Introduction
Climate change and biodiversity loss are concepts born and refined in global fora [1–4]. The respective discourses, which are dominated by concepts of the Global North [5,6], take place among scientists, politicians, civil servants and highly specialised segments of civil society. 1 The concepts are based on the post-Enlightenment consensus that humans and nature follow different rationales [7,8]. Although the two concepts have different origins [9], both generate discourses seeking sustainability, trigger public policies and impact communities worldwide [10,11].
Anybody who has conducted transdisciplinary research or organised community-focused activities has probably noticed the stark asymmetries that occur when communicating topics related to climate change or biodiversity loss [12]. On the local level, such terms often encounter a lack of comprehension, as technoscientific representations of quantifiable causes and effects often remain alien to many local perspectives. Research on transdisciplinary science communication [13–15] demonstrates that we do not deal with a mere communicative gap but an entire cascade of tangible barriers in approximating ‘the local’ [8,16].
Nonetheless, thoughtful communication has a pivotal influence on successful research and joint project/policy implementation [17,18]. It is especially the creative co-production of knowledge that requires attention [19]. Ostrom [20] defines co-production as a process in which a common product is created through the contribution of actors from different origins. Accordingly, co-production can improve the effectiveness of research by linking it to community preferences and needs, which contributes to feasible solutions ([21], p. 251, 253), and co-production addresses the ‘relevance gap’ towards solving common problems [22]. Therefore, research instruments such as living-labs and citizen science, which test innovative sustainability approaches with relevant societal actors, have become more common [23–25].
Furthermore, policies often seek to include local actors through co-managing natural resources for conservation, mitigation and adaptation strategies [26,27]. Community-level responses are crucial for fighting global challenges [28]. Yet, neglecting to include communities during the various stages of a project creates a gulf that can hardly be bridged afterwards, ultimately eliciting failure to achieve the intended goals or even causing collateral damage [29]. For example, although the United Nations Conference on Environment and Development already acknowledged the value of indigenous and local knowledge for sustainable resource management back in 2002, bridging the communicative gap between different knowledge systems has not been adequately included in development or research programmes [30,31]. Local knowledge has large potential – for instance, species of agroforestry-systems can contribute to adaptation to droughts and, hence, to food security [32], and traditional knowledge about biodiversity indicators maps current developments accurately [33] – but it is mostly overlooked [28]. The success of climate and biodiversity goals depends on adequate communication and the agency attributed to local communities; 2 there are still many gaps and barriers to address [34]. Notably, the land sharing/land sparing debate [35,36] sheds light on the role of underlying presumptions regarding global conservation policies.
In this article, we pick up these threads by examining how project teams actually communicate with local communities within the context of projects addressing climate change or biodiversity loss – and reflect on best practices and their own perception of diverging concepts. 3 We showcase and analyse eight case studies that present such interactions during and after fieldwork in eight different countries (covering four continents). Each case study involves a specific set of approaches towards making global concepts accessible and connecting them to indigenous and local knowledge. We evaluate the case studies based on a set of eight indicators. They are derived from the critical literature on the communicative status quo [37,38] as well as Verran’s [39] communicative utopia of postcolonial moments projecting disruptions of epistemic power relations, which foster the co-existence and discursive construction of alternative knowledge systems. Thereby, postcolonial moments are also part of the endeavour to increase the agency of local actors. Hence, our indicators suggest where communicative processes should start connecting co-produced knowledge to sustainable transformation processes at the local level [40–43].
Method-wise, we draw learnings from an ex-post evaluation of the case studies based on our indicators. The case studies originate from our own fieldwork, which is why the approach amounts to a collective self-assessment and a peer-learning exercise. The narrative reflection of our own work, alongside the diversity of backgrounds and experiences among the authors, ensures a process that mimics an expert survey.
We aim for three contributions: first, we augment the academic discourse on communicating climate and biodiversity issues to the local sphere. Second, the article helps researchers and professionals in the field by providing communicative best practices and highlighting drawbacks to avoid. We wish to fundamentally challenge the idea of ‘science communication’ as it is currently being practised when communicating North–South. To this end, the study develops a model of the inner logic of progress towards postcolonial moments as well as tangible and straightforward insights on the benefit of various communicative elements; summing up the latter, we are projecting an eventual change in attitude. Third, we hope that the article stimulates a discussion among policymakers, project financers, and perhaps also among local communities on the role of, and requirements for good communication in the context of climate change and biodiversity loss projects. Our article supports, corroborates and deepens the call for research on community responses expressed by Washbourne et al. [28]. Accordingly, this article understands itself also as a call for a more profound preparatory training of Western(-ised) field researchers working in the Global South, who often assume that their concepts must be communicated and understood instead of scheduling enough time for comprehending and co-producing local knowledge and concepts.
The remainder of the article is structured as follows: the second section constructs a theoretical background for our work and presents our indicators of good stakeholder communication regarding climate change and biodiversity loss. Subsequently, the case study overview section presents and deconstructs the eight case studies according to various criteria, summarised in case study matrices (the Appendix contains detailed accounts of the case studies). The following section evaluates, analyses and discusses the case studies, based on the indicators defined in the second section. The section Stories of postcolonial moments portrays three examples of good communication to illustrate best practices. The Conclusion section sums up the article’s conclusions and offers policy recommendations.
Theoretical background and indicator design
Climate and biodiversity are mostly approximated by technoscientific approaches such as computational models of geoscience, ecosystem analysis, the energy economy and any combinations thereof [59–63]; much of which is prominently covered in reports by the Intergovernmental Panel on Climate Change [64] and the Intergovernmental Science-Policy Platform on Biodiversity and Ecosystem Services [65].
These approaches allow for simplified shifts between global and local perspectives; however, reducing the discourse to models and numbers limits the factual scope of the analysis [66]. Quantifiable transformations that rely on de-contextualised approaches [67] suggest that analysis and solutions are objective; yet, such methods typically neglect social, political, cultural or local economic aspects [27,68,69]. Moreover, especially models that seek to approximate the regional level suffer from biases and insufficiencies in data and methods [59,70].
O’Lear [14] provides a critical perspective with a science and technology studies (STS)-oriented reflection of technoscientific ontologies of climate change. O’Lear finds that the dominant approaches, including the fixation on carbon indicators and their inherent cultural perception biases, obscure collateral damages on the local scale, ultimately causing the perpetuation of environmental injustice in the access to resources. O’Lear ([14], p. 2) links this phenomenon to Nixon’s [71] concept of ‘slow violence’: ‘Slow violence is not a movement, as are environmental justice and climate justice, but it is a concept that focuses attention on latent, gradual, and invisible negative externalities related to mis- or abuse of environmental resources and ecosystems.’
