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How communication with teachers, family and friends contributes to predicting climate change behaviour among adolescents

Published online by Cambridge University Press:  16 October 2017

RENE X. VALDEZ*
Affiliation:
Fisheries, Wildlife and Conservation Biology Program, Department of Forestry and Environmental Resources, North Carolina State University, Box 7646, Raleigh, NC 27695, USA
M. NILS PETERSON
Affiliation:
Fisheries, Wildlife and Conservation Biology Program, Department of Forestry and Environmental Resources, North Carolina State University, Box 7646, Raleigh, NC 27695, USA
KATHRYN T. STEVENSON
Affiliation:
Department of Parks, Recreation & Tourism Management, North Carolina State University, Box 8008, Raleigh, NC 27695, USA
*
*Correspondence: Rene X. Valdez email: rxvaldez@ncsu.edu

Summary

Engaging adolescents is critical to encouraging future climate change adaptation and mitigation behaviours. Adolescents are typically more receptive to climate change messages than adults, but educators and communicators need research-based strategies for optimizing engagement, including information about what factors are most influential in changing behaviours. To better understand how communication with teachers, friends and family, climate change knowledge and climate change concern predict climate change behaviour, we administered a survey to a random sample of middle school students in North Carolina, USA (n = 1371). We measured climate change behaviour with a multi-item scale asking respondents about energy conservation, alternative transportation and engagement with environmental issues. We found that climate change concern and discussing climate change with family and friends predicted climate change behaviour. We also found that students from urban, high socioeconomic status schools were more likely to engage in climate change behaviour than students in urban, low socioeconomic status schools or rural schools. These results suggest that education efforts should leverage communication with family and friends in programming designed to encourage climate change behaviour. Further, efforts to promote climate change behaviour among low socioeconomic status urban and rural adolescents may be warranted, but would benefit from further investigation into the ideological, physical and knowledge-based drivers of behaviour differences documented in this study.

Type
Non-Thematic Papers
Copyright
Copyright © Foundation for Environmental Conservation 2017 

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Footnotes

Supplementary material can be found online at https://doi.org/10.1017/S0376892917000443

