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Part V - Resources

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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Print publication year: 2020

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References

References

Ahlers, Rhodante. 2005. “Gender Dimensions of Neoliberal Water Policy in Mexico and Bolivia: Empowering or Disempowering?” pp. 5371 in Opposing Currents: The Politics of Water and Gender in Latin America, edited by Bennett, V, Davila-Poblete, S, and Nieves Rico, M. Pittsburgh, PA: University of Pittsburgh Press.CrossRefGoogle Scholar
Ahlers, Rhodante. 2010. “Fixing and Nixing: The Politics of Water Privatization.Review of Radical Political Economics 42(2):213230.CrossRefGoogle Scholar
American Water Works Association. 2012. Buried No Longer: Confronting America’s Water Infrastructure Challenge. Denver, CO: American Water Works Association.Google Scholar
Arup. 2015. In-Depth Water Yearbook 2014–2015. London: Arup.Google Scholar
Augenstein, Seth. 2015. “Christie Signs Law Greenlighting Fast Track Sale of N.J. Public Water Systems.” NJ.com (February 5). Retrieved February 15, 2018 (www.nj.com/politics/index.ssf/2015/02/christie_signs_law_greenlighting_sales_of_public_water_systems.html).Google Scholar
Bakker, Karen. 2005. “Neoliberalizing Nature? Market Environmentalism in Water Supply in England and Wales.Annals of the Association of American Geographers 95(3):542565.CrossRefGoogle Scholar
Bakker, Karen. 2007. “The ‘Commons’ Versus the ‘Commodity’: Alter-Globalization, Anti-Privatization and the Human Right to Water in the Global South.Antipode 39(3):430455.Google Scholar
Bakker, Karen. 2010. Privatizing Water: Governance Failure and the World’s Urban Water Crisis. Ithaca, NY: Cornell University Press.Google Scholar
Bakker, Karen. 2013a. “Neoliberal Versus Postneoliberal Water: Geographies of Privatization and Resistance.Annals of the Association of American Geographers 103(2):253260.CrossRefGoogle Scholar
Bakker, Karen. 2013b. “Constructing ‘Public’ Water: The World Bank, Urban Water Supply, and the Biopolitics of Development.Environment and Planning D-Society & Space 31(2):280300.CrossRefGoogle Scholar
Bakker, Karen. 2014. “The Business of Water: Market Environmentalism in the Water Sector.Annual Review of Environment & Resources 39(1):469494.Google Scholar
Barlow, Maude. 2007. Blue Covenant: The Global Water Crisis and the Coming Battle for the Right to Water. New York: The New Press.Google Scholar
Barlow, Maude. 2014. Blue Future: Protecting Water for People and the Planet Forever. New York: The New Press.Google Scholar
Barlow, Maude and Clarke, Tony. 2002. Blue Gold: The Fight to Stop the Corporate Theft of the World’s Water. New York: The New Press.Google Scholar
Bellinger, David C. 2016. “Lead Contamination in Flint – an Abject Failure to Protect Public Health.New England Journal of Medicine 374 (March 24):11011103.CrossRefGoogle ScholarPubMed
Beverage Marketing Corporation. 2017, “Bottled Water Becomes Number-One Beverage in the US, Data from Beverage Marketing Corporation Show.” Retrieved March 10, 2018 (www.beveragemarketing.com/news-detail.asp?id=438).Google Scholar
Bieler, Andreas, and Jordan, Jamie. 2017. “Commodification and ‘the Commons’: The Politics of Privatising Public Water in Greece and Portugal During the Eurozone Crisis.” European Journal of International Relations 24(4):934957. Doi:1354066117728383.CrossRefGoogle Scholar
Blow, Charles M. 2016. “The Poisoning of Flint’s Water.” New York Times (January 21), www.nytimes.com/2016/01/21/opinion/the-poisoning-of-flints-water.html.Google Scholar
Bond, Patrick. 2008. “Macrodynamics of Globalisation, Uneven Urban Development and the Commodification of Water.Law, Social Justice and Global Development (An Electronic Law Journal) 11:114.Google Scholar
Bond, Patrick. 2012. “The Right to the City and the Eco-Social Commoning of Water: Discursive and Political Lessons from South Africa.” pp. 190205 in The Right to Water, edited by Sultana, F and Loftus, A. London: Earthscan.Google Scholar
Butler, Lindsey J., Scammell, Madeleine K. and Benson, Eugene B.. 2016. “The Flint, Michigan, Water Crisis: A Case Study in Regulatory Failure and Environmental Injustice.Environmental Justice 9(4):9397.CrossRefGoogle Scholar
Campero Arena, Claudia. 2016. Water Campaigner, Blue Planet Project (Personal Communication). Mexico City, January 30.Google Scholar
Carrozza, Chiara and Fantini, Emanuele. 2016. “The Italian Water Movement and the Politics of the Commons.Water Alternatives-an Interdisciplinary Journal on Water Politics and Development 9(1):99119.Google Scholar
Casarin, Ariel A., Delfino, Jose A. and Delfino, Maria Eugenia. 2007. “Failures in Water Reform: Lessons from the Buenos Aires’s Concession.Utilities Policy 15(4):234247.CrossRefGoogle Scholar
Castro, José Esteban. 2007. “Poverty and Citizenship: Sociological Perspectives on Water Services and Public-Private Participation.Geoforum 38:756771.Google Scholar
Castro, José Esteban. 2008. “Water Struggles, Citizenship and Governance in Latin America.Development 51:7276.Google Scholar
Conca, Ken. 2008. “The United States and International Water Policy.Journal of Environment & Development 17(3):215237.Google Scholar
Drew, Georgina. 2008. “From the Groundwater Up: Asserting Water Rights in India.” Development 51(1): 3741.Google Scholar
Drewnowski, Adam, Rehm, Colin D., and Constant, Florence. 2013. “Water and Beverage Consumption Among Adults in the United States: Cross-Sectional Study Using Data from NHANES 2005–2010.” BMC Public Health 13(1):119 doi:10.1186/1471-2458-13-1068.Google Scholar
Driessen, Travis. 2008. “Collective Management Strategies and Elite Resistance in Cochabamba, Bolivia.Development 51(1):8995.Google Scholar
Dugard, Jackie. 2010. “Can Human Rights Transcend the Commercialization of Water in South Africa? Soweto’s Legal Fight for an Equitable Water Policy.Review of Radical Political Economics 42(2):175194.Google Scholar
Esterl, Mike. 2006. “Dry Hole: Great Expectations for Private Water Fail to Pan Out.” Wall Street Journal (June 26), www.wsj.com/articles/SB115128641717890452.Google Scholar
Food and Water Watch. 2011. Water = Life: How Privatization Undermines the Human Right to Water. Washington, DC: Food and Water Watch.Google Scholar
Food and Water Watch. 2012a. Private Equity Public Inequity: The Public Cost of Private Equity Takeovers of U.S. Water Infrastructure. Washington, DC: Food and Water Watch.Google Scholar
Food and Water Watch. 2012b. Public–Public Partnerships: An Alternative Model to Leverage the Capacity of Municipal Water Utilities. Washington, DC: Food and Water Watch.Google Scholar
Food and Water Watch. 2016. The State of Public Water in the United States. Washington, DC: Food and Water Watch.Google Scholar
Food and Water Watch. 2017a. Take Back the Tap: The Big Business Hustle of Bottled Water. Washington, DC: Food and Water Watch.Google Scholar
Food and Water Watch. 2017b. Water Injustice: Economic and Racial Disparities in Access to Safe and Clean Water in the United States. Washington, DC: Food and Water Watch.Google Scholar
Frederick, Franklin. 2018. “Water: The Warning Coming from South Africa.” Dawn News (February 15). Retrieved February 28, 2018 (www.thedawn-news.org/2018/02/27/water-the-warning-coming-from-south-africa/).Google Scholar
