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The Emergence of Sustainability

  • Fabio Rubio ScaranoEmail author
Chapter

Abstract

I use Mario Bunge’s approach to the interplay between emergence, submergence and convergence to address the emergence of sustainability. In line with this approach, my argument is that sustainability emerges as a novelty out of the convergence between independent lines of inquiry, such as sociology, economics and ecology in the science realm, and out of the tension between environmentalism and development as social movements or ideologies. It is also related to the emergence of a new ethics based on intergenerational justice. The convergence of sustainability as science, as policy and as moral value, in turn, implies submergence or even full disappearance of the old. For instance, out of the modules from which sustainability emerged, namely biological conservation (in science) and environmentalism (its social movement counterpart) are undergoing a crisis that might precede their submergence if not full disappearance. The notion of socio-economic development, one of the modules that contributed to the emergence of sustainability, is also in crisis as alternative views collectively framed as ‘postdevelopment’ appear. Sustainability, as an emerging new whole, still requires ‘glue concepts’ (sensu Bunge) to bind together its social, economic and environmental dimensions—this applies equally to sustainability as policy, as moral value and as science. Sustainability emerges as a normative goal (i.e. a desire based on beliefs and values) and as a principle of collective good and, as such, it is a new utopia. Finally, I discuss how the emergence of sustainability furthers the vitality of Lovelock’s Gaia hypothesis. Failure or success of sustainability might determine the fate of humankind on the planet.

Notes

Acknowledgements

I dearly thank Ebba Brink for critically reading the manuscript, for sharing her reflections about emergence and convergence, about transdisciplinarity, and for our constructive discussions about sustainability science—all which helped give final shape to this paper. I also thank Aliny Pires for artwork in Fig. 1, for her inspiring capacity to transform ideas in images and for critically reading the manuscript. My warmest thanks also to Prof. Ulrich Lüttge for two decades of partnership, for his insightful coaching all these years and, more recently, for critically reading this manuscript and introducing me to the philosophy of Hans Jonas. My studies on sustainability are supported by the Brazilian Platform on Biodiversity and Ecosystem Services (BPBES), funded by CNPq Grant Number 405593/2015-5.

References

  1. Anderson J (2010) From ‘zombies’ to ‘coyotes’: environmentalism where we are. Environ Politics 19:973–991CrossRefGoogle Scholar
  2. Aronson J (2011) Sustainability science demands that we define our terms across diverse disciplines. Landscape Ecol 26:457–460CrossRefGoogle Scholar
  3. Ascher W (2007) Policy sciences contributions to analysis to promote sustainability. Sustain Sci 2:141–149CrossRefGoogle Scholar
  4. Asheim GB (1994) Sustainability: ethical foundations and economic properties. World Bank Policy Research Working Paper 1302Google Scholar
  5. Banzhaf W (2014) Genetic programming and emergence. Genet Program Evolvable Mach 15:63–73CrossRefGoogle Scholar
  6. Barrett CB, Grizzle R (1999) A holistic approach to sustainability based on pluralism stewardship. Environ Ethics 21(1):23–42CrossRefGoogle Scholar
