Sustainability dialogues in Brazil: implications for boundary-spanning science and education

Fabio R. Scarano; Ebba Brink; Beatriz L. R. Carneiro; Luciane Coutinho; Clemir Fernandes; Vitória L. Holz; Moema Salgado; Ana C. P. Aguiar; Agnieszka E. Latawiec; Renata Pardini; Michelle C. Sampaio; Anna C. F. Aguiar; Paulo D. Branco; Laísa Freire; Maíra C. G. Padgurschi; Aliny P. F. Pires; Isadora M. M. Soares; Alexandro Solórzano

doi:10.1017/sus.2024.25

Sustainability dialogues in Brazil: implications for boundary-spanning science and education

Published online by Cambridge University Press: 20 September 2024

Fabio R. Scarano*: Affiliation:
UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation, Museu do Amanhã, IDG, Rio de Janeiro, Brazil Department of Ecology, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil
Ebba Brink*: Affiliation:
Lund University Center for Sustainability Studies, Lund, Sweden
Beatriz L. R. Carneiro: Affiliation:
UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation, Museu do Amanhã, IDG, Rio de Janeiro, Brazil Department of Ecology, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil
Luciane Coutinho: Affiliation:
Instituto LivMundi, Rio de Janeiro, Brazil Teachers College, Columbia University, New York, NY, USA
Clemir Fernandes: Affiliation:
Instituto de Estudos da Religião, Rio de Janeiro, Brazil
Vitória L. Holz: Affiliation:
UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation, Museu do Amanhã, IDG, Rio de Janeiro, Brazil Department of Ecology, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil Cicli, Rio de Janeiro, Brazil
Moema Salgado: Affiliation:
Instituto de Estudos da Religião, Rio de Janeiro, Brazil
Ana C. P. Aguiar: Affiliation:
Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil Fundação Getúlio Vargas, Escola de Administração de Empresas de São Paulo, São Paulo, Brazil
Agnieszka E. Latawiec: Affiliation:
Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil Instituto Internacional para Sustentabilidade, Rio de Janeiro, Brazil Faculty of Mechanical Engineering, Opole University of Technology, Opole, Poland School of Environmental Science, University of East Anglia, Norwich, UK
Renata Pardini: Affiliation:
Department of Zoology, Universidade de São Paulo, São Paulo, Brazil
Michelle C. Sampaio: Affiliation:
Department of Botany, Universidade Federal do Estado do Rio de Janeiro, Rio de Janeiro, Brazil
Anna C. F. Aguiar: Affiliation:
UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation, Museu do Amanhã, IDG, Rio de Janeiro, Brazil Department of Ecology, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil
Paulo D. Branco: Affiliation:
Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil Instituto Internacional para Sustentabilidade, Rio de Janeiro, Brazil
Laísa Freire: Affiliation:
Department of Ecology, Universidade Federal do Rio de Janeiro, Rio de Janeiro, Brazil
Maíra C. G. Padgurschi: Affiliation:
Brazilian Research Center for Energy and Materials, Universidade Estadual de Campinas, Campinas, Brazil
Aliny P. F. Pires: Affiliation:
Department of Ecology, Universidade do Estado do Rio de Janeiro, Rio de Janeiro, Brazil
Isadora M. M. Soares: Affiliation:
Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil
Alexandro Solórzano: Affiliation:
Professional Masters in Sustainability Science, Pontifícia Universidade Católica, Rio de Janeiro, Brazil
*: Corresponding authors: Fabio R. Scarano; Email: [email protected]; Ebba Brink; Email: [email protected]
Corresponding authors: Fabio R. Scarano; Email: [email protected]; Ebba Brink; Email: [email protected]

Article contents

Abstract
Non-technical summary
Technical summary
Social media summary
Introduction
Conceptual framework
Methods
Results
Discussion and concluding remarks
Data
Author contributions
Funding statement
Competing interests
References

Abstract

Non-technical summary

Brazil – one of the world's largest biocultural diversities – faces high rates of habitat loss, social inequality, and land conflicts impacting indigenous and local peoples. To challenge that, Brazilian sustainability science and education needs to be strengthened. We searched for elements in ongoing bottom-up sustainability social movements that can help serve that purpose. We found values, contents, and attitudes that, if incorporated into Brazilian sustainability science and education, can assist its transformative potential by reflecting local voices and critically engaging with (often-hegemonic) northern concepts.

Technical summary

In Brazil, a strong sustainability science and education is required to confront ‘glocal’ issues such as zoonotic pandemics and climate change, which are worsened by rampant ecosystem loss and social vulnerability. However, a largely disciplinary university system has been slow to meet these urgent needs. To address if and how dialogical processes with non-academics can prompt integration between distinct types of knowledge, we analyze four bottom-up sustainability initiatives that promote dialogues between science, the arts, religion, youth, and indigenous and local knowledge, and reflect on lessons learnt with movement organizers, scientists, and educators – the authors of this paper. Although sustainability science produced in dialogue with other forms of knowledge is still emerging in Brazil, we find that bottom-up initiatives outside academia can inspire science and education to approach sustainability as wholeness – a state of balance to be fulfilled when reached individually, collectively, and cosmically. We discuss how to approach a transdisciplinary and reflexive attitude in Brazilian sustainability science and education, and highlight its unique contribution to frontier topics in global sustainability debates.

Social media summary

Social movements’ values, contents, and attitudes can inspire transformative Brazilian sustainability science and education.

Keywords

decolonization Global South SDG sustainability education sustainability science

Type: Research Article
Information: Global Sustainability , Volume 7 , 2024 , e30

DOI: https://doi.org/10.1017/sus.2024.25 [Opens in a new window]
Creative Commons: This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright: Copyright © The Author(s), 2024. Published by Cambridge University Press

1. Introduction

This paper sets out to construct a new paradigm for Brazilian sustainability science and education, with relevance for the global scientific community. There is increasing recognition that two (Kates et al., Reference Kates, Clark, Corell, Hall, Jaeger, Lowe, McCarthy, Schellnhuber, Bolin, Dickson, Faucheux, Gallopin, Grübler, Huntley, Jäger, Jodha, Kasperson, Mabogunje, Matson and Svedin2001) to three (Bettencourt & Kaur, Reference Bettencourt and Kaur2011) decades of sustainability science have not contributed enough to a global transition to sustainability (Shrivastava et al., Reference Shrivastava, Stafford-Smith, O'Brien and Zsolnai2020). Although sustainability is often defined as equitably meeting and balancing current and future needs within the planet's boundaries, the science of sustainability investigates interactions between human societies and the natural environment, and aims to transform this relationship (Nagatsu et al., Reference Nagatsu, Davis, DesRoches, Koskinen, MacLeod, Stojanovic and Thorén2020). Failure to transform is often attributed to gaps in the science–policy dialogue (Schneider et al., Reference Schneider, Kläy, Zimmermann, Buser, Ingalls and Messerli2019) that call for new forms of science–society collaboration (Bergmann et al., Reference Bergmann, Schäpke, Marg, Stelzer, Lang, Bossert, Gantert, Häußler, Marquardt, Piontek, Potthast, Rhodius, Rudolph, Ruddat, Seebacher and Sußmann2019).

However, the interlinked social and natural worlds that such science strives to absolve differ vastly from one another across the planet. The modern view of human–nature relationships, which permeates most environmental policymaking, is strongly influenced by Enlightenment and Judeo-Christian views. It tends to emphasize dualism and separateness, oscillating between a ‘romantic devotion’ to nature and attempts to master and conquer it (Uggla, Reference Uggla2010, p. 2). However, the hegemonic modern, capitalist, Eurocentric perspective is only one of many co-existing worldviews – actually, the very same one that led the planet (other societies included) into the Anthropocene (Folke et al., Reference Folke, Polasky, Rockström, Galaz, Westley, Lamont, Scheffer, Österblom, Carpenter, Chapin, Seto, Weber, Crona, Daily, Dasgupta, Gaffney, Gordon, Hoff, Levin and Walker2021). Hegemony entails the production of knowledge, be it in politics or academia, that corroborates the worldview of those in power (Gramsci, Reference Gramsci1932/2001). Such power relations within knowledge production exist both between countries (e.g. Global North vs. Global South) and inside countries and sub-national units (Gaillard, Reference Gaillard2019). Sustainability emerges as an antidote to the planetary socioecological decay (Scarano, Reference Scarano, Wegner and Lüttge2019), and the transition toward a sustainable state, as agreed upon by modern diplomacy, takes place through Agenda 2030 and its sustainable development goals (SDGs). Paradoxically, although SDGs project a transition from the current development paradigm, this agenda is mainly framed within the modern worldview – again, the same one responsible for the present turmoil. It projects seventeen ‘fair’ goals from a modern perspective, but a common critique is that economic growth (SDG 8) has an obvious and historical trade-off with biosphere-oriented (e.g. SDGs 6, 13–15) and social-equity goals (e.g. SDGs 5, 10) (Pires et al., Reference Pires, Soto and Scarano2021; Pradhan, Reference Pradhan2019). More recently, in face of the COVID-19 pandemic and its causes and consequences, there are calls for a revision of SDGs (Nature Editorial, 2020).