This aligns with a general marginalisation of local populations by implementing technoscientific environmental solutions without an integral drive towards mutual exchange and dialogue. For instance, state authorities can restrict access to natural resources in a protected area, a top-down action that threatens local communities’ ancestral livelihoods and their relation with land, or may criminalise local customs, products and economies [72–75]. Prominent examples are the effects of hydroelectric dams, mining or agro-industrial activities. Even if the impact of techno-centric top-down action is felt slowly, it is nonetheless violent; it is a gradual loss of agency and quality of life that may sometimes be unintentional yet could often have been prevented by appropriate transformation management. Hence, communication may also be the key to preventing slow violence from gradual change caused by secondary effects. 4 Consequently, the epistemic, financial and political dominance of the protagonists leading the scientific and global policy process has resulted in predominantly technoscientific approaches and solutions that often fail to consider the abundant sociological and anthropological research covering the same domains [76,77]. Such bias is deeply rooted in the history of knowledge production, and scholars rarely explore ‘the ways in which science can be conceived as being composed of “travelling narratives”’ ([78], p. 273). Hence, a critical reflection on the origins of scientific presumptions is necessary. Answering James Clifford’s [79] question, ‘How do theories travel among the unequal spaces of postcolonial confusion and contestation?’: between social media and interdisciplinarity, attention should be paid to circulating narratives transporting fragmented rights and wrongs.
Accordingly, changing the perspective towards a deeper understanding of the perpetuation of unsustainable lifestyles and its overcoming may be crucial, such as proposed by Hulme ([80], p. 335): ‘The challenge of responding to climate change is to turn our gaze away from making firmer, newer, or more integrated scientific knowledge and instead to ask why enacting directed change is so hard to accomplish. It is less about asserting firmer facts about the world or constructing less uncertain projections of the future. Rather, it is more about cultivating appropriate public spheres of contestation and deliberation about multiple and diverging worldviews, beliefs, and value systems.’ Hulme emphasises the limited powers of human agency due to the complexity and uncertainties prevalent in climatic systems. According to him, the fusion of method-based scientific and holistic local knowledge – something amounting to a knowledge–perception–narrative nexus – might close knowledge gaps despite different worldviews. Is it probably more than a communicative gap, due to ‘the problem that the difficult normative dimensions of the relationship between knowledge, values, and action have not been sufficiently attended to’ ([80], p. 334). This is precisely the path on which we would like to follow up.
The literature covers different examples of bridging communication gaps between diverse knowledge systems and perspectives, such as Mar Delgado-Serrano et al. [81] for Latin America and Hill et al. [82] for Australia. However, Verran’s [39] work on postcolonial moments may be the most powerful description of the necessary paradigm shift. In the context of an encounter between Western scientists and Aboriginal landowners for a workshop on fire regimes, in which local knowledge was met with incomprehension and ignorance, Verran highlights the importance of being aware of the various biases towards local knowledge. She ([39]: p. 730) describes postcolonial 5 moments as disruptions to ‘power relations characteristic of colonising’, involving ‘both, making separations, and connecting by identifying sameness’; this ‘sameness’ ‘is not a dominating universalising’, but it ‘enables difference to be collectively enacted’. Postcolonial moments happen when competing knowledge systems clarify similarities or disagreements in new ways without alienating each other, fostering mutual understanding and interest in a discursive construction of each other’s world. This process requires allowing enough time for reciprocal approximation and dialogue towards postcolonial moments of understanding (cf. [85] on ecological reflexivity as a way to reframe sustainability in the context of maladaptive modern institutions).
Why do we consider such postcolonial moments desirable, and what can be gained from them? Assuming that creating an effective communicative level between different knowledge systems is an extraordinary challenge, it is difficult to find reference points for a genuinely non-hierarchical exchange. The concept of postcolonial moments offers identification with a common goal based on the generalisation of comparable practices to achieve this goal. The remaining tension in the construction of sameness can be bridged by the storytelling of practical examples that would fit generalisations, supported by mutual respect for differences. This is where we locate the possibility of theorising jointly, pointing out differences and naming similarities. While academics working in the Global South often find themselves in the camp of colonial traditions, the pursuit of postcolonial moments offers the chance to break traditional power relations and reallocate agency. The latter increases the options for co-production by respecting differences and acknowledging the common colonial past. In the words of Verran ([39], p. 757), postcolonial moments offer ‘a starting point for non-hierarchical knowledge exchange between different knowledge systems’. In this sense, the concept connects to creative co-production [20], which has been operationalised by Durose et al. [22] towards closing the ‘relevance gap’.
Constructing a discursive space for such exchange on equal terms requires reflecting on power relations, time and space for communication [86,87].
Therefore, and building on the theoretical framework established above, we define a set of indicators of good stakeholder communication regarding climate change and biodiversity loss (see Table 1). These criteria reflect the settings of a good communicative process as suggested by the interdisciplinary literature covering the co-production of knowledge. (1) Implies the (sufficient) allocation of time and human resources to the communicative process [13,86]; (2) calls for the reflection of space permeated by power relations in which knowledge production takes place [86,87]; and (3) refers to the unequal access to (natural) resources by the different actors involved [88,89]. (4) Calls for deconstructing technoscientific concepts and recontextualising problems and solutions connected to ‘the local’ [14,16]. The de-hierarchisation of communication (5) requires sensitivity from the involved parties as well as a clear and respectful inner attitude [14], which can also be fostered by the inclusion of local narratives (6) [81]. This may lead to an appreciation of diverging world views, beliefs and value systems (7) as well as decentring knowledge and value systems (8) [39]. These eight elements are sometimes partially realised, adding to gradually better communication, possibly allowing for a postcolonial moment.
# | Indicator | |
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1 | An acknowledgement of the role of communication and the resources it requires | |
2 | An analysis of the local and intra-project power relations | |
3 | A reflection on environmental injustice | |
4 | A deconstruction of technoscientific concepts | |
5 | A de-hierarchisation of communication | |
6 | An inclusion of local narratives | |
7 | An appreciation of diverging worldviews, beliefs and value systems | |
8 | A decentring of knowledge and value systems |
Case study overview
This section introduces our eight case studies (see Table 2). 6 They originate from eight different countries in four different regions: Brazil and Colombia in South America, India and Bangladesh in South Asia, Tanzania and Egypt in Africa and Germany and the British Isles of Scilly in Europe, each one covering a distinct communicative process. The Appendix provides detailed narrative accounts of each case study, whereas Table 2 summarises the case studies, Table 3 provides an overview of the communication in each case study, and Table 4 contains central successes, drawbacks, learnings and surprises in the case studies.
