use STEM to address issues affecting their community are recommended (Vakil & Ayers, 2019), approaches that position students to use science as a catalyst for change (Morales-Doyle, 2017).

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Program Design Principles to Support Teen-Adult Community Conservation Efforts

Cited by 5 publications

References 38 publications

E-Corps’ Implementation of Environmental Sustainability-Focused Service-Learning: Conditions Supporting the Establishment of an Epistemic Community

E-Corps’ Implementation of Environmental Sustainability-Focused Service-Learning: Conditions Supporting the Establishment of an Epistemic Community

Eco-digital storytelling: Engaging historically excluded populations in environmental action through mentoring, geospatial technology, and digital media storytelling

Civic science: Addressing racial inequalities in environmental and science, technology, engineering, and math education

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