  7. Beckerman W (1995) How would you like you ‘sustainability’, Sir? Weak or strong? A reply to my critics. Environ Values 4(2):169–179CrossRefGoogle Scholar
  8. Beling AE, Vanhulst J, Demaria F, Rabi V, Carballo AE, Pelenc J (2018) Discursive synergies for a ‘great transformation’ towards sustainability: pragmatic contributions to a necessary dialogue between human development, degrowth, and buen vivir. Ecol Econ 144:304–313CrossRefGoogle Scholar
  9. Bettencourt LMA, Kaur J (2011) Evolution and structure of sustainability science. Proc Natl Acad Sci 108:19540–19545PubMedCrossRefGoogle Scholar
  10. Biermann F, Kanie N, Kim RE (2017) Global governance by goal-setting: the novel approach of the UN sustainable development goals. Curr Opin Environ Sustain 26–27:28–31Google Scholar
  11. Blühdorn I (2011) The politics of unsustainability: COP15, post-ecologism, and the ecological paradox. Organ Environ 24:34–53CrossRefGoogle Scholar
  12. Bothello J, Djelic M-L (2015) Transnational path generation: the institutionalization patterns of modern environmentalism. In: Academy of management proceedings.  https://doi.org/10.5465/ambpp.2015.13168abstractCrossRefGoogle Scholar
  13. Bowen KJ, Cradock-Henry NA, Koch F, Patterson J, Häyhä T, Vogt J, Barbi F (2017) Implementing the “Sustainable Development Goals”: towards addressing three key governance challenges—collective action, trade-offs, and accountability. Curr Opin Environ Sustain 26–27:90–96Google Scholar
  14. Bregman R (2017) Utopia for realists: how can we build the ideal world, 1st ebook edition. Little, Brown and Company, New YorkGoogle Scholar
  15. Brink E, Aalders T, Ádám D, Feller R, Henselek Y, Hoffmann A, Ibe K, Matthey-Doret A, Meyer M, Negrut NL, Rau A-L, Riewerts B, von Schuckmann L, Törnros S, von Wehrden H, Abson DJ, Wamsler C (2016) Cascades of green: a review of ecosystem-based adaptation in urban areas. Glob Environ Change 36:111–123CrossRefGoogle Scholar
  16. Brink E, Wamsler C, Adolfsson M, Axelsson M, Beery T, Björn H, Bramryd T, Ekelund N, Jephson T, Narvelo W, Ness B, Jönsson KI, Palo T, Sjeldrup M, Stålhammar S, Thiere G (2017) On the road to ‘research municipalities’: analysing transdisciplinarity in municipal ecosystem services and adaptation planning. Sustain Sci 13:765–784PubMedPubMedCentralCrossRefGoogle Scholar
  17. Bunge M (2003) Emergence and convergence: qualitative novelty and the unity of knowledge. University of Toronto Press, TorontoGoogle Scholar
  18. Campagnolo L, Davide M (2017) Can the Paris deal boost SDGs achievement? An assessment of climate mitigation co-benefits or side-effects on poverty and inequality. Working Paper 048.2017. Fondazione Enrico Mattei, VeniceGoogle Scholar
  19. Claeys G (2013) Utopia: A História de uma Ideia. Translation by Pedro Barros. Edições SESC, São PauloGoogle Scholar
  20. Clark (2007) Sustainability science: a room of its own. Proc Natl Acad Sci 104:1737–1738PubMedCrossRefGoogle Scholar
  21. Clayton S, Kals E, Feygina I (2016) Justice and environmental sustainability. In: Sabbagh C, Schmitt M (eds) Handbook of social justice theory and research. Springer, New York, pp 369–386CrossRefGoogle Scholar
  22. Colloff MJ, Lavorel S, Van Kerkhoff LE et al (2017) Transforming conservation science and practice for a post-normal world. Conserv Biol 31:1008–1017PubMedCrossRefGoogle Scholar
  23. Costanza R, Daly L, Fioramonti L, Giovannini E, Kubiszewski I, Mortensen LF, Pickett KE, Ragnarsdottir KV, De Vogli R, Wilkinson R (2016a) Modelling and measuring sustainable wellbeing in connection with the UN sustainable development goals. Ecol Econ 130:350–355CrossRefGoogle Scholar