Title | Communicating climate change: what’s the forest worth? | Co-producing and co-learning climate adaptation strategies in biodiversity conservation: lessons from Colombian protected areas | Communicating climate change in the Indian Sundarbans | Communicating grassroot stakeholders: climate change and biodiversity crisis in coastal Bangladesh | The Aswan DESIRE Workshop on socio-economic impacts of RES in MENA countries | Ecosystem Services as a rallying concept in multi-stakeholder workshops on biodiversity management and conservation | Dissidence and sabotage to redress scientific bias in communicating desirable coastal land management futures | Fieldwork experiences from climate change adaptation research on the Isles of Scilly |
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Region | South America | South Asia | Africa | Europe | ||||
Location | Amazon rainforest, Brazil | Various protected areas in Colombia | Mousuni Island, India | Shyamnagar Upazila, Bangladesh | Aswan, Egypt | Lake Manyara Basin, Tanzania | Baltic Sea, Germany | Isles of Scilly, United Kingdom |
Context (What is the larger context of the case study?) | Interdisciplinary research project on climate change and land management. The activity aimed at assessing carbon stocks, analysing knowledge production, and providing indigenous people with data for REDD+ projects | Interdisciplinary research project on how to strengthen protected-area managers’ capacities to anticipate and respond to climate change and to rethink conservation and management strategies for climate adaptation | Research project on the effects of water-related hazards on the vulnerability of islanders to climatic events. Analysis of the adequacy of institutional support for locals who lost faith in gov. support and engaged in maladaptation practices | Research project on trends in aquatic ecosystems of the coast of Bangladesh. Investigation of community perceptions on changes in the ecosystem, biodiversity and their impacts | Capacity-building project for higher education institutions in teaching students and young professionals in the MENA region on evaluating the socio-economic impacts of renewable energy/energy efficiency | Multi-disciplinary research initiative-project to support the development of a decision-support system for integrated water management and for assessing priority ES | Interdisciplinary research project on climate change and coastal land management. Key topic: evaluation of coastal protection scenarios based on managed realignment compared to conventional hard defence | Research project to analyse the role of social capital and community resilience in the context of climate change adaptation |
Duration of the case study event (without interviews) | 4 weeks field trip and 1 day presentation | 40 days with various workshops 28 individual interview sessions | 6 days with workshops 120 individual interview sessions | 60 workshops of 3 hours each | 1-day workshop | 6 days, split into two workshops | 1-day World Café and 21 expert interviews | 35 interview sessions, split over 9 weeks 1-day workshop |
Focus area | Mitigation (REDD+) | Adaptation and conservation (various) | Adaptation (extreme weather) | Adaption (responses to biodiversity loss) | Climate change mitigation (renewable energy) | Adaptation (ecosystems) | Mitigation (CO2 storage) and adaption (sea level rise, extreme weather) | Adaptation (sea level rise) |
Location | Amazon rainforest (Brazil) | Colombia | Mousuni Island, (India) | Shyamnagar Upazila (Bangladesh) | Aswan (Egypt) | Lake Manyara Basin (Tanzania) | Baltic Sea (Germany) | Isles of Scilly (United Kingdom) |
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Duration (incl. preparation) | 6 months | 36 months | 6 months | 12 months | 6 months | 12 months | 18 months | 18 months |
Context and intention (To which communic. does the case study refer?) | Field trip with community participation and a presentation for indigenous leaders Intention: knowledge extraction and, later, dissemination | Multi-stage, dialogue-based activity series with stakeholders Intention: dissemination, transitioning to co-production of knowledge | Multi-stage primary survey with focus-group discussion, interviews, and workshops with different stakeholders Intention: extraction transitioning to co-production of knowledge | Household surveys and focus-group discussions Intention: extraction of knowledge | Local stakeholder workshop with talks and discussions for dissemination and identification of deficits Intention: dissemination of knowledge | Two multi-stakeholder participatory workshops, surveys, and field visits Intention: dissemination, transitioning to co-production of knowledge | Multi-step process to assess pre-formulated scenarios with semi-structured interviews and World Café Intention: Co-production and evaluation of scenarios; Dissemination of knowledge | Multi-stage fieldwork with quantitative surveys, semi-structured interviews, and participant observation Intention: extraction of knowledge |
Recipients | Indigenous leaders; indigenous youth during the field trip | Primarily protected-area managers. In some stages, local NGOs and communities | Local communities and NGOs, government officials at the village and district level | Community members, directly and indirectly, dependent on aquatic systems | Local leaders, civil society representatives, journalists, business owners | Local authorities, NGOs, pastoralists, smallholder farmers | Experts (for interviews and World Café) and interested public World Café and focus groups) | The local population, local authorities, NGOs, landholders, experts, and media, |
Instruments | Presentation of results with carbon deconstructed to ‘energy’ and REDD+ mechanisms as a contract Visualisations with cartoons and comparisons to everyday life experiences of local indigenous leaders Common field trip with daily discussions | Interlinked five-stage participatory dialogue with varying degrees of stakeholder involvement Sequential workshops with different stakeholders In-depth interviews Visualisation of participant responses with diagrams and cartoons | Trust building Awareness raising (documentaries, videos, pamphlets in the local language) Participatory rural appraisal techniques to represent local resources Interactive construction of historical timelines Discourse and narrative visualisation Questionnaires and Participant observation | On-site literature survey of local concerns (Key-informant) Interviews Narration-based deconstruction of biodiversity in interactive sessions Focus group discussions Questionnaires design of a tailor-made questionnaire Ranking of aquatic resources | Lecture-style talks and presentations Brief discussions Feedback survey asking for the participants’ opinion | Facilitated brainstorming in group discussions, drawing from experiences Collective stakeholder analysis (interest–influence matrix) Problem/solution trees Drawing of community-specific maps Collective field visits Videos of testimonies about workshops | Expert interviews formed the basis of one ‘stakeholder-based scenario’ World Café participants were asked to comment, reject or approve the scenarios Scenarios visualised possible coastal evolutions in different time steps Evaluation of scenarios’ rationale | Fieldwork spread over different seasons Early media announcements (local radio, websites) Interviewees could decide on the ‘terms’ of the interview Public discussion of research results Participant observation Climate change deconstructed to hazards and impacts |
Location | Amazon rainforest (Brazil) | Colombia | Mousuni Island, (India) | Shyamnagar Upazila (Bangladesh) | Aswan (Egypt) | Lake Manyara Basin (Tanzania) | Baltic Sea (Germany) | Isles of Scilly (United Kingdom) |
