Towards a multi-dimensional methodology supporting a safeguarding decision on the future access to mineral resources
Tóm tắt
Từ khóa
Tài liệu tham khảo
Achzet B, Helbig C (2013) How to evaluate raw material supply risks—an overview. Resources Policy 38:435–447
Alexander ER (2002) The public interest in planning: from legitimation to substantive plan evaluation. Planning Theory 1:226–249
Allington R, Bailey E, Demecheleer P (2016) Applications of geoscience in land-use and mineral planning; the importance of an integrated approach. Geophysical Research Abstracts 18. EGU General Assembly 2016
Arndt NT, Fontboté L, Hedenquist JW, Kesler SE, Thompson JFH, Wood DG (2017) Future global mineral resources. Geochemical Perspectives 6(1):1–171
Ashby MF (2000) Multi-objective optimization in material design and selection. Acta Mater 48:359–369
Baldi L, Peri M, Vandome D (2014) Clean energy industries and rare earth materials: economic and financial issues. Energy Policy 66:53–61
Batten JA, Ciner CC, Lucey BM (2010) The macroeconomic determinants of volatility in precious metals markets. Resources Policy 35:65–71
Behrens A, Giljum S, Kovanda J, Niza S (2007) The material basis of the global economy worldwide patterns of natural resource extraction and their implications for sustainable resource use policies. Ecol Econ 64:444–453
Binnemans K, Jones PT, Blanpain B, Gerven TV, Yang Y, Walton A, Buchert M (2013) Recycling of rare earths: a critical review. J Clean Prod 51:1–22
Bloodworth A, Gunn G (2012) The future of the global minerals and metals sector: issues and challenges out to 2050. Géosciences 15:90–97
Bojarski AD, Laínez JM, Espuña A, Puigjaner L (2009) Incorporating environmental impacts and regulations in a holistic supply chains modelling. Comput Chem Eng 33:1747–1759
Burrough PA (1986) Principles of geographical information systems for land resources assessment. Geocarto International 1(3):54–54
Carranza JM, Mangaoang JC, Hale H (1999) Application of mineral exploration models and GIS to generate mineral potential maps as input for optimum land-use planning in the Philippines. Nat Resour Res 8:165–173
Chen M-H (2010) Understanding world metal prices—returns, volatility and diversification. Resources Policy 35:65–71
Costa e Silva A (2015) A indústria mineira: mudanças e tendências nos mercados de “commodities” e desafios para o futuro. Boletim de Minas 50:3–12
Cowell R, Owens S (1998) Suitable locations: equity and sustainability in the minerals planning process. Reg Stud 32:797–811
Cowell R, Murdoch J (1999) Land use and the limits to (regional) governance: some lessons from planning for housing and minerals in England. International Journal of Urban and Regional Research 23:654–669
Davis JC (1986) Statistics and data analysis in geology. Wiley, p 646
David M (1977) Geostatistical ore reserve estimation. Elsevier, p 364
De Groot R (2006) Function-analysis and valuation as a tool to access land use conflicts in planning for sustainable, multi-functional landscapes. Landsc Urban Plan 75:175–186
Declercq FAN (1996) Interpolation methods for scattered sample data: accuracy, spatial patterns, processing time. Cartography and Geographic Information Systems 23(3):128–144
Edwards KL (2004) Strategic substitutions of new materials for old: applications in automotive product development. Mater Des 25:529–533
Erdmann L, Graedel TE (2011) Criticality of non-fuel minerals: a review of major approaches and analysis. Environ Sci Pol 45:7620–7630
Erten B, Ocampo JA (2012) Super-cycles of commodity prices since the mid-nineteenth century. DESA working paper n°110, ST/ESA/2012/DWP/110
Evans D, Stephenson M, Shaw R (2009) The present and future use of “land” below ground. Land Use Policy 26:302–316
Filipe A (2010) Management of mineral resources (SIORMINP). VIII Congresso Nacional de Geologia, e-Terra ( http://e-Terra.geopor.pt ) 20, 1–4
