Abstract
In this empirically grounded perspective, we explore how, if managed correctly, mining might go beyond a straight conversion of finite natural capital to financial resources. We suggest a process where mineral extraction could act as a catalyst for more diversified growth and even serve as a basis to restore forms of ‘natural capital’ it had previously diminished. The case in point—small in scale but significant in consequence—is the particularly challenging instance of the small-island state of Nauru, which has a very negative history of socio-ecological impacts of phosphate mining. Yet, the degraded landscape requires capital investment which could be reaped from restoration of the land using revenues generated from exporting the waste rock pinnacles as branded household counter-tops and pavement stone products with an “island provenance premium”. Furthermore, we use an industrial ecology method to show that Nauru’s secondary phosphate can be shown to be less environmentally impactful than comparable phosphate from other sources. This has potential for further “green branding” of the Island’s products. We contend that implementing such a restoration approach that harnesses the remaining mineral capital with care has the potential, to diversify the island’s economy from one dependent on extractive industries and donors to agroforestry, fishing and tourism. A holistic approach is offered that considers prudent use of Nauru’s remaining mineral resources towards an agenda of ecological restoration and economic diversification that will allow the island to prosper after the phosphates it has traditionally relied upon are depleted.
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Notes
Along with other geologically similar islands formed from coral atolls like Banaba and Makatea.
An excellent digital image of the island, showing environmental damage, is available at https://ejatlas.org/conflict/phosphate-mining-on-nauru.
In fact, Nauru imports almost all its commodities at considerable expense. For example, being dependent on generators for electricity, petroleum made up a startling 36% of imports in 2015 at a cost of US$26.1 million. This is in addition to almost a million dollars’ worth of water and food (OEC 2017).
The numbers for phosphate production and quantities for waste by-products (pinnacle rock, crushed rock, reject phosphate, topsoil and compost) given in the results section below are taken from measured and projected figures provided to the authors by the Nauru Rehabilitation Corporation, which is responsible for mining of phosphate on the island.
US$400 is assumed in the TMP/TMR scenarios.
A mark-up of up to 30% has been suggested in a study by the University of Bonn (2015).
Note that topsoil and compost are not factored into the pricing scenarios, as these are valuable commodities for rehabilitation and not exported.
The latter of these new techniques might be particularly appealing given the history of fish husbandry on the island.
Also see http://www.abc.net.au/news/rural/2015-05-14/mintope-howieson/6466980 for an interview with the project manager.
References
Ashley, K., D. Cornell, and D. Mavinic. 2011. A brief history of phosphorus: From the philosopher’s stone to nutrient recovery and reuse. Chemosphere 84: 737–746.
Asian Development Bank. 2014. ADB country operations business plan: Nauru 2015–2017. Accessed 9 Apr 2018
Asian Development Bank. 2017. Asian development outlook 2017: Transcending the middle-income challenge. Asian Development Bank. Accessed 9 Apr 2018
Bringezu, S., H. Schutz, and S. Moll. 2003. Rationale for and interpretation of economy-wide materials flow analysis and derived indicators. Journal of Industrial Ecology 7: 43–64.
Burney, J.A., R.L. Naylor, and S.L. Postel. 2013. The case for distributed irrigation as a development priority in sub-Saharan Africa. Proceedings of the National academy of Sciences of the United States of America 110: 12513–12517.
Butusov, M., and A. Jernelöv. 2013. Phosphorus: An element that could have been called Lucifer. New York: Springer.
Clarke, C., K. Schreckenberg, and N.N. Haq. 2011. FAO diversification booklet number 16: Fruit products for profit. Food and Agriculture Organization of the United Nations. Accessed 9 Apr 2018.
Connell, J. 2006. Nauru: The first failed pacific state? The Commonwealth Journal of International Affairs 95: 47–63.
Crowley, P. 2011. Update on dimension stone pilot project. Nauru: Nauru Rehabilitation Corporation.