Gentile, Annie. 2008. “Mayors Push Benefits of Cities’ Tap Water.American City & County 123(9):1820.Google Scholar
Girard, Richard. 2009. “Bottled Water Industry Targets a New Market: The Global South.” AlterNet, June 15. Accessed September 1, 2011. www.alternet.org/module/printversion/140671.Google Scholar
Glassman, Jim. 2006. “Primitive Accumulation, Accumulation by Dispossession, Accumulation by ‘Extra-Economic’ Means.Progress in Human Geography 30(5):608625.CrossRefGoogle Scholar
Gleick, Peter H., Wolff, Gary, Chalecki, Elizabeth L, and Reyes, Rachel. 2002. The New Economy of Water: The Risks and Benefits of Globalization and Privatization of Fresh Water. Oakland, CA: Pacific Institute.Google Scholar
Gleick, Peter H. 2010. Bottled and Sold: The Story Behind Our Obsession with Bottled Water. Washington, DC: Island Press.Google Scholar
Gleick, Peter H., and Cooley, Heather S. 2009. “Energy Implications of Bottled Water.” Environmental Research Letters 4(1):16. doi:10.1088/1748-9326/4/1/014009.Google Scholar
Godoy, Emilio. 2010. “Mexico: Soaring Bottled Water Use Highlights Mistrust of Tap Water.” Inter Press Service, www.globalissues.org/news/2010/09/23/7056.Google Scholar
Goff, Matthew and Crow, Ben. 2014. “What Is Water Equity? The Unfortunate Consequences of a Global Focus on ‘Drinking Water’.Water International 39(2):159171.Google Scholar
Goldman, Michael. 2005. Imperial Nature: The World Bank and Struggles for Social Justice in the Age of Globalization. New Haven CT: Yale University Press.Google Scholar
Goldman, Michael. 2007. “How ‘Water for All!’ Policy Became Hegemonic: The Power of the World Bank and Its Transnational Policy Networks.Geoforum 38:786800.Google Scholar
Gonzalez-Gomez, Francisco, Garcia-Rubio, Miguel A., and Gonzalez-Martinez., Jesús 2014. “Beyond the Public-Private Controversy in Urban Water Management in Spain.Utilities Policy 31:19.Google Scholar
Greene, Joshua Cullen. 2014. “The Bottled Water Industry in Mexico.” Master of Global Policy Studies Master’s thesis, University of Texas at Austin.Google Scholar
Greiner, Patrick. 2016. “Social Drivers of Water Utility Privatization in the United States: An Examination of the Presence of Variegated Neoliberal Strategies in the Water Utility Sector.Rural Sociology 81(3):387406.Google Scholar
Hall, David, Lobina, Emanuele and De la Motte., Robin 2009. Making Water Privatisation Illegal: New Laws in Netherlands and Uruguay. London: Public Service International Research Unit.Google Scholar
Hall, David, Lobina, Emanele and Corral, Violeta. 2011. Trends in Water Privatization. London: Public Services International Research Unit.Google Scholar
Harris, Leila M. 2013. “Variable Histories and Geographies of Marketization and Privatization.” pp. 118–32 in Contemporary Water Governance in the Global South: Scarcity, Marketization and Participation, edited by Harris, L. M., Goldin, J. A., and Sneddon, C. London: Routledge.Google Scholar
Harvey, David. 2003. The New Imperialism. New York: Oxford University Press.Google Scholar
Hawkins, Gay. 2017. “The Impacts of Bottled Water: An Analysis of Bottled Water Markets and their Interactions with Tap Water Provision.” WIREs Water 4 (3). doi:10.1002/wat2.1203.Google Scholar
Jaffee, Daniel, and Newman, Soren. 2013a. “A Bottle Half Empty: Bottled Water, Commodification, and Contestation.Organization & Environment 26(3):318335.Google Scholar
Jaffee, Daniel, and Newman, Soren. 2013b. “A More Perfect Commodity: Bottled Water, Global Accumulation, and Local Contestation.Rural Sociology 78(1):128.Google Scholar
Jaffee, Daniel, and Case, Robert A.. 2018. “Draining Us Dry: Scarcity Discourses in Contention over Bottled Water Extraction.Local Environment 23(4):485501.Google Scholar
Kishimoto, Satoko, and Petitjean, Olivier. 2017. Reclaiming Public Services: How Cities and Citizens Are Turning Back Privatisation. Amsterdam: Transnational Institute.Google Scholar
Klein, Naomi. 2007. The Shock Doctrine: The Rise of Disaster Capitalism. Toronto: Knopf Canada.Google Scholar
Kloppenburg, Jack R. 2004. First the Seed: The Political Economy of Plant Biotechnology, 1492–2000 (2nd Ed.). Madison, WI: University of Wisconsin Press.Google Scholar
Kornberg, Dana. 2016. “The Structural Origins of Territorial Stigma: Water and Racial Politics in Metropolitan Detroit, 1950s-2010s.International Journal of Urban and Regional Research 40(2):263283.Google Scholar
Kurland, Nancy B. and Zell, Deone. 2011. “Water and Business: A Taxonomy and Review of the Research.Organization & Environment 23(3):316353.Google Scholar
Lagos, Marisa. 2014. “S.F. Supervisors Back Ban on Sale of Plastic Water Bottles.” San Francisco Chronicle (March 5), www.sfgate.com/bayarea/article/S-F-supervisors-back-ban-on-sale-of-plastic-5289089.php.Google Scholar
Laville, Sandra, and Taylor, Matthew. 2017. A Million Bottles a Minute: World’s Plastic Binge “as Dangerous as Climate Change.” The Guardian (June 28).Google Scholar
Laxer, Gordon, and Soron, Dennis. 2006. Not for Sale: Decommodifying Public Life. Peterborough, Canada: Broadview.Google Scholar
Lederer, Edith. 2010. “Access to Clean Water Is ‘Human Right,’ Says U.N.” The Independent (July 30), www.independent.co.uk/news/world/politics/access-to-clean-water-is-human-right-says-un-2039083.html.Google Scholar
Liddle, Elisabeth S., Mager, Sarah M., and Nel, Etienne L.. 2014. “The Importance of Community-Based Informal Water Supply Systems in the Developing World and the Need for Formal Sector Support.” The Geographical Journal. doi:10.1111/geoj.12117.Google Scholar
Lobina, Emanuele, Terhorst, Philipp and Popov, Vladimir. 2011. “Policy Networks and Social Resistance to Water Privatization in Latin America.Procedia Social and Behavioral Sciences 10:1925.Google Scholar
Loftus, Alex. 2009. “Rethinking Political Ecologies of Water.Third World Quarterly 30(5):953968.Google Scholar
Mack, Elizabeth A. and Wrase, Sarah. 2017. “A Burgeoning Crisis? A Nationwide Assessment of the Geography of Water Affordability in the United States.PLoS One 12(1). Doi:10.1371/journal.pone.0169488.Google Scholar
Malkin, Elisabeth. 2012. “Bottled-Water Habit Keeps Tight Grip on Mexicans.” New York Times (July 17), www.nytimes.com/2012/07/17/world/americas/mexicans-struggle-to-kick-bottled-water-habit.html.Google Scholar
Marx, Karl. 1867. Capital: A Critique of Political Economy. Chicago, IL: Charles H. Kerr & Co.Google Scholar
McDonald, David A. 2016. “To Corporatize or Not to Corporatize (and If So, How?).Utilities Policy 40:107114.Google Scholar
Mehta, Lyla, Allouche, Jeremy, Nicol, Alan, and Walnycki, Anna. 2014. “Global Environmental Justice and the Right to Water: The Case of Peri-Urban Cochabamba and Delhi.Geoforum 54:158166.Google Scholar
Mehta, Lyla. 2016. “Why Invisible Power and Structural Violence Persist in the Water Domain.IDS Bulletin 47(5):3142.Google Scholar
Mercille, Julien and Murphy, Enda. 2015. “Conceptualising European Privatisation Processes after the Great Recession.Antipode 48(3):685704.Google Scholar
Miller, DeMond Shondell and Wesley, Nyjeer. 2016. “Toxic Disasters, Biopolitics, and Corrosive Communities: Guiding Principles in the Quest for Healing in Flint, Michigan.Environmental Justice 9(3):6975.Google Scholar
