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Blue carbon as just transition? A structured literature review

Published online by Cambridge University Press:  20 September 2024

Jennifer Atchison*
Affiliation:
Australian Centre for Culture, Environment, Society and Space, University of Wollongong, Wollongong, Australia
Rose Foster
Affiliation:
TC Beirne School of Law, University of Queensland, Saint Lucia, Australia
Justine Bell-James
Affiliation:
TC Beirne School of Law, University of Queensland, Saint Lucia, Australia Centre for Policy Futures, University of Queensland, Saint Lucia, Australia
*
Corresponding author: Jennifer Atchison; Email: [email protected]

Abstract

Non-technical summary

Substantive carbon is sequestered in mangrove, saltmarsh, seagrass, and other marine ecosystems. Blue carbon is considered to offer potential for enhanced carbon sequestration. Bringing blue carbon to market, however, presents risks to local people and communities with livelihood and other connections to these environments. While efforts are forged to establish payments for ecosystem services, blue carbon presents critical challenges to social and environmental justice. In this paper, we synthesize insights from relevant literature and provide direction for future research on the social and cultural dimensions of blue carbon.

Technical summary

Blue carbon has been proposed as a nature-based solution to mitigate climate change and is the focus of concerted scientific and policy attention. The rush to operationalize blue carbon however, presents significant risks for social and environmental justice where it intersects with inequality and marginalization. To date, the reasonable and just consequences of the social transformation that will accompany blue carbon are under-examined. We undertake a structured literature review of research published over the past decade that addresses the social and cultural dimensions of blue carbon, and chart four themes: (1) conceptual issues, (2) governance issues; (3) emergent lessons (from practice); and (4) future research directions that address: social acceptability; processes to address social justice including engagement, participation, and benefit sharing; information and data deficits; and institutional governance reform. If the stated opportunities are to be fully realized, we argue the social and cultural dimensions of blue carbon, and its intersections with social justice, must be attended to explicitly and clarified.

Social media summary

Just transitions to climate change mean attending to people, culture, and livelihoods as blue carbon is operationalized.

Type
Review Article
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2024. Published by Cambridge University Press

1. Introduction

The term ‘Blue carbon’ (‘BC’) describes both the carbon sequestered in the biomass and soils of vegetated coastal ecosystems including mangroves, saltmarsh, seagrass, and the management approaches employed to ensure the storage of this carbon (Lovelock & Duarte, Reference Lovelock and Duarte2019, p. 1). Blue carbon ecosystems are significant natural carbon sinks due to their ability to trap sediments and accrete vertically (McLeod et al., Reference McLeod, Chmura, Bouillon, Salm, Björk, Duarte, Lovelock, Schlesinger and Silliman2011), and provide a host of valuable co-benefits including water quality improvements, fish habitat, and coastal protection (Barbier et al., Reference Barbier, Hacker, Kennedy, Koch, Stier and Silliman2011). While the meaning of blue carbon in some scientific fields is straightforward enough (Contreras & Thomas, Reference Contreras and Thomas2019), emerging attempts to govern and promote blue carbon are of interest to environmental and critical scholars. This is because targeted interventions aiming to conserve, protect, and restore these systems for carbon sequestration may impinge on anthropogenic land-use, especially in the tropics, where most of the world's population lives (Sasmito et al., Reference Sasmito, Taillardat, Clendenning, Cameron, Friess, Murdiyarso and Hutley2019; Zeng et al., Reference Zeng, Friess, Sarira, Siman and Koh2021). Operationalizing blue carbon for climate mitigation therefore requires bringing together diverse disciplines and spheres of social action (Macreadie et al., Reference Macreadie, Robertson, Spinks, Adams, Atchison, Bell-James, Bryan, Chu, Filbee-Dexter and Drake2022). Accordingly, initiatives – activities aimed at protecting and/or restoring blue carbon ecosystems – are not only complex and challenging to implement, they require critical attention with regard to how and with what effect people and communities are affected when specific environments are delineated for climate mitigation.

Substantial efforts by physical scientists to understand and quantify blue carbon thus far outweigh the depauperate state of knowledge about the social and cultural context in which it may be located. This knowledge gap is significant since the concentration of blue carbon at the coast collocates it with human populations and activity, including some of the most densely populated and economically marginalized regions on the planet (He & Silliman, Reference He and Silliman2019), and because payments for blue carbon actions require changes to existing land-use and livelihoods. Recent progress in bringing blue carbon to market (Lovelock et al., Reference Lovelock, Adame, Bradley, Dittmann, Hagger, Hickey, Hutley, Jones, Kelleway, Lavery, Macreadie, Maher, McGinley, McGlashan, Perry, Mosley, Rogers and Sippo2023; Sapkota & White, Reference Sapkota and White2020) signals a shift in policy, opening the door for on-ground work, but with little acknowledgement of the people and communities who may be affected. Furthermore, despite scientific progress, legal and policy changes to support blue carbon ecosystem protection and/or restoration, projects have been slow to emerge due to key knowledge gaps about social license and uncertainties around benefit sharing (Macreadie et al., Reference Macreadie, Robertson, Spinks, Adams, Atchison, Bell-James, Bryan, Chu, Filbee-Dexter and Drake2022). In effect, operational issues reflect neglect of questions about blue carbon as a nature-based climate solution, and its intersections with environmental and social justice.

Like other nature-based climate solutions, blue carbon requires the transformation of social and cultural relationships – between private and public actors, local and global finance, scientific and other knowledges – and ‘reflect[s] the evolving character of global environmental governance in response to climate change’ (Contreras & Thomas, Reference Contreras and Thomas2019, p. 227). Widespread uptake of blue carbon will be accompanied by redistributions of wealth and decision-making power, and thus requires substantial and ongoing consideration as to its just effects. Environmental social scientists are already attuned to these broader questions of climate mitigation, for example; how particular governmentalities may obscure the real causes of environmental loss and damage (Jackson et al., Reference Jackson, N'Guetta, De Rosa, Scown, Dorkenoo, Chaffin and Boyd2023); how technologies promoted to aid environments can mediate and/or promulgate damaging relations (Gabrys et al., Reference Gabrys, Westerlaken, Urzedo, Ritts and Simlai2022; Turnbull et al., Reference Turnbull, Searle, Hartman Davies, Dodsworth, Chasseray-Peraldi, von Essen and Anderson-Elliott2023); and how deep connections to place intersect with where mitigation activities are located (Praskievicz, Reference Praskievicz2022). Broad frameworks are emerging for implementing just climate transitions (Malloy & Ashcraft, Reference Malloy and Ashcraft2020). However, blue carbon as climate mitigation raises additional and unique challenges for people and communities; the location of blue carbon ecosystems in the intertidal zone is generally the point where different land tenures intersect, requiring wider systems of governance to be re-evaluated (Bell-James et al., Reference Bell-James, Fitzsimons and Lovelock2023); blue carbon ecosystems underpin the fisheries resource and therefore will impact at a global scale as a key source of protein for billions of people, and income for many millions (Teh & Sumaila, Reference Teh and Sumaila2013); and activities that will be encouraged in a blue carbon market, such as the flooding of coastal wetlands for restoration, will impact existing agriculture (Lovelock et al., Reference Lovelock, Adame, Bradley, Dittmann, Hagger, Hickey, Hutley, Jones, Kelleway, Lavery, Macreadie, Maher, McGinley, McGlashan, Perry, Mosley, Rogers and Sippo2023) at a time of increasing global food insecurity. The global blue carbon market is relatively new and mostly dominated by voluntary payment schemes for private equity investment, which are purported to offer ‘niche’ social and environmental benefits despite the absence to date of ‘non-standard’ performance measures (Vanderklift et al., Reference Vanderklift, Marcos-Martinez, Butler, Coleman, Lawrence, Prislan, Steven and Thomas2019).

With these concerns in mind, this paper reviews recent research that addresses the social and cultural dimensions of blue carbon. In doing so, we aim to synthesize emergent lessons, identify key gaps, and bring the social and cultural dimensions of blue carbon more urgently into dialogue with other blue carbon research. In a systematic review of literature almost a decade ago, Thomas (Reference Thomas2014) identified 46 articles focused predominantly on the biophysical science and economic dimensions in existence at the time. As Thomas (Reference Thomas2014, p. 36) noted, ‘little specific research had so far been conducted into the social aspects of blue carbon, particularly around community-level experiences and motivations; that is, the viewpoint of potential sellers of BC’. Since 2014, there has been some attention given to these aspects, although this literature has not been examined in any thematic way. Given the growing interest in blue carbon, including applications from The World Bank (Valero et al., Reference Valero, Miranda and Murisic2021) and the US agency NOAA (Brodeur et al., Reference Brodeur, Cannizzo, Cross, Davis, DeAngelo, Harris, Kinkade, Peth, Samek, Shub, Stedman, Theuerkauf, Vaughan and Wenzel2022), calls for codes of conduct (BNA, 2020; CI, 2022), and the burgeoning nature of blue carbon research in financial markets (Friess et al., Reference Friess, Howard, Huxham, Macreadie and Ross2022) and governance (Bell-James, Reference Bell-James2016), we undertook a structured literature review (‘SLR’) to track progress and outline where future research efforts are best placed to support just transitions.

We commence with a method and scope of data. Our review traces four themes in recent literature on the social and cultural dimensions of blue carbon: conceptual issues; governance issues; emergent lessons from practice; and fourth, future directions for research focused on: social acceptability; resolving processes impacting social justice and sustainability; addressing information deficits; and addressing governance reform. We argue that consideration of these aspects is key to advancing blue carbon in just and sustainable terms.

2. Review method and data

We undertook a SLR, an approach that has been deemed appropriate for ‘under-investigated’ fields and for identifying critical insights and future directions (Massaro et al., Reference Massaro, Dumay and Guthrie2016, p. 767; Secundo et al., Reference Secundo, Ndou, Del Vecchio and De Pascale2020, p. 2). Whilst different methods exist for undertaking SLRs (Armitage & Keeble-Allen, Reference Armitage and Keeble-Allen2008; Massaro et al., Reference Massaro, Dumay and Guthrie2016; Rocco et al., Reference Rocco, Plakhotnik, McGill, Huyler and Collins2023), and methods are not formulaic, SLRs generally involve four key distinguishing elements which we used in our review; emphasis on qualitative content review; focus on addressing questions, including the use of conceptual frameworks and formulation of implications; articulation of a process which could be replicated and verified; and inclusion of data extraction and analysis (Rocco et al., Reference Rocco, Plakhotnik, McGill, Huyler and Collins2023).