In Brazil – a bio-culturally megadiverse country with the world's largest biodiversity and nearly 300 different languages spoken (Scarano et al., Reference Scarano, Aguiar, Mittermeier, Rylands and Scheiner2024) – surrendering to any pervasive hegemonic thought seems at odds with sustainability. As of 2015, in parallel to and after the announcement of SDGs and the Paris Agreement of the Climate Convention, several bottom-up sustainability initiatives took off in Brazil, largely based on dialogues between different world visions and perspectives. However, the following year, 2016, arrived with setbacks for both the global and the Brazilian sustainability agenda. While climate-change denier Donald Trump took office in the United States, Brazil faced a political crisis with the corruption accusations of the elected Labour government, its subsequent impeachment, and succession by a non-elected government. Despite this, bottom-up sustainability movements in Brazil thrived. Even when the extreme right-wing and denialist government of President Jair Bolsonaro came to power from 2019 through to the end of 2022, movements continued to stage events, promote debates, publish books, and engage people.

By the time that the COVID-19 pandemic hit Brazil in early 2020, our perspective as sustainability academics and/or practitioners engaged in some of these bottom-up sustainability movements was further challenged: would ongoing initiatives survive the toll of the pandemic and its social distancing? That year, Brazil (along with Venezuela and Tuvalu) had the world's largest setbacks in SDGs, according to the Sustainable Development Report (Sachs et al., Reference Sachs, Kroll, Lafortune, Fuller and Woelm2021). By 2021, Brazil had among the world's highest rates of habitat loss and social inequality, a recently re-enacted history of land conflicts between farmers and indigenous and local peoples, and the second highest fatality rate per 100,000 people among the countries affected by COVID-19 (John Hopkins Coronavirus Resource Center, 2021; The Economist, 2021). Despite all the grief and pain caused – and perhaps to some extent because of it – COVID-19 opened a window of opportunities for reflection and engagement with sustainability.

In this paper, we provide a reflection on how Brazilian sustainability science and education can better contribute to change this game by confronting ‘glocal’ issues such as present and potential future pandemics and climate change (Devine-Wright, Reference Devine-Wright2013). Inspired by the sustainability dialogues promoted by civil-society initiatives, we attempt to leave behind the linear problem/solution dichotomy to address sustainability and, instead, place our focus on these dialogical processes. The concept of dialogue has a long history in Latin American thought. For instance, Brazilian educational philosopher Paulo Freire found dialogic interaction to be a central practice of social learning processes (Freire, Reference Freire1970/2013), which can lead to critical scrutiny of, and transformation of, existential conditions (Souza et al., Reference Souza, Kuhn, Wals and Jacobi2020). In this spirit, we examined a set of sustainability dialogues happening in civil-society initiatives that gather scientists, artists, religious people, the youth, indigenous peoples, and local actors. We ask: how can such dialogical processes with non-academics help prompt inter- and transdisciplinary knowledge integration? We argue that they offer insights on how to decolonize Brazilian sustainability science and education, by reflecting local conditions and voices, and provoking critical and reflexive engagement with concepts from the Global South and the Global North.

2. Conceptual framework

2.1 Brazilian sustainability science and education

Although Brazil has historically been a strong international voice on science and policy related to climate change, environment, and biodiversity conservation (Gupta & Singh, Reference Gupta and Singh2023; Lobo-Moreira et al., Reference Lobo-Moreira, da Silva, de Carvalho and Caramori2023), Brazilian academia has so far made a more modest contribution to the international conversation on sustainability science and the related methodological development on interdisciplinarity (knowledge integration between scientific disciplines) and transdisciplinarity (between academia and society) (exceptions include Scarano, Reference Scarano2024, and references cited next). In fact, the Brazilian sustainability discussion has been fraught by tensions between environmentalism and development both at the level of science and at the level of social movements (Scarano, Reference Scarano, Wegner and Lüttge2019). Indeed, Brazil is in the top-four countries with the strongest specialization of scientific profiles (Abramo et al., Reference Abramo, D'Angelo and Di Costa2022). This has led to a separation between scholars and activists focusing on ‘societal’ issues, problems, and rights and those focusing on the country's environmental challenges. In our review of the English-speaking literature, we found few papers that focus on defining an agenda for a sustainability science emerging from Brazil (Athayde et al., Reference Athayde, Silva-Lugo, Schmink, Kaiabi and Heckenberger2017; Hipólito et al., Reference Hipólito, Coutinho, Mahlmann, Santana and Magnusson2021; Lahsen & Nobre, Reference Lahsen and Nobre2007). Of those, even fewer address the relevance (and provide examples) of dialogue and exchange between science and indigenous knowledge (Athayde et al., Reference Athayde, Silva-Lugo, Schmink, Kaiabi and Heckenberger2017; Lahsen & Nobre, Reference Lahsen and Nobre2007), science and local knowledge in the urban context (Souza et al., Reference Souza, Kuhn, Wals and Jacobi2020), and science and the arts (Athayde et al., Reference Athayde, Silva-Lugo, Schmink, Kaiabi and Heckenberger2017). Some addressed the potential interplay of methods, such as Rosendahl et al. (Reference Rosendahl, Zanella, Rist and Weigelt2015), who propose that transdisciplinary research, a mainstay of sustainability science, could greatly benefit from the feminist scientific tradition of self-reflexivity, by employing concepts such as situated knowledge and strong objectivity (Ribeiro, Reference Ribeiro2016).

In the education front, there is a similar gap. In Brazil, environmental education for up to secondary school level is framed within governmental guidelines, whereas the debate on sustainability in schools is fostered by the 2030 Agenda. The training of teachers who work with education for sustainability in schools provides elements related to the critical and transformative perspective of education; however, the professional practice of the teacher does not always correspond to a transformative one, according to a recent review (Freire et al., Reference Freire, Figueiredo, Mejía-Cáceres, Braz, Espinet and Öztürk2022). One of the criticisms is that the training of science teachers is often based on hegemonic and conciliatory discourses configured by moderate, rather than radical, environmentalism (Jatobá et al., Reference Jatobá, Cidade and Vargas2009). Moreover, teachers’ lack of contact with certain sustainability themes and their interdisciplinary nature, including gendered and racialized dimensions of the environment, is also part of the challenge (Freire et al., Reference Freire, Figueiredo, Mejía-Cáceres, Braz, Espinet and Öztürk2022). In terms of higher education in Brazil, peer-reviewed research has tended to focus on implementing sustainable policies in university campuses (e.g. concerning energy, waste, water, and transportation), rather than on teaching the subject of sustainability. Although the former might offer valuable opportunities for students to connect theory to practice through engaging with concepts such as living labs and green campuses (Benevides et al., Reference Benevides, de Andrade Guerra, Birch, Deggau, Leal Filho, Salvia, Brandli, Azeiteiro and Pretorius2021; Berchin et al., Reference Berchin, de Amorim, Valduga, Heerdt, de Andrade Guerra, Leal Filho, Salvia, Pretorius, Brandli, Manolas, Alves, Azeiteiro, Rogers, Shiel and Do Paco2020), there is clearly more scope for discussing how a Brazilian outlook on local and global sustainability challenges – and the knowledge(s) required for addressing them – should be framed in the country's undergraduate and graduate education. For instance, some argue that the epistemology and multicultural vision of sustainability should be more intensively incorporated into higher education to help drive transformations (Leal et al., Reference Leal Filho, Raath, Lazzarini, Vargas, de Souza, Anholon, Quelhas, Haddad, Klavins and Orlovic2018), including in Brazil (Rampasso et al., Reference Rampasso, Siqueira, Anholon, Silva, Quelhas, Leal Filho and Brandli2019). The country also lacks specific graduate training courses on sustainability science, the exception being the now 4-year-old professional Master's program at Pontifical Catholic University (PUC), in which some of the authors in this paper are either professors or students.

2.2 Worldviews and bottom-up movements in sustainability science

Although still an incipient discussion in Brazil, there is an expansion in the international sustainability science literature about inner dimensions as leverage points for sustainability, including beliefs, values, and worldviews (Ives et al., Reference Ives, Abson, von Wehrden, Dorninger, Klaniecki and Fischer2018; Ives & Kidwell, Reference Ives and Kidwell2019; Nilsson & Stålhammar, Reference Nilsson and Stålhammar2024; Wamsler et al., Reference Wamsler, Hertog, Di Paola, Ivanova and Rimanoczy2021). This reflects how the modern human–nature separation is at the heart of the planetary multicrises we currently face (Scarano, Reference Scarano2024), which calls for treating all entities alike, that is, flattening ontologies (Latour, Reference Latour2004). It is also coherent with the increasing demands to decolonize ecology, biodiversity, and sustainability debates (e.g. Baker et al., Reference Baker, Eichhorn and Griffiths2019; Büscher and Fletcher, Reference Büscher and Fletcher2020; Schultz, Reference Schultz2017; Trisos et al., Reference Trisos, Auerbach and Katti2021), pointing, for instance, to the conflictual history between indigenous peoples and conservation, and ‘fortress conservation’ that entails closing off supposedly wild and ‘pristine’ nature while business-as-usual continues on the rest of the planet. These emerging scholarly debates inspired three premises of our study.