Milman, Oliver. 2016. “Millions Exposed to Dangerous Lead Levels in US Drinking Water, Report Finds.” The Guardian (June 28), www.theguardian.com/environment/2016/jun/28/lead-drinking-water-level-nrdc-report-flint-crisis.Google Scholar
Narain, Vishal. 2014. “Whose Land? Whose Water? Water Rights, Equity and Justice in a Peri-Urban Context.Local Environment 19(9):974989.Google Scholar
Nelson, Paul. 2017. “Citizens, Consumers, Workers, and Activists: Civil Society During and after Water Privatization Struggles.Journal of Civil Society 13(2):202221.Google Scholar
NRDC. 1999. Bottled Water: Pure Drink or Pure Hype? Washington, DC: Natural Resources Defense Council.Google Scholar
Oaten, James, and Patidar, Som. 2020. Delhi is Facing a Water Crisis. Ahead of Day Zero, the City’s Residents Have Turned to the Mafia and Murder. ABC News (February 8). Accessed March 11, 2020, www.abc.net.au/news/2020-02-08/delhi-water-crisis-leads-to-mafia-murder-and-mutiny/11931208Google Scholar
O’Reilly, Kathleen. 2011. “‘They Are Not of This House’: The Gendered Costs of Drinking Water’s Commodification.Economic and Political Weekly 46(18):4955.Google Scholar
Parag, Y., and Roberts, J. T.. 2009. “A Battle against the Bottles: Building, Claiming, and Regaining Tap-Water Trustworthiness.Society & Natural Resources 22(7):625–36.CrossRefGoogle Scholar
Peck, Jamie. 2015. Austerity Urbanism: The Neoliberal Crisis of American Cities. New York: Rosa Luxemburg Stiftung.Google Scholar
Pempetzoglou, Maria and Patergiannaki, Zoi. 2017. “Debt-Driven Water Privatization: The Case of Greece.European Journal of Multidisciplinary Studies 5(1):102111.Google Scholar
Perreault, Tom. 2013. “Dispossession by Accumulation? Mining, Water and the Nature of Enclosure on the Bolivian Altiplano.Antipode 45(5):10501069.Google Scholar
Pierce, Gregory. 2015. “Beyond the Strategic Retreat? Explaining Urban Water Privatization’s Shallow Expansion in Low- and Middle-Income Countries.Journal of Planning Literature 30(2):119131.Google Scholar
Polanyi, Karl. 1944. The Great Transformation. Boston, MA: Beacon Press.Google Scholar
Pulido, Laura. 2016. “Flint, Environmental Racism, and Racial Capitalism.” Capitalism Nature Socialism. 17(3): 116. Doi:http://dx.doi.org/10.1080/10455752.2016.1213013.Google Scholar
Ranganathan, Malini and Balazs, Carolina. 2015. “Water Marginalization at the Urban Fringe: Environmental Justice and Urban Political Ecology across the North-South Divide.Urban Geography 36:403423.Google Scholar
Ranganathan, Malini. 2016. “Thinking with Flint: Racial Liberalism and the Roots of an American Water Tragedy.Capitalism Nature Socialism 27(3):1733.Google Scholar
Rankin, Jennifer and Smith, Helena. 2015. “The Great Greece Fire Sale.” The Guardian (July 24), www.theguardian.com/business/2015/jul/24/greek-debt-crisis-great-greece-fire-saleGoogle Scholar
Rector, Josiah. 2016. “Neoliberalism’s Deadly Experiment: In Michigan, Privatization and Free-Market Governance Has Left 100,000 People Without Water.” Jacobin (October 21), www.jacobinmag.com/2016/10/water-detroit-flint-emergency-management-lead-snyder-privatization/.Google Scholar
Roberts, Adrienne. 2008. “Privatizing Social Reproduction: The Primitive Accumulation of Water in an Era of Neoliberalism.Antipode 40(4):535560.Google Scholar
Robinson, Joanna. 2013. Contested Water: The Struggle Against Water Privatization in the United States and Canada. Cambridge, MA: MIT Press.Google Scholar
Rodwan, John G. 2017. “Bottled Water 2016: No. 1 and Growing: U.S. And International Developments and Statistics.Bottled Water Reporter 57(4) (July/Aug):1221.Google Scholar
Romano, Sarah T. 2012. “From Protest to Proposal: The Contentious Politics of the Nicaraguan Anti-Water Privatization Social Movement.Bulletin of Latin American Research 31(4):499514.Google Scholar
Rosemann, Nils. 2005. Drinking Water Crisis in Pakistan and the Issue of Bottled Water: The Case of Nestlé’s “Pure Life.” Berne, Switzerland: ActionAid.Google Scholar
Ruiters, Greg. 2007. “Contradictions in Municipal Services in Contemporary South Africa: Disciplinary Commodification and Self-Disconnections.Critical Social Policy 27(4):487508.Google Scholar
Rushe, Dominic. 2014. “Blow to Detroit’s Poorest as Judge Rules Water Shutoffs Can Continue.” The Guardian (September 29), www.theguardian.com/world/2014/sep/29/detroit-water-shutoffs-legal-judge-bankruptcy-revenue.Google Scholar
Sitisarn, Savarin. 2012. “Political Ecology of the Soft Drink and Bottled Water Business in India; a Case Study of Plachimada.” Master’s thesis, Lund University.Google Scholar
Sloan, Carrie. 2016. “How Wall Street Caused a Water Crisis in America’s Cities.” The Nation (March 11), www.thenation.com/article/how-wall-street-caused-a-water-crisis-in-americas-cities/.Google Scholar
Smith, Laila and Hanson, Susan. 2003. “Access to Water for the Urban Poor in Cape Town: Where Equity Meets Cost Recovery.Urban Studies 40(8):1517.Google Scholar
Snitow, Alan, Kaufman, Deborah and Fox, Michael. 2007. Thirst: Fighting the Corporate Theft of Our Water. San Francisco, CA: Wiley & Sons.Google Scholar
Spronk, Susan and Webber, Jeffery R.. 2007. “Struggles against Accumulation by Dispossession in Bolivia: The Political Economy of Natural Resource Contention.Latin American Perspectives 34(2):3147.Google Scholar
Spronk, Susan. 2015. “Roots of Resistance to Urban Water Privatisation in Bolivia: The ‘New Working Class’, the Crisis of Neoliberalism, and Public Services.” pp. 2951 in Crisis and Contradiction: Marxist Perspectives on Latin America in the Global Political Economy, edited by Spronk, S. J. and Webber, J. R.. Leiden, Netherlands: Brill.Google Scholar
Subramaniam, Mangala and Williford, Beth. 2012. “Contesting Water Rights: Collective Ownership and Struggles against Privatization.Sociology Compass 6(5):413424.Google Scholar
Sultana, Farhana. 2011. “Suffering for Water, Suffering from Water: Emotional Geographies of Resource Access, Control and Conflict.Geoforum 42:163172.Google Scholar
Sultana, Farhana, and Loftus, Alex, eds. 2012. The Right to Water: Politics, Governance, and Social Struggles. London: Earthscan.Google Scholar
Swyngedouw, Erik. 2005. “Dispossessing H2O: The Contested Terrain of Water Privatization.Capitalism Nature Socialism 16(1):8198.Google Scholar
Swyngedouw, Erik. 2009. “The Political Economy and Political Ecology of the Hydro-Social Cycle.Journal of Contemporary Water Research & Education 142(1):5660.Google Scholar
Szasz, Andrew. 2007. Shopping Our Way to Safety: How We Changed from Protecting the Environment to Protecting Ourselves. Minneapolis, MN: University of Minnesota Press.Google Scholar
Terhorst, Philipp, Olivera, Marcela and Dwinell, Alexander. 2013. “Social Movements, Left Governments, and the Limits of Water Sector Reform in Latin America’s Left Turn.Latin American Perspectives 40:5569.Google Scholar
The Guardian. 2017. “Jeremy Corbyn’s Nationalisation Plans Are Music to Ears of Public.” The Guardian (October 1), www.theguardian.com/business/2017/oct/01/jeremy-corbyn-nationalisation-plans-voters-tired-free-marketsGoogle Scholar
Transparency Market Research. 2018. “Global Bottled Water Market is Projected to Reach US$307.2 Billion by 2024.” Press Release (April). Retrieved July 2, 2018 (www.transparencymarketresearch.com/pressrelease/bottled-water-market.htm).Google Scholar
