Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-19T03:48:22.316Z Has data issue: false hasContentIssue false

Who gets to imagine transformative change? Participation and representation in biodiversity assessments

Published online by Cambridge University Press:  28 August 2020

Silke Beck
Affiliation:
Helmholtz Centre for Environmental Research, UFZ, Leipzig, Germany
Tim Forsyth*
Affiliation:
Department of International Development, London School of Economics and Political Science, London, UK
*
Correspondence to: Professor Tim Forsyth, Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Type
Comment
Copyright
© The Author(s), 2020. Published by Cambridge University Press on behalf of Foundation for Environmental Conservation

The Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services (IPBES) has been mandated to assess transformative change in order to identify pathways for achieving the 2050 Vision for Biodiversity. Yet, the topic of transformative change raises significant new challenges for biodiversity assessments because it combines scientifically plausible projections about the drivers and trends of biodiversity loss with normative and collective visions of a sustainable world for nature and people. In this commentary, we argue that assessments of visions of a sustainable world should also ask ‘whose values and visions count?’ because different values and visions influence which voices and perspectives are considered relevant for generating scientific knowledge for transformative change. In particular, we argue that this situation requires rethinking modes of participation and co-production in assessments of transformative change: from consulting different groups as potential ‘users’ of assessments to seeing how visions of a sustainable world are represented through the selection of evidence and actors. In other words, assessments need to be less concerned about the inclusion and exclusion of actors, and more concerned about how these actors bring the perspectives of others with them.

What are transformation and co-production?

Much environmental assessment today adopts the task of assessing transformative change. According to IPBES’s Global Assessment Report, “[G]oals for 2030 and beyond may only be achieved through transformative changes across economic, social, political and technological factors” (IPBES 2019). IPBES defines transformative change “as a fundamental, system-wide reorganization across technological, economic and social factors, including paradigms, goals and values.” The rationale underlying this assessment is to move away from current, relatively short-term incremental changes towards more holistic pathways reflecting revised paradigms, goals and values (Pelling et al. Reference Pelling, O’Brien and Matyas2015).

Yet, how to identify revised pathways towards a transformed and sustainable world? IPBES understands its mandate as policy-relevant but not prescriptive (Stevance et al. Reference Stevance, Bridgewater, Louafi, King, Beard and Van Jaarsveld2020). One key way has been through scenario planning as a means of providing plausible descriptions of the potential future trajectories of a system (Heugens & van Oosterhout Reference Heugens and van Oosterhout2001, IPBES 2016), which can provide a more analytical approach to future targets than modelling alone (Pereira et al. Reference Pereira, Sitas, Ravera, Jimenez-Aceituno and Merrie2019). Scenarios such as these can project and help implement transformative change (Raudsepp-Hearne et al. Reference Raudsepp-Hearne, Peterson, Bennett, Biggs, Norström and Pereira2020).

IPBES has also endorsed knowledge co-production as a way to consult with policymakers and stakeholders simultaneously with assessment. (Knowledge co-production is in addition to the joint contribution by nature and anthropogenic assets in generating nature’s contributions to people, which IPBES also calls co-production.) Knowledge co-production is intended to make scientific findings interactive and ‘usable’, such as by studying remote satellite sensing and meteorology and modelling simultaneously with the indigenous knowledge of Sami and Nenets reindeer herders to co-produce datasets (Lemos & Morehouse Reference Lemos and Morehouse2005, IPBES 2016). Indeed, IPBES has included a broader range of societal actors than other global assessments such as the Intergovernmental Panel on Climate Change (IPCC) (Timpte et al. Reference Timpte, Montana, Reuter, Borie and Apkes2018), although one evaluation concluded that IPBES could include indigenous and local knowledge more systematically (Díaz-Reviriego et al. Reference Díaz-Reviriego, Turnhout and Beck2019).