Crowley, P., G. Atkinson, and B. Hogan. 2010. Nauru rehabilitation and secondary mining project: Independent review of operations commissioned by the Nauru Rehabilitation Corporation. Nauru: Nauru Rehabilitation Corporation.
Davis W.J. 2010. The feasibility of a Nauruan limestone industry and its linkage with rehabilitation. The Environmental Studies Institute. Boulder, Colorado. Accessed 9 Apr 2018.
Doherty, B., and E.A. Roy. 2017. World Bank: Let climate-threatened Pacific islanders migrate to Australia or NZ. The Guardian, Monday 8th May 2015. Accessed 20 July 17
Dreher, T., and M. Voyer. 2015. Climate refugees or migrants? Contesting media frames on climate justice in the Pacific. Environmental Communication 9: 58–76.
Eurostat. 2001. Economy-wide material flow accounts and derived indicators. A methodological guide. Luxembourg: Eurostat, European Commission.
Fa’anunu H. 2012. An assessment for increased agricultural production project development in Nauru. Sub-Regional Office for the Pacific Islands, Food and Agricultural Organization of the United Nations. Accessed 9 Apr 2018.
FAO Fisheries and Aquaculture Department. 2018. Fishery and aquaculture country profiles: The Republic of Nauru. Accessed 9 Apr 2018
Fellows P. 2011. FAO diversification booklet number 5 (2nd edition): Processing for prosperity. Food and Agricultural Organization of the United Nations. Accessed 9 Apr 2018.
Gale, S.J. 2016. The mined-out phosphate lands of Nauru, equatorial western Pacific. Australian Journal of Earth Sciences 63: 333–347.
Goddek, S., B. Delaide, U. Mankasingh, K.V. Ragnarsdottir, Hc Jijakli, and R. Thorarinsdottir. 2015. Challenges of sustainable and commercial aquaponics. Sustainability 7: 4199–4224.
Government of the Republic of Nauru. 2013. Nauru national assessment report for the third international conference on small island developing states (SIDS). Accessed 9 Apr 2018.
Government of the Republic of Nauru. 2014a. Nauru energy road map 2014–2020: An implementation plan for energy sector development. Accessed 9 Apr 2018
Government of the Republic of Nauru. 2014b. Nauru’s fifth national report to the convention on biological diversity. Accessed 9 Apr 2018
Government of the Republic of Nauru. 2015. Nauru water and sanitation master plan 2015. Accessed 9 Apr 2018
Graves, L. 2016. Masdar completes five solar and wind projects in the Pacific. The National, May 17 2016. Accessed 9 Apr 2018.
Halada, K., K. Ijima, N. Katagiri, and T. Okura. 2001. An approximate estimation of total material requirement of metals. Journal of the Japan Institute of Metals and Materials 65: 564–570.
Hanna, E. 2013. Vulnerable States: Pacific Island Countries. Climate vulnerability: Understanding and addressing. Threats to Essential Resources 1: 165–182.
Howieson, J., H. Calmu, N. Ballard, P. Skinner, G.W. O’Hara, L. Skinner, K.X. Ruthrof, R. Swift, et al. 2016. Bread from stones: Post-mining land use change from phosphate mining to farmland. The Extractive Industries and Society 4: 290–299.
Jackson, R.J., and H.I. Manner. 2005. Pre-mining pattern of soils on Nauru, Central Pacific. Pacific Science 59: 523–540.
Jacobson, G., P.J. Hill, and F. Ghassemi. (2004) Geology and hydrogeology or Nauru Island. Chapter 24 (pp. 707–742). In Developments in sedimentology 54: Geology and hydrogeology of carbonate islands, eds. L.H. Vacher, and T.M. Quinn. Amsterdam: Elsevier
Jørgensen, D. 2015. Rethinking rewilding. Geoforum 65: 482–488.
McDaniel, C.N., and J.M. Gowdy. 2000. Paradise for sale: A parable of nature. Berkeley: University of California Press.