UNDP. 2006. “Human Development Report 2006: Beyond Scarcity: Power, Poverty and the Global Water Crisis.” New York: United Nations Development Program.Google Scholar
United Nations. 1992. “Dublin Statement on Water and Sustainable Development.” New York: United Nations.Google Scholar
Vail, John. 2010. “Decommodification and Egalitarian Political Economy.Politics & Society 38(3):310346.Google Scholar
Varghese, Shiney. 2007. Privatizing U.S. Water. Minneapolis, MN: Institute for Agriculture and Trade Policy.Google Scholar
Vidal, John. 2006. “Big Water Companies Quit Poor Countries.” The Guardian (March 22), www.theguardian.com/world/2006/mar/22/globalisation.water.Google Scholar
Vilas, Carlos. 2004. “Water Privatization in Buenos Aires.NACLA Report on the Americas 38(1):3442.Google Scholar
Wait, Isaac W. and Petrie, William A.. 2017. “Comparison of Water Pricing for Publicly and Privately Owned Water Utilities in the United States.Water International 42(8):967980.Google Scholar
Watts, Jonathan. 2018. “Cape Town Faces Day Zero: What Happens When the City Turns Off the Taps?” The Guardian (February 3), www.theguardian.com/cities/2018/feb/03/day-zero-cape-town-turns-off-taps.Google Scholar
WHO and UNICEF. 2017. Progress on Drinking Water, Sanitation and Hygiene, 2017. Geneva: World Health Organization and United Nations Children’s Fund.Google Scholar
World Bank. 2005. Infrastructure Development: The Roles of the Public and Private Sectors; World Bank Group’s Approach to Supporting Investments in Infrastructure. Washington, DC: World Bank.Google Scholar
Zurita, Maria D. M., Thomsen, Dana C, Smith, Timothy F et al. 2015. “Reframing Water: Contesting H2O Within the European Union.Geoforum 65: 170178.CrossRefGoogle Scholar
Zwarteveen, Margreet Z. and Boelens, Rutgerd. 2014. “Defining, Researching and Struggling for Water Justice: Some Conceptual Building Blocks for Research and Action.Water International 39(2):143158.Google Scholar

References

Adam, B. (1996). “Beyond the present”: Nature, technology and the democratic ideal. Time and Society, 5(3), 319338.Google Scholar
Blüdorn, I. (2013). The governance of unsustainability: Ecology and democracy after the post-democratic turn. Environmental Politics, 22(1), 1636.Google Scholar
Blüdorn, I. (2007). Sustaining the unsustainable: Symbolic politics and the politics of simulation. Environmental Politics, 16(2), 251275.Google Scholar
Canadian Association of Petroleum Producers. (2015). The Facts on Canada’s Natural Gas. Available at: www.capp.ca/publications-and-statistics/publications/272337Google Scholar
Carter, A.V., Fraser, G. S., & Zalik, A. (2017). Environmental policy convergence in Canada’s fossil fuel provinces? Regulatory streamlining, impediments, and drift. Canadian Public Policy, 43(1), 6176.Google Scholar
Colborn, T., Kwiatkowski, C., Schultz, K., & Bachran, M. (2011). Natural gas operations from a public health perspective. Human and Ecological Risk assessment, 17(5), 10391056.CrossRefGoogle Scholar
Cosgrove, B. M., LaFave, D. R., Dissanayake, S. T. M., & Donihue, M. R. (2015). The economic impact of shale gas development: A natural experiment along the New York/Pennsylvania border. Agricultural and Resource Economics Review, 44(2), 2039.Google Scholar
Council of Canadian Academies (CCA), 2014. Environmental Impacts of Shale Gas Extraction in Canada. Ottawa (ON): The Expert Panel on Harnessing Science and Technology to Understand the Environmental Impacts of Shale Gas Extraction, Council of Canadian Academies.Google Scholar
Davidson, D. J. (2017). The effort factor: An adjustment to our understanding of social-ecological metabolism in the era of Peak Oil. Social Problems, 66(1), 6985.Google Scholar
Davidson, D. J. (2018). Evaluating the effects of living with contamination from the lens of trauma: A case study of fracking development in Alberta, Canada. Environmental Sociology, 4(2), 196209.Google Scholar
Davidson, D. J., & Andrews, J. (2013). Not all about consumption. Science, 339(15 March), 12861287.Google Scholar
Davidson, D. J., & Gismondi, M. (2011). Challenging Legitimacy at the Precipice of Energy Calamity. New York: Springer.Google Scholar
Davies, R., Foulger, G., Bindley, A., & Styles, P. (2013). Induced seismicity and hydraulic fracturing for the recovery of hydrocarbons. Marine and Petroleum Geology, 45, 171185.Google Scholar
Edelman, M. (1985 [1964]). The Symbolic Uses of Politics. Urbana and Chicago, IL: University of Illinois Press.Google Scholar
Edelstein, M.R. (2004). Contaminated Communities: Coping with Residential Toxic Exposure. Boulder, CO: Westview Press.Google Scholar
Elliot, J., & Short, D. (2014). Fracking Is Driving UK Civil and Political Rights Violations, The Ecologist (30 October), https://theecologist.org/2014/oct/30/fracking-driving-uk-civil-and-political-rights-violations.Google Scholar
Foucault, M. (1979) The History of Sexuality. Vol. 1. Harmondsworth: Penguin.Google Scholar
Freudenburg, W. R. (2005). Privileged access, privileged accounts: Toward a socially structured theory of resources and discourses. Social Forces, 84(1), 89114.Google Scholar
Freudenburg, W. R., & Alario, M. (2007). Weapons of Mass Distraction: Magicianship, misdirection, and the dark side of legitimation. Sociological Forum, 22(2), 146173.Google Scholar
Freudenburg, W.R., Gramling, R., & Davidson, D.J. (2008). Scientific certainty argumentation methods (SCAMs): Science and the politics of doubt. Sociological Inquiry, 78(1), 238.Google Scholar
Gold, R. (2014). The Boom: How Fracking Ignited the American Energy Revolution and Changed the World. New York: Simon & Schuster.Google Scholar
Government of Alberta. 2000. Environmental Protection and Enhancement Act. RSA 2000, c. E–12.Google Scholar
Gramsci, A. 1971. Selections from the Prison Notebooks of Antonio Gramsci. Hare, Q., & Nowell-Sm, G. (Ed. and trans). London: Lawrence and Wishart.Google Scholar
Gullion, J. S. (2015). Fracking the Neighborhood: Reluctant Activists and Natural Gas Drilling. Cambridge, MA.: MIT Press.Google Scholar
Haarstad, H., & Wanvik, T. I. (2017). Carbonscapes and beyond: Conceptualizing the instability of oil landscapes. Progress in Human Geography, 41(4), 432450.Google Scholar
Habermas, J. (1970). Toward a Rational Society. North Palm Beach, FL: Beacon.Google Scholar
Hajer, M. (1995). The Politics of Environmental Discourse: Ecological Modernization and the Policy Process. Leicester, UK: Clarendon Books.Google Scholar
Herman, E. S. & Chomsky, N. (1988). Manufacturing Consent: The Political Economy of the Mass Media. New York, NY: Pantheon Books.Google Scholar
Howarth, R. W., Santoro, R. & Ingraffea, A. (2012). Venting and leaking of methane from shale gas development: Response to Cathles et al. Climatic Change 113, 537549.Google Scholar
Hudgins, A., & Poole, A. (2014). Framing fracking: Private property, common resources, and regimes of governance. Journal of Political Ecology, 21, 222348.Google Scholar
Inman, M. (2014). The fracking fallacy. Nature, 516, Dec. 4.Google Scholar
Jasanoff, S., & Kim, S-H. (2013) Sociotechnical imaginaries and national energy policies. Science as Culture, 22(2), 189196.Google Scholar
Jasanoff, S., & Kim, S-H. (2009) Containing the atom: Sociotechnical imaginaries and nuclear regulation in the U.S. and South Korea. Minerva, 47(2), 119146.Google Scholar
