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7 - Toxicity, Health, and Environment

from Part II - Embodied Environmental Sociology

Published online by Cambridge University Press:  05 November 2020

Katharine Legun
Affiliation:
Wageningen University and Research, The Netherlands
Julie C. Keller
Affiliation:
University of Rhode Island
Michael Carolan
Affiliation:
Colorado State University
Michael M. Bell
Affiliation:
University of Wisconsin, Madison
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Summary

Environmental sociologists working in the intersection of medical and political sociology on topics related to environmental public health are bridging knowledge gaps around environmental risks, exposures, government accountability, and public mobilization. This most recent turn of environmental sociology engages in boundary crossing efforts that move beyond pure research to intervention that affects both health and environmental policy. In this chapter we examine how environmental sociologists have advanced understanding environmental health issues, in particular through pushing for social and structural understandings of traditionally individualized disease experiences. Alongside environmental justice activists, environmental sociologists argue for an intersectional approach to examining the roles of racism, gender, and social class in understanding the mechanisms that target vulnerable communities for pollution. Social scientists have highlighted broad impacts of environmental harms including complex physical effects, direct and indirect mental health impacts, and community-wide strains on social relations within affected communities. While several barriers exist that challenge this work, including academic expectations with respect to standards of proof, sample sizes, and institutional priorities, we point to equity building processes, such as community-based participatory research, civic science, and critical epidemiology, in which social scientists are well positioned to critically engage.

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Publisher: Cambridge University Press
Print publication year: 2020