  24. Costanza R, Fioramonti L, Kubiszewski I (2016b) The UN sustainable development goals and the dynamics of well-being. Front Ecol Environ 14:59CrossRefGoogle Scholar
  25. Crouzat E, Arpin I, Brunet L, Colloff MJ, Turkelboom F, Lavorel S (2018) Researchers must be aware of their roles at the interface of ecosystem services science and policy. Ambio 47:97–105PubMedPubMedCentralCrossRefGoogle Scholar
  26. Crouzeilles R, Ferreira MS, Chazdon RL, Lindenmayer DB, Sansevero JBB, Monteiro L, Iribarrem A, Latawiec AE, Strassburg BBN (2017) Ecological restoration success is higher for natural regeneration than for active restoration in tropical forests. Sci Adv 3:e1701345PubMedPubMedCentralCrossRefGoogle Scholar
  27. Crutzen PJ (2002) Geology of mankind. Nature 415:23PubMedCrossRefGoogle Scholar
  28. Crutzen PJ, Stoermer EF (2000) The “Anthropocene”. IGBP Glob Chang Newsl 41:17–18Google Scholar
  29. Dauvergne P (2009) Historical dictionary of environmentalism. Scarecrow Press, Plymouth, UKGoogle Scholar
  30. De Haan J (2006) How emergence arises. Ecol Complex 3:293–301CrossRefGoogle Scholar
  31. Díaz S, Demissew S, Carabias J, Joly C, Lonsdale M, Ash N, Larigauderie A, Adhikari JA, Arico A, Báldi A et al (2015) The IPBES conceptual framework: connecting nature and people. Curr Opin Environ Sustain 14:1–16CrossRefGoogle Scholar
  32. Doak DF, Bakker VJ, Goldstein BE, Hale B (2014) What is the future of conservation? Trends Ecol Evol 29:77–81CrossRefGoogle Scholar
  33. Escobar A (2015) Degrowth, post development, and transitions: a preliminary conversation. Sustain Sci 10:451–462CrossRefGoogle Scholar
  34. Evans H-C, Musvipwa R (2017) The sustainable development goals, the paris agreement and the addis agenda: neo-liberalism, unequal development and the rise of a new imperialism. In: Halvorsen T, Ibsen H, Evans H-C, Penderis S (eds) Knowledge for justice: critical perspectives from southern African-nordic research partnerships. African Minds and Sanord, Cape Town, pp 37–56Google Scholar
  35. Field CB, Barros VR, Mach KJ et al (2014) Technical summary. In: Field CB et al (eds) Climate change 2014: impacts, adaptation, and vulnerability. Part A: Global and sectoral aspects. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, Cambridge, pp 35–94Google Scholar
  36. Funtowicz SO, Ravetz JR (1993) Science for the post-normal age. Futures 25:739–755CrossRefGoogle Scholar
  37. Funtowicz SO, Ravetz JR (1994) Emergent complex systems. Futures 26:568–582CrossRefGoogle Scholar
  38. Garcia LC, Ribeiro DB, de Oliveira Roque F, Ochoa-Quintero JM, Laurance WF (2017) Brazil’s worst mining disaster: corporations must be compelled to pay the actual environmental costs. Ecol Appl 27:5–9PubMedCrossRefGoogle Scholar
  39. Geels FW (2010) Ontologies, socio-technical transitions (to sustainability), and the multi-level perspective. Res Policy 39:495–510CrossRefGoogle Scholar
  40. Gray J (2007) Black mass: apocalyptic religion and the death of Utopia. Penguin Books, LondonGoogle Scholar
  41. Griggs D, Stafford-Smith M, Gaffney O et al (2013) Sustainable development goals for people and planet. Nature 495:305–307PubMedCrossRefGoogle Scholar
  42. Gruen RL, Elliott JH, Nolan ML, Lawton PD, Parkhill A, McLaren CJ, Lavis JN (2008) Sustainability science: an integrated approach for health-programme planning. Lancet 372:1579–1589PubMedCrossRefGoogle Scholar