This interpretation of co-production, however, differs from pre-existing approaches from within the social sciences (Jasanoff Reference Jasanoff2004, Miller & Wyborn Reference Miller and Wyborn2018). These approaches to co-production focus instead on the (often tacit) beliefs, assumptions and values that inspire research or that present different evidence or stakeholders as relevant. For example, what passes for ‘good science’ in climate change policy can vary according to whether analysts adopt a global systems understanding of greenhouse gas emissions versus a perspective based on social justice and development (Agarwal & Narain Reference Agarwal and Narain1991, Miller Reference Miller and Jasanoff2004). Another example is how organizations such as the European Environment Agency generate and use evidence partly to demonstrate the need for the kind of international authority offered by these organizations in comparison to national or other bureaucracies (Waterton & Wynne Reference Waterton, Wynne and Jasanoff2004).

This reflexive approach to co-production is different from the practical–procedural approach adopted by IPBES because it looks at the underlying (and often tacit) assumptions and worldviews that make evidence or consultations appear relevant. By so doing, it also claims to assess evidence more robustly and usefully because it allows for deliberation about conflicting values or visions of desirable futures that are represented by evidence (Beck et al. Reference Beck, Esguerra and Goerg2017, Eckersley Reference Eckersley2017). Indeed, the reflexive approach to co-production argues that the design of a scientific enquiry is also the “design of a particular view of society” (Leach Reference Leach2014).

Reflexive co-production, therefore, offers to overcome some of the challenges of assessing transformative change by fully acknowledging that visions of a sustainable world are deeply normative and political, and hence are legitimate objects of political debate and choice. The question ‘whose vision counts?’ is important because it also shows how visions influence evidence and who might be included in order to provide evidence (Andersson & Westholm Reference Andersson and Westholm2019). In other words, who gets to imagine transformative change?

Biodiversity assessments and participation

Historic biodiversity assessments have illustrated both challenges and opportunities arising from different approaches to co-production. The Millennium Ecosystem Assessment (MA) – a form of biodiversity assessment – was a ground-breaking assessment of ecosystem changes at multiple scales. Yet, critics have questioned how this objective shaped its representation of minorities or indigenous knowledge. According to one of the assessors, the MA identified ‘local’ actors and concerns in a highly reductive way in order to provide convenient counterpoints to the MA’s overriding framework arising from a global systems perspective. Accordingly, ‘local’ examples and stakeholders were selected in order to illustrate the assertions of the global systems framework adopted, rather than being used to reframe the framework or to rethink the objectives, benefits or means of managing biodiversity and ecosystem services (Filer Reference Filer, Carrier and West2009). Other critics have suggested that the push for a unitary scientific voice in the MA resulted in a situation in which local knowledge had to be translated into ‘scientific language’ in order to be mediated through the global, unitary categories (Brosius Reference Brosius, Berkes, Wilbanks and Reid2006). The MA stated in its introduction that the choice of scale is not politically neutral, because the selection may intentionally or unintentionally privilege some groups. Yet these kinds of statements say little about which underlying beliefs, assumptions and values might make these groups appear relevant or with agency.

Similarly, participatory processes often seek to include indigenous groups, yet indigeneity alone can hide differences within heterogeneous indigenous groups. Likewise, being defined as indigenous may be empowering for some actors, but may make others less visible (Forsyth & Sikor Reference Forsyth and Sikor2013). These concerns do not simply reflect the different approaches to research adopted by disciplines such as anthropology and biological science, but instead show the need to study the ways in which scientific assessments can be influenced by tacit visions that create conditions where people and problems are presented in reductive ways (Andersson & Keizer Reference Andersson and Keizer2014).

It is widely agreed that IPBES has adopted a more iterative and critical approach to local engagement than the MA in its pursuit of a multi-scalar structure, with representatives of ‘local’ and ‘indigenous’ knowledge being invited into the process from the design phase (Turnhout et al. Reference Turnhout, Bloomfield, Hulme, Vogel and Wynne2012, Larigauderie Reference Larigauderie2015, Beck et al. Reference Beck, Esguerra and Goerg2017). Yet, research has suggested that procedures for participation were negotiated under the premise of ideals of numerical balance from different world regions (Montana Reference Montana2017). This procedural form of co-production might overlook differences in the scientific capacities of regions by conflating researcher citizenship with region-specific expertise, rather than acknowledging the global politics and trends in research funding and the geographical biases and locations of education institutions and knowledge flows (Kovács & Pataki Reference Kovács and Pataki2016). Similarly, indigenous people and local communities are commonly portrayed as those stakeholders most impacted by biodiversity loss, yet their status in terms of being able to reshape the IPBES conceptual framework and IPBES rules of procedures remains limited.