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References

Adams, C., Brown, P., Morello-Frosch, R., Brody, J. G., Rudel, R. et al. (2011). Disentangling the Exposure Experience: The Roles of Community Context and Report-Back of Environmental Exposure Data. Journal of Health and Social Behavior, 52(2), 180196.CrossRefGoogle ScholarPubMed
Altman, R., Brody, J., Rudel, R. et al. (2008). Pollution Comes Home and Pollution Gets Personal: Women’s Experience of Household Toxic Exposure. Journal of Health and Social Behavior, 49, 417435.CrossRefGoogle Scholar
Baron, S., Sinclair, R., Payne-Sturges, D. et al. (2009). Partnerships for Environmental and Occupational Justice: Contributions to Research, Capacity and Public Health. American Journal of Public Health, 99, S517S525.CrossRefGoogle ScholarPubMed
Blocker, J., & Eckberg, D. L. (1989). Environmental Issues as Women’s Issues: General Concerns and Local Hazards. Social Science Quarterly, 70(3), 586593.Google Scholar
Bomberg, E. (2017). Environmental Politics in the Trump Era: An Early Assessment. Environmental Politics, 26(5), 956963.CrossRefGoogle Scholar
Bromet, E. J., Parkinson, D. K., Schulberg, H. C., Dunn, L. O., & Gondek, P. C. (1982). Mental Health of Residents Near the Three Mile Island Reactor: A Comparative Study of Selected Groups. Journal of Preventive Psychiatry, 1, 225276.Google Scholar
Brody, J. G., Morello-Frosch, R., Zota, A. et al. (2009). Linking Exposure Assessment Science with Policy Objectives for Environmental Justice and Breast Cancer Advocacy: The Northern California Household Exposure Study. American Journal of Public Health, 99, S600S609.CrossRefGoogle ScholarPubMed
Brown, P. (1992). Popular Epidemiology and Toxic Waste Contamination: Lay and Professional Ways of Knowing. Journal of Health and Social Behavior, 33, 267281.CrossRefGoogle ScholarPubMed
Brown, P. (1995). Race, Class, And Environmental Health: A Review and Systematization of The Literature. Environmental Research, 69, 1530.CrossRefGoogle ScholarPubMed
Brown, P. (2007). Toxic Exposures: Contested Illnesses and the Environmental Health Movement. Columbia University Press.CrossRefGoogle Scholar
Brown, P., Brody, J. G., Morello-Frosch, R. et al. (2012). Measuring the Success of Community Science: The Northern California Household Exposure Study. Environmental Health Perspectives, 120, 326331.CrossRefGoogle ScholarPubMed
Brown, P. & Ferguson, F. (1995). “Making a Big Stink”: Women’s Work, Women’s Relationships, and Toxic Waste Activism. Gender & Society, 9, 145172.CrossRefGoogle Scholar
Brown, P. & Mikkelsen, E. J. (1990/1997). No Safe Place: Toxic Waste, Leukemia, and Community Action. University of California Press.Google Scholar
Brown, P. & Kelley, J. (1996). Physicians’ Knowledge of and Actions Concerning Environmental Health Hazards: Analysis of a Survey of Massachusetts Physicians. Industrial and Environmental Crisis Quarterly, 9, 512542.CrossRefGoogle Scholar
Brown, P. & Masterson-Allen, S. (1994). The Toxic Waste Movement: A New Kind of Activism. Society and Natural Resources, 7, 269286.Google Scholar
Brown, P., Zavestoski, S., McCormick, S. et al. (2004). Embodied Health Movements: Uncharted Territory in Social Movement Research. Sociology of Health and Illness, 26, 131.Google Scholar
Brown, P., Clark, S., Zimmerman, E., Miller, M., & Valenti, M. (2018). Health Professionals’ Environmental Health Literacy. In Finn, Symma and O’Fallon, Liam, eds. Environmental Health Literacy. Springer.Google Scholar
Bullard, R. ed. (1993). Confronting Environmental Racism: Voices from the Grassroots. South End Press.Google Scholar
Cable, S. (1992). Women’s Social Movement Involvement: The Role of Structural Availability in Recruitment and Participation Processes. Sociological Quarterly, 33, 3547.CrossRefGoogle Scholar
Carson, R. (1962). Silent Spring. Harcourt.Google Scholar
Castorina, J. & Rosenstock, L. (1990). Physician Shortage in Occupational and Environmental Medicine. Annals of Internal Medicine, 113, 983986.Google Scholar
Caufield, C. (1989). Multiple Exposures: Chronicles of the Radiation Age. Perennial Books.Google Scholar
Centers for Disease Control and Prevention (CDC). (2018). Lead. Retrieved from www.cdc.gov/nceh/lead/default.htm. Accessed August 21, 2018.Google Scholar
Colborne, T., Dumanoski, D., & Meyer, J. (1996). Our Stolen Future: Are We Threatening Our Fertility, Intelligence, and Survival? A Scientific Detective Story. Dutton.Google Scholar
Cordner, A. (2015). Strategic Science Translation and Environmental Controversies. Science, Technology, & Human Values, 40(6), 915938.CrossRefGoogle Scholar