Jerolmack, C. & Berman, N. (2016). Fracking communities. Public Culture, 28(2), 193214.Google Scholar
Kassotis, C. D., Tillitt, D.E., Davis, J. W., Hormann, A. M. & Nagel, S. C. (2014). Estrogen and androgen receptor activities of hydraulic fracturing chemicals and surface and ground water in a drilling-dense region. Endocrinology, 155, 897907.Google Scholar
Kuchler, M. (2017). Post-conventional energy futures: Rendering Europe’s shale gas resources governable. Energy Research and Social Science, http://dx.doi.org/10.1016/j.erss.2017.05.028.CrossRefGoogle Scholar
Ladd, A. E., & York, R. (2017). Hydraulic fracking, shale energy development, and climate inaction: A new landscape of risk in the Trump era. Human Ecology Review, 23(1), 6579.Google Scholar
Latour, B. 2004. The Politics of Nature: How to Bring the Sciences into Democracy. Cambridge, MA: Harvard University Press.CrossRefGoogle Scholar
Le Billon, P., & Carter, A. (2012). Securing Alberta’s tar sands: Resistance and criminalization on a new energy frontier. pp. 170192 in Schnurr, M., & Swatuk, M. (eds.), Natural Resources and Social Conflict: Towards Critical Environmental Security. London: Palgrave Macmillan.Google Scholar
Mitchell, T. (2011). Carbon Democracy: Political Power in the Age of Oil. London: Verso.Google Scholar
Myers, T. (2012). Potential contaminant pathways from hydraulically fractured shale to aquifers. Ground Water, 50, 872882.Google Scholar
Nikiforuk, A. (2017). Canada’s methane leakage massively under-reported, studies find. The Tyee, April 27. Available at: https://thetyee.ca/News/2017/04/27/Canada-Methane-Leakage-Under-Reported/, accessed December 27, 2017.Google Scholar
O’Riordan, T. (2015). Fracking, sustainability, and democracy. Environment, 57(1), 23.Google Scholar
Perry, S.L. (2012). Development, land use, and collective trauma: The Marcellus Shale gas boom in rural Pennsylvania. Culture, Agriculture, Food and Environment, 34(1), 8192.Google Scholar
Rahm, B.G. & Riha, S.J. (2014). Evolving shale gas management: Water resource risks, impacts, and lessons learned. Environmental Science Processes & Impacts, 16, 14001412.Google Scholar
Roy, A.A., Adams, P.J. & Robinson, A.L. (2014). Air pollutant emissions from the development, production, and processing of Marcellus Shale natural gas. Journal of the Air & Waste Management Association, 64, 1937.Google Scholar
Ryan, M.C. Alessi, D., Mahani, A.B., et al. (2015). Subsurface Impacts of Hydraulic Fracturing: Contamination, Seismic Sensitivity, and Groundwater Use and Demand Management. Report prepared for the Canadian Water Network, October.Google Scholar
Sandreas, R. (2012). “Evaluating Production Potential of Mature U.S. Oil, Gas Shale Plays.” Oil and Gas Journal Online, Retrieved December 3, 2012 (www.ogj.com/articles/print/vol-110/issue-12/exploration-development/evaluating-production-potential-of-mature-us-oil.html).Google Scholar
Small, M.J., Stern, P.C., Bomberg, E., Christopherson, S.M., et al. (2014). Risks and risk governance in unconventional shale gas development. Environmental Science and Technology, 48, 82898297.Google Scholar
Szeman, I. (2012) Crude aesthetics: The politics of oil documentaries. Journal of American Studies, 46, 423439.Google Scholar
Warner, N.R., Christie, C.A., Jackson, R.B. & Vengosh, A. (2013). Impacts of shale gas wastewater disposal on water quality in Western Pennsylvania. Environmental Science and Technology, 47, 1184911857.Google Scholar
Weber, B. (2017). Alberta research shows fracking fluids cause ‘significant’ harm to fish. CBC News, Jan. 24. Available at: www.cbc.ca/news/canada/edmonton/alberta-research-shows-fracking-fluids-cause-significant-harm-to-fish-1.3950539, accessed December 22, 2017.Google Scholar
Willow, A.J. & Wylie, S. (2014). Politics, ecology, and the new anthropology of energy: exploring the emerging frontiers of hydraulic fracking. Journal of Political Ecology, 21(12), 222236.Google Scholar
Yergin, D. (2011). The Quest: Energy, security, and the remaking of the modern world. New York: Penguin Press.Google Scholar

References

Alegría-Torres, J. A., Baccarelli, A., and Bollati, V. (2011). Epigenetics and Lifestyle. Epigenomics, 3(3), 267–77.Google Scholar
Araki, H., Berejikian, B. A., Ford, M.J., and Blouin, M. S. (2008). Fitness of Hatchery-Reared Salmonids in the Wild. Evolutionary Applications, 1(2), 342–55.Google Scholar
Araki, H., Cooper, B., and Blouin, M. S. (2007). Genetic Effects of Captive Breeding Cause A Rapid, Cumulative Fitness Decline in the Wild. Science, 318(5847), 100–3.Google Scholar
Arora, L. and Narula, A. (2017). Gene Editing and Crop Improvement Using CRISPR-Cas9 System. Frontiers in Plant Science, 8(1932), 122.Google Scholar
Barange, M., Field, J. G., Harris, R. P., et al. (2010). Marine Ecosystems and Global Change. Oxford: Oxford University Press.Google Scholar
Beck, U. (1992). Risk Society: Towards a New Modernity. London: SAGE Publications.Google Scholar
Beck, U., Giddens, A., and Lash, S. (1994). Reflexive Modernization: Politics, Tradition and Aesthetics in the Modern Social Order. Stanford, CA: Stanford University Press.Google Scholar
Beus, C.E. and Dunlap, R. E. (1994). Agricultural Paradigms and the Practice of Agriculture. Rural Sociology, 59(4), 620–35.Google Scholar
Biermann, C. and Mansfield, B. (2014). Biodiversity, Purity, and Death: Conservation Biology as Biopolitics. Environment and Planning D: Society and Space, 32(2), 257–73.Google Scholar
Blumenstein, R. (2016). Bill Gates: GMOs Will End Starvation in Africa. Wall Street Journal. www.wsj.com/video/bill-gates-gmos-will-end-starvation-in-africa/3085A8D1-BB58-4CAA-9394-E567033434A4.htmlGoogle Scholar
Bollati, V. and Baccarelli, A. (2010). Environmental Epigenetics. Heredity, 105(1), 105–12.Google Scholar
Brulle, R.J. (2000). Agency, Democracy, and Nature: The U.S. Environmental Movement from a Critical Theory Perspective. London: MIT Press.Google Scholar
Buttel, F. H. (2010). Social Institutions and Environmental Change. In Redclift, M. and Woodgate, G., eds, The International Handbook of Environmental Sociology. Cheltenham: Edward Elgar Publishing, pp. 3347.Google Scholar
Buttel, F. H., and Taylor, P.J. (1992). Environmental Sociology and Global Environmental Change: A Critical Assessment. Society & Natural Resources, 5(3), 211–30.Google Scholar
Caplan, A. L., Parent, B., Shen, M., and Plunkett, C. (2015). No Time to Waste: The Ethical Challenges Created by CRISPR. EMBO Reports, 16(11), 1421–6.Google Scholar
Carolan, M. S. (2005). Society, Biology and Ecology: Bringing Nature Back into Sociology’s Disciplinary Narrative Through Critical Realism. Organization & Environment, 18(4), 393421.Google Scholar
Carson, R. (1962). Silent Spring. Mariner, New York.Google Scholar
Catton, W. R. and Dunlap, R. E. (1978). Environmental Sociology: A New Paradigm. The American Sociologist, 13(February), 41–9.Google Scholar
Ceballos, G., Ehrlich, P.R., and Dirzo, R. (2017). Biological Annihilation Via the Ongoing Sixth Mass Extinction Signaled by Vertebrate Population Losses and Declines. Proceedings of The National Academy of Sciences, 114(30), E6089E6096.Google Scholar
Charbonneau, J.J. and Caudill, J. (2010). Conserving America’s Fisheries: An Assessment of Economic Contributions from Fisheries and Aquatic Resource Conservation. Arlington, VA: US Fish and Wildlife Service.Google Scholar