Transforming assessments

How can assessments adopt the more reflexive approach to co-production? Analysts argue that this requires various steps to add to the planning and implementation of scenario-making, multi-stakeholder engagement and the scoping and objectives of assessments (Hulme et al. Reference Hulme, Mahony, Beck, Görg, Hansjürgens and Hauck2011).

First, there is a need to see the role of assessments in setting objectives, parameters and assumptions that drive policymaking and research. A new assessment on transformative change can therefore be a constitutional moment or an opportunity to rethink the very nature of an assessment of transformative change (Jasanoff Reference Jasanoff, Joerges and Nowotny2003). It is therefore important to ask whether practical–procedural processes of co-production can include or represent diverse people and perspectives as intended, as well as to ask how far different visions and values drive the inclusion of selected people and perspectives (Borie et al. Reference Borie, Gustafsson, Obermeister, Turnhout and Bridgewater2020). This is an important task for the scoping of assessments and for ongoing monitoring and evaluation.

Second, opportunities for co-production and participation can arise in more diverse and distributed ways. For example, distributed forms of engagement can include social movements, new technologies such as social media or other means of communication involving communities, neighbourhoods and networks (Brondizio et al. Reference Brondizio, O’Brien, Bai, Biermann, Steffen and Berkhout2016). The objective of consulting with more devolved forms of engagement is not to bypass existing frameworks such as the 2050 Vision, but rather to reduce the risk of assessments becoming locked into pre-existing beliefs, assumptions and values. This can also help connect pathways to transformative change with local concerns such as the search for livelihoods, land rights and social identity.

Third, there is a need to become aware of how highly visible arguments about transformative change might reduce discussion by offering reduced options. For example, in recent debates, various scholars have argued that historic debates about biodiversity and ecosystem services (including the MA) have been “dominated by knowledge from the natural sciences and economics” (Díaz et al. Reference Díaz, Pascual, Stenseke, Martín-López, Watson and Molnár2018), influenced by market-based logics based on a commitment to neoliberal ideas (McAfee Reference McAfee2012, Turnhout et al. Reference Turnhout, Bloomfield, Hulme, Vogel and Wynne2012) and accordingly that transformative change must devise alternative projections for social and economic organization (Pereira et al. Reference Pereira, Sitas, Ravera, Jimenez-Aceituno and Merrie2019). Yet, both the representations of ecosystem services and the critiques of these representations are based on particular worldviews. Reflexive approaches to co-production would show how all perspectives are inspired by different visions and values, but also how reducing debate to two opposing views might also exclude visions from less vocal sources (Forsyth Reference Forsyth2015, Andersson & Westholm Reference Andersson and Westholm2019). This kind of analysis has been used, for example, to show how some proposals for social transition under the IPCC have used numerical models that project past developments into the future without considering how their assumptions might themselves transform under new conditions (Hulme et al. Reference Hulme, Mahony, Beck, Görg, Hansjürgens and Hauck2011, Beck & Mahony Reference Beck and Mahony2018).

Transformative change should not be seen as technically viable pathways of changing individual behaviour and social values to achieve already-defined objectives (such as the 2050 Vision for Biodiversity and its connections to the Sustainable Development Goals). Instead, it needs to be a democratizing process that includes opportunities to allow a broader range of actors (beyond formal experts) to reconsider how the rationale and scope of an assessment have been set and with whose influence. Rather than clinging to the optimistic idea that more co-production will automatically achieve greater impact and better outcomes, it is necessary to acknowledge that there will always be diverse views about inclusivity and appropriate representation (Chilvers & Kearnes Reference Chilvers and Kearnes2016).

A more reflexive and inclusive approach to assessing transformative change implies worrying less about the inclusion and exclusion of actors within assessments and more about how their visions of a sustainable world are represented through the selection of evidence and actors. Asking who gets to imagine transformative change will allow an assessment of transformative change to consider visions and values simultaneously with the evidence brought to support them. Doing this will reduce the risk that assessing transformative change will close down rather than expand the diversity of pathways, and the actors and visions contributing to them (Markusson et al. Reference Markusson, Balta-Ozkan, Chilvers, Healey, Reiner and McLaren2020).