Couch, S. R. & Kroll-Smith, J. S. (1990). The Real Disaster Is Above Ground: A Mine Fire and Social Conflict. University Press of Kentucky.Google Scholar
Couch, S. R. & Kroll-Smith, J. S. (1985). The Chronic Technical Disaster: Towards a Social Scientific Perspective. Social Science Quarterly, 66, 564575.Google Scholar
Crenshaw, K. W. (1991). Mapping the Margins: Intersectionality, Identity Politics, and Violence against Women of Color. Stanford Law Review, 43(6), 12411299.CrossRefGoogle Scholar
Dohrenwend, B. (1981). Stress in the Community: A Report to the President’s Commission on the Accident at Three Mile Island. Annals of the New York Academy of Sciences, 365, 159174.Google Scholar
Dillon, L., Walker, D., Wylie, S., Shapiro, N., Lave, R. et al. (2017). Environmental Data Justice and the Trump Administration: Reflections on Forming EDGI. Environmental Justice, 10(6), 186192.Google Scholar
Edelstein, M. (1988). Contaminated Communities: The Social and Psychological Impacts of Residential Toxic Exposure. Westview.Google Scholar
Erikson, K. (1976). Everything in Its Path: The Destruction of Community in the Buffalo Creek Flood. Simon and Schuster.Google Scholar
Fasenfest, D., & Pride, T. (2016). Emergency Management in Michigan: Race, Class and the Limits of Liberal Democracy. Critical Sociology, 42(3), 331–34.Google Scholar
Freudenburg, W. & Jones, T. (1991). Attitudes and Stress in the Presence of Technological Risk: A Test of the Supreme Court Hypothesis. Social Forces, 69, 11431168.CrossRefGoogle Scholar
Frisbee, S. J., Brooks, A. P. Jr., Maher, A., Flensborg, P., Arnold, S. et al. (2009). The C8 Health Project: Design, Methods, and Participants. Environmental Health Perspectives, 117(12), 1873.Google Scholar
Gibbs, L. (1982). Community Response to an Emergency Situation: Psychological Destruction and the Love Canal. Paper presented at the American Psychological Association, August 24.Google Scholar
Gill, D. A. and Picou, J. S. (1995). Environmental Disaster and Community Stress. Paper presented at Third International Conference on Emergency Planning and Disaster Management, Lancaster, England.Google Scholar
Goldstein, I. & Goldstein, M. (1986). The Broad Street Pump. pp. 3748 in Goldsmith, John R., ed., Environmental Epidemiology. CRC Press.Google Scholar
Gurr, B. (2011). “Complex Intersections: Reproductive Justice and Native American Women.Sociology Compass 5(8), 21735.Google Scholar
Harrison, J. (2011). Pesticide Drift and the Pursuit of Environmental Justice. MIT Press.CrossRefGoogle Scholar
Hofrichter, R. ed. (1993). Toxic Struggles: The Theory and Practice of Environmental Justice. New Society Publishers.Google Scholar
Hoover, E. (2018). Environmental reproductive justice: Intersections in an American Indian community impacted by environmental contamination. Environmental Sociology, 4(1), 821.CrossRefGoogle Scholar
Hoover, E., Cook, K, Plain, R, Sanchez, K, Waghiyi, V, P. et al. (2012). Indigenous Peoples of North America: Environmental Exposures and Reproductive Justice. Environmental Health Perspectives 120(12), 16451649.Google Scholar
Joyce, K. & Senier, L. (2017). Why Environmental Exposures? Environmental Sociology, 3(2), 101106.Google Scholar
Kaplan, L. 2000. Public Participation in Nuclear Facility Decisions: Lessons from Hanford. In Kleinman, Daniel, ed., Science, Technology, and Democracy. SUNY Press, pp. 6786.Google Scholar
Kriebel, D., Tickner, J., Epstein, P., Lemons, J., Levins, R. et al. (2001). The Precautionary Principle in Environmental Science. Environmental Health Perspectives, 109(9), 871876.Google Scholar
Krieg, E. (1995). A Socio-Historical Interpretation of Toxic Waste Sites: The Case of Greater Boston. American Journal of Economics and Sociology, 54, 114.CrossRefGoogle Scholar
Krauss, C. (1993). Women and Toxic Waste Protests: Race, Class and Gender as Resources of Resistance. Qualitative Sociology, 16, 247262.CrossRefGoogle Scholar
Lagakos, S.W., Wessen, B.J., & Zelen, M. (1986). An Analysis of Contaminated Well Water and Health Effects in Woburn, Massachusetts. Journal of the American Statistical Association, 81, 583596.Google Scholar
Levine, A. (1982). Love Canal: Science, Politics, and People. Heath.Google Scholar
Lifton, R. J. (1968). Death in Life: Survivors of Hiroshima. Random House.Google Scholar
Lifton, R. & Olson, E. (1976). The Human Meaning of Total Disaster: The Buffalo Creek Experience. Psychiatry, 39, 118.CrossRefGoogle ScholarPubMed
MacKendrick, N. (2018). Better Safe Than Sorry: How Consumers Navigate Exposure to Everyday Toxics. University of California Press.Google Scholar
Maxwell, N. (1996). Land Use, Demographics, and Cancer Incidence in Massachusetts Communities. Sc.D. dissertation, Boston University School of Public Health.Google Scholar