Our first premise is that the planet is inhabited by different ‘worlds’ or worldviews. They include the hegemonic modern, capitalist, Eurocentric world, and alternative worlds based on different local cosmologies and worldviews (Hedlund-de Witt, Reference Hedlund-de Witt2013). Even the hegemonic modern world houses asymmetries and differences: between distinct humans depending on gender, social class, and ethnicities; between humans and non-humans; between nature and culture; and between science, the arts, and religion as forms of interpretation of reality (Pretty et al., Reference Pretty, Adams, Berkes, de Athayde, Dudley, Hunn, Maffi, Milton, Rapport and Robbins2009; Stålhammar & Brink, Reference Stålhammar and Brink2021). For sustainability to prevail, we posit that the global society must embrace the notion of ‘pluriverse’ (Escobar, Reference Escobar2015), that is, different worlds that coexist and, in some cases, eventually, hybridize (Benessia et al., Reference Benessia, Funtowicz, Bradshaw, Ferri, Ráez-Luna and Medina2012). In short, it must have complementarity as a principle (Rigolot, Reference Rigolot2018). Transformative change demands new responses that are, at once, ‘reflexive, strategic, inclusive, and diverse’ (O'Brien, Reference O'Brien2021, p. 1796) and that consider interlinkages between micro and macro levels. In this context, leading climate researcher Karen O'Brien defends that our understanding of Earth system processes needs to consider human thought and ideas as a separate ‘sphere’ (O'Brien, Reference O'Brien2021). This argument valorizes older literature on the Noosphere, the collective planetary intelligence and an emergent property of the biosphere after Vladimir Vernadsky (Russian geochemist; 1863–1945) and Teilhard de Chardin (French Jesuit priest and philosopher; 1881–1955) (Guillaume, Reference Guillaume2014), and (while little translated to English) the Psychosphere (Santos, Reference Santos1997), the realm of ideas and production of meaning, after Brazilian geographer Milton Santos (1926–2001).

Our second premise is that the innovation space created by bottom-up sustainability initiatives driven by civil society can provide a rich learning ground for sustainability scientists and educators. This resonates with existing literature on social movements, collaborative governance, and social learning in sustainability science (Brink & Wamsler, Reference Brink and Wamsler2018; Isgren et al., Reference Isgren, Boda, Harnesk and O'Byrne2019; Mitlin, Reference Mitlin2018). Among several types of transformative actions and tools, movements focused on sustainability and democracy have been described as ‘seeds of a good Anthropocene’ (Bennett et al., Reference Bennett, Solan, Biggs, McPhearson, Norström, Olsson, Pereira, Peterson, Raudsepp-Hearne, Biermann, Carpenter, Ellis, Hichert, Galaz, Lahsen, Milkoreit, López, Nicholas, Preiser and Xu2016). By definition, these seeds are replicable, and they can have transformative impacts beyond initial localities as they spread or transform existing values. They contribute situated descriptive, normative, and transformative knowledge needed to address fair and sustainable futures, and – unlike many of the dystopian scenarios currently projected – they can generate or inspire bottom-up visions and pathways toward more hopeful and positive futures (Pretty et al., Reference Pretty, Adams, Berkes, de Athayde, Dudley, Hunn, Maffi, Milton, Rapport and Robbins2009; Rana et al., Reference Rana, Ávila-García, Dib, Familia, Gerhardinger, Martin, Martins, Pompeu, Selomane, Tauli, Tran, Valle, von Below and Pereira2020).

Our third premise is a consequence of the previous two and concerns how we perceive and (re)define sustainability. Sustainability for us is a value related to living in harmony with oneself, with other humans, and with non-human components of nature. It exists as a practice, an aspiration and a utopia for many of the different ‘worlds’ that inhabit the planet, and is therefore a point of convergence (Scarano, Reference Scarano, Wegner and Lüttge2019). This value re-emerged in the modern world as an antidote to the malaises brought about by the Anthropocene (see Scarano, Reference Scarano2024, for a review). New or re-emerged values demand new ethics, new practices, new policies, and a new science. This pressing demand is driving convergences of separate modules in all these fronts (e.g. human ethics and environmental ethics; development policies and environmental policies; social and natural sciences, etc.; Scarano, Reference Scarano, Wegner and Lüttge2019). In short, differently from some other scholars (Clark & Harley, Reference Clark and Harley2020), our definition of sustainability is somewhat more radical and at the same time more pluralistic than the strictly modern concept of sustainable development.

3. Methods

Our data collection and analysis were performed in three (overlapping) steps to address the momentum of institutionalized Brazilian sustainability science and education, as compared to the momentum of what we call ‘sustainability dialogues’, or bottom-up, spontaneous, non-academic civil-society initiatives that address sustainability from a broader Brazilian perspective.

First, to assess the status of Brazilian sustainability science and education in the international sustainability debate, on issues ranging from the Brazilian context to global matters, and methodological and pedagogical development, we performed a search in Scopus for ‘TITLE-ABS-KEY(brazil + (sustainability science))’ in May 2021. Our first Scopus search on mentions of Brazil and sustainability science in the English-speaking literature yielded only 13 hits in May 2021. We then reviewed the resulting papers to examine how inclusive the science they report on is of non-academic visions and perspectives. Among the hits, we looked for papers that were explicitly constructed in co-production with the arts, indigenous, and local knowledge, or other types of knowledge. A Scopus search for TITLE-ABS-KEY(sustainability + ‘higher education’ + brazil) yielded 84 results, for which 20 highest cited and the 20 newest publications were scanned for relevance to this article. In addition, we reviewed Brazilian literature and websites regarding how sustainability is incorporated into distinct layers of formal education, and we drew on scientific work conducted in parallel that reviewed sustainability in science teacher education (Freire et al., Reference Freire, Figueiredo, Mejía-Cáceres, Braz, Espinet and Öztürk2022).

Second, we selected and examined four distinct ‘seeds’, that is, bottom-up, spontaneous, ongoing sustainability dialogue processes in Brazil. ‘Fé no Clima’ (Faith in Climate; an interfaith-science dialogue on climate change); ‘Selvagem’ (Wild; a dialogue about life involving indigenous peoples, philosophers, practitioners, artists, and scientists); ‘Livmundi’ (a sustainability festival); and ‘Cicli’ (an initiative of cyclists to pedal to the Brazilian countryside and to listen to local inhabitants and their perceptions about climate change and sustainability). For each of these processes, we assessed how they grew in outreach and social adherence during the COVID-19 pandemic, and which elements they address that are less present, or totally absent, from Brazilian sustainability science and education. The latter was performed through participant observation in movement spaces and events, review of their online and offline publications, and triangulation with the other two methodological steps outlined here.

Lastly, by gathering organizers and participants of the movements in the co-authorship of this paper, together with sustainability science teachers and academics who participate in one or more of these movements, we dealt with the data by using the transdisciplinary mode of knowledge production. Following Michael Gibbons, this includes five components: (1) multiple interactions between a larger number of experts and sites of expertise; (2) different forms of knowledge and actors representing them; (3) science leaving the academic field and ‘meeting the public’; (4) allowing this exercise to speak back to science, with peoples’ interests, concerns, and perspectives entering science; and (5) providing essential data for every aspect of the research process (Gibbons, Reference Gibbons2000; Rosendahl et al., Reference Rosendahl, Zanella, Rist and Weigelt2015). We approached these components by establishing a reflexive conversation among ourselves, looking for consents and dissents, based on the evidence gathered in steps one and two of our methodology (Lang et al., Reference Lang, Wiek, Bergmann, Stauffacher, Martens, Moll, Swilling and Thomas2012). In practice, this conversation took place through an iterative process of interviewing and surveying among the team members, synthesizing any new inputs, and team members’ review of the resulting text (ending after five rounds of review, when no significant new points were added). Authors–interviewees belonged to five groups: (a) four movement leaders (interviewed individually); (b) four people involved with education/science at Pontifical Catholic University (PUC-Rio), engaged in a proposal to create a new undergraduate course in sustainability in Brazil, the first of its kind; (c) four people involved with education/science at other local universities: Federal University of Rio de Janeiro, State University of Rio de Janeiro, and State University of Campinas; (d) three ‘external’ colleagues (this group was set in the format of a board of referees, who were not involved in the interviews, or with research partnerships with personnel in groups a, b, and c) who work with dialogue processes at São Paulo University, Getúlio Vargas Foundation, Federal University of the State of Rio de Janeiro; (e) three coordinating authors, who conducted interviews and synthesized the answers between each iterative round.

Three questions guided the conversation: (1) why, if at all, should Brazilian sustainability science and education pay attention to these bottom-up movements? (2) what can Brazilian sustainability science and education learn from these movements?; and (3) how can Brazilian sustainability science and education incorporate the lessons learnt by dialoguing with these movements?

4. Results

The four distinct bottom-up, spontaneous, ongoing sustainability dialogue processes in Brazil studied here all emerged after 2015, from the need to promote dialogues that inspire transformation, as felt by local actors with distinct worldviews but similar concerns and aspirations in relation to life, the country, and the planet. As seen in Table 1, they all had boundary-crossing or transgressive objectives, including democratizing sustainability (Livmundi), articulating diverse human and non-human species (Selvagem), documenting and spreading the stories of those who are on the frontline of climate change while breaking with fossil-fueled transportation (Cicli), and building new climate narratives that combine scientific and sacred dimensions (Fé no Clima). Our analysis also shows how the COVID-19 pandemic forced the movements to create new capabilities and take advantage of disruptive opportunities. ‘Selvagem’ and ‘Livmundi’ were events originally based in the city of Rio de Janeiro, and open and free to public participation. ‘Cicli’ and ‘Fé no Clima’ aimed for a national outreach and took place by subscription (the former) or by invitation (the latter) and were therefore less public in terms of their audiences. With the onset of the social distancing imposed by the pandemic, all movements adapted to the format of digital conversation arenas on the internet. As a result, participation increased by factors ranging from 10 to 1000 (Table 1). In addition to the audio-visual material, the various initiatives published books (e.g. ‘Selvagem’), guides (e.g. ‘Fé no Clima’), recruited volunteers (e.g. ‘Selvagem’, ‘Cicli’), and opened new institutions (e.g. ‘Livmundi’).