Acknowledgements

This research was undertaken through the Biodiversity Revisited initiative of the Luc Hoffman Institute. The authors thank Jasper Montana, Carina Wyborn and three anonymous referees for valuable comments.

Financial support

None.

Conflict of interest

None.

Ethical standards

None.

Supplementary material

To view supplementary material for this article, please visit https://doi.org/10.1017/S0376892920000272

References

Agarwal, A, Narain, S (1991) Global Warming in an Unequal World. Delhi, India: Center for Science and Environment.Google Scholar
Andersson, J, Keizer, A-G (2014) Governing the future: science, policy and public participation in the construction of the long term in the Netherlands and Sweden. History and Technology 30: 104122.Google Scholar
Andersson, J, Westholm, E (2019) Closing the future: environmental research and the management of conflicting future value orders. Science, Technology, & Human Values 44: 237262.CrossRefGoogle Scholar
Beck, S, Esguerra, A, Goerg, C (2017) The co-production of scale and power: the case of the Millennium Ecosystem Assessment and the Intergovernmental Platform on Biodiversity and Ecosystem Services. Journal of Environmental Policy & Planning 19: 534549.Google Scholar
Beck, S, Mahony, M (2018) The IPCC and the new map of science and politics. WIREs Climate Change 9: e547.Google Scholar
Borie, M, Gustafsson, KM, Obermeister, N, Turnhout, E, Bridgewater, P (2020). Institutionalising reflexivity? Transformative learning and the Intergovernmental science-policy Platform on Biodiversity and Ecosystem Services (IPBES). Environmental Science & Policy 110: 7176.Google Scholar
Brondizio, ES, O’Brien, K, Bai, X, Biermann, F, Steffen, W, Berkhout, F et al. (2016) Re-conceptualizing the Anthropocene: a call for collaboration. Global Environmental Change 39: 318327.CrossRefGoogle Scholar
Brosius, JP (2006) What counts as local knowledge in global environmental assessments and conventions? In: Bridging Scales and Knowledge Systems: Concepts and Applications in Ecosystem Assessment, eds Berkes, WV, Wilbanks, F, Reid, TJ, pp. 129144. Washington, DC, USA: Island Press.Google Scholar
Chilvers, J, Kearnes, M (2016) Remaking Participation: Science, Environment and Emergent Publics. London, UK: Routledge.Google Scholar
Díaz, S, Pascual, U, Stenseke, M, Martín-López, B, Watson, RT, Molnár, Z et al. (2018) Assessing nature’s contributions to people. Science 359: 270272.CrossRefGoogle Scholar
Díaz-Reviriego, I, Turnhout, E, Beck, S (2019) Participation and inclusiveness in the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. Nature Sustainability 2: 457464.Google Scholar
Eckersley, R (2017) Geopolitan democracy in the Anthropocene. Political Studies 65: 983999.Google Scholar
Filer, C (2009) A bridge too far: the knowledge problem in the Millennium Ecosystem Assessment. In: Virtualism, Governance and Practice: Vision and Execution in Environmental Conservation, eds Carrier, JG, West, P, pp. 84111. New York, NY, USA: Berghahn.Google Scholar
Forsyth, T (2015) Ecological functions and functionings: towards a Senian analysis of ecosystem services. Development and Change 46: 225246.CrossRefGoogle Scholar
Forsyth, T, Sikor, T (2013) Forests, development, and the globalisation of justice. Geographical Journal 179: 114121.Google Scholar
Heugens, PPMAR, van Oosterhout, J (2001) To boldly go where no man has gone before: integrating cognitive and physical features in scenario studies. Futures 33: 861872.CrossRefGoogle Scholar
Hulme, M, Mahony, M, Beck, S, Görg, C, Hansjürgens, B, Hauck, J et al. (2011) Science–policy interface: beyond assessments. Science 333: 6043.CrossRefGoogle ScholarPubMed
IPBES (2016) The Methodological Assessment Report on Scenarios and Models of Biodiversity and Ecosystem Services. Bonn, Germany: IPBES.Google Scholar