References

107 th Congress (2002) No Child Left Behind (NCLB) Act.Google Scholar
Ambrosius, J. D. & Gilderbloom, J. I. (2015) Who's greener? Comparing urban and suburban residents' environmental behaviour and concern. Local Environment 20: 836849.CrossRefGoogle Scholar
Beckjord, E. B., Finney Rutten, L. J., Arora, N. K., Moser, R. P. & Hesse, B. W. (2008) Information processing and negative affect: evidence from the 2003 Health Information National Trends Survey. Health Psychology 27: 249.CrossRefGoogle ScholarPubMed
Berenguer, J., Corraliza, J. A. & Martín, R. (2005) Rural–urban differences in environmental concern, attitudes, and actions. European Journal of Psychological Assessment 21: 128138.CrossRefGoogle Scholar
Berger, I. E. (1997) The demographics of recycling and the structure of environmental behavior. Environment and Behavior 29: 515531.CrossRefGoogle Scholar
Bernauer, T. & McGrath, L. F. (2016) Simple reframing unlikely to boost public support for climate policy. Nature Climate Change 6: 680683.CrossRefGoogle Scholar
Bogner, F. X. & Wilhelm, M. G. (1996) Environmental perspectives of pupils: the development of an attitude and behaviour scale. Environmentalist 16: 95110.CrossRefGoogle Scholar
Bradley, R. H., & Corwyn, R. F. (2002). Socioeconomic status and child development. Annual Review of Psychology 53: 371399.CrossRefGoogle ScholarPubMed
Brownlee, M. T., Powell, R. B. & Hallo, J. C. (2013) A review of the foundational processes that influence beliefs in climate change: opportunities for environmental education research. Environmental Education Research 19: 120.CrossRefGoogle Scholar
Chawla, L. (1998) Significant life experiences revisited: a review of research on sources of environmental sensitivity. The Journal of Environmental Education 29: 1121.CrossRefGoogle Scholar
Chawla, L. & Cushing, D. F. (2007) Education for strategic environmental behavior. Environmental Education Research 13: 437452.CrossRefGoogle Scholar
Chen, X., De La, Rosa, J., Peterson, M. N., Zhong, Y. & Lu, C. (2016) Sympathy for the environment predicts green consumerism but not more important environmental behaviours related to domestic energy use. Environmental Conservation 43: 140147.CrossRefGoogle Scholar
Cohen, G. L. (2003) Party over policy: the dominating impact of group influence on political beliefs. Journal of Personality and Social Psychology 85: 808.CrossRefGoogle ScholarPubMed
Cutts, B. B., Darby, K. J., Boone, C. G. & Brewis, A. (2009) City structure, obesity, and environmental justice: an integrated analysis of physical and social barriers to walkable streets and park access. Social Science & Medicine 69: 13141322.CrossRefGoogle ScholarPubMed
Deković, M., Wissink, I. B. & Meijer, A. M. (2004) The role of family and peer relations in adolescent antisocial behaviour: comparison of four ethnic groups. Journal of Adolescence 27: 497514.CrossRefGoogle ScholarPubMed
Desimone, L. M. & Le Floch, K. C. (2004) Are we asking the right questions? Using cognitive interviews to improve surveys in education research. Educational Evaluation and Policy Analysis 26: 122.CrossRefGoogle Scholar
Devine-Wright, P., Devine-Wright, H. & Fleming, P. (2004) Situational influences upon children's beliefs about global warming and energy. Environmental Education Research 10: 493506.CrossRefGoogle Scholar
Dunlap, R. E. & McCright, A. M. (2008) A widening gap: Republican and Democratic views on climate change. Environment: Science and Policy for Sustainable Development 50: 2635.Google Scholar
Duvall, J. & Zint, M. (2007) A review of research on the effectiveness of environmental education in promoting intergenerational learning. The Journal of Environmental Education 38: 1424.CrossRefGoogle Scholar
Evans, L., Milfont, T. L. & Lawrence, J. (2014) Considering local adaptation increases willingness to mitigate. Global Environmental Change 25: 6975.CrossRefGoogle Scholar
Falk, J. H. (2005) Free‐choice environmental learning: framing the discussion. Environmental Education Research 11: 265280.CrossRefGoogle Scholar
Feldman, L., Nisbet, M., Leiserowitz, A. & Maibach, E. (2010) The climate change generation. Survey analysis of the perceptions and beliefs of young Americans. Yale Project on Climate Change Communication, Yale University and George Mason University [www document]. URL https://www.climatechangecommunication.org/reports/Google Scholar
Fletcher, A. C., Elder, G. H. Jr & Mekos, D. (2000) Parental influences on adolescent involvement in community activities. Journal of Research on Adolescence 10: 2948.CrossRefGoogle Scholar
Gifford, R. (2011) The dragons of inaction: psychological barriers that limit climate change mitigation and adaptation. American Psychologist 66: 290.CrossRefGoogle ScholarPubMed
Gliem, R. R. & Gliem, J. A. (2003) Calculating, interpreting, and reporting Cronbach's alpha reliability coefficient for Likert-type scales. Presented at: Midwest Research-to-Practice Conference in Adult, Continuing, and Community Education, 8–10 October 2003, Columbus, OH, USA.Google Scholar
Hair, J. F., Black, W. C., Babin, B. J. & Anderson, R. E. (2010) Multivariate Data Analysis: A Global Perspective. Upper Saddle River, NJ, USA: Pearson.Google Scholar