After establishing a review protocol (Petticrew & Roberts, Reference Petticrew and Roberts2008), we defined the research questions, as directed by Massaro et al. (Reference Massaro, Dumay and Guthrie2016). Our review sought to answer: (1) how blue carbon discourse is developing with respect to social and cultural dimensions; what emergent issues are apparent (or assumed) in relation to the incorporation of these dimensions into (2) governance frameworks and (3) individual projects (emergent lessons); and (4) what are the implications of these findings for the development of effective, feasible, and just governance of blue carbon initiatives? We selected the Scopus database of peer-reviewed journals (Mishra et al., Reference Mishra, Gunasekaran, Papadopoulos and Hazen2017; Secundo et al., Reference Secundo, Ndou, Del Vecchio and De Pascale2020), including in the environmental and social sciences (Blythe et al., Reference Blythe, Armitage, Alonso, Campbell, Dias, Epstein, Marschke and Nayak2020; Frohlich et al., Reference Frohlich, Jacobson, Fidelman and Smith2018; Moore et al., Reference Moore, von der Porten, Plummer, Brandes and Baird2014). We also conducted pilot searches of Web of Science, Lexis Advance, and Westlaw; however, these did not return new or relevant results. The keywords selected were ‘“blue carbonAND soci* OR cultur* AND governance OR policy OR regulation OR management’. These terms sought to capture literature from a variety of disciplines including geography, law, and social policy, and interdisciplinary fields of conservation, biodiversity, and environmental management. We restricted inclusion to peer-reviewed publications, including empirical and review, and excluded conference papers.

Selected articles were examined, and excluded if they did not specifically address social and cultural dimensions. We suspected the Scopus search did not capture non-indexed scholarship and therefore supplemented with 10 articles, drawn from pre-existing knowledge. These additions were made subsequent to initial coding but were coded the same way. From a replicability perspective, this is a limitation, but necessary to ensure the totality of relevant literature. A second limitation is the restriction of scope to articles published in English, excluding scholarly contributions from diverse languages and cultural backgrounds.

Our review sample includes 35 articles published between 2014 and 2022 (Table 1). We note a steady increase over time in the number of publications related to the social and cultural dimensions of blue carbon (Figure 1). Geographic coverage is broad; just under 30% of articles do not specify a geographic scope, particularly reviews. Works from South America are absent (Table 1). We also identified each article's methodology, which ranged from empirical studies (which particularly focused on understanding stakeholder perspectives – see e.g. Aziz et al., Reference Aziz, Thomas, Dargusch and Phinn2016; Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2020a), to case studies (e.g. Contreras & Thomas, Reference Contreras and Thomas2019), and reviews (e.g. Vanderklift et al., Reference Vanderklift, Marcos-Martinez, Butler, Coleman, Lawrence, Prislan, Steven and Thomas2019) (Table 1). Where relevant, we sought to extract empirical examples from the literature, however, the early stage of this field means that there are limited (peer review reported) examples to draw from to date.

Table 1. Selected studies of social and cultural dimensions of blue carbon included in structured review

Figure 1. Selected articles by year of publication, demonstrating the overall increase in publications addressing the social and cultural dimensions of blue carbon over time.

Our analysis was guided by four pre-identified themes (aligned to the SLR question model): (1) conceptual issues (addressed by 13 articles); (2) governance issues (addressed by 23 articles); and (3) emerging lessons (from practice) (addressed by 23 articles) (Table 1). While reviewing the articles, qualitative codes were inductively generated by one researcher, following discussion and development of the research protocol (Cope, Reference Cope, Clifford, Cope, Gillespie and French2010). The codes themselves were subsequently checked and queried by other team members, until a final set emerged. These codes eventually informed the content of discussion under each of the four themes. After the set of codes were generated, code validity was established by selecting codes and classifying adjacent context. For example, the code ‘land tenure’, initially attributed to the ‘governance’ theme, was tested for strength and impact by assessing whether it was absent, present without definition, or well developed in each article. Each code was therefore reviewed by at least two co-authors, ensuring the insights generated were accurate (Rocco et al., Reference Rocco, Plakhotnik, McGill, Huyler and Collins2023). Our final theme (4) charts future directions and scope for further research.

3. Results

3.1 Conceptual issues: how is blue carbon discourse developing with respect to the social and cultural dimensions?

The topic of blue carbon draws in concepts from across the social sciences that have been discussed at length. Significant amongst those is that the terms deployed within mitigation agendas are far from shorthand descriptor or objective codifier. Rather, terms such as blue carbon become apparent in science, policy, and practice, serving to shift vested political, social, and economic interests, marking their social construction (Castree, Reference Castree2013) in discourse. In short, the social construction of climate mitigation phenomena enables an understanding of blue carbon not only as material phenomena, but also as becoming part of social, political, and social systems (Bridge, Reference Bridge2011) that work in tandem with efforts to materially sequester physical carbon. Within the discourse on blue carbon, as interests and efforts evolve, ideas and concepts take on new meaning and significance. In our review, we identified three key concepts apparent within contemporary blue carbon scholarship on social and cultural dimensions – resilience, care, and ethics – noting how each is shaping the direction of current efforts. As we outline here, these three concepts are contributing to the early social construction of blue carbon initiatives as something inherently good.

First, the concept of resilience is widely, and yet mostly uncritically, deployed as a way of promoting the potential of blue carbon ecosystem protection (also restoration) for livelihood sustainability; that is, that addressing ecosystem conservation will benefit livelihood resilience. The significance and function of blue carbon ecosystems for promoting physical resilience along coasts have been noted by natural scientists for some time (Van Slobbe et al., Reference Van Slobbe, de Vriend, Aarninkhof, Lulofs, de Vries and Dircke2013). In this context, blue carbon ecosystems are also sometimes referred to as ‘green infrastructure’, and are increasingly promoted as part of contemporary adaptation measures to the emerging impacts of climate change such as a sea-level rise (Macreadie et al., Reference Macreadie, Costa, Atwood, Friess, Kelleway, Kennedy, Lovelock, Serrano and Duarte2021), including in developing country contexts (Zeng et al., Reference Zeng, Friess, Sarira, Siman and Koh2021). The use of the term ‘resilience’ in the natural sciences often relies on an understanding of ecological resilience, being traits that promote ecosystem recovery and thereby resistance to stress and disturbance (De Battisti, Reference De Battisti2021). The potential of blue carbon ecosystems for building livelihood resilience is often foreshadowed in science and policy scholarship as a way of addressing existing social vulnerability (Quiros et al., Reference Quiros, Sudo, Ramilo, Garay, Soniega, Baloloy, Blanco, Tamondong, Nadaoka and Nakaoka2021), diversifying livelihoods away from damaging income strategies (Bunting et al., Reference Bunting, Kundu and Ahmed2017), and as remedy to disaster resilience (Lee et al., Reference Lee, Hall and Trench2022). On the face of it, these would seem to be valuable objectives.

However, as has been discussed by social scientists at length outside the blue carbon context, livelihood resilience has long been difficult to define, observe, and measure (Adger, Reference Adger2000; Weichselgartner & Kelman, Reference Weichselgartner and Kelman2015). Within the research we reviewed, resilience has received some limited scholarly attention, approached and measured as part of socio-ecological systems, as social capacity for learning and adaptation to change (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019). And others have been cautious about claims regarding the potential of blue carbon efforts to promote livelihood resilience (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019; Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Restraint from these scholars may reflect an understanding of social complexity, built on empirical analysis and diverse geographical case studies (see Table 1), that acknowledges that while some people and communities benefit from conservation actions, others do not. For example, benefits derived from projects that aid livelihoods can be distributed, long-term and difficult to attribute to mitigation activities undertaken (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019; Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Critical scholars have argued that asserting such outcomes will flow from blue carbon initiatives, risks trivializing and disadvantaging those communities projects seek to address (Song et al., Reference Song, Dressler, Satizábal and Fabinyi2021). Testing assumptions about blue carbon and livelihood resilience is therefore essential, as is a more robust approach to its conceptual deployment within research.

Second, the concept of care has been used to highlight the value of blue carbon in climate mitigation. For example, in non-government circles (e.g. RTW 2024), and private development initiatives (e.g. BHP 2024), care is being mobilized to raise public awareness and generate social license. Care is a strongly normative concept and has received extensive attention in environmental fields (Conradson, Reference Conradson, Del Casino, Thomas, Cloke and Panelli2011; Milligan & Wiles, Reference Milligan and Wiles2010) owing to its widespread and diverse use in framing socially desirable human relationships with the environment and other aspects of social life. Normative environmental reproductions of care are derived from dominant, often scientific, approaches to environmental governance rooted in a modernist ontology (DePuy et al., Reference DePuy, Weger, Foster, Bonanno, Kumar, Lear, Basilio and German2022). These commonly assume a public good model of goal setting, treating individuals, communities, and organizations in flattened ahistorical hierarchies with perspectives, attitudes, and behaviors to be managed or addressed, often as lacking in relation to care (Bennett & Satterfield, Reference Bennett and Satterfield2018). Such constructions of care can make it difficult to identify what constitutes care, or that some forms of care are valued or more desirable over others (DePuy et al., Reference DePuy, Weger, Foster, Bonanno, Kumar, Lear, Basilio and German2022). For example, as some have claimed in the literature we reviewed, there is a risk that blue carbon projects, often driven from ‘elsewhere’ (often developed world contexts) promote blue carbon initiatives in aid of protecting the environment, but repeat damaging colonial histories and paternalistic approaches when they assume either that people don't already care for local places, or when they don't recognize how local people practice environmental protection (Bennett et al., Reference Bennett, Blythe, White and Campero2021; Cormier-Salem, Reference Cormier-Salem2017).

In the scholarly literature we examined, care is infrequently mentioned and it is asserted as being required (e.g. in design) but not often defined or contextualized (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022; Vierros, Reference Vierros2017). Critical scholars of blue carbon warn normative framings of care can fail to account for the deep and ‘complex’ character of human–nature relationships (Song et al., Reference Song, Dressler, Satizábal and Fabinyi2021) that manifest diverse understandings, histories, and practices. Thus, notions of what constitutes good or appropriate care for blue carbon environments may not be shared and don't always align with how care in understood or practiced in local contexts. Conceptual clarity with regard to care is not esoteric to operationalizing blue carbon; as mooted in the literature, projects may meet resistance where for example, commodification of nature, which is key to how a blue carbon market will work, is understood to be in conflict with social and cultural traditions of caring for nature (Reiter et al., Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021), and interrupting cultural connections may undermine Indigenous and local maintenance or care practices, disrupting ‘social relations and cohesion’ (Bennett et al., Reference Bennett, Blythe, White and Campero2021, p. 4). Some go further, arguing we need to rethink the paternalism of western governance, and assert it might be reframed in relation to local stewardship, for example, through the ‘logic of care’ in order to ‘valorize’ and ‘mainstream’ decarbonization (Contreras & Thomas, Reference Contreras and Thomas2019; see also Jackson et al., Reference Jackson, Palmer, McDonald and Bumpus2017, p. 867). Ongoing scholarly attention to the deployment and normative assumptions of this concept and its relationship to blue carbon is warranted.