Filipe A, Inverno CM, Oliveira DPS, Santana H, Matos JX, Farinha RJ, Carvalho J, Batista MJ, Sardinha R, Salgueiro R, Lisboa V, Machado Leite MR, Casal MJ, Martins LM, Costa LR (2010) Recursos Minerais. O Potencial de Portugal. LNEG, Lisboa, p 74
Fizaine F (2013) Byproduct production of minor metals: threat or opportunity for the development of clean technologies? The PV sector as an illustration. Resources Policy 38:373–383
Geyer R, Jackson (2004) Supply loops and their constraints: the industrial ecology of recycling and reuse. Calif Manag Rev 46:55–73
Giljum S, Behrens A, Hinterberger F, Lutz C, Meyer B (2008) Modelling scenarios towards a sustainable use of natural resources in Europe. Environ Sci Pol 11:204–216
Gleich B, Achzet B, Mayer H, Rathgeber A (2013) An empirical approach to determine specific weights of driving factors for the price of commodities—a contribution to the measurement of the economic scarcity of minerals and metals. Resources Policy 38:350–362
Glöser S, Espinoza LT, Gandenberger C, Faulstich (2015) Raw material criticality in the context of classical risk assessment. Resources Policy 44:35–46
Goovaerts P (1997) Geostatistics for natural resources evaluation. Oxford University Press, New York, p 483
Graedel TE, Barr R, Chandler C, Chase T, Choi J, Chistofferson L, Friedlander E, Henly C, Jun C, Narrar NT, Schechner D, Warren S, Yang MY, Zhu C (2012) Methodology of metal criticality determination. Environ Sci Pol 46:1063–1070
Graedel TE, Nassar NT (2013) The criticality of metals: a perspective for geologists. In: Jenkin GRT, Lusty PAJ, McDonald I, Smith MP, Boyce AJ, Wilkinson JJ (eds) Ore deposits in and Evolving Earth. Geological Society, London, Special Publications 393
Goe M, Gaustad G (2014) Identifying critical materials for photovoltaics in US: a multi-metric approach. Appl Energy 123:387–396
Ho LS (2012) Public policy and the public interest. Routledge International Studies in Health Economics, p. 266
Inverno C, Díez-Montes A, Rosa C, Gascía-Crespo J, Matos J, García-Lobón JL, Carvalho J, Bellido F, Castello-Branco JM, Ayala C, Batista MJ, Rubio F, Granado I, Tornos F, Oliveira JT, Rey C, Araújo V, Sánchez-García T, Pereira Z, Represas P, Solá AR, Sousa P (2015) Introduction and geological setting of the Iberian Pyrite Belt. In. Weilhed P (ed.), 3D, 4D and Predictive Modelling of Major Mineral Belts in Europe, Mineral Resource Reviews, 191–208, doi: 10.1007/978-3-319-17428-0_9
Kesler SE, Simon AC (2015) Mineral resources, economics and the environment. Cambridge University Press
Knoeri C, Wäger PA, Stamp A, Althaus H-J, Weil M (2013) Towards a dynamic assessment of raw materials criticality: linking agent-based demand—with material flow supply modelling approaches. Science for the Total Environment 461-462:808–812
Krausmann F, Gringrich S, Eisenmenger N, Erb K-H, Harberl H, Fisher-Kowalski M (2009) Growth in global materials use, GDP and population during the 20th century. Ecol Econ 68:2696–2705
Massari S, Ruberti M (2013) Rare elements as critical raw materials: focus on international markets and future strategies. Resources Policy 38:36–43
Mateus A, Noronha F (2010) Sistemas mineralizantes epigenéticos na Zona Centro-Ibérica; expressão da estruturação orogénica Meso- a Tardi-Varisca. In: Cotelo Neiva JM, Ribeiro A, Mendes Victor L, Noronha F, Ramalho M (Eds.) - Ciências Geológicas: Ensino e Investigação e sua História; Volume II: Geologia Aplicada: 47–61. Associação Portuguesa de Geólogos; Sociedade Geológica de Portugal
Mateus A, Munhá J, Inverno C, Matos JX, Martins L, Oliveira DPS, Jesus A, Salgueiro R (2013) Mineralizações no sector português da Zona de Ossa-Morena. In: Dias R, Araújo A, Terrinha P, Kullberg JC (Eds), Geologia de Portugal, vol. 1, Escolar Editora, 577–619