Christie, M. R., Marine, M. L., French, R. A., Waples, R. S., and Blouin, M. S. (2012). Effective Size of a Wild Salmonid Population Is Greatly Reduced by Hatchery Supplementation. Heredity, 109(4), 254–60.Google Scholar
Clausen, R., and Clark, B. (2005). The Metabolic Rift and Marine Ecology: An Analysis of the Ocean Crisis Within Capitalist Production. Organization and Environment, 18(4), 422–44.Google Scholar
Corrigan, O. (2009). Genetics and Social Theory. In Turner, B. S., ed., The New Blackwell Companion to Social Theory. West Sussex: Blackwell Publishing Ltd, pp. 343–59.Google Scholar
Dietz, T., Ostrom, E., and Stern, P. C. (2003). The Struggle to Govern the Commons. Science, 302(5652), 1907–12.Google Scholar
Du Bois, W. (1897). The Conservation of Races. Washington, DC: American Negro Academy.Google Scholar
Dunlap, R. E. and Catton, W. R. (1979). Environmental Sociology. Annual Review of Sociology, 5(1), 243–73.Google Scholar
ENCODE. (2018). ENCODE: Encyclopedia of DNA Elements. Stanford University. www.encodeproject.org/Google Scholar
Esvelt, K.M. and Gemmell, N.J. (2017). Conservation Demands Safe Gene Drive. PLOS Biology, 15(11), e2003850.Google Scholar
Food and Agriculture Organization of the United Nations (FAO). (2016). The State of World’s Fisheries and Aquaculture 2016. Rome.Google Scholar
Fortun, M. (2005). For an Ethics of Promising, Or: A Few Kind Words About James Watson. New Genetics and Society, 24(2), 157–73.Google Scholar
Foster, J.B. (1999). Marx’s Theory of Metabolic Rift: Classical Foundations for Environmental Sociology. American Journal of Sociology, 105(2), 366405.Google Scholar
Frankham, R. (2008). Genetic Adaptation to Captivity in Species Conservation Programs. Molecular Ecology, 17(1), 325–33.Google Scholar
Gerstein, M. B., Kundaje, A., Hariharan, M. et al. (2012). Architecture of the Human Regulatory Network Derived from ENCODE Data. Nature, 489 (7414), 91100.Google Scholar
Gould, K. A., Pellow, D. N., and Schnaiberg, A. (2008). The Treadmill of Production. New York: Routledge.Google Scholar
Guo, G. (2008). Society and Genetics [Special Issue]. Sociological Methods & Research, 37(2), 159–63.Google Scholar
Griffiths, P., and Stotz, K. (2013). Genetics and Philosophy: An Introduction. Cambridge: Cambridge University Press.Google Scholar
Halpern, B.S., Frazier, M., Potapenko, J., et al. (2015). Spatial and Temporal Changes in Cumulative Human Impacts on The World’s Ocean. Nature Communications, 6(1), 7615.Google Scholar
Hammond, A., Galizi, R., Kyrou, K., et al. (2016). A CRISPR-Cas9 Gene Drive System Targeting Female Reproduction in The Malaria Mosquito Vector Anopheles Gambiae. Nature Biotechnology, 34(1), 7883.Google Scholar
Hannigan, J. A. (1995). Environmental Sociology: A Social Constructionist Perspective. New York: RoutledgeGoogle Scholar
Hazin, F., Marschoff, E., Ferreira, B.P., Rice, J., and Rosenberg, A. (2016). Capture Fisheries. In Inniss, L., Simcock, A., Ajawin, A. et al., eds First Global Integrated Marine Assessment. United Nations Division for Ocean Affairs and The Law of the Sea, pp. 124.Google Scholar
Hoover, E., Cook, K., Plain, R., et al. (2012). Indigenous Peoples of North America: Environmental Exposures and Reproductive Justice. Environmental Health Perspectives, 120(12), 1645–9.Google Scholar
Jefferson, O.A., Köllhofer, D., Ehrich, T.H., and Jefferson, R.A. (2015). The Ownership Question of Plant Gene and Genome Intellectual Properties. Nature Biotechnology, 33(11), 1138–43.Google Scholar
Jinek, M., Chylinski, K., Fonfara, I., et al. (2012). A Programmable Dual-RNA-Guided DNA Endonuclease in Adaptive Bacterial Immunity. Science, 337(6096), 816–21.Google Scholar
Kabasenche, W.P. and Skinner, M.K. (2014). DDT, Epigenetic Harm, and Transgenerational Environmental Justice. Environmental Health, 13(1), 15.Google Scholar
Keller, E.F. (2015). The Postgenomic Genome. In Richardson, S. S. and Stevens, H., eds, Postgenomics: Perspectives on Biology after the Genome. Durham, NC: Duke University Press, pp. 931.Google Scholar
Kent, M. (2013). The Importance of Being Uros: Indigenous Identity Politics in the Genomic Age. Social Studies of Science, 43(4), 534–56.Google Scholar
Landecker, H. and Panofsky, A. (2013). From Social Structure to Gene Regulation, and Back: A Critical Introduction to Environmental Epigenetics for Sociology. Annual Review of Sociology, 39(1), 333–57.Google Scholar
Le Luyer, J., Laporte, M., Beacham, T.D., et al. (2017). Parallel Epigenetic Modifications Induced by Hatchery Rearing in a Pacific Salmon. Proceedings of the National Academy of Sciences, 114(49), 12964–9.Google Scholar
Liu, H. and Guo, G. (2016). Opportunities and Challenges of Big Data for the Social Sciences: The Case of Genomic Data. Social Science Research, 59(2016), 1322.Google Scholar
Lourenço, J., Pereira, R., Gonçalves, F., and Mendo, S. (2013). Metal Bioaccumulation, Genotoxicity and Gene Expression in the European Wood Mouse (Apodemus sylvaticus) Inhabiting an Abandoned Uranium Mining Area. Science of The Total Environment, 443, 673–80.Google Scholar
Lovelace, R. (2009). Notes from Prison: Protecting Algonquin Lands from Uranium Mining. In Speaking for Ourselves: Environmental Justice in Canada. Vancouver: UBC Press, pp. ixxix.Google Scholar
Macnaghten, P. and Urry, J. (1998). Contested Natures. London: Sage Publications.Google Scholar
Mahfouz, M.M. (2017) Genome Editing: The Efficient Tool CRISPR-Cpf1. Nature Plants, 3(17028), 12.Google Scholar
Manaaki Whenua Landcare Research (MWLR). (2018). Predator-Free New Zealand, www.landcareresearch.co.nz/science/plants-animals-fungi/animals/pfnz.Google Scholar
Manikkam, M., Haque, M. M., Guerrero-Bosagna, C., Nilsson, E. E., and Skinner, M. K. (2014). Pesticide Methoxychlor Promotes the Epigenetic Transgenerational Inheritance of Adult-Onset Disease through the Female Germline. PLoS ONE, 9(7), e102091.Google Scholar
Marx, K. (1976). Capital: A Critique of Political Economy (Vol. 1). Vintage, New York.Google Scholar
Meloni, M. (2015). Epigenetics for The Social Sciences: Justice, Embodiment, and Inheritance in the Postgenomic Age. New Genetics and Society, 34(2), 125–51.Google Scholar
Meloni, M. and Testa, G. (2014). Scrutinizing the Epigenetics Revolution. BioSocieties, 9(4), 431–56.Google Scholar
Meloni, M., Williams, S., and Martin, P. (2016). The Biosocial: Sociological Themes and Issues. The Sociological Review Monographs, 64(1), 725.Google Scholar
Mohai, P., Pellow, D., and Roberts, J.T. (2009). Environmental Justice. Annual Review of Environment and Resources, 34(1), 405–30.Google Scholar
Nadasdy, P. (1999). The Politics of Tek: Power and the ‘Integration’ of Knowledge. Arctic Anthropology, 36(1/2), 118.Google Scholar
Nelson, V.R. and Nadeau, J.H. (2010). Transgenerational Genetic Effects. Epigenomics, 2(6), 797806.Google Scholar
O’Malley, M.A., Bostanci, A., and Calvert, J. (2005). Whole-Genome Patenting. Nature Reviews Genetics, 6(6), 502–6.Google Scholar
Parry, S. and Dupré, J. (2010). Nature after the Genome [Special Issue]. Sociological Review, 58(1).Google Scholar
Pellizzoni, L. (2016). Catching up with Things? Environmental Sociology and the Material Turn in Social Theory. Environmental Sociology, 2(4), 312–21.Google Scholar