  43. Holden E, Linnerud K, Banister D (2016) The imperatives of sustainable development. Sustain Dev.  https://doi.org/10.1002/sd.1647CrossRefGoogle Scholar
  44. Holvorsen T (2017) The sustainable development goals, knowledge production and the global struggle over values. In: Halvorsen T, Ibsen H, Evans H-C, Penderis S (eds) Knowledge for justice: critical perspectives from Southern African-nordic research partnerships. African Minds and Sanord, Cape Town, pp 13–36Google Scholar
  45. IPCC (2013) Climate change 2013: the physical science basis. Contribution of working group I to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, CambridgeGoogle Scholar
  46. IPCC (2014) Climate change 2014: impacts, adaptation, and vulnerability. Part A: Global and sectoral aspects. Contribution of working group II to the fifth assessment report of the intergovernmental panel on climate change. Cambridge University Press, CambridgeGoogle Scholar
  47. Jahn T, Bergmann M, Keil F (2012) Transdisciplinarity: between mainstreaming and marginalization. Ecol Econ 79:1–10CrossRefGoogle Scholar
  48. Jerneck A, Olsson L, Ness B, Anderberg S, Baier M, Clark E, Hickler T, Hornborg A, Kronsell A, Lövbrand E, Persson J (2011) Structuring sustainability science. Sustain Sci 6:69–82CrossRefGoogle Scholar
  49. Jia F, Soucie K, Alisat S, Curtin D, Pratt M (2017) Are environmental issues moral issues? Moral identity in relation to protecting the natural world. J Environ Psychol 52:104–113CrossRefGoogle Scholar
  50. Jonas H (1979) Das Prinzip Verantwortung. Versuch einer Ethik für die technologische Zivilisation, Insel Verlag, FrankfurtGoogle Scholar
  51. Jonas H (2017) Tecnologia e responsabilidade: reflexões sobre as novas tarefas da ética. In: Jonas H (ed) Ensaios Filosóficos: Da Crença Antiga ao Homem Tecnológico (Portuguese translation by Lopes WES). Editora Paulus, São Paulo, Brazil, pp 23–49Google Scholar
  52. Kaidesoja T (2009) Bhaskar and Bunge on social emergence. J Theory Soc Behav 39(2):300–322CrossRefGoogle Scholar
  53. Kajikawa Y (2008) Research core and framework of sustainability science. Sustain Sci 3:215–239CrossRefGoogle Scholar
  54. Kareiva P (2014) New conservation: setting the record straight and finding common ground. Conserv Biol 28:634–636PubMedCrossRefGoogle Scholar
  55. Kasecker TP, Ramos-Neto MB, Silva JMC, Scarano FR (2018) Ecosystem-based adaptation to climate change: defining hotspot municipalities for policy design and implementation in Brazil. Mitig Adapt Strateg Glob Change 23:981–993CrossRefGoogle Scholar
  56. Kates RW, Clark WC, Corell R, Hall JM, Jaeger CC, Lowe I, McCarthy JJ, Schellnhuber HJ, Bolin B, Dickson NM, Faucheux S, Gallopin GC, Grübler A, Huntley B, Jäger J, Jodha NS, Kasperson RE, Mabogunje A, Matson P, Mooney H, Moore B III, O’Riordan T, Svedin U (2001) Sustainability science. Science 292:641–642PubMedCrossRefGoogle Scholar
  57. Kauffman CM, Martin PL (2017) Can rights of nature make development more sustainable? Why some Ecuadorian lawsuits succeed and others fail. World Dev 92:130–142CrossRefGoogle Scholar
  58. Khomba JK, Bakuwa RC, Kangaude-Ulaya EC (2013) Shaping business ethics and corporate governance: an inclusive African Ubuntu philosophy. Glob J Manag Bus Res A 13(5). https://globaljournals.org/GJMBR_Volume13/4-Shaping-Business-Ethics-and.pdf
  59. Koons JE (2008) Earth jurisprudence: the moral value of nature. Pace Environ Law Rev 25(2):263–339Google Scholar