Table 1. Selected sustainability dialogues in Brazil and their increased outreach during the COVID-19 pandemic

4.1 Converging views: worldviews, subjectivity, and actions

There was generally a converging view among co-authors that sustainability science and education in Brazil have much to learn from the four selected processes because, individually and collectively, they engage worldviews and perspectives often absent from or marginal to knowledge construction within the sustainability-oriented natural and social sciences in the country (Table 2). Aspects such as conviviality, transparency, and respect for different views are elements that most team members used to justify why science and education professionals should take a closer look at these initiatives. Among the take-home lessons for scientific and education practice, team members frequently indicated the different dialogue formats and content matters, the importance of participation over observation only, and the importance of subjectivity over objectivity only. Thus, sustainability for our diverse group of activists and scientists is more than an external phenomenon to be objectively observed and described. This reinforces our premise that sustainability is a value related to living in harmony with oneself, with other humans, and with non-human components of nature. This perspective, which is largely present in indigenous, religious, and local/traditional discourses in practice, is often absent from (natural) science in the name of objectivity. Most answers to how Brazilian sustainability science and education could incorporate the lessons learnt from these and other equivalent movements (see Supplementary material, Table S1) were related to a change in attitudes and in actions. Important attitudes include to listen actively and emphatically to others (one participant said that ‘there should be no time limit to listen’), and to transgress some of the rigid academic institutions and pigeonholes (‘science locks us up in boxes of rationality and methods’; ‘in science and education anything should be possible’). Practical actions involve co-producing knowledge with non-academic actors present in Brazilian nature and culture. An educational practice that incorporates and conveys other lay and extra-scientific forms of interpretation of reality is, therefore, a prerequisite – from schools to graduate programs.

Table 2. Seven keywords and expression that frequently appeared during interviews with the co-authors for each of the three questions: (1) why should Brazilian sustainability science and education pay attention to ongoing dialogue processes? (‘why?’); (2) what can Brazilian sustainability science and education learn from these processes? (‘what?’); (3) how can Brazilian sustainability science and education incorporate lessons learnt into practice? (‘how?’)

Presence, fluidity, and permeability were recurring terms used by our participants to describe feelings and emotions that emerge while in contact with the initiatives (Table 3). The statement ‘to be really present in the activities, be it in the classroom or in the field’, made by one of the educators in the team, harmonizes with words and expressions (‘empathy’, ‘to participate’, ‘to actively listen’) commonly used across participants as notions of best practices to be incorporated in science and education for sustainability. The word ‘fluidity’ was used in three senses, as in ‘the fluidity of spirituality and faith is not in contradiction with scientific practice’, and in ‘the fluidity of our [post-modern] times, when agreed-upon modern values seem to be diluting’, and, finally, ‘to be fluid and honest with oneself to embark on transformations’. Despite variations in context, fluidity suggests flexibility, plasticity, and openness to change. ‘Permeability’ statements include ‘individuals are multidimensional and permeable to the outside world’, and ‘we must be permeable to nature to regain humanity and sensibility’. In this context, there were many references to ‘multiple layers of reality’, ‘complex realities’, ‘listen to other worldviews’, ‘to be connected to nature’, and to the need to ‘avoid following science and education models that are inadequate to our [Brazilian] reality’.

Table 3. Dimensions to be addressed in the scientific and educational practice of sustainability, according to our definition of ‘sustainability as wholeness’, which we find applicable to the bioculturally megadiverse Brazil

4.2 Diverging views: legitimacy, fear, and contested ‘truth’

In parallel to these convergent perceptions, there were also differences and complementarities. Those were often related to specific groups of authors. The organizers of the initiatives raised concerns about operational challenges ranging from fundraising and networking to being perceived as legitimate brokers, and to effectively mediate dialogues. Their a priori openness to transgress to produce and acquire new knowledge can be contrasted with the concern about academic criticism manifested by some of the scientists. Although the scientists in the group are engaged in transgressing academic and disciplinary walls, several of them do so with fear. Others used words and expressions such as ‘rage’, ‘fatigue’, and ‘emotional atrophy’ in relation to the more conservative academic institution and accepted norms of behavior. The group more engaged with Educating for Sustainability in all scholarly levels, although recognizing the challenges, seemed less intimidated by the academic establishment. ‘Reality’ and ‘truth’ were words that appeared among academics and educators on some occasions, which were not present in the other groups. Constraints or opportunities for modifying the spatial settings of classrooms to mimic some of the conversation practices of one or several of the initiatives were also raised as important learnings. Finally, yet importantly, one of the leaders of the initiatives recognized that perhaps we should speak of ‘sustainability sciences’ rather than ‘sustainability science’, to be inclusive of other forms of interpretation of reality.

5. Discussion and concluding remarks

In this section, we discuss three themes which emerge from our findings. They are related to the scope of what we argue ‘sustainability’ in Brazil should encompass, the disruptive role of digitalization in forwarding this notion, and the theoretical and methodological development of sustainability science and education with a Brazilian imprint. We trust they provide important avenues to decolonize Brazilian sustainability science and education.

5.1 Sustainability as wholeness: connecting the sacred and the profane

What can the incipient Brazilian sustainability science and education benefit and learn from these processes? The horizontal dialogues we take part in, where science is only one more voice among other relevant and legitimate voices, teach us that sustainability is wholeness: a state of balance that can only be fulfilled when reached individually, collectively, and cosmically. Most scientists’ training to objectively observe external phenomena places the focus on individual behavior or (often to a lesser extent) collective socioecological and political structures, while they generally lack tools to consider their inner self and that of the people they study (Ives et al., Reference Ives, Freeth and Fischer2020). One's own relationship with the cosmos is also neglected from a (traditional) scientific perspective (Woiwode et al., Reference Woiwode, Schäpke, Bina, Veciana, Kunze, Parodi, Schweizer-Ries and Wamsler2021). Emotions, beliefs, cultures, values, spirituality, and identities have often been mobilized for, or played a key role in driving, historical transformations and are no less important when aiming for a transition to sustainability (Ives & Kidwell, Reference Ives and Kidwell2019). Here, science has a lot to offer beyond the bio-geo-physical foundations of problems such as climate change. For instance, social science can provide strategic insight into political and social systems, the viability or desirability of solution alternatives, and the mechanisms of social change (Isgren et al., Reference Isgren, Boda, Harnesk and O'Byrne2019). Thus, we argue that Brazilian Sustainability Science should develop methodologies to account for individual, collective, and cosmic dimensions, and their interactions. Scientists, however, are often trained to be more concerned with the parts than with the whole, which is an obstacle to the development of sustainability science as we define it. In fact, no science alone can be a science of wholeness. Therefore, this perception is aligned with our co-author's argument that, in this context, it is probably more appropriate to refer to ‘sustainability sciences’ than to ‘sustainability science’, in reference to the multiple types of knowledge that ought to converge before something new emerges (Latulippe & Klenk, Reference Latulippe and Klenk2019; Trott et al., Reference Trott, Even and Frame2020). Our discussion thereof navigates between two perspectives: (1) that of an emerging Brazilian sustainability science and education with a Brazilian fingerprint; and (2) that of a looser collection of ‘sciences’ that do not identify with the stricter view of science.

Our emerging view of sustainability as wholeness – a state of balance to be fulfilled when reached individually, collectively, and cosmically – parallels the 1957 ‘body–house–cosmos’ framework of Romanian philosopher Mircea Eliade (Reference Eliade1957/2019). Largely drawing on Indian religious thinking (that finds echoes in other Asian, European, and Amerindian philosophies), Eliade applies this framework to what he calls ‘Homo religiosus’, whom he defines as anyone ‘open to the world’ or, in other words, someone who perceives sacredness in nature and in the divine. By his description, it would appear that Homo religiosus differs from modern humans, who desacralized and desecrated the world by turning nature and people into commodities, which ultimately led to disenchantment (Agrawal & Gibson, Reference Agrawal and Gibson1999) and alienation from the world, bringing the planet into the Anthropocene. Although sacredness has a spiritual dimension, enchantment has a sensorial dimension (Hoefle, Reference Hoefle2009), and the two may merge. Both perceptions of sacredness and feelings of enchantment are forces that inspire affective attachment (Woodyer & Geoghegan, Reference Woodyer and Geoghegan2013). For our purposes here, we find particularly useful two notions forwarded by Eliade: (1) the human being with the above characteristics reproduces in human scale the rhythms that define a ‘world’, a ‘universe’. We assume that to translate such universal, natural (and, therefore, sacred) rhythms into one individual (‘body’) or into a collective community (‘house’), sustainability should have both an inside-out and an outside-in flow or movement (Ives et al., Reference Ives, Freeth and Fischer2020). Eliade argues that, whenever this occurs, the body is as much a house as it is cosmos, and vice-versa (again, ‘wholeness’ as our reference for sustainability). (2) These equivalent images of body, house, and cosmos have a passageway to ‘another world’ on Earth, still according to Eliade. This logic seems a reference as essential to our sustainability science and education endeavor in Brazil, as it is to ‘sustainability sciences’. Both are concerned with moving from the current state, one hegemonic world that does not perceive but still impacts other coexisting worlds in this planet, to a new state of planetary oneness, where different worlds coexist and, eventually, hybridize – ‘another world’.

Indeed, Eliade's trinity finds match in others that we find equally applicable to Brazilian sustainability science and education. Satish Kumar's (Reference Kumar2013) soil–soul–society refers to the moral imperatives of caring for the natural environment (soil), maintaining personal wellbeing (soul), and living in harmony with other people (society). The principle for responsible management education, likewise, argues for three levels of reflexivity in sustainability education: individual, group, and whole (Cunliffe et al., Reference Cunliffe, Aguiar, Góes, Carreira, Moosmayer, Laasch, Parkes and Brown2020; Table 3). These trinities bear resemblance to keywords that emerged from our dialogical process between authors, where presence, fluidity, and permeability described feelings and emotions that emerge while in contact with the bottom-up initiatives (Table 3). Curiously, fluidity and permeability were the same words used by Jean Clottes, Paleolithic art specialist, to describe the two main traits that would justify, in his opinion, naming humans Homo spiritualis rather than Homo sapiens (Cook, Reference Cook2016). Fluidity, in his terms, is related to the capacity to interact with others – humans, animals, plants (Eliade's ‘house’) – whereas permeability refers to the human capacity to interact with the unseen, with the spiritual world (Eliade's ‘cosmos’).