Ex-ante challenges (Which initial challenges did the communication face?) | The communication concept was not aiming at mutual exchange but at unilateral communication of scientific facts | ‘Accommodating ecological change’ conflicts with present rules to maintain ecological attributes Climate change is regarded solely as an exogenous, technoscientific problem, separated from governance/decision-making | Limited awareness of the (potential) connection between mangrove depletion and deforestation in general to the increasing intensity of extreme climate events Lack of political appetite and capacity among government authorities to engage in conversations about climate issues | Stakeholders used to top-down approaches by project managers and governmental representatives | Limited communication between the European team and local organisers Limited interdisc. understanding of participants Participants are unfamiliar with participatory formats | Implementation of the ‘evidence-informed’ approach tedious and complicated Indicator-based communication and ES often too complex for communication Audience varies unpredictably between workshops | ‘Managed retreat’ often provokes resistance Co-Design is difficult to integrate in natural-sciences-dominated projects Stakeholder preferences are difficult to include in quant. modelling | Scepticism towards UK-based ‘experts’ Heterogeneity of stakeholder perspectives and preferences Varying population and weather patterns between different seasons |
Special achievements (What worked out especially well?) | Joint data generation allowed for insights into the ‘making of’ science Novel data obtained that would not have been available without this collaboration | Construction of a common ‘native’ narrative Past experiences and reflecting on uncertainty and ecological transformation helped reframing assumptions and move from reactive management to anticipation | Interactive construction of timelines and visualisations helped to tap and access local knowledge and establish a common ground on challenges and need for biodiversity preservation Established an initial understanding of the inter-dependency between maladaptation practices and climate vulnerability | Using local facilitators talking local dialect referring to a locally found habitat; instead of ‘biodiversity’ use of concrete examples of aquatic fauna | Large number of attendees Project coverage online and in newsletters 70% ‘very good’ or ‘good’ feedback responses | Comparative analysis of literature and stakeholder perceptions worked out Locally respected facilitators in own language helped gaining trust and access Community mapping was the most attractive tool in terms of ownership and participation | Using the concept of ‘land management’ helped to move the focus away from coastal defence and enabled debate on alternatives | Successful deconstruction of climate change due to local narratives (sea level rise/storms) Including a variety of stakeholders across seasons reduced biases Transparent approach increased trust |
Drawbacks and difficulties (Which problems persisted?) | A technoscientific representation of climate change as a ‘problem to be measured’ prevailed among the scientists and obstructed an exchange on equal terms | A natural disaster forced the organisers to cut two of the planned four workshops | Links between global phenomenon and climatic events; between decreasing biodiversity and increasing vulnerability on the islands were not entirely established within the limited time frame | Communic. of biodiversity concept was only partially successful Local units were largely unknown The multitude of local names for single species led to confusion | No translation available for European researchers Diverging objectives of organisers (dissemination vs. participation) Monopolised discussions by speakers and elites Participants refused an interdisiplinary discourse | SES were too complex for time frame and target audience Participants expected ‘quick solutions’. Economic valuation of ES could not be realised Struggle for resources amongst participants | Tight control of the participatory process led to unplanned bottom-up responses, where some participants rejected the steered process to question the scenarios and their underlying assumptions and reclaim control of the evaluation process | High inter-seasonal variability of locals (e.g., second-home owners and busy tourism-sector affiliates are only available in summers) made it difficult to capture ‘all’ voices |
Surprises (Which unexpected developments or insights resulted?) | Local leaders were more interested in methods (e.g., how to determine the price of emissions to be certified) than policies | The communication was first hierarchical, despite extensive consultation during development and a sincere commitment to co-production | High willingness of the inhabitants to take part in participatory discussions and finding solutions together to increase resilience to future climate events | Expectations of concrete help from the research project regarding biodiversity loss Each species had two to four local names | A higher share of female participants than expected Some participants engaged to create business networks with European project partners | Pastoralists acknowledge differentials in grass quality but avoid discussing overgrazing Pastoralists seemed rather unconcerned about the drying of the (saline) lake | Protesting participants created their own dynamics by reshuffling the rules of evaluation and by constructing a scenario that fitted their preferences | High awareness of the islands’ historical sea-level changes Despite the scepticism towards UK-based ‘experts’, the (German) researcher was welcomed by the stakeholders |
Main learnings (What can we learn with regards to the communic process?) | Obstacles from persistent diverging interests of researchers and stakeholders Co-design of topics is key to successful transdisciplinary research No ‘objective’ way to discuss climate change Climate change images are still not disentangled from colonial settings and socioeconomic imbalances | Local knowledge on adaptation can be as important as science for informing decisions Climate adaptation connects to various values and chances Communic. should highlight co-benefits and immediate management opportunities rather than potential future approaches | Local knowledge needs to be systematised and included in policy discourses Potential points of Conflict and awareness of the local dynamics are important for researchers/external agents Regular communic. on global climatic events is necessary to take local communities onboard for adaptation | Assessing the local knowledge-base and using local languages is necessary to work with the community on these challenges | Necessity to harmonise organisers’ objective Take measures to enforce active participation of all attendees Include stakeholders of different academic backgrounds | Impact limited to local awareness-raising Mixed methods, tangible and rallying concepts as well as examples from everyday life are useful Small groups better than plenary to overcome social control and hierarchies Respected locals and civil-society intermediaries crucial for process and legitimacy | Perception, preference and rationalisation gaps between science, policy and local population Co-production requires balancing participation and control Scientists need to be persuaded to use co-design Funding agencies need to give more flexibility to use exploratory co-production | Local experiences and awareness are necessary to allow deconstructing concepts Biases can be reduced by including non-dominant stakeholders and extending the time frame over different seasons Transparency is crucial for gaining trust and participation |
Each case study is an ex-post empirical observation of a communicative process with a local community or local experts. All dialogues happened within research frameworks or, in one case, capacity-building projects that did not explicitly investigate communicative processes. Instead, the researchers developed their communication strategies solely to fulfil their projects’ objectives without explicitly considering the topics addressed by this study. Therefore, the variety of contexts and communication instruments provides a valid basis for analysing the determinants of successful communication and extracting conclusions and recommendations that may be extrapolated.