  60. Kothari A, DeMaria F, Acosta A (2014) Buen vivir, degrowth and ecological swaraj: alternatives to sustainable development and the green economy. Development 57(3–4):362–375CrossRefGoogle Scholar
  61. Kumazawa T, Saito O, Kozaki K, Matsui T, Mizoguchi R (2009) Toward knowledge structuring of sustainability science based on ontology engineering. Sustain Sci 4:99–116CrossRefGoogle Scholar
  62. Lang DJ, Wiek A, Bergmann M, Stauffacher M, Martens P, Moll P, Swilling M, Thomas CJ (2012) Transdisciplinary research in sustainability science: practice, principles, and challenges. Sustain Sci 7(Supplement 1):25–43CrossRefGoogle Scholar
  63. Lang DJ, Wiek A, von Wehrden H (2017) Bridging divides in sustainability science. Sustain Sci 12:875–879CrossRefGoogle Scholar
  64. Leonidou CN, Skarmeas D (2017) Gray shades of green: causes and consequences of green skepticism. J Bus Ethics 144(2):401–415CrossRefGoogle Scholar
  65. Liu J, Mooney H, Hull V, Davis SJ, Gaskell J, Hertel T, Lubchenco J, Seto KC, Gleick P, Kremen C, Li S (2015) Systems integration for global sustainability. Science 347.  https://doi.org/10.1126/science.1258832PubMedCrossRefGoogle Scholar
  66. Logan GM, Adams RM (2009) Utopia: Thomas More (Portuguese translation by Camargo JL, Cipolla MB), 3rd edn. WMF Martins Fontes, São Paulo, BrazilGoogle Scholar
  67. Lovelock J (1979) Gaia. A new look at life on earth. Oxford University Press, OxfordGoogle Scholar
  68. Lovelock J (2006) The revenge of Gaia. Penguin Books, LondonGoogle Scholar
  69. Lovelock J (2010) Our sustainable retreat. In: Crist E, Rinker HB (eds) Gaia in turmoil: climate change, biodepletion, and earth ethics in an age of crisis. MIT Press, Cambridge, pp 21–24Google Scholar
  70. Lüttge U, Garbin ML, Scarano FR (2013) Evo–Devo–Eco and ecological stem species: potential repair systems in the planetary biosphere crisis. Prog Bot 74:191–212CrossRefGoogle Scholar
  71. Malm A, Hornborg A (2014) The geology of mankind? A critique of the anthropocene narrative. Anthropocene Rev 1:62–69CrossRefGoogle Scholar
  72. Miller B, Soulé ME, Terborgh J (2014a) ‘New conservation’ or surrender to development? Anim Conserv 17:509–515CrossRefGoogle Scholar
  73. Miller TR, Wiek A, Sarewitz D, Robinson J, Olsson L, Kriebel D, Loorbach D (2014b) The future of sustainability science: a solutions-oriented research agenda. Sustain Sci 9:239–246CrossRefGoogle Scholar
  74. Montoya JM, Donohue I, Pimm SL (2017) Planetary boundaries for biodiversity: implausible science, pernicious policies. Trends Ecol Evol.  https://doi.org/10.1016/j.tree.2017.10.004CrossRefGoogle Scholar
  75. Nilsson M, Griggs D, Visbeck M (2017) Map the interactions between sustainable development goals. Nature 534:320–322CrossRefGoogle Scholar
  76. Ontong K, Le Grange L (2014) The role of place-based education in developing sustainability as a frame of mind. South Afr J Environ Educ 30:27–38Google Scholar
  77. Ostrom E (2009) A general framework for analyzing sustainability of social-ecological systems. Science 325:419–422PubMedCrossRefGoogle Scholar
  78. Pacheco D (2014) Living-well in harmony and balance with Mother Earth: a proposal for establishing a new global relationship between human beings and Mother Earth. Universidad de la Cordillera, La Paz. Available at http://www.ucordillera.edu.bo/descarga/livingwell.pdf
  79. Pascual U, Balvanera P, Díaz S, Pataki G, Roth E et al (2017) Valuing nature’s contributions to people: the IPBES approach. Curr Opin Environ Sustain 26:7–16CrossRefGoogle Scholar