Matheron G (1962–63) Traité de géostatistique appliquée. Mémoires du Bureau de Recherches Géologiques et Minières. Tome I, n° 14, Editions Technip, Paris, Tome II: Le krigeage. n° 24, Editions BRGM, Paris
Matheron G (1971) The theory of regionalized variables and its applications. Les Cahiers du Centre de Morphologie Mathématique, n° 5, Ecole des Mines de Paris, pp. 211
Mudd GM (2010) The environmental sustainability of mining in Australia: key mega-trends and looming constraints. Resources Policy 35:98–115
Nassar NT, Barr R, Browning M, Diao Z, Friedlander E, Harper EM, Henley C, Kavlak G, Kwatra S, Jun C, Warren S, Yang M-Y, Graedel TE (2011) Criticality of the geological copper family. Environ Sci Pol 46:1071–1078
Nuss P, Harper EM, Nassar NT, Reck BK, Graedel TE (2014) Criticality of iron and its principal alloying elements. Environ Sci Pol 48:4171–4177
Owens S (1997) Interpreting sustainable development. The case of land use planning. The political quarterly 69, Wiley online library
Pagell M, Wu Z, Murthy NN (2007) The supply chain implications of recycling. Business Horizons 50:133–143
Peiró LT, Méndez GV, Ayres RU (2013) Material flow analysis of scarce metals: sources, functions, end-uses and aspects for future supply. Environ Sci Pol 47:2939–2947
Porter ME, van der Linde C (1995) Green and competitive. Harvard Business Review, Reprint 95507
Prior T, Wäger PA, Stamp A, Widmer R, Giurco D (2013) Sustainable governance of scarce metals: the case of lithium. Science for the Total Environment 461-462:785–791
Purba Rao DH (2005) Do green supply chains lead to competitiveness and economic performance? Int J Oper Prod Manag 25:898–916
Roelich K, Dawson DA, Purnell P, Knoeri C, Prevell R, Busch J, Steinberger JK (2014) Assessing the dynamic material criticality of infrastructure transition: a case of low carbon electricity. Appl Energy 123:378–386
Robb L (2005) Introduction to ore-forming processes. Blackwell Publishing, Oxford, 373 pp
Rosenau-Tornow D, Buchholz P, Riemann A, Wagner M (2009) Assessing the long-term supply riscks for mineral raw materials—a combined evaluation of past and future trends. Resources Policy 34:161–175
Rowe G, Frewer LJ (2004) Evaluating public-participation exercises: a research agenda. Sci Technol Hum Values 29:512–556
Rowe G, Frewer LJ (2005) A typology of public engagement mechanisms. Sci Technol Hum Values 30:251–290
Ruggie JG (2004) Reconstructing the global public domain—issues, actors, and practices. Eur J Int Rel SAGE Pub ECPR-Eur Consort Pol Res 10:499–531
Scholz RW, Wellmer F-W (2013) Approaching a dynamic view on the availability of mineral resources: what we may learn from the case of phosphorus? Glob Environ Chang 23:11–27
Soares A (2000) Geoestatística para as Ciências da Terra e do Ambiente. IST Press, Lisboa, p 206
Sousa AJ, Muge F (1990) Elementos de Geoestatística. LMPM, IST, p 63
Templelman E (2011) Multi-parametric study of the effect of materials substitution on life cycle energy use and waste generation of passenger car structures. Transp Res Part D: Transp Environ 16:479–485
Tornos F, Inverno CMC, Casquet C, Mateus A, Ortiz G, Oliveira V (2004) Metallogenic evolution of the Ossa Morena zone. J Iber Geol 30:143–181
United Nations, Department of Economic and Social Affairs, Population Division – World Population Prospects, the 2015 Theol Rev https://esa.un.org/unpd/wpp/
US Geological Survey (1980) Principles of a Resource/Reserve classification for Minerals, Circular 831. A revision of the classification system published as U.S. Geological Survey Bulletin 1450-A
Veld JI, Raciborski R, Ratto M, Roeger W (2011) The recent boom-boost cycle: the relative contribution of capital flows, credit supply and asset bubbles. Eur Econ Rev 55:386–406
Wrighton CE, Bee EJ, Mankelow JM (2014) The development and implementation of mineral safeguarding policies at national and local levels in the United Kingdom. Resourc Policy 41:160–170