Third, and surprisingly, given widespread concerns about the ‘proximity’ of modern, mostly western and global north, conservation efforts to profit making ideologies and enterprises (Shoreman-Ouimet & Kopnina, Reference Shoreman-Ouimet and Kopnina2015), the meaning of ethics and justice remain underdeveloped in blue carbon literature. This is not to say that ethics and justice are not discussed, but that in work we reviewed, the focus of concern has mostly been confined to aspects of implementation, rather than with systematic and integrated attention to how environmental justice is defined and practiced in systems of governance (Schlosberg, Reference Schlosberg2007). For example, as the literature we reviewed indicates, there are already legitimate fears that blue carbon initiatives may promote unethical outcomes where they perpetuate unfair practices by characterizing labor as participation and not properly compensating people for their work (Neimark et al., Reference Neimark, Mahanty, Dressler and Hicks2020, p. 499). Likewise, there are specific fears about intrusion into local or Indigenous places and in local common contexts (Merk et al., Reference Merk, Grunau, Riekhof and Rickels2022). Institutions, in which a monetary carbon payment would function, are thought to pose risks to local communities through appropriation of knowledge (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022) and by assuming and replicating power asymmetries about whose knowledge counts (Contreras & Thomas, Reference Contreras and Thomas2019). Authors also note, across countries in Africa, that projects may threaten dispossession (Cormier-Salem, Reference Cormier-Salem2017). Recent review contributions in blue carbon argue, ‘social equity and human well-being should not be viewed as a means to an end but as the overarching goal’ (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019, p. 3). Others indicate there are significant tensions with regard to the urgency of climate mitigation agendas and justice, for example, as work is ‘scaled-up’ to meet national or global impact agendas (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022).

Design and implementation issues are significant for ethics and justice (more on these below), but the blue carbon literature to date reflects a lack of attention to the conceptual complexity of these terms. For example, recent work outside blue carbon highlights the need for robust conceptualization, and integrated and intersectional approaches to climate transitions and justice (Amorim-Maia et al., Reference Amorim-Maia, Anguelovski, Chu and Connolly2022; Sultana, Reference Sultana2022) in order for initiatives to address multiple and coinciding forms of injustice. Additionally, in conservation settings (outside blue carbon), the perpetuation of nature culture or nature society binaries – pitting humans against nature, or social against ecological justice, is argued to be ‘theoretically inadequate’ (Shoreman-Ouimet & Kopnina Reference Shoreman-Ouimet and Kopnina2015, p. 320) leading to perceptions that efforts focused on human justice come at the expense of nonhuman nature. Such ontological arguments are considered relevant in ocean and coastal contexts; Bercht et al. (Reference Bercht, Hein and Klepp2021) argue the histories and narratives of environmental, climate, and marine justice are all intertwined and relevant for understanding conflicts. However, in the blue carbon literature, there was little, if any, direct acknowledgement or attention to ontologies of justice, and we noted the absence of multi-species justice in recent synthesis for ‘blue growth and blue justice’ (Bennett et al., Reference Bennett, Blythe, White and Campero2021).

3.2 Governance issues: what emergent issues are apparent in relation to the design and incorporation of social and cultural dimensions into governance frameworks?

A second distinct theme in the scholarship we considered were the governance issues associated with designing blue carbon policies and projects. Blue carbon is governed by a complex array of fragmented and/or overlapping legal and policy frameworks, which operate in a part of the landscape where land tenure can be contentious. The themes of care and ethics (from above) can also be traced through this theme, with a number of scholars raising concerns about how Western market-based concepts can, perhaps inadvertently, lead to or exacerbate inequality. The literature also considers how blue carbon governance can incorporate bottom-up governance models, local knowledge, and ensure equitable outcomes.

First, the complex, fragmented, and sometimes overlapping nature of environmental governance frameworks has for some time been noted as a barrier to successful management of blue carbon ecosystems (Friess et al., Reference Friess, Thompson, Brown, Amir, Cameron, Koldewey, Sasmito and Sidik2016; also Rice, Reference Rice2011). This situation is noted as partly due to definitional issues – that is, a lack of clarity and consistency in what a ‘mangrove’ is, and therefore how it is classified and governed (Thompson et al., Reference Thompson, Primavera and Friess2017). It also relates to the multi-level governance structures commonly in place to manage coastal ecosystems, and which may or may not be well integrated (see e.g. in the Philippines, Thompson et al., Reference Thompson, Primavera and Friess2017). Blue carbon implementation presents further complications. For example, Thomas (Reference Thomas2016) referring to a case study in Malaysia notes that despite a substantial body of environmental laws and regulations in place, there are also overlaps and gaps in coverage which compound management difficulties alongside inadequate law enforcement, corruption, and racism. Likewise others note, also based on case work from Malaysia, the fragmented nature of governance structures can prevent equitable distribution of benefits (Aziz et al., Reference Aziz, Thomas, Dargusch and Phinn2016), indicating the import of addressing justice in both procedural and distributional terms.

Second, land tenure is also underscored as a widespread and ongoing governance issue (Aziz et al., Reference Aziz, Thomas, Dargusch and Phinn2016; Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022; Thompson et al., Reference Thompson, Primavera and Friess2017; Warner et al., Reference Warner, Kaidonis, Dun, Rogers, Shi, Nguyen and Woodroffe2016), with Bryan et al. (Reference Bryan, Virdin, Vegh, Kot, Cleary and Halpin2020, p. 8) noting that it is ‘perhaps the most ambiguous yet crucial potential impediment’. This impediment is attributed to patterns of ownership of land and resources, especially in developing countries, not always being clear, and being governed by a complicated patchwork of overlapping, formal, and informal (customary) tenure and rights-based arrangements (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022; Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015, p. 14 and see also Awono et al., Reference Awono, Somorin, Eba'a Atyi and Levang2014; Resosudarmo et al., Reference Resosudarmo, Atmadja, Ekaputri, Intarini, Indriatmoko and Astri2014; Rights & Resources Initiative, 2014; Sunderlin et al., Reference Sunderlin, Larson, Duchelle, Resosudarmo, Huynh, Awono and Dokken2014). Scholars of blue carbon included in our review noted that contexts where these factors coincide can lead to conflict and increased degradation of mangroves (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019). Relatedly, customary tenure regimes may not necessarily cohere with the type of legal arrangements commonly associated with PES (payment for ecosystem services) schemes. For example, Thomas (Reference Thomas2016) observed that in Sabah, Malaysia, Indigenous people believe that land, culture, and community are deeply connected, underscoring the relevance of ontologies of care and ethics noted above. Further, in West Africa, where tenure is unclear, there is a potential for land grabbing and for traditional owners to be excluded from accessing their land (Bryan et al., Reference Bryan, Virdin, Vegh, Kot, Cleary and Halpin2020). Whilst some blue carbon scholars argue that land tenure issues should be considered and resolved early in a process, which may require input from government agencies and will therefore differ in geographic context (Howard et al., Reference Howard, McLeod, Thomas, Eastwood, Fox, Wenzel and Pidgeon2017), others highlight this process should always aim to avoid marginalization of communities, and reinforcement of social inequities and power imbalances (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015).

However, as the literature makes clear, the solution to the issue of land tenure and blue carbon governance is not simple, and formalizing rights to either land and/or coastal resources does not guarantee fair outcomes (distributional justice) for local communities. Case study research illustrates that at its best, formalization of rights might provide certainty, but at its worst, may restrict access to common resources (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). For this reason, recent reviews note, ‘processes of formalisation should be founded on principles of deliberation, community partnership and co-production, and should avoid entrenching historical inequalities and setting-up new ones, whilst recognising customary (and historical) rights to resources’ (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022, p. 1983). Picking up on the thread of ‘care’, Dencer-Brown et al. (Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022) also recently warn of imposing a Western governance model to questions of tenure and resource use upon communities that is incoherent with traditional notions of land management.

Third, land tenure issue is part of a broader challenge of reconciling local governance structures with a notion like blue carbon, that is both a biogeographic, geochemical and ecological phenomena and now manifests as part of State-led and market-focused systems. As the articles we reviewed note, blue carbon as climate mitigation in fact requires the input of local knowledge and frameworks that go ‘beyond the state-centric regimes’ (Contreras & Thomas, Reference Contreras and Thomas2019, p. 227) and address recognition (or representation) justice. Multi-nation policy analysis suggests this lends legitimacy to decision-making, maximizes participation and supports local values and customs (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015). This is especially so in regions where blue carbon stocks are common pool resources (Thomas, Reference Thomas2014, p. 34), because in these situations, there is also a risk that top-down approaches could marginalize or exclude local and Indigenous communities' knowledge and traditions, and can affect livelihoods and subsistence.

Such marginalization is apparent, for example, through criminalizing the taking of timber that has typically been used for fuelwood (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019; see also Wittman & Caron, Reference Wittman and Caron2009), or fish traditionally taken by small-scale fishers (Bennett et al., Reference Bennett, Blythe, White and Campero2021), and in the marine-protected areas (not blue carbon) domain, where communities have been prevented from undertaking traditional subsistence activities (Vierros, Reference Vierros2017). Blue carbon scholars have noted that where projects fail to design to include communities, they can lead to disempowerment and embed benefit-sharing inequalities (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015, p. 14) and can cause mistrust, opposition, and a lack of knowledge and understanding of policies (Cormier-Salem, Reference Cormier-Salem2017; Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019, p. 475). In some circumstances, scholars suggest conflicts may even arise between traditional users of resources and blue carbon proponents, especially where the traditional users are excluded from use without compensation (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019). Accordingly, top-down blue carbon governance also risks leading to displacement of communities (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019) including through green gentrification (the exclusion or displacement of residents through environmental programs) (Reiter et al., Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021) and land- and carbon-grabbing by foreign investors or state governments (Bennett et al., Reference Bennett, Blythe, White and Campero2021; Reiter et al., Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021; see also Fairhead et al., Reference Fairhead, Leach and Scoones2012; Rights Resources Initiative, 2014). Outside blue carbon contexts, some report this risk has become a reality for local communities in Canada, the US, and Iceland, where there has been evidence of lost access to fisheries resources due to privatization (Bennett et al., Reference Bennett, Blythe, White and Campero2021). The foreshadowed risk of displacement is also understood to stem from the fact that most markets for blue carbon are in highly developed regions of the world, while projects themselves are often located in developing regions (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022).

The literature reviewed offered potential mechanisms to address such governance and design problems. In some circumstances, potential impacts on livelihoods may be addressed through the terms of a blue carbon project, as the degree to which natural resource use is restricted can have serious impacts on long-term livelihood prospects (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Another suggestion is to establish marine-protected areas alongside PES schemes, which can ensure the underlying (fish) resource base is safeguarded (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015), although we note concerns from other contexts involve critique of NGO established MPAs as ‘ocean grabbing’ (Bennett et al., Reference Bennett, Govan and Satterfield2015). Locally managed marine areas or responsible fishing areas were also suggested as mechanisms to ‘create socially inclusive and participatory governance’ by involving local communities in monitoring and compliance activities (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022, p. 6). Decentralization was noted as a potentially useful middle ground between top-down and bottom-up governance (Schröter et al., Reference Schröter, Matzdorf, Hackenberg and Hauck2018). Decentralization may deliver other advantages also, as centralized administration has been observed as stifling local-scale innovations (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015). A decentralized regime may involve intermediaries including ‘public players (such as agencies and ministries), … civil society players (such as environmental associations) or … private (market) players (such as carbon companies)’ (Schröter et al., Reference Schröter, Matzdorf, Hackenberg and Hauck2018, p. 637). Such an approach could ensure connections are made across stakeholders from different backgrounds (Schröter et al., Reference Schröter, Matzdorf, Hackenberg and Hauck2018).