Nevertheless, the emphasis on spirituality, sacredness, and wholeness might, at first impression, contrast with another key theme that emerges through the sustainability initiatives: digitalization.

5.2 Technosphere meets the Psychosphere: the emergence of digital spaces of resistance and alternative rationalities

Our results show increased adherence to civil-society sustainability movements and their expanding outreach, not least due to adaptation of these movements to digital formats during the social distancing imposed by COVID-19. Much like the pandemic, digitalization itself represents a disruptive opportunity for change agents wishing to bring about societal transformation as well as for those wishing to preserve the status quo (Sharpe et al., Reference Sharpe, Hodgson, Leicester, Lyon and Fazey2016). This is particularly salient for a country like Brazil, where the digitalization of public life, including of government services, ranks among the most advanced in the world (World Bank, 2022). The rapid technological development and social media algorithms continue to give rise to new and emergent forms of mobilization, from large but unorganized groups of urban protesters that can surge in hours, to completely digital resistance repertoires such as through memes and online forums (Brink et al., Reference Brink, Vargas and Boyd2023; Giaretta & Di Giulio, Reference Giaretta and Di Giulio2018). This raises valid questions regarding digitalization and digital inclusion for transformations toward sustainability. For instance, what are implications of movements ‘going online’, given the underlying logic of such information technologies that control and monitor users, and in parallel spreads hate and fake news? Furthermore, how inclusive can these movements be of people with no access to such technologies? Despite these risks, we mostly see symptoms of positive transformation in the studied cases. There is evidence that peasant and indigenous movements in Brazil and Latin America – long associated with rural life, backwardness, and being excluded from modernity – in recent decades have become key actors in internationalized and global struggles (Bringel, Reference Bringel and Beigel2019). This situation warrants theoretically informed ways to think about the interaction between human consciousness, technology, and social change, which is still incipient in sustainability science.

Here it might be fruitful to draw on Brazilian geographer Milton Santos (Table 4), a pioneer in critical studies of globalization. He described a temporal lag for ‘social energy’ to include technical objects – in this case, internet and the social media – in the ‘movement of life’ (Santos, Reference Santos1997). Our results show that dialogues proposed by civil-society sustainability movements are increasingly becoming a significant part of the ‘movement of life’ in Brazil. In this way, the related digitalized spaces become an expression of ‘alternative rationalities’, another topic addressed by Santos in his globalization studies (Albagli, Reference Albagli, Melgaço and Prouse2017). He argued that the Technosphere (everything made by humans: buildings, streets, computers, clothes; see also Folke et al., Reference Folke, Polasky, Rockström, Galaz, Westley, Lamont, Scheffer, Österblom, Carpenter, Chapin, Seto, Weber, Crona, Daily, Dasgupta, Gaffney, Gordon, Hoff, Levin and Walker2021) and the Psychosphere (where meaning is produced, the sphere of ideas and intersubjective action; Santos, Reference Santos1997) introduce both hegemonic rationality and alternative rationalities in a given territory. Alternative rationalities, such as the ones fostered by the movements here examined, are a form of resistance to the hegemonic logic and to the purely instrumental or for-profit use of the Technosphere in the territory. This resistance emerges from areas of the Psychosphere, and their enhancement is of great significance, particularly considering that estimates of the weight of the Technosphere suggest that it might soon exceed the mass of all living things on the planet (Elhacham et al., Reference Elhacham, Ben-Uri, Grozovski, Bar-On and Milo2020).

Table 4. Some Brazilian border-thinkers and their ideas that can contribute to decolonial sustainability science and education (SSE) in the country

5.3 Incorporating lessons learnt: pathos and methodology of a sustainability science emerging from Brazil

The research presented here reveals a plurality of mindsets and attitudes (see Table 3) which can enrich Brazilian sustainability science and education practices. Sustainability in the modern perspective is often used as a synonym to sustainable development, translated into global policy (that percolates to national policies) as SDGs. For Brazilian sustainability academics, teachers, and practitioners to conform to the hegemonic perspective on sustainability is to embrace one ‘universe’, that of the modern worldview, science, and policy. It means to leave behind the pluriverse that defines Brazilian nature–culture interactions.

A prerequisite to incorporate these practices and transform Brazilian sustainability science and education is to decolonize the minds and attitudes of our students and researchers. Along this pathway, Brazil can benefit from its legacy of border-thinkers (see Table 4), that is, actors who think outside and beyond the colonial walls of modern narratives (Mignolo, Reference Mignolo2011), some of whose ideas provided the background rationale for our paper. To incorporate all these approaches in sustainability science and education would be in many ways an ‘epistemic disobedience’ (Mignolo, Reference Mignolo2011), or a ‘transgression’ – a term used by our team in the interviews, and also by Georges Bataille about the transgressive nature of literature and art, as opposed to the ‘interdictive’ nature of the social status quo (Bataille, Reference Bataille1957/2020). In Brazil, such a rupture with the status quo of knowledge production seems essential to fulfill a sustainability science and education capable of producing the necessary transformation.

Nevertheless, the surveyed attitudes also revealed some interesting contradictions and uncharted possibilities for furthering inter- and transdisciplinarity. Most striking are views that equate ‘science’ with positivist, natural science, and the fear of one's work being deemed as ‘non-scientific’ if considering people's values and lives. This neglects a wealth of historical development of qualitative methods and reasoning (e.g. regarding sampling, analysis, and potential generalization) in scholarly fields such as sociology, anthropology, human geography, education, and feminism (many represented in Table 4). In other words, by transgressing boundaries we are not advocating for a loosening of academic rigor or ‘anything goes’ – rather, we see the need to develop novel, innovative, rigorous, and contextually relevant methods to respond to these new demands on science. Such methods must be potent enough to handle the cross-sectoral and complex scalar dynamics inherent to ‘glocal’ challenges such as climate change, while they might need to consider additional quality criteria, such as salience, legitimacy, and credibility (Kunseler et al., Reference Kunseler, Tuinstra, Vasileiadou and Petersen2015; Sarkki et al., Reference Sarkki, Niemela, Tinch, van den Hove, Watt and Young2014), that arise in transdisciplinary co-production with stakeholders. This translates into a research niche and opportunity for Brazil, with its history in participatory methods via Paulo Freire and diverse nature–culture, to contribute to the methodological development of sustainability science. Educational programs for sustainability could incorporate and teach a range of methods and techniques including participatory action research and dialogical processes (Fernández-Aballí Altamirano, Reference Fernández-Aballí Altamirano and Servaes2020; Freire, Reference Freire1970/2013), living lab methodology (Berchin et al., Reference Berchin, de Amorim, Valduga, Heerdt, de Andrade Guerra, Leal Filho, Salvia, Pretorius, Brandli, Manolas, Alves, Azeiteiro, Rogers, Shiel and Do Paco2020), futures literacy (Facer & Sriprakash, Reference Facer and Sriprakash2021), collective foresight and intelligence (Wood et al., Reference Wood, Luers, Garard, Gambhir, Chaudhari, Ivanova and Cronin2021), and standpoint theory (Gonzalez, Reference Gonzalez and Silva1984). Their deployment would be supported by strategic recruitment of faculty strong in philosophy and history of science, mixed qualitative and quantitative methods, and methods for inter- and transdisciplinary (including Latin American perspectives). This would be essential for nurturing a strong Brazilian sustainability science that reflects local conditions and voices and critically and reflexively engages with (often-hegemonic) concepts from the North.

This discussion, in turn, underscores the importance of sustainability science emerging from the Global South to contribute to global sustainability debates. For instance, in an urbanizing world, cities in the Global South have urgent necessities, and a ‘unique but often overlooked capacity, to innovate and experiment for sustainability’ (Nagendra et al., Reference Nagendra, Bai, Brondizio and Lwasa2018, p. 341). Currently, ~14% of the world's urban population lives in informal settlements (https://unstats.un.org/sdgs/report/2023/goal-11/), making it not a marginal phenomenon to the sustainability debate but the reality of housing for many people. Brazilian research is well positioned to contribute on many frontier topics in sustainability science such as decolonization, inequality, informality, environmental racism, more-than-human worlds, inner transformation, artificial intelligence, and urban living labs.

Finally, we stress that our study is less a crusade against hegemonic thought on sustainability than it is a call for Brazilian sustainability scientists and educators to listen, engage in dialogue, and learn from the various and diverse voices and knowledges that exist in the country. Indeed, the rationale for this paper combines the lines of thought of border-thinkers from Brazil (Table 4) and elsewhere (Bataille, Eliade, Gramsci, Mignolo) with well-established and relevant hegemonic sustainability thinking (most citations). The various worldviews expressed in the civil-society initiatives examined here come from actors increasingly interested in what science and policy call ‘sustainability’, even if they call it by other names. Technology connects these diverse perspectives on sustainability, as the expansion of the initiatives during COVID-19 demonstrates. Scientists and educators, from Brazil and elsewhere, will always be welcome to such dialogues.

Supplementary material

The supplementary material for this article can be found at https://doi.org/10.1017/sus.2024.25.

Data

Data are available by contacting corresponding authors.