In the Brazilian Amazon, deep carbon measurements in the context of indigenous REDD projects (Reducing emissions from deforestation and forest degradation in developing countries) led to the case study ‘Communicating climate change: what’s the forest worth?’. In Colombia, extensive fieldwork on the management of protected areas provided the basis for the case study ‘Co-producing and co-learning climate adaptation strategies in biodiversity conservation: lessons from Colombian protected areas’. The case study ‘Communicating climate change in the Indian Sundarbans’ originates from a remote area of northeast India, where climate change was known as a term though not as a concept. Similarly, the case study ‘Communicating grassroot stakeholders: climate change and biodiversity crisis in coastal Bangladesh’ reports from the experience of investigating the consequences of aquatic biodiversity loss in Bangladesh. From Tanzania, the case study ‘Ecosystem services as a rallying concept in multi-stakeholder workshops on biodiversity management and conservation’ covers the usage of an innovative toolbox for stakeholder communication. Moving indoors, we also have two case study examples of more conventional communications: the case study ‘The Aswan DESIRE Workshop on socio-economic impacts of RES in MENA countries’ from Egypt and the case study from the German Baltic Sea coast, ‘Dissidence and sabotage to redress scientific bias in communicating desirable coastal land management futures’. Our last case study, ‘Fieldwork experiences from climate change adaptation research on the Isles of Scilly’, covers the experience of extensive fieldwork on a British archipelago on local climate change impacts.
Analysis and discussion
Here we discuss the case studies. We start by assessing the case studies based on the eight indicators defined in theoretical background and indicator design section. Subsequently, we discuss to which extent the indicators have proven valid measures of communicative achievements. We then move forward to identifying best practices and their determinants among the case studies.
Assessing the case studies
We start with an individual assessment of each case study. Table 5 summarises our results: based on the case studies’ approaches to communication and their respective fulfilment of our indicators (cf. Tables 3 and 4), we mark whether the indicators (cf. Table 1) were not (sufficiently) fulfilled, partially fulfilled or were strongly fulfilled. We evaluated an indicator as ‘not (sufficiently) fulfilled’ if the case study description does not cover efforts towards fulfilling the respective indicator, ‘partially fulfilled’ if the case study exhibits some attempts at fulfilling the indicator although with limited effort or success, and ‘strong fulfilment’ if the case study showcases major efforts and success towards the respective indicator.
Case study indicator | Amazon Rainforest (Brazil) | Colombia | Mousuni Island (India) | Shyamnagar Upazila (Bangladesh) | Aswan (Egypt) | Lake Manyara Basin (Tanzania) | Baltic Sea (Germany) | Isles of Scily (United Kingdom) | |
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1. Acknowledgment of necessary resources | |||||||||
2. Analysis of power relations | |||||||||
3. Reflection of environmental injustice | |||||||||
4. Deconstruction of technoscientific concepts | |||||||||
5. De-hierarchisation of the communication | |||||||||
6. Inclusion of local narratives | |||||||||
7. Appreciation of divergence | |||||||||
8. Decentring knowledge and values | |||||||||
Postcolonial moment conceivable |
Note: an empty cell (red) marks no significant fulfilment, ‘+’ marks fulfilment (light blue), ‘++’ marks strong fulfilment of the indicator (dark blue).
In the case study from the Amazon rainforest (Brazil), researchers communicated with indigenous people to gather research data on deep carbon and, in a second step, to provide the communities with the respective data for REDD+ negotiations. The second goal was formulated after a sound reflection of power asymmetries and environmental (in-)justice in compensation schemes. However, the research project neither foresaw knowledge co-production nor local knowledge-transfer towards the researchers. On the contrary, the communication was limited to a unilateral presentation of scientific facts by deconstructing carbon towards energy. As the community perceived the communication as a mere top-down event, indigenous leaders remained indifferent to the research results, despite their explosive political nature. Instead, they showed interest only in practical matters such as carbon pricing. 7 During a joint field trip with indigenous youth, it became clear that the technoscientific conceptualisation of climate change (i.e., something to be measured) prevented a more profound knowledge exchange.
In the Colombian case study, most indicators of good communication were eventually fulfilled. Extensive consultation during the project and translations of the relevant material to the local language contributed to the communications’ de-hierarchisation, which was also apparent during the workshops. The project set out to deconstruct the technoscientific framing of climate adaptation and biodiversity conservation by creating engagement between belief and knowledge systems, analysing the institutional factors shaping decision-making, eliciting stakeholders’ 8 past experiences with change. They included local narratives to work with ‘future proofing’, drawing from shared ideas about the benefits for protected areas and built a baseline of climate-change-related knowledge. The researchers have shown a deep appreciation of the local by mentioning that ‘local knowledge on adaptation can be as important as science for informing decisions’. The team has proven diligence by adjusting the resources allocated for each workshop individually and timing, location and context.
Regarding the case study from the Indian Sundarbans, researchers aimed to study the vulnerability of local communities to climate-related hazards. The scientists claimed to transparently communicate this goal and the purely scientific nature of the project. The technoscientific approach was deconstructed by visualising the relationship between the destruction of the mangroves and extreme weather events and personalising the impact on local communities, especially women, over time. A joint resource-mapping achieved trust-building and the inclusion of local narratives. It was followed by the joint construction of a historical timeline, which demonstrated extreme weather events and subsequent mangrove depletion over time. An appreciation of divergence is evident from the learnings: the researchers concluded that local knowledge should be better assessed and included in climate adaptation plans and that scientists should research local communities’ socio-economic and cultural characteristics beforehand. The study also found that maladaptation practices resulted from information asymmetry and a lack of agency and alternatives. However, the researchers did not anticipate the resources necessary for sharing information on how global climate change and biodiversity loss exacerbate the frequency of extreme events on these islands. While the researchers reacted with successful improvisations, they could not entirely deconstruct technoscientific concepts.
The Bangladesh case study covers a long-term investigation of community perceptions on changes to biodiversity, productivity, livelihood and adaptation responses. The scientists were aware that stakeholders are accustomed to a top-down approach, which is why they invested time and instruments in the de-hierarchisation of communication and the deconstruction of the technoscientific concepts. This was reflected in the intuitive nature of the questions, which covered personal experiences that exemplified the impacts of climate change and biodiversity loss with changes in livelihood and their suspected reasons. At the beginning of each dialogue activity, the team would initiate interactive storytelling using local dialects and examples from the surrounding ecosystems. They aimed to include local narratives to encourage broad participation while further de-hierarchising the discussion and allowing the participants to create their own biodiversity narratives through their own stories and scenarios. The scientists emphasised a substantial communicative gap between scientific understanding and common ‘problems’, which could only be bridged by a clear understanding of the local perspectives. This case study fulfils all indicators striving towards a postcolonial moment.