McGoey, L. (2012). The Logic of Strategic Ignorance. The British Journal of Sociology, 63(3), 553576.Google Scholar
Mohai, P. & Bryant, B. eds. (1992). Race and the Incidence of Environmental Hazards. Westview.Google Scholar
Morello-Frosch, R., Brody, J. G., Brown, P. et al. (2009). ‘Toxic Ignorance’ and the Right-to-Know: Assessing Strategies for Biomonitoring Results Communication in a Survey of Scientists and Study Participants. Environmental Health, 8, 6.Google Scholar
Morello-Frosch, R. & Brown, P. (2014). Science, Social Justice, and Post-Belmont Research Ethics: Implications for Regulation and Environmental Health Science, In Kleinman, Daniel and Moore, Kelly (eds.) Handbook of Science, Technology, and Society. Routledge, pp. 479491.Google Scholar
National Research Council. (1991). Environmental Epidemiology, Volume 1, Public Health and Hazardous Wastes. National Academy Press.Google Scholar
Neutra, R. R. (1990). Counterpoint from a Cluster Buster. American Journal of Epidemiology, 132: 18.CrossRefGoogle ScholarPubMed
Ottinger, G. (2010). Buckets of Resistance: Standards and the Effectiveness of Citizen Science. Science, Technology, & Human Values, 35(2), 244270.Google Scholar
Ozonoff, D. & Boden, L.I. (1987). Truth and Consequences: Health Agency Responses to Environmental Health Problems. Science, Technology, and Human Values, 12, 7077.Google Scholar
Paigen, B. (1982). Controversy at Love Canal. Hastings Center Reports, 12(3), 2937.Google Scholar
Peck, J. (2012). Austerity Urbanism. City, 16(6), 626655.Google Scholar
Perkins, T. E. (2012). Women’s Pathways into Activism: Rethinking the Women’s Environmental Justice Narrative in California’s San Joaquin Valley. Organization and Environment, 25, 7694.Google Scholar
Pulido, L. (2016). Flint, Environmental Racism, and Racial Capitalism. Capitalism Nature Socialism, 27(3), 116.Google Scholar
Phillips, T. (2010). Debating the Legitimacy of a Contested Environmental Illness: A Case Study of Multiple Chemical Sensitivities (MCS). Sociology of Health and Illness, 32(7), 10261040.Google Scholar
Sadler, R. (2016). How ZIP codes nearly masked the lead problem in Flint. The Conversation. Available at theconversation.com/how-zip-codes-nearly-masked-the-lead-problem-in-flint-65626. Accessed February 14, 2018.Google Scholar
Senier, L., Brown, P., Shostak, S., & Hanna, B. (2017). The Socio-Exposome: Advancing Exposure Science and Environmental Justice in a Postgenomic Era. Environmental Sociology, 3(2), 107121.Google Scholar
Snow, J. (1853). On the Prevention of Cholera. The Medical Times and Gazette, 7, 367369. Retrieved from www.ph.ucla.edu/epi/snow/onpreventioncholera.html. Accessed August 21, 2018.Google Scholar
Szasz, A. (1994). Ecopopulism: Toxic Waste and the Movement for Environmental Justice. University of Minnesota Press.Google Scholar
Taylor, D. K., Lepisto, B.L., Lecea, N., Ghamrawi, R., Bachuwa, G. et al. (2017). Surveying Resident and Faculty Physician Knowledge, Attitudes, and Experiences in Response to Public Lead Contamination. Academic Medicine, Mar, 92(3), 308331.Google Scholar
Trasande, L., Newman, N., Long, L., Howe, G., Kerwin, B.J. et al. (2010). Translating Knowledge about Environmental Health to Practitioners: Are We Doing Enough? Mt Sinai Journal of Medicine, 77, 114123.CrossRefGoogle Scholar
Vyner, H. M. (1988). Invisible Trauma: The Psychosocial Effects of the Invisible Environmental Contaminants. Lexington Books.Google Scholar
Washburn, R. (2013). The Social Significance of Human Biomonitoring. Sociology Compass, 24, 162179.Google Scholar
Wemrell, M., Merlo, J., Mulinari, S., & Hornborg, A.-C. (2016). Contemporary Epidemiology: A Review of Critical Discussions Within the Discipline and A Call for Further Dialogue with Social Theory. Sociology Compass, 10(2), 153171.CrossRefGoogle Scholar
Wing, S. 1994. Limits of Epidemiology. Medicine and Global Survival, 1, 7486.Google Scholar
World Health Organization (WHO). (2010). Childhood Lead Poisoning. Geneva. Retrieved from www.who.int/ceh/publications/leadguidance.pdf. Accessed August 21, 2018.Google Scholar
Wylie, S. A. (2018). Fractivism: Corporate Bodies and Chemical Bonds. Duke University Press.Google Scholar
Zavella, P. (2016). Contesting Structural Vulnerability through Reproductive Justice Activism with Latina Immigrants in California. North American Dialogue, 19(1), 3645.CrossRefGoogle Scholar
Zavestoski, S., McCormick, S., & Brown, P. (2004). Gender, Embodiment, and Disease: Environmental Breast Cancer Activists’ Challenges to Science, the Biomedical Model and Policy. Science as Culture, 13(4), 563586.Google Scholar

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