Acknowledgments

This paper is a product of the UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation hosted by the Museum of Tomorrow in a partnership with Universidade Federal do Rio de Janeiro, Rio de Janeiro Brazil. The Chair is funded by Instituto de Desenvolvimento e Gestão, Instituto Humanize, Porticus Foundation, EY and Volvo. E. B. acknowledges the Swedish Research Councils VR (2019-00498) and FORMAS (2018-01350). We are thankful for the various graduate programs we are affiliated to and, especially, to various organizers and audiences of the social movements concerned with sustainability dialogues that we address in this paper.

Author contributions

F. R. S. and E. B. conceived the paper. F. R. S., E. B., and B. L. R. C. conducted the interviews with all co-authors. A. C. P. A., M. C. S., and R. P. reviewed the whole process. All authors reviewed the submitted and the revised versions.

Funding statement

This paper was financially supported by the sponsors of the UNESCO Chair on Planetary Wellbeing and Regenerative Anticipation: Instituto de Desenvolvimento e Gestão, Instituto Humanize, Porticus Foundation, Volvo and EY. E. B. was funded by the Swedish Research Councils VR (2019-00498) and FORMAS (2018-01350).

Competing interests

None.

References

Abramo, G., D'Angelo, C. A., & Di Costa, F. (2022) Revealing the scientific comparative advantage of nations: Common and distinctive features. Journal of Informetrics, 16, 101244. https://doi.org/10.1016/j.joi.2021.101244.CrossRef Google Scholar

Agrawal, A., & Gibson, C. C. (1999). Enchantment and disenchantment: The role of community in natural resource conservation. World Development, 27, 629–649. https://doi.org/10.1016/S0305-750X(98)00161-2CrossRef Google Scholar

Albagli, S. (2017). Technical-scientific-informational milieu, networks and territories. In Melgaço, L., & Prouse, C. (Eds.), Milton Santos: A pioneer in critical geography from the Global South (pp. 33–43). Springer. https://doi.org/10.1007/978-3-319-53826-6_3CrossRef Google Scholar

Athayde, S., Silva-Lugo, J., Schmink, M., Kaiabi, A., & Heckenberger, M. (2017). Reconnecting art and science for sustainability: Learning from indigenous knowledge through participatory action-research in the Amazon. Ecology and Society, 22, 36. https://doi.org/10.5751/ES-09323-220236CrossRef Google Scholar

Baker, K., Eichhorn, M. P., & Griffiths, M. (2019). Decolonizing field ecology. Biotropica, 51(3), 288–292. https://doi.org/10.1111/btp.12663CrossRef Google Scholar

Bataille, G. (1957/2020). O Erotismo. Autêntica.Google Scholar

Benessia, A., Funtowicz, S., Bradshaw, G., Ferri, F., Ráez-Luna, E. F., & Medina, C. P. (2012). Hybridizing sustainability: Towards a new praxis for the present human predicament. Sustainability Science, 7, 75–89. https://doi.org/10.1007/s11625-011-0150-4CrossRef Google Scholar

Benevides, M. C. de S. e, de Andrade Guerra, J. B. S. O., Birch, R. S., & Deggau, A. B. (2021). Corporate sustainability benchmarking in academia: Green campus, living labs, socioeconomic and socioenvironmental initiatives in Brazil. In Leal Filho, W., Salvia, A. L., Brandli, L., Azeiteiro, U. M., & Pretorius, R. (Eds.), Universities, sustainability and society: Supporting the implementation of the sustainable development goals (pp. 141–155). Springer. https://doi.org/10.1007/978-3-030-63399-8_10Google Scholar

Bennett, E. M., Solan, M., Biggs, R., McPhearson, T., Norström, A. V., Olsson, P., Pereira, L., Peterson, G. D., Raudsepp-Hearne, C., Biermann, F., Carpenter, S. R., Ellis, E. C., Hichert, T., Galaz, V., Lahsen, M., Milkoreit, M., López, B. M., Nicholas, K. A., Preiser, R., … Xu, J. (2016). Bright spots: Seeds of a good Anthropocene. Frontiers in Ecology and the Environment, 14, 441–448. https://doi.org/10.1002/fee.1309CrossRef Google Scholar

Berchin, I. I., de Amorim, W. S., Valduga, I. B., Heerdt, M. L., & de Andrade Guerra, J. B. S. O. (2020). Sustainable campuses as living labs for sustainable development: An overview of a Brazilian community university. In Leal Filho, W., Salvia, A. L., Pretorius, R. W., Brandli, L. L., Manolas, E., Alves, F., Azeiteiro, U. M., Rogers, J., Shiel, C., & Do Paco, A. (Eds.), Universities as living labs for sustainable development: Supporting the implementation of the sustainable development goals (pp. 87–102). Springer. https://doi.org/10.1007/978-3-030-15604-6_6CrossRef Google Scholar

Bergmann, M., Schäpke, N., Marg, O., Stelzer, F., Lang, D. J., Bossert, M., Gantert, M., Häußler, E., Marquardt, E., Piontek, F. M., Potthast, T., Rhodius, R., Rudolph, M., Ruddat, M., Seebacher, A., & Sußmann, N., (2019). Transdisciplinary sustainability research in real-world labs: Success factors and methods for change. Sustainability Science, 14, 1593–1604. https://doi.org/10.1007/s11625-020-00886-8Google Scholar

Bettencourt, L. M. A., & Kaur, J. (2011). Evolution and structure of sustainability science. Proceedings of the National Academy of Sciences of the USA, 108, 19540–19545.CrossRef Google Scholar PubMed

Bringel, B. (2019). Latin American Perspectives on social movements research. In Beigel, F. (Ed.), Key texts for Latin American sociology (pp. 273–289). Sage. https://doi.org/10.4135/9781526492692CrossRef Google Scholar

Brink, E., & Wamsler, C. (2018). Collaborative governance for climate change adaptation: Mapping citizen–municipality interactions. Environmental Policy and Governance, 28(2), 82–97. https://doi.org/10.1002/eet.1795.CrossRef Google Scholar

Brink, E., Vargas, A. M., & Boyd, E. (2023). Weapons of the vulnerable? A review of popular resistance to climate adaptation. Global Environmental Change, 80, 102656. https://doi.org/10.1016/j.gloenvcha.2023.102656CrossRef Google Scholar

Büscher, B., & Fletcher, R. (2020). The conservation revolution: Radical ideas for saving nature beyond the Anthropocene. Verso.Google Scholar

Clark, W. C., & Harley, A. G. (2020). Sustainability science: Toward a synthesis. Annual Review of Environmental Resources, 45, 331–386. https://doi.org/10.1146/annurev-environ-012420-043621CrossRef Google Scholar

Cook, J. (2016) Palaeolithic art: Old masters, early cultures. Nature, 532, 310–311. https://doi.org/10.1038/532310aCrossRef Google Scholar

Cunliffe, A., Aguiar, A. C., Góes, V., & Carreira, F. (2020). Radical-reflexivity and transdisciplinarity as paths to developing responsible management education. In Moosmayer, D. C., Laasch, O., Parkes, C., & Brown, K. G. (Eds.), The Sage handbook of responsible management learning and education (pp. 298–314). Sage. https://doi.org/10.4135/9781526477187CrossRef Google Scholar

Devine-Wright, P. (2013). Think global, act local? The relevance of place attachments and place identities in a climate changed world. Global Environmental Change, 23, 61–69. https://doi.org/10.1016/j.gloenvcha.2012.08.003.CrossRef Google Scholar

dos Prazeres, L. L. G., & Miglievich-Ribeiro, A. (2017) Processos de libertação (descolonização) no conto ‘Partida do trem’, de Clarice Lispector. Antares, 9, 172–194.Google Scholar

Elhacham, E., Ben-Uri, L., Grozovski, J., Bar-On, Y. M., & Milo, R. (2020). Global human-made mass exceeds all living biomass. Nature 588, 442–444. https://doi.org/10.1038/s41586-020-3010-5CrossRef Google Scholar PubMed

Eliade, M. (1957/2019). O Sagrado e o Profano. Wmf Martins Fontes.Google Scholar

Escobar, A. (2015). Degrowth, postdevelopment, and transitions: A preliminary conversation. Sustainability Science, 10, 451–462. https://doi.org/10.1007/s11625-015-0297-5CrossRef Google Scholar

Facer, K., & Sriprakash, A. (2021) Provincialising futures literacy: A caution against codification. Futures 133, 102807 https://doi.org/10.1016/j.futures.2021.102807CrossRef Google Scholar

Fernández-Aballí Altamirano, A. (2020). The importance of Paulo Freire to communication for development and social change. In Servaes, J. (Ed.) Handbook of communication for development and social change (pp. 309–327). Springer. https://doi.org/10.1007/978-981-15-2014-3_76CrossRef Google Scholar

Ferreira, I. V., & Wiggers, I. D. (2018). Brazilian key-thinkers on education. Society Register, 2, 107–130. https://doi.org/10.14746/sr.2018.2.2.06CrossRef Google Scholar

Fialho, N. H., & Oliveira, J. D. B. (2022). Anísio Teixeira: sistema de educação e democracia. Educação e Sociedade, 43, e257567. https://doi.org/10.1590/ES.257567CrossRef Google Scholar

Folke, C., Polasky, S., Rockström, J., Galaz, V., Westley, F., Lamont, M., Scheffer, M., Österblom, H., Carpenter, S. R., Chapin, F. S. III, Seto, K. C. , Weber, E. U., Crona, B. I., Daily, G. C., Dasgupta, P., Gaffney, O., Gordon, L. J., Hoff, H., Levin, S. A., ... Walker, B. H., (2021). Our future in the Anthropocene biosphere. Ambio, 50, 834–869. https://doi.org/10.1007/s13280-021-01544-8CrossRef Google Scholar PubMed