Hamilton, L. C. (2011) Education, politics and opinions about climate change evidence for interaction effects. Climatic Change 104: 231242.CrossRefGoogle Scholar
Hamilton, L. C., Hartter, J., Lemcke-Stampone, M., Moore, D. W. & Safford, T. G. (2015). Tracking public beliefs about anthropogenic climate change. PLoS One 10: e0138208.CrossRefGoogle ScholarPubMed
Heimlich, J. E., & Falk, J. H. (2009) Free-choice Learning and the Environment. Washington, DC, USA: Altamira Press.Google Scholar
Hulme, M. (2009). Why We Disagree about Climate Change: Understanding Controversy, Inaction and Opportunity. Cambridge, UK: Cambridge University Press.CrossRefGoogle Scholar
Hungerford, H. R. & Volk, T. L. (1990) Changing learner behavior through environmental education. The Journal of Environmental Education 21: 821.CrossRefGoogle Scholar
Jones, R. E., Fly, J. M., Talley, J. & Cordell, H. K. (2003) Green migration into rural America: the new frontier of environmentalism? Society & Natural Resources 16: 221238.CrossRefGoogle Scholar
Kahan, D. M., Jenkins‐Smith, H. & Braman, D. (2011) Cultural cognition of scientific consensus. Journal of Risk Research 14: 147174.CrossRefGoogle Scholar
Kahan, D. M., Peters, E., Wittlin, M., Slovic, P., Ouellette, L. L., Braman, D. & Mandel, G. (2012) The polarizing impact of science literacy and numeracy on perceived climate change risks. Nature Climate Change 2: 732735.CrossRefGoogle Scholar
Krasny, M. E. & Tidball, K. G. (2009) Applying a resilience systems framework to urban environmental education. Environmental Education Research 15: 465482.CrossRefGoogle Scholar
Maxwell, K. A. (2002) Friends: the role of peer influence across adolescent risk behaviors. Journal of Youth and Adolescence 31: 267277.CrossRefGoogle Scholar
McCright, A. M. (2010) The effects of gender on climate change knowledge and concern in the American public. Population and Environment 32: 6687.CrossRefGoogle Scholar
Mead, E., Roser-Renouf, C., Rimal, R. N., Flora, J. A., Maibach, E. W. & Leiserowitz, A. (2012) Information seeking about global climate change among adolescents: the role of risk perceptions, efficacy beliefs, and parental influences. Atlantic Journal of Communication 20: 3152.CrossRefGoogle ScholarPubMed
Meeusen, C. (2014) The intergenerational transmission of environmental concern: the influence of parents and communication patterns within the family. The Journal of Environmental Education 45: 7790.CrossRefGoogle Scholar
Michener, W. K., Blood, E. R., Bildstein, K. L., Brinson, M. M. & Gardner, L. R. (1997) Climate change, hurricanes and tropical storms, and rising sea level in coastal wetlands. Ecological Applications 7: 770801.CrossRefGoogle Scholar
Min, S., Zhang, X., Zwiers, F. W. & Hegerl, G. C. (2011) Human contribution to more-intense precipitation extremes. Nature 470: 378381.CrossRefGoogle ScholarPubMed
Morrill, J. (2016) Election exposes NC urban and rural fault lines. The Charlotte Observer [www document]. URL http://www.charlotteobserver.com/news/politics-government/article115779373.htmlGoogle Scholar
NCES (2013) US Department of Education National Center for Education Statistics [www document]. URL https://nces.ed.gov/Google Scholar
Nerlich, B., Koteyko, N. & Brown, B. (2010) Theory and language of climate change communication. Wiley Interdisciplinary Reviews: Climate Change 1: 97110.Google Scholar
NNOCCI (2016) National Network for Ocean and Climate Change Interpretation [www document]. URL http://climateinterpreter.org/about/projects/NNOCCIGoogle Scholar
O'brien, R.M. (2007) A caution regarding rules of thumb for variance inflation factors. Quality and Quantity 41: 673690.CrossRefGoogle Scholar
Ojala, M. (2012) Hope and climate change: the importance of hope for environmental engagement among young people. Environmental Education Research 18: 625642.CrossRefGoogle Scholar
Ojala, M. (2015) Climate change skepticism among adolescents. Journal of Youth Studies 18: 11351153.CrossRefGoogle Scholar
Opt, S. K. (2015). Sea-level rise policy as attention intervention. Western Journal of Communication 79: 7391.CrossRefGoogle Scholar
Pachauri, R. K., Allen, M., Barros, V., Broome, J., Cramer, W., Christ, R., Church, J., Clarke, L., Dahe, Q. & Dasgupta, P. (2014) Climate Change 2014: Synthesis Report. Contribution of Working Groups I, II and III to the Fifth Assessment Report of the Intergovernmental Panel on Climate Change. Geneva, Switzerland: International Panel on Climate Change.Google Scholar
Peterson, M. N., Peterson, T. & Liu, J. (2013). The Housing Bomb: Why Our Addiction to Houses is Destroying the Environment and Threatening Our Society. Baltimore, MD, USA: JHU Press.CrossRefGoogle Scholar
Prokopy, L. S., Morton, L. W., Arbuckle, J. G. Jr, Mase, A. S. & Wilke, A. K. (2015) Agricultural stakeholder views on climate change: implications for conducting research and outreach. Bulletin of the American Meteorological Society 96: 181190.CrossRefGoogle Scholar
Rennie, L. J. & McClafferty, T. (1995) Using visits to interactive science and technology centers, museums, aquaria, and zoos to promote learning in science. Journal of Science Teacher Education 6: 175185.CrossRefGoogle Scholar