IPBES (2019) Summary for Policymakers of the Global Assessment Report on Biodiversity and Ecosystem Services of the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services. Advanced Unedited Version: 6 May 2019. Bonn, Germany: IPBES.Google Scholar
Jasanoff, S (2003) In a constitutional moment: science and social order at the millennium. In: Social Studies of Science and Technology: Looking Back, Ahead. Yearbook of the Sociology of the Sciences, eds. Joerges, B, Nowotny, H, pp. 155180. Dordrecht, The Netherlands: Kluwer.CrossRefGoogle Scholar
Jasanoff, S (2004) States of Knowledge: The Co-Production of Science and Social Order. London, UK; New York, NY, USA: Routledge.Google Scholar
Kovács, EK, Pataki, G (2016) The participation of experts and knowledges in the Intergovernmental Platform on Biodiversity and Ecosystem Services (IPBES). Environmental Science and Policy 57: 131139.CrossRefGoogle Scholar
Larigauderie, A (2015) The Intergovernmental Platform on Biodiversity and Ecosystem Services (IPBES): a call to action. Gaia 24: 73.Google Scholar
Leach, M (2014) Co-design for relevance and usefulness. In: FutureEarth [www document]. URL https://futureearth.org/2014/07/23/co-design-for-relevance-and-usefulness-qa-with-melissa-leach Google Scholar
Lemos, MC, Morehouse, BJ (2005) The co-production of science and policy in integrated climate assessments. Global Environmental Change 15: 5768.CrossRefGoogle Scholar
Markusson, N, Balta-Ozkan, N, Chilvers, J, Healey, P, Reiner, D, McLaren, D (2020) Social science sequestered. Frontiers in Climate 2.CrossRefGoogle Scholar
McAfee, K (2012) The contradictory logic of global ecosystem services markets. Development and Change 43: 105131.CrossRefGoogle ScholarPubMed
Miller, C (2004) Climate science and the making of a global political order. In: States of Knowledge: The Co-Production of Science and the Social Order, ed. Jasanoff, S, pp. 4666. London, UK; New York, NY, USA: Routledge.Google Scholar
Miller, C, Wyborn, C (2018) Co-production in global sustainability: Histories and theories. Environmental Science & Policy (in press).Google Scholar
Montana, J (2017) Accommodating consensus and diversity in environmental knowledge production: Achieving closure through typologies in IPBES. Environmental Science and Policy 68: 2027.Google Scholar
Pelling, M, O’Brien, K, Matyas, D (2015) Adaptation and transformation. Climatic Change 133: 113127.CrossRefGoogle Scholar
Pereira, L, Sitas, N, Ravera, F, Jimenez-Aceituno, A, Merrie, A (2019) Building capacities for transformative change towards sustainability: imagination in intergovernmental science-policy scenario processes. Elementa: Science of the Anthropocene 7: 35.Google Scholar
Raudsepp-Hearne, C, Peterson, G, Bennett, E, Biggs, R, Norström, A, Pereira, L et al. (2020) Seeds of good Anthropocenes: developing sustainability scenarios for Northern Europe. Sustainability Science 15: 605617.Google Scholar
Stevance, A-S, Bridgewater, P, Louafi, S, King, N, Beard, TD, Van Jaarsveld, AS et al. (2020) The 2019 review of IPBES and future priorities: reaching beyond assessment to enhance policy impact. Ecosystems and People 16: 7077.CrossRefGoogle Scholar
Timpte, M, Montana, J, Reuter, K, Borie, M, Apkes, J (2018) Engaging diverse experts in a global environmental assessment: participation in the first work programme of IPBES and opportunities for improvement. Innovation 31: 15.Google Scholar
Turnhout, E, Bloomfield, B, Hulme, M, Vogel, J, Wynne, B (2012) Listen to the voices of experience. Nature 488: 454455.CrossRefGoogle Scholar
Waterton, C, Wynne, B (2004) Knowledge and political order in the European Environment Agency. In: States of Knowledge: The Co-Production of Science and the Social Order, ed. Jasanoff, S, pp. 87108. London, UK; New York, NY, USA: Routledge.Google Scholar
Supplementary material: File

Beck and Forsyth supplementary material

Beck and Forsyth supplementary material

Download Beck and Forsyth supplementary material(File)
File 13.9 KB