Fourth, a further layer of potential governance issues arise when designing PES schemes, with a number of scholars noting establishing a scheme in the coastal zone may have socio-ecological trade-offs (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022; Thomas, Reference Thomas2016; Thompson et al., Reference Thompson, Primavera and Friess2017; see also Daw et al., Reference Daw, Coulthard, Cheung, Brown, Abunge, Galafassi, Peterson, McClanahan, Omukoto and Munyi2015; Granek et al., Reference Granek, Polasky, Kappel, Reed, Stoms, Koch, Kennedy, Cramer, Hacker and Barbier2010). These are broadly described as occurring when an action enhances one aspect to the detriment of another; for example, ‘a policy designed to improve ecological status might lead to improvements of the well-being of some people and to a decrease in the well-being of others’ (Galafassi et al., Reference Galafassi, Daw, Munyi, Brown, Barnaud and Fazey2017, p. 1). Thus, the literature we examined focused on how schemes should be designed so benefits may be shared in an equitable fashion. These trade-offs may be difficult to perceive, but should, according to some, be made explicit to decision-makers as they can be a barrier to just use of PES, and can allow for terms to be written into contracts directing where monies can and cannot be spent (Thompson et al., Reference Thompson, Primavera and Friess2017). Linking design to practice (below), Aziz et al. (Reference Aziz, Thomas, Dargusch and Phinn2016), based on stakeholder analysis in Malaysia, advocated for the early identification of stakeholders and their objectives and concerns, to assist decisions about trade-offs and holistic consideration of services to avoid negative impacts. Others concur, noting identification must endeavor to incorporate considerations of procedural and distributional justice, gender equity, and seasonal flows of migrant works (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022).

Finally, even a well-designed governance regime will have limits because it cannot protect against external factors, and livelihood outcomes of a project could be affected by factors such as changes in climate policy, shocks such as natural disasters, or seasonal price fluctuations (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). In this sense, blue carbon governance issues are not dissimilar to other environmental governance issues, but the often decades-long time scales associated with blue carbon contracting and crediting make them particularly pertinent (see e.g. Bell-James, Reference Bell-James2023), linking to questions of practice.

3.3 Emerging lessons: what emergent issues and lessons are apparent in projects so far (in practice)?

The conceptual and governance design issues identified above provide an opportunity to draw out key lessons from existing blue carbon projects. Embedding considerations of these dimensions are noted by many as a key aspect of meaningful, equitable, and indeed successful projects (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019; Thomas, Reference Thomas2014; Warner et al., Reference Warner, Kaidonis, Dun, Rogers, Shi, Nguyen and Woodroffe2016). However, current implementation examples are noted to continue to lack clarity and practicality (Song et al., Reference Song, Dressler, Satizábal and Fabinyi2021). We identified three emerging lessons related to: community involvement; addressing the limitations of current knowledge; and the actual and equitable distribution of benefits.

First, one consistently identified measure of ‘success’ in blue carbon projects is the meaningful participation of local communities (Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2021b; Thomas, Reference Thomas2014). However, exactly how this can or should be achieved continues to be a point of contention. While scholars assert local communities should be included and consulted in planning and implementation, prioritized for employment and leadership, and project benefits should flow to them (design issues noted above), there is broad consensus that practical implementation may prove challenging (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022, Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019; Song et al., Reference Song, Dressler, Satizábal and Fabinyi2021). Warner et al. (Reference Warner, Kaidonis, Dun, Rogers, Shi, Nguyen and Woodroffe2016), drawing on empirical work in Vietnam, attest to the need for sustained involvement of communities throughout project lifetimes, including by initially acknowledging community values, which are used to inform and motivate projects. Important avenues of initial engagement with local communities, including significant contributions from the Philippines, include investing in education (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022; Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2020b), raising community awareness of blue carbon management and opportunities for participation (Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2021b), and capacity building through, for example, training initiatives (Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2021c; Vierros, Reference Vierros2017; Warner et al., Reference Warner, Kaidonis, Dun, Rogers, Shi, Nguyen and Woodroffe2016). Establishing meaningful partnerships, where communities and scientists are positioned as equal, is also underscored as critical (Quevedo et al., Reference Quevedo, Uchiyama and Kohsaka2021b; Vierros, Reference Vierros2017), given the complexity of carbon accounting processes (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022). Quevedo et al.'s (Reference Quevedo, Uchiyama and Kohsaka2021b) study based on perception surveys about mangrove eco-parks reported benefits for local stakeholders, particularly where there was local management providing a local income source (Reference Quevedo, Uchiyama and Kohsaka2021b).

We noted that suggested ways to enhance local communities' involvement are often unclear and couched in vague terms including establishing partnerships, improving community knowledge, and undertaking stakeholder engagement, perhaps indicating a lack of clear policy direction or connection to learning from practice. Equally, this linguistic ambiguity may reflect local communities should themselves be empowered to identify project objectives tailored to the specific needs and conditions of that area. A positive example was noted in the Vanga Blue Forest project in Kenya, which took a collaborative approach, and was undertaken under legislation supporting co-management rights to the forest (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022). The research undertaken by Quevedo et al. (Reference Quevedo, Uchiyama and Kohsaka2020a, Reference Quevedo, Uchiyama and Kohsaka2020b, Reference Quevedo, Uchiyama and Kohsaka2021a, Reference Quevedo, Uchiyama and Kohsaka2021b), into local perceptions of seagrass and mangrove ecosystems in the Philippines, demonstrates the importance of accounting for individual communities' viewpoints and experiences with blue carbon ecosystems.

Importantly, the discussion of local community involvement solely within the realm of stakeholder engagement is a potential pitfall for effectively integrating social and cultural dimensions of blue carbon. Some concisely note inclusion alone is insufficient (Merk et al., Reference Merk, Grunau, Riekhof and Rickels2022); others emphasize the importance of self-determination and empowerment in local communities' involvement in projects (Contreras & Thomas, Reference Contreras and Thomas2019). Thomas's seminal 2014 paper framed success as dependent on ‘effective stakeholder engagement and participation of local communities’ (emphasis ours). This dual perspective could inform iterative design of processes to ensure meaningful and sustained inclusion of local communities and their concerns throughout projects. But continued consideration of this issue indicates engagement might require legal rather than voluntary frameworks to be meaningful (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022). Clarity around the role of local communities is articulated as a priority (Vanderklift et al., Reference Vanderklift, Marcos-Martinez, Butler, Coleman, Lawrence, Prislan, Steven and Thomas2019). These scholars indicate future projects should position communities as part of the overarching objective for projects, rather than as one element of consideration in decision-making.

Second, concerns emerged in the literature about a lack of readily available social and cultural data with which to inform blue carbon projects, reflecting neglect of recognition justice (noted above). Informational deficit was observed in relation to both the identification and measurement of social factors to guide decision-making, consistent with other studies (see Ascough II et al., Reference Ascough, Maier, Ravalico and Strudley2008). At a global scale, language and translation issues are apparent in terms of studies available for ready comparison (see Table 1). However, measuring social and cultural values and/or services, particularly in conventional economic terms, is not always possible. The well-established complexity of the intertidal zone identified decades ago (Kunstadter & Bird, Reference Kunstadter and Bird1986) exacerbates the challenge of articulating its values to people, something blue carbon scholars are continuing to note (Raw et al., Reference Raw, Adams, Bornman, Riddin and Vanderklift2021; Ruiz-Frau et al., Reference Ruiz-Frau, Gelcich, Hendriks, Duarte and Marbà2017), including for example in empirical analysis from Mexico (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019). As Thomas (Reference Thomas2014) opined, this is a task complicated by the diversity of possible stakeholders with potentially varying values. In practice, some scholars have adopted substitute values for Indigenous values due to methodological limitations (Sangha et al., Reference Sangha, Stoeckl, Crossman and Costanza2019). The implication of the lack of social and cultural data for projects is the long-term and distributed social impacts (distributional justice) of blue carbon interventions – to aspects such as human well-being – may not become clear until years later, and that causation can be difficult to establish (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). For example, Herr et al. (Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019) identified, from coastal offset projects across South-East Asia and Africa, both positive improvements to literacy and education but also negative impacts resulting in social conflict. In this regard, improved and ongoing monitoring that fed project outcomes into ongoing management was required.

A further concern regarding information deficit lies in the incorporation of local data accounting for spatial variation. Scholars note this aspect has lacked research focus to date, likely due to local financial and/or research constraints and historical exclusion of certain social groups from environmental governance processes in less developed countries (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019; Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015). Effective blue carbon initiatives are informed by local knowledge and data across project lifetimes (Mateos-Molina et al., Reference Mateos-Molina, Pittman, Antonopoulou, Baldwin, Chakraborty, García-Charton and Taylor2021), though a persistent deficit has been observed in relation to current understandings of the role of local and Indigenous knowledge in projects, including in the developed world (Contreras & Thomas, Reference Contreras and Thomas2019; Macreadie et al., Reference Macreadie, Robertson, Spinks, Adams, Atchison, Bell-James, Bryan, Chu, Filbee-Dexter and Drake2022; Vierros, Reference Vierros2017). The place of Indigenous knowledge in conservation more broadly is highlighted in recent commentary, underscoring the need for both recognition of the legitimacy of Indigenous and local knowledge, and attention to how knowledge is gathered and utilized (Folke, Reference Folke2004; Reyes-Garcia & Benyei, Reference Reyes-García and Benyei2019). Helpfully, as some note regarding blue carbon, information-gathering initiatives could help to incorporate vital local traditional Indigenous knowledge about ecosystems, ecosystem connections, and the impacts of management actions, in turn enhancing identification of best-practice sites and approaches (Vierros, Reference Vierros2017). Recent coastal habitat mapping from the United Arab Emirates provides an example of how local ecological knowledge could be meaningfully incorporated into projects (Mateos-Molina et al., Reference Mateos-Molina, Pittman, Antonopoulou, Baldwin, Chakraborty, García-Charton and Taylor2021).