Pellow, D. N. and Brehm, H. N. (2013). An Environmental Sociology for the Twenty-First Century. Annual Review of Sociology, 39(1), 229–50.Google Scholar
Pennisi, E. (2012). ENCODE Project Writes Eulogy for Junk DNA. Science, 337(6099), 1159–61.Google Scholar
Pickersgill, M. (2016). Epistemic Modesty, Ostentatiousness and the Uncertainties of Epigenetics: On the Knowledge Machinery of (Social) Science. The Sociological Review Monographs, 64(1), 186202.Google Scholar
Pontin, J. (2015). Editing Human DNA. MIT Technology Review. www.technologyreview.com/s/536696/editing-human-dna/Google Scholar
Reardon, S. (2016). Welcome to the CRISPR Zoo. Nature, 531(7593), 160–3.Google Scholar
Rheinberger, H.-J., Müller-Wille, S., and Bostanci, A. (2017). The Gene: From Genetics to Postgenomics. Chicago, IL: University of Chicago Press.Google Scholar
Richardson, S. S. and Stevens, H. (2015). Postgenomics: Perspectives on Biology after the Genome. Chicago, IL:University of Chicago Press.Google Scholar
Rixecker, S. S. and Tipene-Matua, B. (2003). Maori Kaupapa and the Inseparability of Social and Environmental Justice: An Analysis of Bioprospecting and Peoples’ Resistance to Bio(cultural) Assimilation. In Agyeman, J., Bullard, R. D., and Evans, B., eds, Just Sustainabilities: Development in an Unequal World, London: Earthscan Publications Ltd, pp. 252–68.Google Scholar
Roberts, M., Haami, B., Benton, R. A., et al. (2004). Whakapapa as a Maori Mental Construct: Some Implications for the Debate over Genetic Modification of Organisms. The Contemporary Pacific, 16(1), 128.Google Scholar
Roy, E. A. (2017). No More Rats: New Zealand to Exterminate All Introduced Predators. The Guardian. www.theguardian.com/world/2016/jul/25/no-more-rats-new-zealand-to-exterminate-all-introduced-predatorsGoogle Scholar
Royal Society Te Apārangi (RSTA). (2017). The Use of Gene Editing in Pest Control. Wellington. www.landcareresearch.co.nz/science/plants-animals-fungi/animals/pfnzGoogle Scholar
Schnaiberg, A., Pellow, D. N., and Weinberg, A. (2002). The Treadmill of Production and the Environmental State. In Mol, P. and Buttel, F., eds, The Environmental State Under Pressure. Amsterdam: Elsevier Science, pp. 1532.Google Scholar
Schübeler, D. (2015). Function and Information Content of DNA Methylation. Nature, 517(7534), 321–6.Google Scholar
Simpson, L.R. (2004). Anticolonial Strategies for the Recovery and Maintenance of Indigenous Knowledge. The American Indian Quarterly, 28(3), 373–84.Google Scholar
Skinner, M.K., Manikkam, M., Tracey, R., et al. (2013). Ancestral Dichlorodiphenyl-trichloroethane (DDT) Exposure Promotes Epigenetic Transgenerational Inheritance of Obesity. BMC Medicine, 11(1), 228.Google Scholar
Skowronski, E. and Ian Lipkin, W. (2011). Molecular Microbial Surveillance and Discovery in Bioforensics. In Budowle, B. Schutzer, S. E. Breeze, R. G. Kleim, P. S. and Morse, S. A., eds, Microbial Forensics. Burlington, VT: Academic Press, pp. 173–85.Google Scholar
Smith, L. T. (2013). Decolonizing Methodologies: Research and Indigenous Peoples. 2nd edition. London: Zed Books Ltd.Google Scholar
Spaargaren, G. and Mol, A.P. (1992). Sociology, Environment, And Modernity: Ecological Modernization as a Theory of Social Change. Society & Natural Resources, 5(4), 323–44.Google Scholar
Stevens, H., and Richardson, S. S. (2015). Beyond the Genome. In Richardson, S. S. and Stevens, H., eds., Postgenomics: Perspectives on Biology after the Genome. Durham, NC: Duke University Press, pp. 18.Google Scholar
TallBear, K. (2013a). Native American DNA: Tribal Belonging and the False Promise of Genetic Science. Minneapolis, MN: University of Minnesota Press.Google Scholar
TallBear, K. (2013b). Genomic Articulations of Indigeneity. Social Studies of Science, 43(4), 509–33.Google Scholar
United Church of Christ Commission for Racial Justice (UCCCRJ). (1991). Principles of Environmental Justice. In The Proceedings of the First National People of Color Environmental Leadership Summit, Washington, DC: United Church of Christ.Google Scholar
van Koppen, C. K. (2017). Incorporating Nature in Environmental Sociology: A Critique of Bhaskar and Latour, and a Proposal. Environmental Sociology, 3(3), 173–85.Google Scholar
Wade, N. (2015). Scientists Seek Moratorium on Edits to Human Genome That Could Be Inherited. The New York Times. www.nytimes.com/2015/12/04/science/crispr-cas9-human-genome-editing-moratorium.htmlGoogle Scholar
Wallace, B. (1992). The Search for the Gene. Ithaca, NY: Cornell University Press.Google Scholar
Woodgate, G. and Redclift, M. (1998). From a ‘Sociology of Nature’ to Environmental Sociology: Beyond Social Construction. Environmental Values, 7(1), 324.Google Scholar
Wolffe, A. P. and Guschin, D. (2000). Review: Chromatin Structural Features and Targets that Regulate Transcription. Journal of Structural Biology, 129(2–3), 102–22.Google Scholar
Wynne, B. (2005). Reflexing Complexity: Post-Genomic Knowledge and Reductionist Returns in Public Science. Theory, Culture and Society, 22(5), 6794.Google Scholar
Yearley, S. (2005). Cultures of Environmentalism: Empirical Studies in Environmental Sociology. Palgrave Macmillan, New York.Google Scholar
Yearley, S. (2010). Science and The Environment in the Twenty-First Century. In Redclift, M. R., and Woodgate, G., eds. The International Handbook of Environmental Sociology. 2nd edition. Cheltenham: Edward Elgar Publishing, pp. 212–23.Google Scholar
Yong, E. (2017). New Zealand’s War on Rats Could Change the World. The Atlantic. www.theatlantic.com/science/archive/2017/11/new-zealand-predator-free-2050-rats-gene-drive-ruh-roh/546011/Google Scholar
Young, N. and Matthews, R. (2010). The Aquaculture Controversy in Canada: Activism, Policy, and Contested Science. Vancouver: UBC Press.Google Scholar

References

Acheson, J. M. (2013). Co-management in the Maine lobster industry: A study in factional politics. Conservation and Society, 11(1), 6071.Google Scholar
Agrawal, A. (1995). Dismantling the divide between indigenous and scientific knowledge. Development and Change, 26, 413439.Google Scholar
Armitage, D., et al. (2009). Adaptive co-management for social-ecological complexity. Frontiers in Ecology and the Environment, 7(2), 95102.Google Scholar
Armitage, D., Berkes, F., & Doubleday, N. (eds.). (2007). Adaptive Co-Management. Vancouver: UBC Press.Google Scholar
Armitage, D., Berkes, F., Dale, A., Kocho-Schellenberg, E., & Patton, E. (2011). Co-management and the co-production of knowledge: Learning to adapt in Canada’s Arctic. Global Environmental Change, 21, 9951004.Google Scholar
Armitage, D., Marschke, M., & Plummer, R. (2008). Adapative co-management and the paradox of learning. Global Environmental Change, 18, 8698.Google Scholar
Ashwood, L., Harden, N., Bell, M. M., & Bland, W. (2014). Linked and situated: Grounded knowledge. Rural Sociology, 79(4), 427452.Google Scholar
Bennett, N., & et al. (2017). Conservation social science: Understanding and integrating human dimensions to improve conservation. Biological Conservation, 205, 93108.Google Scholar
Berkes, F. (2008). Sacred Ecology (2nd ed.). New York: Routledge.Google Scholar
Berkes, F. (2009). Evolution of co-management: Role of knowledge generation, bridging organizations and social learning. Journal of Environmental Management, 90, 16921702.Google Scholar