Freire, P. (1970/2013). Pedagogia do Oprimido. Paz e Terra.Google Scholar

Freire, L. M., Figueiredo, T. F., Mejía-Cáceres, M. A., Braz, F. L., & Espinet, M. (2022) Constructing non-hegemonic views of sustainability in science teacher education: A case study on university–school collaboration in Brazil. In Öztürk, M. (Ed.), Educational response, inclusion and empowerment for SDGs in emerging economies: How do education systems contribute to raise global citizens? (pp. 83–103). Springer, https://doi.org/10.1007/978-3-031-07191-1_6Google Scholar

Gaillard, J. (2019). Disaster studies inside out. Disasters 43(S1), S7–S17. https://doi.org/10.1111/disa.12323CrossRef Google Scholar PubMed

Giaretta, J. B. Z., & Di Giulio, G. M. (2018). O papel das tecnologias de comunicação e informação (TIC) no urbano do século XXI e na emergência dos novos movimentos sociais: reflexões a partir de experiências na Megacidade de São Paulo. Revista Brasileira de Estudos Urbanos e Regionais, 20, 161–179. https://doi.org/10.22296/2317-1529.2018v20n1p161.CrossRef Google Scholar

Gibbons, M. (2000). Mode 2 society and the emergence of context-sensitive science. Science and Public Policy, 27, 159–163. https://doi.org/10.3152/147154300781782011CrossRef Google Scholar

Gonzalez, L. (1984) Racismo e sexismo na cultura brasileira. In Silva, L. A. (Ed.), Movimentos Sociais, Urbanos, Memórias Étnicas e Outros Estudos (pp. 223–244). Anpocs.Google Scholar

Gramsci, A. (1932/2001). Cadernos do Cárcere (2nd ed., vol. 2), Caderno 12, Civilização Brasileira.Google Scholar

Guillaume, B. (2014). Vernadsky's philosophical legacy: A perspective from the Anthropocene. The Anthropocene Review, 1, 137–146. https://doi.org/10.1177/2053019614530874CrossRef Google Scholar

Gupta, H., & Singh, N.K. (2023). Climate change and biodiversity synergies: A scientometric analysis in the context of UNFCCC and CBD. Anthropocene Science, 2, 5–18. https://doi.org/10.1007/s44177-023-00046-4CrossRef Google Scholar

Hedlund-de Witt, A. (2013). Worldviews and their significance for the global sustainability debate. Environmental Ethics, 35, 133–162. https://doi.org/10.5840/enviroethics201335215CrossRef Google Scholar

Hipólito, J., Coutinho, J., Mahlmann, T., Santana, T. B. R., & Magnusson, W. E. (2021). Legislation and pollination: Recommendations for policymakers and scientists. Perspectives in Ecology and Conservation, 19, 1–9. https://doi.org/10.1016/j.pecon.2021.01.003.CrossRef Google Scholar

Hoefle, S. W. (2009). Enchanted (and disenchanted) Amazonia: Environmental ethics and cultural identity in northern Brazil. Ethics Place & Environment, 12, 107–130. https://doi.org/10.1080/13668790902753112CrossRef Google Scholar

Isgren, E., Boda, C. S., Harnesk, D., & O'Byrne, D. (2019). Science has much to offer social movements in the face of planetary emergencies. Nature Ecology and Evolution, 3, 1498–1498. https://doi.org/10.1038/s41559-019-1024-xCrossRef Google Scholar PubMed

Ives, C., & Kidwell, J. (2019). Religion and social values for sustainability. Sustainability Science, 14, 1355–1362. https://doi.org/10.1007/s11625-019-00657-0CrossRef Google Scholar

Ives, C., Abson, D., von Wehrden, H., Dorninger, C., Klaniecki, K., & Fischer, J. (2018). Reconnecting with nature for sustainability. Sustainability Science, 13(5), 1389–1397. https://doi.org/10.1007/s11625-018-0542-9CrossRef Google Scholar PubMed

Ives, C. D., Freeth, R., & Fischer, J. (2020). Inside-out sustainability: The neglect of inner worlds. Ambio, 49, 208–217. https://doi.org/10.1007/s13280-019-01187-wCrossRef Google Scholar PubMed

Jatobá, S. U. S., Cidade, L. C. F., & Vargas, G. M. (2009). Ecologismo, ambientalismo e ecologia política: diferentes visões da sustentabilidade e do território. Sociedade e Estado, 24(1), 47–87.CrossRef Google Scholar

John Hopkins Coronavirus Resource Center. Accessed on 27 July 2021. Available at https://coronavirus.jhu.edu/data/mortality Google Scholar

Kates, R. W., Clark, W. C., Corell, R., Hall, J. M., Jaeger, C. C., Lowe, I., McCarthy, J. J., Schellnhuber, H. J., Bolin, B., Dickson, N. M., Faucheux, S., Gallopin, G. C., Grübler, A., Huntley, B., Jäger, J., Jodha, N. S., Kasperson, R. E., Mabogunje, A., Matson, P., … Svedin, U. (2001). Sustainability science. Science (New York, N.Y.), 292, 641–642. https://doi.org/10.1126/science.1059386CrossRef Google Scholar PubMed

Krenak, A. (2018). Ecologia política. Ethnoscientia, 3 (2 special), 1–2. http://dx.doi.org/10.18542/ethnoscientia.v3i2.10225CrossRef Google Scholar

Kumar, S. (2013). Soil, soul, society: A new trinity for our time. Leaping Hare Press.Google Scholar

Kunseler, E.-M., Tuinstra, W., Vasileiadou, E., & Petersen, A. C. (2015). The reflective futures practitioner: Balancing salience, credibility and legitimacy in generating foresight knowledge with stakeholders. Futures 66, 1–12. https://doi.org/10.1016/j.futures.2014.10.006.CrossRef Google Scholar

Lahsen, M., & Nobre, C.A. (2007). Challenges of connecting international science and local level sustainability efforts: The case of the large-scale biosphere–atmosphere experiment in Amazonia. Environmental Science and Policy, 10, 62–74. https://doi.org/10.1016/j.envsci.2006.10.005CrossRef Google Scholar

Lang, D. J., Wiek, A., Bergmann, M., Stauffacher, M., Martens, P., Moll, P., Swilling, M., & Thomas, C. J. (2012). Transdisciplinary research in sustainability science: Practice, principles, and challenges. Sustainability Science, 7 (Supplement 1), 25–43. https://doi.org/10.1007/s11625-011-0149-xCrossRef Google Scholar

Latour, B. (2004). Politics of nature: How to bring the sciences into democracy. Harvard University Press.CrossRef Google Scholar

Latulippe, N., & Klenk, N. (2019). Making room and moving over: Knowledge co-production, Indigenous knowledge sovereignty and the politics of global environmental change decision-making. Current Opinion in Environmental Sustainability, 42, 7–14. https://doi.org/10.1016/j.cosust.2019.10.010CrossRef Google Scholar

Leal Filho, W., Raath, S., Lazzarini, B., Vargas, V. R., de Souza, L., Anholon, R., Quelhas, G., Haddad, R., Klavins, M., & Orlovic, V. L. (2018). The role of transformation in learning and education for sustainability. Journal of Cleaner Production, 199, 286–295. https://doi.org/10.1016/j.jclepro.2018.07.017CrossRef Google Scholar

Lobo-Moreira, A. B., da Silva, A. G., de Carvalho, R. A., & Caramori, S. S. (2023). Four decades of natural resources research in Brazil: A scientometric analysis. Brazilian Journal of Environmental Sciences, 58(3), 427–436. https://doi.org/10.5327/Z2176-94781694Google Scholar

Melgaço, L., & Prouse, C., Eds. (2017). Milton Santos: A pioneer in critical geography from the global south. Springer.CrossRef Google Scholar

Miglievich-Ribeiro, A., & Romera, E. (2018). Orientações para uma descolonização do conhecimento: um diálogo entre Darcy Ribeiro e Enrique Dussel. Sociologias, 20, 108–137. https://doi.org/10.1590/15174522-020004704.CrossRef Google Scholar

Mignolo, W. (2011). Geopolitics of sensing and knowing: On (de)coloniality, border thinking, and epistemic disobedience. Postcolonial Studies, 14(3), 273–283. https://doi.org/10.1080/13688790.2011.613105CrossRef Google Scholar

Mitlin, D. (2018). Beyond contention: Urban social movements and their multiple approaches to secure transformation. Environment and Urbanization, 30, 557–574. https://doi.org/10.1177/0956247818791012CrossRef Google Scholar

Nagatsu, M., Davis, T., DesRoches, C. T., Koskinen, I., MacLeod, M., Stojanovic, M., & Thorén, H. (2020). Philosophy of science for sustainability science. Sustainability Science, 15, 1807–1817. https://doi.org/10.1007/s11625-020-00832-8CrossRef Google Scholar

Nagendra, H., Bai, X., Brondizio, E. S., & Lwasa, S. (2018). The urban south and the predicament of global sustainability. Nature Sustainability, 1, 341–349. https://doi.org/10.1038/s41893-018-0101-5CrossRef Google Scholar

Nature Editorial. (2020). Time to revise the sustainable development goals. Nature, 583, 331–332. https://doi.org/10.1038/d41586-020-02002-3CrossRef Google Scholar

Nilsson, M., & Stålhammar, S. (2024). Psychedelics and inner dimensions of sustainability: A literature review. European Journal of Ecopsychology, 9, 4–47.Google Scholar

O'Brien, K. (2021). Reflecting on the Anthropocene: The call for deeper transformations. Ambio, 50, 1793–1797. https://doi.org/10.1007/s13280-020-01468-9CrossRef Google Scholar PubMed