The Egypt case study depicts a conventional communication, where project results were disseminated in a top-down style. Thus, the communication was overly hierarchical and did not break through the firm social hierarchies among the attendees. The researchers have actually assessed the local and intra-project power relations very well; however, the considerations did not affect the workshop planning. This resonates well with the non-acknowledgement of other requirements, such as interpreters. Technoscientific approaches were not deconstructed or connected to local narratives apart from employability and the local economy. More advanced stages of communication – such as a decentring of systems – were not pursued. However, it is noteworthy that these shortcomings occurred primarily because of differences between the European team and the local academics, who organised the event mostly by themselves. Hence, the pivotal communication to assess might not be the one taking place during the workshop but the one related to the organisation process. However, the final audience had a positive impression of the workshop and was satisfied with the results. Thus, there may be significant untapped potential in the community for further communication efforts.
The case study from the Lake Manyara Basin (Tanzania) shows a highly sophisticated approach towards the co-production of a decision-support system. The researchers used a multitude of communication techniques to capture and include local views, supported by simultaneous language interpretation. Also, using a co-produced stakeholder analysis, the researchers aimed to assess and include local power relations. They were open to learning from the local population, and their evidence-based approach aimed at integrating mainstream perspectives and local knowledge into one structure. However, despite their multitude and sophistication, the deconstruction of technoscientific knowledge was only partially successful: the target audience did not fully comprehend the (North and South) researchers’ presentations and group exercises on social-ecological systems (SES) (notably, the valuation and flows of ecosystem services [ES]). The local community’s tendency to expect ‘quick solutions’ from the researchers indicates that the implication of local scientists and colleagues from elsewhere in the Global South may not suffice to de-hierarchise the communication and lead to a postcolonial spirit.
The Baltic Sea case study (Germany) illustrates a traditional approach to stakeholder engagement in science-dominated projects. The project team engaged experts and the local community in a strongly steered communication about science-driven scenarios on coastal land management. To satisfy the somewhat contradictory expectations by the funding agency (a strong emphasis on specific modelling approaches while also demanding participatory settings), scientists originally planned to control the agenda, the proposals to be considered by stakeholders and the evaluation methods rather than to yield power to the involved stakeholders, engage in true co-design and create a balance between both sides. Although the project invited different voices in different participation formats and included visualisation instruments, stakeholders could not shape the project. The discussion remained a hierarchical scientist-to-expert and local population approach. During a session of interactive group discussions, a group of stakeholders in strong disagreement with the scenarios presented rejected the top-down rules of evaluation to achieve their own goals and bring their preferences to the fore. This spontaneous bottom-up response contributed to a delayed appreciation of divergent views, fed internal critiques of the conventional distribution of power within the communication, and the project team’s deconstruction of the technoscientific language. However, this could not fundamentally alter the project’s predetermined conditions and power structures.
In the Isles of Scilly case study (United Kingdom), interviews about climate change adaptation were conducted individually. They included non-dominant voices, and interviewees could decide on the terms of the interview. Thus, the communication could be de-hierarchised, and a multitude of local narratives – also marginal ones – were emphasised. These efforts also showcase the non-prescriptive role the researcher takes; they learn from the participants in their chosen settings, thus appreciating their perspective and system. Also, through extensive trust-building, the researcher presents themself as a mediator of diverging perspectives and values. Climate change was deconstructed to hazards and impacts, although the islanders’ widespread awareness of climate-change issues might have pre-empted this effort. Notably, the case study was spread over multiple seasons, significantly contributing to trust-building and, hence, the communication’s success.
Discussing the role of the indicators
The indicators relate to different phases of the project process (see Fig. 1). An acknowledgement of necessary resources is required before the project starts (i.e., when designing the project). Analysing power relations and reflecting on environmental justice relate to the underlying theoretical framework and require interdisciplinarity; these aspects are relevant when exploring the region/community before the actual fieldwork starts. Having some idea about these concepts is a precondition for the de-hierarchisation of communication, which – alongside a deconstruction of technoscientific approaches and the inclusion of local narratives – occurs during communication. An appreciation of divergence and the decentring of systems arise from the participants’ mindset during the knowledge exchange and during the evaluation of results.
In our case studies, a comprehensive reflection of frame-conditions (power and justice) or a successful de-hierarchisation occur less frequently than the inclusion of local narratives or a deconstruction of the respective technoscientific approaches. In other words, the ‘on-the-spot’ shaping of the immediate communication seems more widespread than ex-ante scrutiny of the situation. Consistent with the structure postulated in the previous paragraph, the indicators for the further sophistication of the communication to happen during and after the knowledge exchange (i.e., the decentring of belief and knowledge systems and the appreciation of divergence) appear even less frequent; we see them mostly in case studies that already fulfil the other indicators.
Thus, we anticipate an idiosyncratic structure of advancing communication towards postcolonial moments; the structure’s order adheres to the social and introspective effort required to fulfil the indicator instead of its actual timing (Fig. 1). It disembogues into a general divergence of timing, logic and complexity. Considering the resource requirements (e.g., time, human resources, inviting stakeholders) is both the earliest and most obvious action. When approaching fieldwork, shaping the immediate communication 9 is an easily recognisable need for achieving project results. Scrutinising situations and circumstances must (primarily) happen beforehand, but they require more active efforts by researchers and practitioners and a mature perception of the communicative process. Further sophistication, however, requires more than careful planning at every stage – it demands an inner, personal effort driving the project: powerful project professionals and academics need to lay down their guard and their widespread beliefs of hegemony concerning scientific knowledge as the panacea or sole possible framing of reality to start learning from and with local communities.
Furthermore, only a few case studies made efforts to include a reflection on social-environmental injustice explicitly. This observation is not necessarily at odds with our suggested framework, but it may lead to a caveat. It is conceivable that analysis of the power relations and environmental injustice are substitutes rather than complements. To move the communication forward, it is not essential to scrutinise all aspects if the communication has risen to a level where the participants feel confident enough to voice their concerns about secondary effects and slow violence. On the contrary, the lack of reflexivity towards environmental injustice in our case studies confirms that even projects with sophisticated communications tend to focus on interpersonal relations while neglecting overarching mechanisms within the human–nature interaction, which are increasingly shaped by criteria of capitalist exploitation [89–91].