  80. Peroff NC (2008) Complexity theory, Lovelock’s Gaia and tribal peoples. Soc Evol Hist 7(2):26–39Google Scholar
  81. Pires APF, Rezende CL, Assad ED, Loyola R, Scarano FR (2017) Forest restoration can increase the Rio Doce watershed resilience. Perspect Ecol Conserv 15:187–193CrossRefGoogle Scholar
  82. Pohl C, Krütli P, Stauffacher M (2017) Ten reflective steps for rendering research societally relevant. Gaia 26:43–51CrossRefGoogle Scholar
  83. Popa F, Guillermin M, Dedeurwaerdere T (2015) A pragmatist approach to transdisciplinarity in sustainability research: from complex systems theory to reflexive science. Futures 65:45–56CrossRefGoogle Scholar
  84. Pradhan P, Costa L, Rybski D, Lucht W, Kropp JP (2017) A systematic study of sustainable development goal (SDG) interactions. Earth’s Future 5.  https://doi.org/10.1002/2017ef000632CrossRefGoogle Scholar
  85. Redman CL (2014) Should sustainability and resilience be combined or remain distinct pursuits? Ecol Soc 19(2):37.  https://doi.org/10.5751/es-06390-190237
  86. Reid AJ, Brooks JL, Dolgov L, Laurich B, Sullivan BG, Szekeres P, Wood SLR, Bennett JR, Cooke SJ (2017) Post-2015 sustainable development goals still neglecting their environmental roots in the anthropocene. Environ Sci Policy 77:179–184CrossRefGoogle Scholar
  87. Rezende CL, Uezu A, Scarano FR, Araujo DSD (2015) Atlantic forest spontaneous regeneration at landscape scale. Biodivers Conserv 24:2255–2272CrossRefGoogle Scholar
  88. Robinson JG (2012) Common and conflicting interests in the engagements between conservation organizations and corporations. Conserv Biol 26(6):967–977PubMedCrossRefGoogle Scholar
  89. Rogelj J, den Elzen M, Höhne N, Fransen T, Fekete H, Winkler H, Schaeffer R, Sha F, Riahi K, Meinshausen M (2016) Paris agreement climate proposals need a boost to keep warming well below 2 °C. Nature 534:631–639PubMedCrossRefGoogle Scholar
  90. Saha M, Darnton G (2005) Green companies or green con-panies: are companies really green, or are they pretending to be? Bus Soc Rev 110(2):117–157CrossRefGoogle Scholar
  91. Saito O, Managi S, Kanie N, Kauffman J, Takeuchi K (2017) Sustainability science and implementing the sustainable development goals. Sustain Sci 12:907–910CrossRefGoogle Scholar
  92. Sardar Z (2010) Welcome to postnormal times. Futures 42:435–444CrossRefGoogle Scholar
  93. Sardar Z, Sweeney JA (2016) The three tomorrows of postnormal times. Futures 75:1–13CrossRefGoogle Scholar
  94. Scarano FR (2017) Ecosystem-based adaptation to climate change: concept, scalability and a role for conservation science. Perspect Ecol Conserv 15:65–73CrossRefGoogle Scholar
  95. Scarano FR, Garbin ML (2013) Stem species: plant species that function as regenerating cells of Gaia. Nova Acta Leopoldina NF 114:317–324Google Scholar
  96. Scarano FR, Garcia K, Diaz-de-Leon A, Queiroz HL, Rodríguez Osuna V, Silvestri LC, Díaz CF, Pérez-Maqueo O, Rosales M, Salabarria DM, Zanetti EA, Farinaci JS (2018) Options for governance and decision-making across scales and sectors. In: Rice J, Seixas CS, Zaccagnini ME, Bedoya-Gaitán M, Valderrama N (eds), IPBES 2018: the IPBES regional assessment report on biodiversity and ecosystem services for the Americas. Secretariat of the intergovernmental science-policy platform on biodiversity and ecosystem services, Bonn, Germany, pp 644–744Google Scholar
  97. Schoolman ED, Guest JS, Bush KF, Bell AR (2012) How interdisciplinary is sustainability research? Analyzing the structure of an emerging scientific field. Sustain Sci 7:67–80CrossRefGoogle Scholar