Finally, there is much critique and further scope to improve the provision of benefits, to close the loop between governance and project generated experience. A key aspect raised is how benefits are distributed; specifically, to whom and how benefits flow affects the delivery of socially and culturally equitable (and accordingly successful) projects (Aziz et al., Reference Aziz, Thomas, Dargusch and Phinn2016; Bennett et al., Reference Bennett, Blythe, White and Campero2021; Macreadie et al., Reference Macreadie, Robertson, Spinks, Adams, Atchison, Bell-James, Bryan, Chu, Filbee-Dexter and Drake2022; Vierros, Reference Vierros2017). Some scholars question whether benefits foreshadowed do in fact contribute to local livelihoods (Thompson et al., Reference Thompson, Primavera and Friess2017; Vierros, Reference Vierros2017). Merk et al. (Reference Merk, Grunau, Riekhof and Rickels2022) pointed in their review to aquaculture cases where benefits have accrued to a select few managers, rather than the broader coastal community. In the Philippines, payments have been ‘in cash’ or ‘in kind’, to individual households or across communities (Thompson et al., Reference Thompson, Primavera and Friess2017). But, as others note, decisions could cause conflict around benefits (Vierros, Reference Vierros2017), create unequal income opportunities (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019), and risk the flow of economic benefits to developers or the already wealthy (Bennett et al., Reference Bennett, Blythe, White and Campero2021; Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Cisneros-Montemayor et al. (Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022) highlighted the need for work to establish appropriate guidance or regulations in relation to benefit sharing, to address social equity. Connected to our discussion on tenure, equitable sharing of benefits may be complicated by ambiguous arrangements in the coastal zone (Thompson et al., Reference Thompson, Primavera and Friess2017), including where community members may not have legal title (Vierros, Reference Vierros2017).

The successful provision of benefits is further complicated by accessibility. For example, Wylie et al. (Reference Wylie, Sutton-Grier and Moore2016) noted costs and administrative requirements for projects within other climate programs (such as REDD+) may prevent local communities' involvement. In fact, Cormier-Salem (Reference Cormier-Salem2017) criticizes REDD+ and other mechanisms as both inaccessible and damaging for local communities, in the context of long-term research on coastal mangroves in Africa. The stability, quality, and longevity of jobs and employment offered by blue carbon projects is another aspect that can intersect with benefits, as well as the equitable distribution of those jobs (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019; Vierros, Reference Vierros2017). For example, projects could lead to perverse outcomes where community members feel pressured to take part owing to unequal socioeconomic conditions (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Suggested solutions include making payments at a community level, rather than to individual households to negate unfair distribution (Thompson et al., Reference Thompson, Primavera and Friess2017), or hybridized PES schemes used to develop other social or economic initiatives. Such an approach, it is argued, would maintain community autonomy and stimulate the local economy, without jeopardizing credibility and sustainability (Thompson et al., Reference Thompson, Primavera and Friess2017), something also noted in the wider PES literature (Petheram & Campbell, Reference Petheram and Campbell2010; Van Hecken & Bastiaensen, Reference Van Hecken and Bastiaensen2010).

3.4 Future directions: what are the implications of these findings for future research on the development of effective, feasible, and just blue carbon initiatives?

The literature we reviewed illustrates important progress in consideration of the social and cultural dimensions of blue carbon. In particular, research is beginning to address gaps related to issues of ‘community-level experiences and motivations’, previously noted by (Thomas, Reference Thomas2014). Despite this progress, key issues remain in terms of the political and reasonable consequences of blue carbon as transformative climate action. Here we synthesize concerns to aid future research directions.

First, addressing questions of the social and cultural acceptability of blue carbon is paramount. Answers will be geographically contingent and future research may illustrate those differences. But, and as we have shown, assumptions related to acceptability, including the argument blue carbon will build livelihood resilience (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019; Vanderklift et al., Reference Vanderklift, Marcos-Martinez, Butler, Coleman, Lawrence, Prislan, Steven and Thomas2019), are problematic. Assertions about contributions to livelihood resilience, and other social and cultural benefits, may be made to shore up investment, but they require greater interdisciplinary and critical input. Without it, such transformation represents ‘more of the same’; Cisneros-Montemayor et al. (Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022, p. 5) for example, found that despite a proclaimed ‘focus on social equity’ as part of broader Blue Economy discourse, ‘much of the attention on blue carbon and ocean (or blue) economy currently focuses on aspects of economic viability, ecological sustainability, and technological innovation (UN-DESA, 2017) rather than distributional equity per se’. At worst, it represents an expansion of green colonialism (Normann, Reference Normann2021), (the exacerbation or result of social marginalization and/or exclusion of Indigenous and local peoples from their sovereign territories resulting from interventions that aim to benefit the environment). Regarding livelihoods specifically, the direct and often technical application of ecological resilience theory to livelihood contexts leads to ‘weak engagement’ with social and cultural systems, lacking sufficient attention to human agency, institutional politics and power relationships, and complex cultural histories (Tanner et al., Reference Tanner, Lewis, Wrathall, Bronen, Cradock-Henry, Huq, Lawless, Nawrotzki, Prasad, Rahman and Alaniz2015). Fortunately, there is a wealth of empirical work on resilience for blue carbon to learn from (see e.g. Glaser et al., Reference Glaser, Krause, Oliveira, Fontalvo-Herazo, Saint-Paul and Schneider2010).

Addressing the acceptability of blue carbon will also need to more deliberately involve understanding social norms, and relational ethics, the significance of which is noted in broader transition agendas (Byskov et al., Reference Byskov, Hyams, Satyal, Anguelovski, Benjamin, Blackburn, Borie, Caney, Chu, Edwards and Fourie2021). Tangible ways forward are charted by scholars of the blue economy who are calling for reviews of agreements and how these are integrated into projects (Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022). Blue carbon planning would also do well to urgently integrate the insights and recommendations for recognitional, procedural, and distributional justice and codes of conduct generated through critique of the blue economy (Bennett et al., Reference Bennett, Teh, Ota, Christie, Ayers, Day, Franks, Gill, Gruby, Kittinger, Koehn, Lewis, Parks, Vierros, Whitty, Wilhelm, Wright, Aburto, Finkbeiner and Satterfield2017, Reference Bennett, Blythe, White and Campero2021; Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019). Further practical considerations are collective action initiatives that may help to scale the local efforts of communities alongside driving national or global agendas (Dencer-Brown et al., Reference Dencer-Brown, Shilland, Friess, Herr, Benson, Berry, Cifuentes-Jara, Colas, Damayanti and López García2022). More broadly, the ‘convergence’ of multiple eco-social crises should prompt more robust and interdisciplinary attention to how ontologies are interrelated and politicized, and how ideologies and value systems manifest within blue carbon agendas (Borras et al., Reference Borras, Moreda, Alonso-Fradejas, Brent, Moreda, Borras, Alonso-Fradejas and Brent2020; Tramel, Reference Tramel, Moreda, Borras, Alonso-Fradejas and Brent2020). This requires understanding and recognition of the scientific ontologies of climate change and their power for ‘slow violence’ (O'Lear, Reference O'Lear2016, p. 4). Like others (Shoreman-Ouimet & Kopnina, Reference Shoreman-Ouimet and Kopnina2015), we also call for scientists to attend to, collaborate, and/or work beyond their biases, where relevant in collaboration with the NGO sector (e.g. Conservation International, 2022). We also call on researchers to consider the implications of ontological difference, as part of the critical thinking required for climate action (Harris, Reference Harris2022), about, for, and with the people that blue carbon interventions may impact.

Second, further research is required to understand and track social justice and sustainability outcomes of projects, in line with frameworks for implementation (Malloy & Ashcraft, Reference Malloy and Ashcraft2020). A key issue relates to the lack of meaningful engagement with local participants, with this sometimes perceived as an afterthought. Indeed such criticism was raised in Australia during the blue carbon methodology consultation process, when Indigenous stakeholder groups expressed concerns about the lack of co-design and genuine participation (see Indigenous Carbon Industry Network, 2021; Kimberley Land Council, 2021). The development of this methodology has elsewhere been praised for its process which included co-design between governments, industry, science, and academia (Bell-James, Reference Bell-James2023; Lovelock et al., Reference Lovelock, Adame, Bradley, Dittmann, Hagger, Hickey, Hutley, Jones, Kelleway, Lavery, Macreadie, Maher, McGinley, McGlashan, Perry, Mosley, Rogers and Sippo2023), but co-design processes should meaningfully include Indigenous groups (Vanderklift et al., Reference Vanderklift, Marcos-Martinez, Butler, Coleman, Lawrence, Prislan, Steven and Thomas2019). Elaboration from past involvement might help to uncover these differing experiences.

Genuine inclusion involves grappling with the question of how to center people, or put them ‘at the core’ (Reiter et al., Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021, p. 2). We noted effective achievement of inclusion is contentious and will require targeted efforts at building capacity. Capacity building was also suggested as one way to measure resilience (Espinoza-Tenorio et al., Reference Espinoza-Tenorio, Millán-Vásquez, Vite-García and Alcalá-Moya2019). Again, we identified limitations in the use of resilience theory, but it may provide a starting point for centering and supporting communities. The comparatively early stage of blue carbon operationalization may explain the lack of community capacity, and represent an opportunity to learn from related climate mitigation fields, such as previous REDD+projects, in recognizing the importance of capacity building (Gordon et al., Reference Gordon, Murray, Pendleton and Victor2011; Warner et al., Reference Warner, Kaidonis, Dun, Rogers, Shi, Nguyen and Woodroffe2016). Capacity building also relates to the mutual learning of scientists, proponents, and other interests in order to understand and adapt to local expertise. Recent declarations on research capacity provides an indication of where communities (AOSIS, 2022) and scientists (Alexander et al., Reference Alexander, Fleming, Bax, Garcia, Jansen, Maxwell, Melbourne-Thomas, Mustonen, Pecl, Shaw and Syme2022) are leading this agenda. Considerations of inclusion and capacity building could also be enhanced through reflections on the conceptual scholarship on care; considering how care is normalized, practiced, and/or contested, and opportunities to enhance institutional and governance approaches.

A second element regarding inclusion is the need for more comprehensive research and assessment of current and predicted future benefits for communities (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015; Thompson et al., Reference Thompson, Primavera and Friess2017). Design and implementation should be ‘truly inclusive’ with fairness defined by marginalized groups (Bennett et al., Reference Bennett, Blythe, Cisneros-Montemayor, Singh and Sumaila2019; Cisneros-Montemayor et al., Reference Cisneros-Montemayor, Moreno-Báez, Voyer, Allison, Cheung, Hessing-Lewis, Oyinlola, Singh, Swartz and Ota2019), who are encouraged to participate and access schemes and their benefits from the outset (Hejnowicz et al., Reference Hejnowicz, Kennedy, Rudd and Huxham2015; see also Mahanty et al., Reference Mahanty, Suich and Tacconi2013). Law and policy could mandate projects in disadvantaged areas or require the flow of benefits to local communities; Reiter et al. (Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021) noted efforts were made toward this goal in Californian coastal adaptation policy. Cisneros-Montemayor et al. (Reference Cisneros-Montemayor, Ducros, Bennett, Fusco, Hessing-Lewis, Singh and Klain2022) also advocate for the use of benefits agreements between governments, communities, and companies, which could include guaranteed local hiring, procurement of goods and services, and other funding arrangements. Done well, project design provides an opportunity to establish and indeed strengthen outcomes for community organizations (Herr et al., Reference Herr, Blum, Himes-Cornell and Sutton-Grier2019). Issues of land tenure also require attention. Whilst some literature points to a lack of clarity as an impediment, imposing land tenure regimes may lead to disempowerment and inequality, presenting an opportunity for research to consider how rights and entitlements are considered, and secured when necessary.