Pires, A. P. F., Soto, C. R., & Scarano, F. R. (2021). Strategies to reach global sustainability should take better account of ecosystem services. Ecosystem Services, 49, 101292. https://doi.org/10.1016/j.ecoser.2021.101292CrossRef Google Scholar

Pradhan, P. (2019). Antagonists to meeting the 2030 Agenda. Nature Sustainability, 2, 171–172. https://doi.org/10.1038/s41893-019-0248-8CrossRef Google Scholar

Pretty, J., Adams, B., Berkes, F., de Athayde, S. F., Dudley, N., Hunn, E., Maffi, L., Milton, K., Rapport, D., & Robbins, P., Sterling, E., Stolton, S., Tsing, A., Vintinner, E., & Pilgrim, S. (2009). The intersections of biological diversity and cultural diversity: Towards integration. Conservation and Society, 7, 100–112. https://doi.org/10.4103/0972-4923.58642Google Scholar

Rampasso, I. S., Siqueira, R. G., Anholon, R., Silva, D., Quelhas, O. L. G., Leal Filho, W., & Brandli, L. L. (2019). Some of the challenges in implementing education for sustainable development: Perspectives from Brazilian engineering students. International Journal of Sustainable Development and World Ecology, 26, 367–376. https://doi.org/10.1080/13504509.2019.1570981CrossRef Google Scholar

Rana, S., Ávila-García, D., Dib, V., Familia, L., Gerhardinger, L. C., Martin, E., Martins, P. I., Pompeu, J., Selomane, O., Tauli, J. I., Tran, D. H. T., Valle, M., von Below, J., & Pereira, L. M. (2020). The voices of youth in envisioning positive futures for nature and people. Ecosystems and People, 16, 326–344. https://doi.org/10.1080/26395916.2020.1821095CrossRef Google Scholar

Ribeiro, D. (2016). Feminismo negro para um novo marco civilizatório. Sur, 13(24), 99–104.Google Scholar

Rigolot, C. (2018). Sustainability transformations as shifts in worldviews: A dynamic view of complementarity issues. Ecology and Society, 23, 22. https://doi.org/10.5751/ES-10101-230222CrossRef Google Scholar

Rios, F. (2019). Améfrica Ladina: The conceptual legacy of Lélia Gonzalez (1935–1994). LASA Forum, 50, 75–79.Google Scholar

Rosendahl, J., Zanella, M. A., Rist, S., & Weigelt, J. (2015). Scientists’ situated knowledge: Strong objectivity in transdisciplinarity. Futures, 65, 17–27. https://doi.org/10.1016/j.futures.2014.10.011CrossRef Google Scholar

Sachs, J., Kroll, C., Lafortune, G., Fuller, G., & Woelm, F. (2021). The decade of action for the sustainable development goals: Sustainable development report 2021. Cambridge University Press.Google Scholar

Santos, M. (1997). A Natureza do Espaço: Técnica e Tempo. Razão e Emoção. Hucitec.Google Scholar

Sarkki, S., Niemela, J., Tinch, R., van den Hove, S., Watt, A. & Young, J. (2014) Balancing credibility, relevance and legitimacy: A critical assessment of trade-offs in science–policy interfaces. Science and Public Policy, 41, 194–206. https://doi.org/10.1093/scipol/sct046CrossRef Google Scholar

Scarano, F. R. (2019). The emergence of sustainability. In Wegner, L., & Lüttge, U. (Eds.), Emergence and modularity in life sciences (pp. 51–71). Springer Nature.CrossRef Google Scholar

Scarano, F. R. (2024). Regenerative dialogues for sustainable futures. Springer. https://doi.org/10.1007/978-3-031-51841-6CrossRef Google Scholar

Scarano, F. R., Aguiar, A. C. F., Mittermeier, R. A., & Rylands, A. (2024). Megadiversity. In Scheiner, S. (Ed.) Encyclopaedia of biodiversity 3 (pp. 868–884). Elsevier. https://doi.org/10.1016/B978-0-12-822562-2.00013-XCrossRef Google Scholar

Schneider, F., Kläy, A., Zimmermann, A. B., Buser, T., Ingalls, M., & Messerli, P. (2019). How can science support the 2030 Agenda for Sustainable Development? Four tasks to tackle the normative dimension of sustainability. Sustainability Science, 14, 1593–1604. https://doi.org/10.1007/s11625-019-00675-yCrossRef Google Scholar

Schultz, K. A. (2017). Decolonizing political ecology: Ontology, technology and 'critical' enchantment. Journal of Political Ecology, 24, 125–143. https://doi.org/10.2458/v24i1.20789Google Scholar

Sharpe, B., Hodgson, A., Leicester, G., Lyon, A., & Fazey, I. (2016). Three horizons: A pathways practice for transformation. Ecology and Society, 21(2), 47. http://dx.doi.org/10.5751/ES-08388-210247CrossRef Google Scholar

Shrivastava, P., Stafford-Smith, M., O'Brien, K., & Zsolnai, L. (2020). Transforming sustainability science to generate positive social and environmental change globally. One Earth, 2, 329–340. https://doi.org/10.1016/j.oneear.2020.04.010.CrossRef Google Scholar PubMed

Souza, D. T. P., Kuhn, E. A., Wals, A. E. J., & Jacobi, P. R. (2020). Learning in, with, and through the territory: Territory-based learning as a catalyst for urban sustainability. Sustainability, 12, 3000. https://doi.org/10.3390/su12073000.CrossRef Google Scholar

Stålhammar, S., & Brink, E. (2021). ‘Urban biocultural diversity’ as a framework for human–nature interactions: Reflections from a Brazilian favela. Urban Ecosystems, 24, 601–619. https://doi.org/10.1007/s11252-020-01058-3CrossRef Google Scholar

The Economist. (2021) Special Report Brazil: On the brink. June 5th.Google Scholar

Trisos, C. H., Auerbach, J., & Katti, M. (2021). Decoloniality and anti-oppressive practices for a more ethical ecology. Nature Ecology and Evolution, 5, 1205–1212. https://doi.org/10.1038/s41559-021-01460-wCrossRef Google Scholar PubMed

Trott, C. D., Even, T. L., & Frame, S. M. (2020). Merging the arts and sciences for collaborative sustainability action: A methodological framework. Sustainability Science, 15, 1067–1085. https://doi.org/10.1007/s11625-020-00798-7CrossRef Google Scholar

Uggla, Y. (2010). What is this thing called ‘natural’? The nature–culture divide in climate change and biodiversity policy. Journal of Political Ecology, 17, 79–91. https://doi.org/10.2458/v17i1.21701CrossRef Google Scholar

Wamsler, C., Hertog, I. M., & Di Paola, L. (2021). Education for sustainability: Sourcing inner qualities and capacities for transformation. In Ivanova, E. & Rimanoczy, I. (Eds.), Revolutionizing sustainability education (pp. 49–62). Routledge.Google Scholar

Wanderley, S. E. P. V., & Bauer, A. P. M. (2020). ‘Tupi, or not Tupi that is the question’: Perspectivismo ameríndio e estudos organizacionais. RAE – Revista de Administração de Empresas, 60, 144–155. https://doi.org/10.1590/S0034-759020200207CrossRef Google Scholar

Woiwode, C., Schäpke, N., Bina, O., Veciana, S., Kunze, I., Parodi, O., Schweizer-Ries, P., & Wamsler, C. (2021). Inner transformation to sustainability as a deep leverage point: Fostering new avenues for change through dialogue and reflection. Sustainability Science, 16, 841–858. https://doi.org/10.1007/s11625-020-00882-yCrossRef Google Scholar

Wood, S. L. R., Luers, A., Garard, J., Gambhir, A., Chaudhari, K., Ivanova, M., & Cronin, C. (2021). Collective foresight and intelligence for sustainability. Global Sustainability, 4(e3), 1–7. https://doi.org/10.1017/sus.2021.3CrossRef Google Scholar

Woodyer, T., & Geoghegan, H. (2013). (Re)enchanting geography? The nature of being critical and the character of critique in human geography. Progress in Human Geography, 37, 195–214. https://doi.org/10.1177/0309132512460905CrossRef Google Scholar

World Bank. (2022). Govtech maturity index. Trends in public sector digital transformation. The World Bank Group.Google Scholar

Table 1. Selected sustainability dialogues in Brazil and their increased outreach during the COVID-19 pandemic

Table 4. Some Brazilian border-thinkers and their ideas that can contribute to decolonial sustainability science and education (SSE) in the country

Scarano et al. supplementary material

File 19.2 KB

Article contents

Sustainability dialogues in Brazil: implications for boundary-spanning science and education

Abstract

Keywords

1. Introduction

2. Conceptual framework

2.1 Brazilian sustainability science and education

2.2 Worldviews and bottom-up movements in sustainability science

3. Methods

4. Results

4.1 Converging views: worldviews, subjectivity, and actions

4.2 Diverging views: legitimacy, fear, and contested ‘truth’

5. Discussion and concluding remarks

5.1 Sustainability as wholeness: connecting the sacred and the profane

5.2 Technosphere meets the Psychosphere: the emergence of digital spaces of resistance and alternative rationalities

5.3 Incorporating lessons learnt: pathos and methodology of a sustainability science emerging from Brazil

Supplementary material

Data

Acknowledgments

Author contributions

Funding statement

Competing interests

References

Scarano et al. supplementary material

Save article to Kindle

Save article to Dropbox

Save article to Google Drive

Reply to: Submit a response

Your details

You have entered the maximum number of contributors

Conflicting interests