Butler, J. R. A., et al. (2015). Evaluating adaptive co-management as conservation conflict resolution: Learning from seals and salmon. Journal of Environmental Management, 160, 212225.Google Scholar
Buttel, F. H. (2002). Environmental sociology and the sociology of natural resources: Institutional histories and intellectual legacies. Society and Natural Resources, 15, 205211.Google Scholar
Callon, M., Lascoumes, P., & Barthe, Y. (2009). Acting in an Uncertain World: An Essay on Technical Democracy. Cambridge, MA: MIT Press.Google Scholar
Cohen, B. I. (2012). The Uncertain Future of Fraser River Sockeye: Volume 1, The Sockeye Fishery. Commission of Inquiry into the Decline of Sockeye Salmon in the Fraser River. Retrieved from www.cohencommission.ca/en/FinalReport/Google Scholar
Cooke, B., & Kothari, U. (eds.) (2001). Participation: The New Tyranny? New York: Zed Books.Google Scholar
Cruikshank, J. (2005). Do Glaciers Listen? Local Knowledge, Colonial Encounters, and Social Imagination. Vancouver: UBC Press.Google Scholar
Dietz, T. (2013). Bringing values and deliberation to science communication. PNAS, 110(3), 1408114087.Google Scholar
Dietz, T., Ostrom, E., & Stern, P. C. (2003). The struggle to govern the commons. Science, 302(12), 19071912.Google Scholar
Dowsley, M., & Wenzel, G. (2008). “The time of the most polar bears”: A co-management conflict in Nunavut. Arctic, 61(2), 177189.Google Scholar
FAO. (2015). Forests and poverty reduction. Rome: Food and Agriculture Organization of the United Nations. Retrieved from www.fao.org/forestry/livelihoods/en/Google Scholar
FAO. (2016). The state of the world’s fisheries and aquaculture 2016. Rome: Food and Agriculture Organization of the United Nations. Retrieved from www.fao.org/fishery/sofia/enGoogle Scholar
Goodin, R. E., & Dryzek, J. S. (2006). Deliberative impacts: The macro-political uptake of mini-publics. Politics & Society, 34(2), 219244.Google Scholar
Hardin, G. (1968). The tragedy of the commons. Science, 162(3859), 12431248.Google Scholar
Henri, D., Gilchrist, H. G., & Peacock, E. (2010). Understanding and managing wildlife in Hudson Bay under a changing climate. In Ferguson, S. H. (ed.), A Little Less Arctic: Top Predators in the World’s Largest Northern Inland Sea, Hudson’s Bay (pp. 267289). New York: Springer.Google Scholar
Hickey, S., & Mohan, G. (eds.) (2004). Participation: from Tyranny to Transformation? New York: Zed Books.Google Scholar
Irwin, A., Jensen, T. E., & Jones, K. E. (2012). The good, the bad and the perfect: Criticizing engagement practice. Social Studies of Science, 43(1), 118135.Google Scholar
Jasanoff, S. (2004). States of Knowledge: The Co-Production of Science and the Social Order. New York: Routledge.Google Scholar
Jasanoff, S. (2011). Designs on Nature: Science and Democracy in Europe and the United States. Princeton NJ: Princeton University Press.Google Scholar
Jentoft, S. (2000). Legitimacy and disappointment in fisheries management. Marine Policy, 24, 141148.Google Scholar
Jentoft, S., McCay, B. J., & Wilson, D. C. (1998). Social theory and fisheries co-management. Marine Policy, 45, 423436.Google Scholar
Lundmark, C., Matti, S., & Sandstrom, A. (2014). Adaptive co-management: How social networks, deliberation and learning affect legitimacy in carnivore management. European Journal of Wildlife Research, 60, 637644.Google Scholar
Matthews, R., & Sydneysmith, R. (2010). Adaptive capacity as a dynamic institutional process: conceptual perspectives and their application. In Armitage, D & Plummer, R (eds.), Adaptive Capacity and Environmental Governance (pp. 223242). Berlin: Springer-Verlag.Google Scholar
Nadasdy, P. (1999). The politics of TEK: power and the “integration” of knowledge. Arctic Anthropology, 36(1–2), 118.Google Scholar
Nadasdy, P. (2005). The anti-politics of TEK: The institutionalization of co-management discourse and practice. Anthropologica, 47(2), 215232.Google Scholar
Nadasdy, P. (2007). Adaptive co-management and the gospel of resilience. In Armitage, D, Berkes, F, & Doubleday, N (eds.), Adaptive Co-Management (pp. 208227). Vancouver: UBC Press.Google Scholar
Newell, P., & Paterson, M. (2010). Climate Capitalism: Global Warming and the Transformation of the Global Economy. New York: Cambridge University Press.Google Scholar
Nguyen, V. M., Lynch, A. J., Young, N. et al. (2016). To manage inland fisheries is to manage at the social-ecological watershed scale. Journal of Environmental Management, 181, 312325.Google Scholar
Olsson, P., Folke, C., & Hahn, T. (2004). Social-ecological transformation for ecosystem management: The development of adaptive co-management of a wetland landscape in southern Sweden. Ecology and Society, 9(4), 126.Google Scholar
Parkins, J., & Mitchell, R. (2005). Public participation as public debate: A deliberative turn in natural resources management. Society and Natural Resources, 18, 529540.Google Scholar
Pinkerton, E., Heaslip, R., Silver, J. J., & Furman, K. (2008). Finding “space” for comanagement of forests within the neoliberal paradigm: rights, strategies, and tools for asserting a local agenda. Human Ecology, 36, 343355.Google Scholar
Plummer, R. (2009). The adaptive co-management process: an initial synthesis of representative models and influential variables. Ecology and Society, 14(2), 24.Google Scholar
Plummer, R., Armitage, D., & de Loe, R. C. (2013). Adaptive comanagement and its relationship to environmental governance. Ecology and Society, 18(1), 121.Google Scholar
Plummer, R., Crona, B., Armitage, D., et al. (2012). Adaptive comanagement: A systematic review and synthesis. Ecology and Society, 17(3), 1132.Google Scholar
Robbins, P. (2012). Political Ecology (2nd ed.). Malden, MA: Wiley-Blackwell.Google Scholar
Rusnak, G. (1997). Co-management of natural resources in Canada: a review of concepts and case studies (Minga working papers No. 2) (pp. 123). Ottawa, ON: International Development Research Centre.Google Scholar
Savoie, D. (2010). Power: Where Is It? Montreal: McGill-Queen’s University Press.CrossRefGoogle Scholar
Schultz, L., Duit, A., & Folke, C. (2011). Participation, adaptive co-management, and management performance in the world network of biosphere reserves. World Development, 39(4), 662671.Google Scholar
Stilgoe, J., Lock, S. J., & Wilsdon, J. (2014). Why should we promote public engagement with science? Public Understanding of Science, 23(1), 415.Google Scholar
Wyborn, C. A. (2015a). Connecting knowledge with action through coproductive capacities: Adaptive governance and connectivity conservation. Ecology and Society, 20(1), 111.Google Scholar
Wyborn, C. A. (2015b). Co-productive governance: A relational framework for adaptive governance. Global Environmental Change, 30, 5667.Google Scholar
Young, N. (2016). Responding to rural change: adaptation, resilience and community action. In Shucksmith, M & Brown, D. L. (eds.), The International Handbook of Rural Studies (pp. 638649). New York: Routledge.Google Scholar
Young, N., Nguyen, V. M., Corriveau, M., Cooke, S. J., & Hinch, S. G. (2016). Knowledge users’ perspectives and advice on how to improve knowledge exchange and mobilization in the case of a co-managed fishery. Environmental Science & Policy, 66, 170178.Google Scholar

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