Third, there is a clear need to rectify the knowledge and information deficit concerning the assessment and incorporation of local data and cultural values for blue carbon. It is critical gaps in knowledge are not replicated in frameworks as initiatives progress (Song et al., Reference Song, Dressler, Satizábal and Fabinyi2021). Addressing this gap will require interdisciplinary research input and is an opportunity to enhance community involvement and harness local knowledge, aiming to establish ‘future adaptive and collaborative co-management’ (see also Baldwin & Oxenford, Reference Baldwin and Oxenford2014; Mateos-Molina et al., Reference Mateos-Molina, Pittman, Antonopoulou, Baldwin, Chakraborty, García-Charton and Taylor2021, p. 2). This approach was apparent in Reiter et al.'s (Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021) suggested framework for operationalizing climate-just ocean commitments, which sought to enable co-design with local stakeholders, integrate traditional ecological knowledge, and establish co-management structures, supported by financing mechanisms that incorporate socio-ecological values. That framework envisages a shift in the measurement of carbon stocks to incorporate participatory mapping methodologies, as well as ecosystem service valuation (McCall, Reference McCall and Skutsch2012; Reiter et al., Reference Reiter, Cheng, Pouponneau, Taylor and Wedding2021; UNFCCC, 2009), which may work toward rectifying knowledge gaps and promote ethical incorporation of local and Indigenous knowledge.

Finally, governance reform is required at the institutional level to re-evaluate both the fragmented and overlapping nature of governance frameworks, the extent to which they intersect with local regimes, and how they are implemented on ground. This direction links with scholarship on the fragmented nature of environmental laws, where legal frameworks regulate resources or species individually, rather than ecosystems as a whole (Craig, Reference Craig2002). A large number of laws regulating a particular issue can impact their effectiveness as a whole, causing confusion or inconsistency in application (Allott, Reference Allott1980; Baldwin, Reference Baldwin1997; Bell-James et al., Reference Bell-James, Boardman and Foster2020; UNEP, 2019). Accordingly, reform may be necessary to clarify processes and enable blue carbon projects. Alternatively, as our review illustrated, decentralization may offer innovation not presently envisaged. Calls for governance reform have been made in the context of the ambitious aims of REDD+ (Clements, Reference Clements2010); such processes are an opportunity for research to evaluate and provide critical input into the development of new arrangements that center local communities and institutions.

4. Conclusion

The rapid progress of blue carbon science is stimulating significant interest in effective, feasible, and scalable nature-based solutions to climate change. Blue carbon presents opportunities for urgent climate action, necessarily elevating environmental priorities and addressing pressing threats to the biosphere, its inhabitants and a quality life on earth. On this basis, projects are emerging everyday. We have cited examples from such projects where they have appeared in the literature to date. Yet our review highlights key conceptual, operational, and practice issues, concerning the social and cultural dimensions of blue carbon, which, if not addressed, have the potential to stymie momentum or cloud support. Worse, inadequate consideration may lead to unjust outcomes, underscoring fears blue carbon is another manifestation of colonial and institutionalized power dynamics in the pursuit of a green agenda. It will be critical that future projects are comprehensively reported so that others can continue to learn from implementation experiences and to establish an evidence base. Future research should center discussions about the integration of social and cultural dimensions into questions about feasibility and social justice, and address knowledge gaps and institutional reform in both project design (bottom-up) and legal/policy design (top-down), to better align the urgency of climate reform with social justice. This priority is especially relevant where those blue carbon environments targeted intersect with concerns about inequality and marginalization.

Acknowledgements

We thank colleagues at the Australian Centre for Culture, Environment, Society and Space (ACCESS) for material and intellectual support for this research. We thank Kerrylee Rogers at University of Wollongong for ongoing discussions about Blue Carbon.

Author contributions

J. A. led the conceptualization of the work, acquired funding, and administered the research. R. F. lead the data curation. J. A., R. F., and J. B.-J. all contributed equally to the manuscript methodological design, analysis, and writing.

Funding statement

Funding for this research was provided to J. A. through the Australian Centre for Culture, Environment, Society and Space (ACCESS), University of Wollongong. J. A. acknowledges funding from the Australian Research Council (FT200100006).

Competing interests

GenAI language model (ChatGPT) was used to support the formatting of the reference list to APA style. It was not used in the remainder of the manuscript.

Research transparency and reproducibility

NA.