Nakajima, K., K. Halada, K. Ijima, and T. Nagasaka. 2006. Estimation of total materials requirement: Energy resources and industrial materials. Journal of Life Cycle Assessment, Japan 2: 152–158.
Nauru Government (2009) National sustainable development strategy. Accessed 9 Apr 2018
Nauru Rehabilitation Corporation. 2013. Pinnacle rock adding value: Project overview. Nauru: Nauru Rehabilitation Corporation.
Observatory of Economic Complexity (OEC) (2017) Country Profile: Nauru. Accessed 9 Apr 2018
OECD. 2008. Measuring material flows and resource productivity. Volume 1: The OECD guide. Accessed 10 Apr 2018.
Pollock, N.J. 2014. Nauru phosphate history and the resource curse narrative. Journal de la Société des Océanistes 138–139: 107–120.
Rajah, R. 2017. Securing sustainability: Nauru’s new intergenerational trust fund and beyond. Issues in Pacific Development No. 1, March 2017. Asian Development Bank, Manila. Accessed 9 Apr 2018
Reijnders, L. 2014. Phosphorus resources, their depletion and conservation, a review. Resources, Conservation and Recycling 93: 32–49.
Scandurra, G., A.A. Romanoa, M. Ronghia, and A. Carfora. 2018. On the vulnerability of small island developing states: A dynamic analysis. Ecological Indicators 84: 382–392.
Schmidt-Bleek, F. 1997. Factor 10-material inputs per units of service. Berlin: Springer.
Thaman, R.R., and D.C. Hassall. 1998. Republic of Nauru national environmental management strategy and national environmental action plan. Quality Print, Suva, Fiji: South Pacific Regional Environment Programme.
Treftz, C., and S.T. Omaye. 2016. Hydroponics: Potential for augmenting sustainable food production in non-arable regions. Nutrition and Food Science 46: 672–684.
Trujillo, P., Harper, S., and Zeller, D. 2017. Nauru. In Global atlas of marine fisheries: A critical appraisal of catches and ecosystem impacts, ed. D. Pauly and D. Zeller, p. 341. London: Island Press.
United Nations Environment Programme. 2001. Environmental aspects of phosphate and potash mining. Paris: UNEP.
Walker, C (2004) Environmental refugees. Chain Reaction No. 91 (September): 23–25
Westra, L. 2009. Environmental justice and the rights of ecological refugees. Sterling, VA: Earthscan.
Zaman, M., K.C. Cameron, H.J. Di, and K. Inubushi. 2002. Changes in mineral N, microbial biomass and enzyme activities in different soil depths after surface applications of dairy shed effluent and chemical fertilizer. Nutrient Cycling in Agroecosystems 63: 275–290.
Zhang, M., and D. Merunka. 2014. The use of territory of origin as a branding tool. Global Business and Organizational Excellence 34: 32–40.
Acknowledgements
We gratefully acknowledge the support of the Pavetta Foundation in Brisbane, Australia, for support for this research, which also produced a much longer working paper on this subject. Special thanks to the Nauru government who gave permission for the primary researcher to travel to the country and conduct interviews. Logistical support and access for interviews were also provided by Ronphos, particularly Jim Gearing, Andrew Pitcher and Chelser Buraman. Several researchers and practitioners graciously shared their research insights with us particularly, Peter Crowley, W. Jackson Davis, David Hassall, Vinci Clodumar and Roland Rajah. Australian High Commission Staff past and present were also immensely helpful including Beris Gwynn, Dan Heldon and John Donnelly.
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Clifford, M.J., Ali, S.H. & Matsubae, K. Mining, land restoration and sustainable development in isolated islands: An industrial ecology perspective on extractive transitions on Nauru. Ambio 48, 397–408 (2019). https://doi.org/10.1007/s13280-018-1075-2
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DOI: https://doi.org/10.1007/s13280-018-1075-2