  98. Shellenberger M, Nordhaus T (2004) The death of environmentalism: global warming politics in a post-environmental world. http://www.grist.org/article/doe-reprint/
  99. Shoreman-Ouimet E, Kopnina H (2015) Reconciling ecological and social justice to promote biodiversity conservation. Biol Conserv 184:320–326CrossRefGoogle Scholar
  100. Shumba O (2011) Commons thinking, ecological intelligence and the ethical and moral framework of Ubuntu: an imperative for sustainable development. J Media Commun Stud 3(3):84–96Google Scholar
  101. Soulé ME (2013) The new conservation. Conserv Biol 27:895–897PubMedCrossRefGoogle Scholar
  102. Souza GM, Lüttge U (2015) Stability as a phenomenon emergent from plasticity–complexity–diversity in eco-physiology. In: Lüttge U, Beyschlag W (eds) Progress in botany, vol 76. Springer, Switzerland, pp 211–238Google Scholar
  103. Spangenberg JH (2011) Sustainability science: a review, an analysis and some empirical lessons. Environ Conserv 38(3):275–287CrossRefGoogle Scholar
  104. Stafford-Smith M, Griggs D, Gaffney O, Ullah F, Reyers B, Kanie N, Stigson B, Shrivastava P, Leach M, O’Connell D (2017) Integration: the key to implementing the sustainable development goals. Sustain Sci 12:911–919PubMedPubMedCentralCrossRefGoogle Scholar
  105. Steffen W, Broadgate W, Deutsch L, Gaffney O, Ludwig C (2015a) The trajectory of the anthropocene: the great acceleration. Anthropocene Rev 2:81–98CrossRefGoogle Scholar
  106. Steffen W, Richardson K, Röckstrom J et al (2015b) Planetary boundaries: guiding human development on a changing planet. Science 347.  https://doi.org/10.1126/science.1259855PubMedCrossRefGoogle Scholar
  107. Sterk M, van de Leemput IA, Peeters ETHM (2017) How to conceptualize and operationalize resilience in socio-ecological systems? Curr Opin Environ Sustain 28:108–113CrossRefGoogle Scholar
  108. Tolefson J, Gilbert N (2012) Rio report card. Nature 486:20–23CrossRefGoogle Scholar
  109. Trosper RL (2005) Emergence unites ecology and society. Ecol Soc 10(1):14. http://www.ecologyandsociety.org/vol10/iss1/art14/
  110. Van der Leeuw S, Wiek A, Harlow J, Buizer J (2012) How much time do we have? Urgency and rethoric in sustainability science. Sustain Sci 7(Supplement 1):115–120CrossRefGoogle Scholar
  111. WCED—World Commission on Environment and Development (1987) Our common future. Oxford University Press, OxfordGoogle Scholar
  112. Weiss M, Cattaneo C (2017) Degrowth—taking stock and reviewing an emerging academic paradigm. Ecol Econ 137:220–230PubMedPubMedCentralCrossRefGoogle Scholar
  113. West P, Brockington D (2012) Introduction: capitalism and the environment. Environ Soc Adv Res 3(1):1–3CrossRefGoogle Scholar
  114. Wiek A, Withycombe L, Redman CL (2011) Key competencies in sustainability: a reference framework for academic program development. Sustain Sci 6:203–218CrossRefGoogle Scholar
  115. Wiek A, Ness B, Schweizer-Ries P, Brand FS, Farioli F (2012) From complex systems analysis to transformational change: a comparative appraisal of sustainability science projects. Sustain Sci 7(Supplement 1):5–24CrossRefGoogle Scholar
  116. Wiens JA, Hobbs RJ (2015) Integrating conservation and restoration in a changing world. Bioscience 65:302–312CrossRefGoogle Scholar
  117. Wright EO (2010) Envisioning real Utopias. Verso, LondonGoogle Scholar

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Authors and Affiliations

  1. 1.Universidade Federal do Rio de JaneiroRio de JaneiroBrazil

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