References

Adger, W. N. (2000). Social and ecological resilience: Are they related?. Progress in Human Geography, 24(3), 347364. https://doi.org/10.1191/030913200701540465CrossRefGoogle Scholar
Alexander, K. A., Fleming, A., Bax, N., Garcia, C., Jansen, J., Maxwell, K. H., Melbourne-Thomas, J., Mustonen, T., Pecl, G. T., Shaw, J., & Syme, G. (2022). Equity of our future oceans: Practices and outcomes in marine science research. Reviews in Fish Biology and Fisheries, 32(1), 297311. https://doi.org/10.1007/s11160-021-09661-zCrossRefGoogle Scholar
Allott, A. (1980). The effectiveness of law. Valparaiso University Law Review, 15, 229242. https://scholar.valpo.edu/vulr/vol15/iss2/1Google Scholar
Amorim-Maia, A. T., Anguelovski, I., Chu, E., & Connolly, J. (2022). Intersectional climate justice: A conceptual pathway for bridging adaptation planning, transformative action, and social equity. Urban Climate, 41, 101053. https://doi.org/10.1016/j.uclim.2021.101053CrossRefGoogle Scholar
AOSIS (Alliance of Small Island States). (2022). Declaration for the enhancement of marine scientific knowledge, research capacity and transfer of marine technology to small island states. https://www.aosis.org/wp-content/uploads/2022/06/AOSIS-Declaration-UN-Ocean-Confernce-2022.pdfGoogle Scholar
Armitage, A., & Keeble-Allen, D. (2008). Undertaking a structured literature review or structuring a literature review: Tales from the field. In Proceedings of the 7th European Conference on Research Methodology for Business and Management Studies: ECRM2008 (p. 35). Regent's College.Google Scholar
Ascough, J. C. II, Maier, H. R., Ravalico, J. K., & Strudley, M. W. (2008). Future research challenges for incorporation of uncertainty in environmental and ecological decision-making. Ecological Modelling, 219(3–4), 383399. https://doi.org/10.1016/j.ecolmodel.2008.07.015CrossRefGoogle Scholar
Awono, A., Somorin, O. A., Eba'a Atyi, R., & Levang, P. (2014). Tenure and participation in local REDD + projects: Insights from Southern Cameroon. Environmental Science & Policy, 35, 7686. https://doi.org/10.1016/j.envsci.2013.01.017CrossRefGoogle Scholar
Aziz, A. A., Thomas, S., Dargusch, P., & Phinn, S. (2016). Assessing the potential of REDD + in a production mangrove forest in Malaysia using stakeholder analysis and ecosystem services mapping. Marine Policy, 74, 617. https://doi.org/10.1016/j.marpol.2016.09.013CrossRefGoogle Scholar
Baldwin, R. (1997). Rules and government. Clarendon Press.Google Scholar
Baldwin, K., & Oxenford, H. A. (2014). A participatory approach to marine habitat mapping in the Grenadine Islands. Coastal Management, 42(1), 3658. https://doi.org/10.1080/08920753.2013.863725CrossRefGoogle Scholar
Barbier, E. B., Hacker, S. D., Kennedy, C., Koch, E. W., Stier, A. C., & Silliman, B. R. (2011). The value of estuarine and coastal ecosystem services. Ecological Monographs, 81(2), 169193. https://doi.org/10.1890/10-1510.1CrossRefGoogle Scholar
Bell-James, J. (2016). Developing a framework for ‘blue carbon’ in Australia: Legal and policy considerations. The University of New South Wales Law Journal, 39(4), 15831611. https://doi.org/abs/10.3316/ielapa.481381256681194Google Scholar
Bell-James, J. (2023). Overcoming legal barriers to coastal wetland restoration: Lessons from Australia's blue carbon methodology. Restoration Ecology, 31(7), e13780. https://doi.org/10.1111/rec.13780CrossRefGoogle Scholar
Bell-James, J., Boardman, T., & Foster, R. (2020). Can't see the (mangrove) forest for the trees: Trends in the legal and policy recognition of mangrove and coastal wetland ecosystem services in Australia. Ecosystem Services, 45, 101148. https://doi.org/10.1016/j.ecoser.2020.101148CrossRefGoogle Scholar
Bell-James, J., Fitzsimons, J. A., & Lovelock, C. E. (2023). Land tenure, ownership and use as barriers to coastal wetland restoration projects in Australia: Recommendations and solutions. Environmental Management, 72(1), 179189. https://doi.org/10.1007/s00267-023-01817-wCrossRefGoogle ScholarPubMed
Bennett, N. J., & Satterfield, T. (2018). Environmental governance: A practical framework to guide design, evaluation, and analysis. Conservation Letters, 11(6), e12600. https://doi.org/10.1111/conl.12600CrossRefGoogle Scholar
Bennett, N. J., Govan, H., & Satterfield, T. (2015). Ocean grabbing. Marine Policy, 57, 6168. https://doi.org/10.1016/j.marpol.2015.03.026CrossRefGoogle Scholar
Bennett, N. J., Teh, L., Ota, Y., Christie, P., Ayers, A., Day, J. C., Franks, P., Gill, D., Gruby, R. L., Kittinger, J. N., Koehn, J. Z., Lewis, N., Parks, N., Vierros, M., Whitty, T. S., Wilhelm, A., Wright, K., Aburto, J. A., Finkbeiner, E. M., … Satterfield, C. (2017). An appeal for a code of conduct for marine conservation. Marine Policy, 81, 411418. https://doi.org/10.1016/j.marpol.2017.03.035CrossRefGoogle Scholar
Bennett, N. J., Blythe, J., Cisneros-Montemayor, A. M., Singh, G. G., & Sumaila, U. R. (2019). Just transformations to sustainability. Sustainability, 11(14), 38813898. https://doi.org/doi:10.3390/su11143881CrossRefGoogle Scholar
Bennett, N. J., Blythe, J., White, C. S., & Campero, C. (2021). Blue growth and blue justice: Ten risks and solutions for the ocean economy. Marine Policy, 125, 104387. https://doi.org/10.1016/j.marpol.2020.104387CrossRefGoogle Scholar
Bercht, A. L., Hein, J., & Klepp, S. (2021). Introduction to the special issue ‘Climate and marine justice–debates and critical perspectives’. Geographica Helvetica, 76(3), 305314. https://doi.org/10.5194/gh-76-305-2021CrossRefGoogle Scholar
BHP Billiton (Broken Hill Proprietary Company Limited). (2024). ‘What is blue carbon?’. BPH Billiton News and insights. https://www.bhp.com/news/bhp-insights/2024/04/what-is-a-blue-carbon-marketGoogle Scholar
Blythe, J., Armitage, D., Alonso, G., Campbell, D., Dias, A. C. E., Epstein, G., Marschke, M., & Nayak, P. (2020). Frontiers in coastal well-being and ecosystem services research: A systematic review. Ocean & Coastal Management, 185, 105028. https://doi.org/10.1016/j.ocecoaman.2019.105028CrossRefGoogle Scholar
BNA (Blue Nature Alliance). (2020). Code of Conduct. Blue Nature Alliance. https://www.bluenaturealliance.org/code-of-conduct/Google Scholar
Borras, S. M. Jr., Moreda, T., Alonso-Fradejas, A., & Brent, Z. W. (2020). Converging social justice issues and movements: Implications for political actions and research. In Moreda, T., Borras, S. M. Jr., Alonso-Fradejas, A., & Brent, Z. W. (Eds.), Converging social justice issues and movements (pp. 120). Routledge. https://doi.org/10.4324/9781003000969Google Scholar
Bridge, G. (2011). Resource geographies 1: Making carbon economies, old and new. Progress in Human Geography, 35(6), 820834. https://doi.org/10.1177/0309132510385524CrossRefGoogle Scholar
Brodeur, J., Cannizzo, Z., Cross, J., Davis, J., DeAngelo, B., Harris, J., Kinkade, C., Peth, J., Samek, K., Shub, A., Stedman, S., Theuerkauf, S., Vaughan, L., & Wenzel, L. (2022). NOAA Blue Carbon White Paper. https://repository.library.noaa.gov/view/noaa/40456Google Scholar
Bryan, T., Virdin, J., Vegh, T., Kot, C. Y., Cleary, J., & Halpin, P. N. (2020). Blue carbon conservation in West Africa: A first assessment of feasibility. Journal of Coastal Conservation, 24(8). https://doi.org/10.1007/s11852-019-00722-xCrossRefGoogle Scholar
Bunting, S. W., Kundu, N., & Ahmed, N. (2017). Evaluating the contribution of diversified shrimp-rice agroecosystems in Bangladesh and West Bengal, India to social-ecological resilience. Ocean & Coastal Management, 148, 6374. https://doi.org/10.1016/j.ocecoaman.2017.07.010CrossRefGoogle Scholar
Byskov, M. F., Hyams, K., Satyal, P., Anguelovski, I., Benjamin, L., Blackburn, S., Borie, M., Caney, S., Chu, E., Edwards, G., & Fourie, K. (2021). An agenda for ethics and justice in adaptation to climate change. Climate and Development, 13(1), 19. https://doi.org/10.1080/17565529.2019.1700774CrossRefGoogle Scholar
Castree, N. (2013). Making sense of Nature. Routledge.CrossRefGoogle Scholar
Cisneros-Montemayor, A. M., Moreno-Báez, M., Voyer, M., Allison, E. H., Cheung, W. W. L., Hessing-Lewis, M., Oyinlola, M. A., Singh, G. G., Swartz, W., & Ota, Y. (2019). Social equity and benefits as the nexus of a transformative blue economy: A sectoral review of implications. Marine Policy, 109, 103702. https://doi.org/10.1016/j.marpol.2019.103702CrossRefGoogle Scholar
Cisneros-Montemayor, A. M., Ducros, A. K., Bennett, N. J., Fusco, L. M., Hessing-Lewis, M., Singh, G. G., & Klain, S. C. (2022). Agreements and benefits in emerging ocean sectors: Are we moving towards an equitable blue economy? Ocean & Coastal Management, 220, 106097. https://doi.org/10.1016/j.ocecoaman.2022.106097CrossRefGoogle Scholar
Clements, T. (2010). Reduced expectations: The political and institutional challenges of REDD+. Oryx, 44(3), 309310. https://doi.org/10.1017/S0030605310000712CrossRefGoogle Scholar
Conradson, D. (2011). Care and caring. In Del Casino, V. J. Jr., Thomas, M., Cloke, P., & Panelli, R. (Eds.), A companion to social geography (pp. 454471). John Wiley & Sons.CrossRefGoogle Scholar
Conservation International. (2022). High-quality blue carbon principles and guidance. A triple-benefit investment for people, nature, and climate. https://climatechampions.unfccc.int/wp-content/uploads/2022/11/HQBC-PG_FINAL_11.8.2022.pdfGoogle Scholar
Contreras, C., & Thomas, S. (2019). The role of local knowledge in the governance of blue carbon. Journal of the Indian Ocean Region, 15(2), 213234. https://doi.org/10.1080/19480881.2019.1610546CrossRefGoogle Scholar
Cope, M. (2010). Coding transcripts and diaries. In Clifford, N., Cope, M., Gillespie, T., & French, S. (Eds.) Key methods in geography (pp. 440452). Sage.Google Scholar
Cormier-Salem, M.-C. (2017). Let the women harvest the mangrove. Carbon policy, and environmental injustice. Sustainability, 9(1485). https://doi.org/10.3390/su9081485CrossRefGoogle Scholar
Craig, R. K. (2002). Taking the long view of ocean ecosystems: Historical science, marine restoration, and the Oceans Act of 2000. Ecology Law Quarterly, 29, 649706. https://heinonline.org/HOL/P?h=hein.journals/eclawq29&i=659Google Scholar
Daw, T. M., Coulthard, S., Cheung, W. W. L., Brown, K., Abunge, C., Galafassi, D., Peterson, G. D., McClanahan, T. R., Omukoto, J. O., & Munyi, L. (2015). Evaluating taboo trade-offs in ecosystem services and human well-being. Proceedings of the National Academy of Sciences, 112(22), 69496954. https://doi.org/10.1073/pnas.1414900112CrossRefGoogle ScholarPubMed
De Battisti, D. (2021). The resilience of coastal ecosystems: A functional trait-based perspective. Journal of Ecology, 109(9), 31333146. https://doi.org/10.1111/1365-2745.13641CrossRefGoogle Scholar
Dencer-Brown, A. M., Shilland, R., Friess, D., Herr, D., Benson, L., Berry, N. J., Cifuentes-Jara, M., Colas, P., Damayanti, E., & López García, E. (2022). Integrating Blue: How do we make nationally determined contributions work for both blue carbon and local coastal communities? Ambio, 51(9), 19781993. https://doi.org/10.1007/s13280-022-01723-1CrossRefGoogle ScholarPubMed
DePuy, W., Weger, J., Foster, K., Bonanno, A. M., Kumar, S., Lear, K., Basilio, R., & German, L. (2022). Environmental governance: Broadening ontological spaces for a more livable world. Environment and Planning E: Nature and Space, 5(2), 947975. https://doi.org/10.1177/25148486211018565Google Scholar
Espinoza-Tenorio, A., Millán-Vásquez, N. I., Vite-García, N., & Alcalá-Moya, G. (2019). People and blue carbon: Conservation and settlements in the mangrove forests of Mexico. Human Ecology, 47(6), 877892. https://doi.org/10.1007/s10745-019-00123-6CrossRefGoogle Scholar
Fairhead, J., Leach, M., & Scoones, I. (2012). Green grabbing: A new appropriation of nature? Journal of Peasant Studies, 39(2), 237261. https://doi.org/10.1080/03066150.2012.671770CrossRefGoogle Scholar
Folke, C. (2004). Traditional knowledge in social–ecological systems. Ecology and Society, 9(3), 7 (online). https://www.jstor.org/stable/26267675CrossRefGoogle Scholar
Friess, D. A., Thompson, B. S., Brown, B., Amir, A. A., Cameron, C., Koldewey, H. J., Sasmito, S. D., & Sidik, F. (2016). Policy challenges and approaches for the conservation of mangrove forests in Southeast Asia. Conservation Biology, 30(5), 933949. https://doi.org/10.1111/cobi.12784CrossRefGoogle ScholarPubMed