Identifying and discussing determinants
This subsection reflects on the insights acquired hitherto and discusses selected elements that enable successful communication. While the previous subsection focused on a more abstract, conceptual level, this part covers a more tangible approach towards assessing the case studies. It relies on the various details indicated in the project matrices (see Tables 3 and 4) in addition to the assessment made in Table 5. For many, sophisticated techniques (including visualisations) that break down technoscientific concepts may be the most intuitive approach towards designing ‘proper’ communication with local communities. Indeed, all (but one) of our case studies rely on such methods, ranging from problem-solution trees to drawing imagery to conducting interviews. While the case studies suggest that respective methods are necessary to enable a common understanding, their comparison showcases that they are neither sufficient nor can they take a ‘one size fits all’ form. The Bangladesh case study, which fulfils most indicators, contains only a single oral approach to deconstruction and abstains from any more sophisticated elements (such as visualisations). In contrast, the example from the Baltic Sea shows that visualisation alone do not guarantee successful communication, especially if their underlying normative premises are not openly discussed and negotiated with participants.
The case study from Tanzania deserves special notice in this regard. Among all case studies, it uses the most sophisticated toolbox of instruments during communication. However, they were only partially successful in deconstructing science, as some topics remained opaque to the audience. Furthermore, the community expected ‘quick solutions’ from the project team. The latter hints at the approach’s shortcoming in de-hierarchising communication and transforming it into a genuine, decentring process of exchanging knowledge and beliefs between both sides. Instead, and although half of the scientists were from the Global South, the local community continued to perceive a top-down process. 10 Hence, while a broad set of instruments may boost communication, it does not necessarily help the process ‘move up the ladder’ for various reasons (cf. Fig. 1).
Instead, the case study comparison offers two other, less apparent elements for enabling a sophisticated exchange: efforts in trust-building and allowing a pluralist, inclusive panel of voices. Both are central for intercepting group dynamics and for enabling an unbiased exchange. Here, the event’s location also appears to be of particular importance: communication in the ambience of the stakeholders rather than in sterile conference rooms, which are more familiar to scientists, contributes to trust-building and eye-level communication. Besides the case studies from India and Colombia, the Isles of Scilly example shows outstanding efforts towards achieving these elements. Here, the researcher invested in public relations to introduce the local population to his project, and he interviewed members of the community individually while letting them decide on all ‘terms’ of the communication. A counterexample may be the Baltic Sea group discussions: some participants rebelled against the non-negotiated terms of the scientist-led evaluation approach; they thereby reclaimed some control over the process and managed to be heard. In the Bangladesh case study, efforts towards trust-building are less obvious, but the lengthy (and intimate) opening discussions conducted in local dialects may have acted as such.
Moreover, the comparison confirms that allocating necessary resources – time, in particular – is not only the most basic indicator but is also instrumental for achieving successful communication. The case studies that encountered the strongest drawbacks were those with the shortest time frame. In contrast, case studies that allocated more time typically received far better results.
The issue of planning is part of a bigger picture: as concluded in the Brazil case study, local stakeholders’ interests – mostly issues concerning their livelihoods – diverge from researchers’ 11 questions driven by the frontier of their fields. Hence, at best, projects should be co-designed with key stakeholders from the start, as the attempt to co-design research often challenges previously unreflected presumptions. While there is never enough time to seriously ‘co-design’ research with local and indigenous populations, even trying makes a substantial difference.
While most of our discussion focuses on how researchers can improve the process, it is crucial to remark that their hands are often tied by rigid, bureaucratic, and unappreciative funding policies. Especially in the Global North, grant allocation and budgeting practices by national research agencies often prove to be a roadblock by neglecting (or prohibiting) spending adequate resources on genuine stakeholder involvement [92]. Almost all case studies have expressed the concern that their funding (and the red tape behind it) actively prevented them from using sophisticated methods when communicating with local stakeholders or even investing in building relations with ‘research partners’. Currently, an increasing number of calls demand stakeholder interaction and interdisciplinarity on paper, but genuine efforts towards knowledge co-production and mechanism of co-design would be a political decision [43,93] that is neither met with interest nor the necessary resources.
Stories of postcolonial moments
Postcolonial moments circumscribe a utopian communicative process, for which a lack of coherent (science) communication and the status-quo of knowledge generation need to be overcome. Therefore, the prospect of a method that structures these challenges along clearly defined indicators to generalise cross-culturally and create sameness [39] in understanding each other’s meanings opens a new and creative perspective.
Believing in the formative power of narratives, we selected three stories that broadly qualify for encouraging postcolonial moments. The following paragraphs provide additional background on communication experiences in Colombia, Bangladesh and the Isles of Scilly.
In Bangladesh
Even after all the preparatory work, we had difficulties making the local participants understand the concept of biodiversity, its value and its tangible impact on their livelihood. We, therefore, introduced the interactive half-hour session at the beginning of every discussion. The facilitators would start this session by building on familiar notions, using local dialects and referring to the participants’ own ecosystems. The participants were eventually able to catch up very quickly, as they found themselves in familiar territory. Thereupon, the group would become very interactive and ready to share central information with the facilitators. The interactive storytelling approach invigorated the participants and acted as an icebreaker. Still, facilitators worked continuously towards keeping the session as interactive as possible, using follow-up questions. As a result, the participants could grasp the concept of climate change and its impact on biodiversity; they completed their story, based on their own scenarios. The study bestowed a crucial lesson on the scientists: the gap between the scientific understanding of climate change/biodiversity loss and practical ‘problems’ of the marginalised community can only be bridged by understanding the community’s perspective and unearthing their knowledge-base, their way of problem identification, and their thinking on possible adaptive measures – using their very own language.
In Colombia
The ‘Future-proofing Conservation Project’ in Colombia worked under the assumption that experiential learning is central to building capacity and understanding complex concepts. It involved creating spaces for stakeholders to develop and share ideas and discuss social values and the benefits from protected areas. Workshops with protected area staff and local stakeholders helped to explore key questions around ecological, social and economic values, and expectations for the future. This was the baseline to examine knowledge questions (‘How will climate change affect these values?’) and rules (‘How can we prepare our institutions, and what have we learned from the past?’). We adapted these workshops to local contexts and realities (i.e., times, needs and expectations). Crafting this common narrative helped to identify where and how to start while introducing climate change adaptation as a forward-looking policy, conducting planning and management, and determining practical tools to enable this. This facilitates identifying different or additional management to support the provision of benefits from protected areas. The narratives were broadly positive, centred on how people can explore their knowledge and values to improve protected area management in the face of unpredictable climate change.