Robelia, B. A., Greenhow, C. & Burton, L. (2011) Environmental learning in online social networks: adopting environmentally responsible behaviors. Environmental Education Research 17: 553575.CrossRefGoogle Scholar
Ryan, A. M. & Patrick, H. (2001) The classroom social environment and changes in adolescents’ motivation and engagement during middle school. American Educational Research Journal 38: 437460.CrossRefGoogle Scholar
Sellmann, D. & Bogner, F. X. (2013) Climate change education: quantitatively assessing the impact of a botanical garden as an informal learning environment. Environmental Education Research 19: 415429.CrossRefGoogle Scholar
Semenza, J. C., Hall, D. E., Wilson, D. J., Bontempo, B. D., Sailor, D. J. & George, L. A. (2008) Public perception of climate change: voluntary mitigation and barriers to behavior change. American Journal of Preventive Medicine 35: 479487.CrossRefGoogle ScholarPubMed
Senbel, M., Ngo, V. D. & Blair, E. (2014) Social mobilization of climate change: university students conserving energy through multiple pathways for peer engagement. Journal of Environmental Psychology 38: 8493.CrossRefGoogle Scholar
Slater, S., Fitzgibbon, M. & Floyd, M. F. (2013) Urban adolescents’ perceptions of their neighborhood physical activity environments. Leisure Sciences 35: 167183.CrossRefGoogle Scholar
Smith, N. & Leiserowitz, A. (2014) The role of emotion in global warming policy support and opposition. Risk Analysis 34: 937948.CrossRefGoogle ScholarPubMed
Spence, A., Poortinga, W. & Pidgeon, N. (2012) The psychological distance of climate change. Risk Analysis 32: 957972.CrossRefGoogle ScholarPubMed
Sterman, J. D. (2011) Communicating climate change risks in a skeptical world. Climatic Change 108: 811826.CrossRefGoogle Scholar
Stern, P. C. (2000) New environmental theories: toward a coherent theory of environmentally significant behavior. Journal of Social Issues 56: 407424.CrossRefGoogle Scholar
Stevenson, K. T. & Peterson, N. (2015) Motivating action through fostering climate change hope and concern and avoiding despair among adolescents. Sustainability 8: 6.CrossRefGoogle Scholar
Stevenson, K. T., Peterson, M. N. & Bondell, H. D. (2016) The influence of personal beliefs, friends, and family in building climate change concern among adolescents. Environmental Education Research (Epub ahead of print) DOI: 10.1080/13504622. 2016.1177712.Google Scholar
Stevenson, K. T., Lashley, M. A., Chitwood, M. C., Peterson, M. N. & Moorman, C. E. (2015) How emotion trumps logic in climate change risk perception: exploring the affective heuristic among wildlife science students. Human Dimensions of Wildlife 20: 501513.CrossRefGoogle Scholar
Stevenson, K. T., Peterson, M. N., Bondell, H. D., Moore, S. E. & Carrier, S. J. (2014) Overcoming skepticism with education: interacting influences of worldview and climate change knowledge on perceived climate change risk among adolescents. Climatic Change 126: 293304.CrossRefGoogle Scholar
Stevenson, K. T., Peterson, M. N., Bondell, H. D., Mertig, A. G. & Moore, S. E. (2013) Environmental, institutional, and demographic predictors of environmental literacy among middle school children. PLoS One 8: e59519.CrossRefGoogle ScholarPubMed
Taber, F. & Taylor, N. (2009) Climate of concern – a search for effective strategies for teaching children about global warming. International Journal of Environmental and Science Education 4: 97116.Google Scholar
Tobler, C., Visschers, V. H. & Siegrist, M. (2012) Consumers’ knowledge about climate change. Climatic Change 114: 189209.CrossRefGoogle Scholar
Turral, H., Burke, J. & Faures, J. (2011) Climate Change, Water and Food Security. Rome, Italy: Food and Agriculture Organization of the United Nations.Google Scholar
UNESCO (1978) Inter-Governmental Conference on Environmental Education, Tbilisi, USSR, 14–26 October, 1977. Final Report. Paris, France: United Nations Educational, Scientific, and Cultural Organization.Google Scholar
Van Liere, K. D. & Dunlap, R. E. (1980) The social bases of environmental concern: a review of hypotheses, explanations and empirical evidence. Public Opinion Quarterly 44: 181197.CrossRefGoogle Scholar
Vollebergh, W. A., Iedema, J. & Raaijmakers, Q. A. (2001) Intergenerational transmission and the formation of cultural orientations in adolescence and young adulthood. Journal of Marriage and Family 63: 11851198.CrossRefGoogle Scholar
Weber, E. U., Blais, A. & Betz, N. E. (2002) A domain‐specific risk‐attitude scale: measuring risk perceptions and risk behaviors. Journal of Behavioral Decision Making 15: 263290.CrossRefGoogle Scholar
Whitmarsh, L., O'Neill, S. & Lorenzoni, I. (2013) Public engagement with climate change: what do we know and where do we go from here? International Journal of Media & Cultural Politics 9: 725.CrossRefGoogle Scholar
Yilmaz, O., Boone, W. J. & Andersen, H. O. (2004) Views of elementary and middle school Turkish students toward environmental issues. International Journal of Science Education 26: 15271546.CrossRefGoogle Scholar
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