eeRESEARCH combines research for environmental education and the movement to connect children and nature. The database includes multiple ways to search for articles, syntheses, and research summaries.
This project is a partnership with Children & Nature Network and NAAEE. Funded by the Pisces Foundation with support from ee360, ee360+, and the U.S. Forest Service. Learn more.
Displaying 1141 - 1152 of 2558
Conservation campaigns at free-learning sites can promote pro-environmental behaviors
Mann, Judy Brenda, Ballantyne, Roy, & Packer, Jan. (2018). Penguin Promises: encouraging aquarium visitors to take conservation action. Environmental Education Research, 24, 859-874.
Exploring positive relationships between environmental attitudes and views of the future
Liu, Shu-Chiu, & Lin, Huann-shyang. (2018). Envisioning preferred environmental futures: exploring relationships between future-related views and environmental attitudes. Environmental Education Research, 24, 80-96.
The Potential Role of Computer-Based Problem-Solving Programs in Sustainability Education
Sonnleitner, P., König, A., & Sikharulidze, T. (2018). Learning to confront complexity: what roles can a computer-based problem-solving scenario play?. Environmental Education Research, 24, 1340-1358.
Framing water conservation messages to promote behavioral change in businesses
Sarge, Melanie A., Daggett, Samantha, & VanDyke, Matthew S. (2018). Using theory to inform water conservation in business communities: Formative research from a chamber initiative. Applied Environmental Education & Communication, 17, 198-214.
Teaching about freshwater resources should include social systems
Sammel, Alison, McMartin, Dena, & Arbuthnott, Katherine. (2018). Education Agendas and Resistance With the Teaching and Learning of Freshwater and Extreme Freshwater Events. Australian Journal of Environmental Education, 34, 18-32.
Evaluating stakeholders' perceptions of environmental education programming
Reese, Ryan F. (2018). Adult stakeholder perceptions of 4th grade participation in children’s forest environmental education programming. Environmental Education Research, 24, 1211-1223.
Evaluating the potential of BioBlitz citizen science to promote environmental behavior
Postles, Matthew, & Bartlett, Madeleine. (2018). The rise of BioBlitz: Evaluating a popular event format for public engagement and wildlife recording in the United Kingdom. Applied Environmental Education & Communication, 17, 365-379.
Assessment of importance and characteristics of biophilic design patterns in a children’s library
Lee, H. C., & Park, S. J. (2018). Assessment of importance and characteristics of biophilic design patterns in a children’s library. Sustainability , 10. http://dx.doi.org/10.3390/su10040987
Beyond two worlds: Identity narratives and the aspirational futures of Alaska Native youth
Trout, L., Wexler, L., & Moses, J. (2018). Beyond two worlds: Identity narratives and the aspirational futures of Alaska Native youth. Transcultural Psychiatry, 55(6), 21. https://doi.org/10.1177/1363461518786991
Children’s play with a forest diorama as a window into ecological cognition
Washinawatok, K., Rasmussen, C., Bang, M., Medin, D., Woodring, J., Waxman, S., … Faber, L. (2018). Children’s play with a forest diorama as a window into ecological cognition. Journal of Cognition and Development, 18(5), 16. https://doi.org/10.1080/15248372.2017.1392306
Nature contact at school: The impact of an outdoor classroom on children's well-being
Largo-Wight, E., Guardino, C., Wludyka, P.S., Hall, K.W., Wight, J.T., & Merten, J.W. (2018). Nature contact at school: The impact of an outdoor classroom on children’s well-being. International Journal of Environmental Health Research, 28(6), 14. http://dx.doi.org/10.1080/09603123.2018.1502415
State of play: Methodologies for investigating children's outdoor play and independent mobility
Han, C.S., Mâsse, L.C., Wilson, A., Janssen, I., Schuurman, N., & Brussoni, M. (2018). State of play: Methodologies for investigating children’s outdoor play and independent mobility. Children, Youth and Environments, 28(2), 38. http://dx.doi.org/10.7721/chilyoutenvi.28.2.0194