On the Isles of Scilly (United Kingdom)
There is not a single ‘postcolonial moment’ but a combination of various experiences during the fieldwork that had signs of mutual approximation and dialogue. The trustful relationship with research subjects allowed for an open and informal way of engagement with them that involved discussing and jointly reflecting on the research goals, questions and method. This engagement led to intense conversations on an equal footing. In some cases, they would concern the islands’ future and societal development in general. In other instances, they would lead to very critical and challenging discussions about the research’s key arguments, its approach and the role of human agency. Such discussions happened partly in rather intimate environments, such as at people’s homes, on a fishing boat or at their workplaces. Despite sometimes being highly challenging, they were always respectful and open. This exchange provided a crucial contribution to a ‘postcolonial’ perspective. It influenced the case study’s research approach, the interpretation of findings, and a more balanced representation of ‘local voices’. Moreover, it also affected the researcher’s way of looking at the world and his place as a researcher in a diverse community home to people ranging from residents with a long tradition of dealing with local challenges to newcomers with novel visions to external experts with specialist know-how.
Conclusions
More than 30 years have passed since climate change and the loss of biodiversity entered the global political agenda. Knowledge of these issues has grown considerably thereafter, but progress towards solving them has been meagre. Instead, ‘slow violence’ associated with the secondary effects of climate change and biodiversity loss, their mitigation and fast land-use change spread among local communities, especially in the Global South. These local communities are essential for data collection and policy implementation, but significant communicative gaps between researchers, practitioners and local communities often prevent success.
Therefore, this study has taken a closer look at the role of communication. At its core, it has focused on presenting, analysing and discussing eight case studies of communications between researchers and local communities, summarised in matrices (Tables 2, 3 and 4). Our study was eventually guided by the prospect of designing a method that structures the communicative challenge when addressing problems related to climate change and biodiversity loss along clearly defined indicators for good communication striving for postcolonial moments.
The rich panel of case studies, which crosses geographical and cultural boundaries and combines various instruments, approaches and degrees of communicative success, allowed us to make substantial learnings on how communication is and how it should be conducted. Case studies with an advanced approach towards communication (as measured by our indicators) had more communicative success and approached postcolonial moments, which allowed for disruptions of epistemic power relations towards the co-existence and discursive construction of alternative knowledge systems. In other cases, the communication processes yielded significant drawbacks, even leading to rebellious reactions among local stakeholders. Insufficient progress towards postcolonial moments became often visible in the form of a local disinterest in project results and a focus on quick solutions or monetary benefits. This would be the case, especially when the communication was not sufficiently de-hierarchised.
Furthermore, the case studies suggest a divergence between timing, complexity and (inner) effort towards (action for) making the communication more sophisticated. The indicators thus revealed an intrinsic logic and system of interdependency that does not correspond to the eventual timing within the project but follows patterns of rising complexity and inner efforts from the project team (planning, shaping the immediate communication, ex-ante scrutiny of the situation and sophisticating communication eventually). Therefore, although the case studies often presented a multitude of instruments towards shaping immediate communication, they rarely exerted more profound efforts towards scrutinising power relations or moving towards the equal co-production of knowledge.
This, however, contrasts with the necessities in the field. Whether the aim was to explore new domains, develop and implement solutions or disseminate and exchange existing knowledge, the case studies have shown that knowledge could only be co-produced by carefully creating de-hierarchised spaces for exchange. Although various (sophisticated) instruments in the practitioners’ toolboxes have proven to help deconstruct science, this analysis has shown that they are not always sufficient to remove barriers entirely. Instead, our results suggest that even simple instruments may suffice, while trust-building and allocating enough time for communication seem to be the more critical factors. Hence, instruments and communicating on equal footing hardly substitute for one another; instead, a combination of well-designed elements and an advanced awareness by scientists of their individual status and their postcolonial frame conditions – including approaches such as ‘critical whiteness’ [94] – are required.
We are aware of two limitations to our approach. First, and this applies to all case-study research, there is no way to ensure the generality of our results. However, we believe the substantial variation within our sample – covering different regions, approaches, teams, aims, instruments, resources and degrees of success – ensures a high validity. One active shortcoming is that our sample includes no development assistance project; however, we have no reason to believe that the results cannot be transferred to such communications. Second, our approach dichotomises the involved parties into an ‘external’ project team and local stakeholders. While this approach helps to focus on the communicative process, it underestimates the role of power relations within the project teams. These may, however, be able to provide explanations for some of the behaviour observed, such as the asymmetries found in the sophistication of projects. In fact, our observations suggest that diverging aims and power asymmetries within project teams may be as influential as the outsider–local gradient: who sets project parameters, who decides on budget allocation, who communicates and who is interested in what?
Proceeding to policy recommendations, we hope this article stimulates debate among financers about the importance of high communication standards in respective projects. Especially in the Global North, national research agencies’ adverse grant allocation and budgeting practices typically neglect (or even prohibit) financing anything but a narrow definition of cutting-edge research. Even research carried out by or with researchers from the Global South is often considered not ‘scientific’ enough by funding agencies and scientific publication outlets. Project activities that seemingly diverge from a colonialist (or even just conventional) approach, such as genuine stakeholder involvement, are often considered ineligible expenses. Yet, as this article and the vast body of literature we cited have shown, raising the bar of communication standards when interacting with local populations is not only a matter of development and ethics but also a prerequisite for excellent science. This structural deficit in research governance can also not be simply absorbed by the development sector, as their goals may not necessarily align with those of climate/conservation scientists. Currently, an increasing number of calls demand stakeholder interaction and interdisciplinarity on paper. Still, genuine efforts towards knowledge co-production and mechanism co-design are met with neither interest nor the necessary resources.
Therefore, and in line with Hulme’s ([80], p. 335) demand for a reorientation of research agendas towards a deeper understanding of the barriers towards sustainable lifestyles and their overcoming, our recommendation to policymakers is clear. We advise financing bodies to specifically require advanced communication styles in future research and policy implementation and alter grant and budget practices accordingly. A genuine cross-fertilisation between qualitative social sciences/humanities and quantitative approaches need to become the modus operandi in development-oriented research. Indicators such as ours or postcolonial moments themselves should become project deliveries to which adequate resources and time are allocated. We also encourage all researchers and development practitioners to insist on good communication practices – perhaps even consider our indicators when preparing and implementing fieldwork.
Combating climate change and biodiversity loss may first require changing how we, as scientists, development practitioners, and policymakers, think and talk about it.