Friess, D. A., Yando, E. S., Alemu, J. B., Wong, L.-W., Soto, S. D., & Bhatia, N. (2020). Ecosystem services and disservices of mangrove forests and salt marshes. Oceanography and Marine Biology: An Annual Review, 58(3), 107141. https://library.oapen.org/handle/20.500.12657/43146Google Scholar
Friess, D. A., Howard, J., Huxham, M., Macreadie, P. I., & Ross, F. (2022). Capitalizing on the global financial interest in blue carbon. PLoS Climate, 1(8), e0000061. https://doi.org/10.1371/journal.pclm.0000061CrossRefGoogle Scholar
Frohlich, M. F., Jacobson, C., Fidelman, P., & Smith, T. F. (2018). The relationship between adaptive management of social-ecological systems and law: A systematic review. Ecology and Society, 23(2), 23. https://doi.org/10.5751/ES-10060-230223CrossRefGoogle Scholar
Gabrys, J., Westerlaken, M., Urzedo, D., Ritts, M., & Simlai, T. (2022). Reworking the political in digital forests: The cosmopolitics of socio-technical worlds. Progress in Environmental Geography, 1(1-4), 5883. https://doi.org/10.1177/27539687221148748CrossRefGoogle Scholar
Galafassi, D., Daw, T. M., Munyi, L., Brown, K., Barnaud, C., & Fazey, I. (2017). Learning about social-ecological trade-offs. Ecology and Society, 22(1), 2. https://doi.org/10.5751/ES-08920-220102CrossRefGoogle Scholar
Glaser, M., Krause, G., Oliveira, R. S., & Fontalvo-Herazo, M. (2010). Mangroves and people: A social-ecological system. In Saint-Paul, U., & Schneider, H. (Eds.), Mangrove dynamics and management in north Brazil (pp. 307351). Springer.CrossRefGoogle Scholar
Gordon, D., Murray, B. C., Pendleton, L., & Victor, B. (2011). Financing options for blue carbon: Opportunities and lessons from the REDD+experience. Nicholas Institute for Environmental Policy Solutions, Duke University. https://nicholasinstitute.duke.edu/sites/default/files/publications/financing-options-for-blue-carbon-paper.pdfGoogle Scholar
Granek, E. F., Polasky, S., Kappel, C. V., Reed, D. J., Stoms, D. M., Koch, E. W., Kennedy, C. J., Cramer, L. A., Hacker, S. D., & Barbier, E. B. (2010). Ecosystem services as a common language for coastal ecosystem-based management. Conservation Biology, 24(1), 207216. https://doi.org/10.1111/j.1523-1739.2009.01355.xCrossRefGoogle ScholarPubMed
Harris, D. M. (2022). The trouble with modeling the human into the future climate. GeoHumanities, 8(2), 382398. https://doi.org/10.1080/2373566X.2022.2043764CrossRefGoogle Scholar
He, Q., & Silliman, B. R. (2019). Climate change, human impacts, and coastal ecosystems in the Anthropocene. Current Biology, 29(19), R1021R1035. https://doi.org/10.1016/j.cub.2019.08.042CrossRefGoogle ScholarPubMed
Hejnowicz, A. P., Kennedy, H., Rudd, M. A., & Huxham, M. R. (2015). Harnessing the climate mitigation, conservation and poverty alleviation potential of seagrasses: Prospects for developing blue carbon initiatives and payment for ecosystem service programs. Frontiers in Marine Science, 2(32). https://doi.org/10.3389/fmars.2015.00032CrossRefGoogle Scholar
Herr, D., Blum, J., Himes-Cornell, A., & Sutton-Grier, A. (2019). An analysis of the potential positive and negative livelihood impacts of coastal carbon offset projects. Journal of Environmental Management, 235, 463479. https://doi.org/10.1016/j.jenvman.2019.01.067CrossRefGoogle ScholarPubMed
Howard, J., McLeod, E., Thomas, S., Eastwood, E., Fox, M., Wenzel, L., & Pidgeon, E. (2017). The potential to integrate blue carbon into MPA design and management. Aquatic Conservation: Marine and Freshwater Ecosystems, 27(S1), 100115. https://doi.org/10.1002/aqc.2809CrossRefGoogle Scholar
Indigenous Carbon Industry Network. (2021). Submission on the draft carbon credits (Carbon Farming Initiative – Tidal Restoration of Blue Carbon Ecosystems). Methodology Determination 2021. https://consult.dcceew.gov.au/blue-carbon-methodGoogle Scholar
Jackson, S., Palmer, L., McDonald, F., & Bumpus, A. (2017). Cultures of carbon and the logic of care: the possibilities for carbon enrichment and its cultural signature. Annals of the American Association of Geographers, 107(4), 867882. https://doi.org/10.1080/24694452.2016.1270187CrossRefGoogle Scholar
Jackson, G., N'Guetta, A., De Rosa, S. P., Scown, M., Dorkenoo, K., Chaffin, B., & Boyd, E. (2023). An emerging governmentality of climate change loss and damage. Progress in Environmental Geography, 2(1-2), 3357. https://doi.org/10.1177/27539687221148748CrossRefGoogle Scholar
Kimberley Land Council. (2021). Submission on the draft carbon credits (Carbon Farming Initiative – Tidal Restoration of Blue Carbon Ecosystems). Methodology Determination 2021. https://consult.dcceew.gov.au/blue-carbon-method/have-your-say/view/11Google Scholar
Kunstadter, P., & Bird, E. C. F. (1986). Man in the mangroves: The socio-economic situation of human settlements in mangrove forests. Proceedings of a workshop held at Nong Nuch Village, Pattaya, Thailand, 27-31 May 1985.Google Scholar
Lee, S., Hall, G., & Trench, C. (2022). The role of nature-based solutions in disaster resilience in coastal Jamaica: Current and potential applications for ‘building back better’. Disasters, 46, S78S100. https://doi.org/10.1111/disa.12539CrossRefGoogle ScholarPubMed
Lovelock, C. E., & Duarte, C. M. (2019). Dimensions of blue carbon and emerging perspectives. Biology Letters, 15(3), 20180781. https://doi.org/10.1098/rsbl.2018.0781CrossRefGoogle ScholarPubMed
Lovelock, C. E., Adame, M. F., Bradley, J., Dittmann, S., Hagger, V., Hickey, S. M., Hutley, L. B., Jones, A., Kelleway, J. J., Lavery, P. S., Macreadie, P. I., Maher, D. T., McGinley, S., McGlashan, A., Perry, S., Mosley, L., Rogers, K., & Sippo, J. Z. (2023). An Australian blue carbon method to estimate climate change mitigation benefits of coastal wetland restoration. Restoration Ecology, 31(7), e13739. https://doi.org/10.1111/rec.13739CrossRefGoogle Scholar
Macreadie, P. I., Costa, M. D. P., Atwood, T. B., Friess, D. A., Kelleway, J. J., Kennedy, H., Lovelock, C. E., Serrano, O., & Duarte, C. M. (2021). Blue carbon as a natural climate solution. Nature Reviews Earth & Environment, 2(12), 826839. https://doi.org/10.1038/s43017-021-00224-1CrossRefGoogle Scholar
Macreadie, P. I., Robertson, A. I., Spinks, B., Adams, M. P., Atchison, J. M., Bell-James, J., Bryan, B. A., Chu, L., Filbee-Dexter, K., & Drake, L. (2022). Operationalizing marketable blue carbon. One Earth, 5(5), 485492. https://doi.org/10.1016/j.oneear.2022.04.005CrossRefGoogle Scholar
Mahanty, S., Suich, H., & Tacconi, L. (2013). Access and benefits in payments for environmental services and implications for REDD+: Lessons from seven PES schemes. Land Use Policy, 31, 3847. https://doi.org/10.1016/j.landusepol.2011.10.009CrossRefGoogle Scholar
Malloy, J. T., & Ashcraft, C. M. (2020). A framework for implementing socially just climate adaptation. Climatic Change, 160(1), 114. https://doi.org/10.1007/s10584-020-02705-6CrossRefGoogle Scholar
Massaro, M., Dumay, J., & Guthrie, J. (2016). On the shoulders of giants: Undertaking a structured literature review in accounting. Accounting, Auditing & Accountability Journal, 29(5), 767801. https://doi.org/10.1108/AAAJ-01-2015-1939CrossRefGoogle Scholar
Mateos-Molina, D., Pittman, S. J., Antonopoulou, M., Baldwin, R., Chakraborty, A., García-Charton, J. A., & Taylor, O. J. S. (2021). An integrative and participatory coastal habitat mapping framework for sustainable development actions in the United Arab Emirates. Applied Geography, 136, 102568. https://doi.org/10.1016/j.apgeog.2021.102568CrossRefGoogle Scholar
McCall, M. K. (2012). Local participation in mapping, measuring and monitoring for community carbon forestry. In Skutsch, M. (Ed.), Community forest monitoring for the carbon market (pp. 3144). Routledge.Google Scholar
McLeod, E., Chmura, G. L., Bouillon, S., Salm, R., Björk, M., Duarte, C. M., Lovelock, C. E., Schlesinger, W. H., & Silliman, B. R. (2011). A blueprint for blue carbon: Toward an improved understanding of the role of vegetated coastal habitats in sequestering CO2. Frontiers in Ecology and the Environment, 9(10), 552560. https://doi.org/10.1890/110004CrossRefGoogle Scholar
Merk, C., Grunau, J., Riekhof, M.-C., & Rickels, W. (2022). The need for local governance of global commons: The example of blue carbon ecosystems. Ecological Economics, 201, 107581. https://doi.org/10.1016/j.ecolecon.2022.107581CrossRefGoogle Scholar
Milligan, C., & Wiles, J. (2010). Landscapes of care. Progress in Human Geography, 34(6), 736754. https://doi.org/10.1177/0309132510364556CrossRefGoogle Scholar
Mishra, D., Gunasekaran, A., Papadopoulos, T., & Hazen, B. (2017). Green supply chain performance measures: A review and bibliometric analysis. Sustainable Production and Consumption, 10, 8599. https://doi.org/10.1016/j.spc.2017.01.003CrossRefGoogle Scholar
Moore, M.-L., von der Porten, S., Plummer, R., Brandes, O., & Baird, J. (2014). Water policy reform and innovation: A systematic review. Environmental Science & Policy, 38, 263271. https://doi.org/10.1016/j.envsci.2014.01.007CrossRefGoogle Scholar
Neimark, B., Mahanty, S., Dressler, W. H., & Hicks, C. (2020). Not just participation: The rise of the eco-precariat in the green economy. Antipode, 52(2), 496521. https://doi.org/10.1111/anti.12593CrossRefGoogle ScholarPubMed
Normann, S. (2021). Green colonialism in the Nordic context: Exploring Southern Saami representations of wind energy development. Journal of Community Psychology, 49(1), 7794. https://doi.org/10.1002/jcop.22422CrossRefGoogle ScholarPubMed
O'Lear, S. (2016). Climate science and slow violence: A view from political geography and STS on mobilizing technoscientific ontologies of climate change. Political Geography, 52, 413. https://doi.org/10.1016/j.polgeo.2015.01.004CrossRefGoogle Scholar
Petheram, L., & Campbell, B. M. (2010). Listening to locals on payments for environmental services. Journal of Environmental Management, 91(5), 11391149. https://doi.org/10.1016/j.jenvman.2010.01.002CrossRefGoogle ScholarPubMed
Petticrew, M., & Roberts, H. (2008). Systematic reviews in the social sciences: A practical guide. John Wiley & Sons.Google Scholar
Praskievicz, S. (2022). Ground truth: Finding a ‘place’ for climate change. Progress in Environmental Geography, 1(1–4), 137162. https://doi.org/10.1177/27539687221127035CrossRefGoogle Scholar
Quevedo, J. M. D., Uchiyama, Y., & Kohsaka, R. (2020a). Perceptions of the seagrass ecosystems for the local communities of Eastern Samar, Philippines: Preliminary results and prospects of blue carbon services. Ocean and Coastal Management, 191, 105181. https://doi.org/10.1016/j.ocecoaman.2020.105181CrossRefGoogle Scholar
Quevedo, J. M. D., Uchiyama, Y., & Kohsaka, R. (2020b). Perceptions of local communities on mangrove forests, their services and management: Implications for Eco-DRR and blue carbon management for Eastern Samar, Philippines. Journal of Forest Research, 25(1), 111. https://doi.org/10.1080/13416979.2019.1696441CrossRefGoogle Scholar
Quevedo, J. M. D., Uchiyama, Y., & Kohsaka, R. (2021a). Linking blue carbon ecosystems with sustainable tourism: Dichotomy of urban-rural local perspectives from the Philippines. Regional Studies in Marine Science, 45, 101820. https://doi.org/10.1016/j.rsma.2021.101820CrossRefGoogle Scholar
Quevedo, J. M. D., Uchiyama, Y., & Kohsaka, R. (2021b). Local perceptions of blue carbon ecosystem infrastructures in Panay Island, Philippines. Coastal Engineering Journal, 63(3), 227247. https://doi.org/10.1080/21664250.2021.1888558CrossRefGoogle Scholar
Quevedo, J. M. D., Uchiyama, Y., & Kohsaka, R. (2021c). A blue carbon ecosystems qualitative assessment applying the DPISR framework: Local perspective of global benefits and contributions. Marine Policy, 128, 104462. https://doi.org/10.1016/j.marpol.2021.104462CrossRefGoogle Scholar
Quiros, T. A. L., Sudo, K., Ramilo, R. V., Garay, H. G., Soniega, M. P. G., Baloloy, A., Blanco, A., Tamondong, A., Nadaoka, K., & Nakaoka, M. (2021). Blue carbon ecosystem services through a vulnerability lens: Opportunities to reduce social vulnerability in fishing communities. Frontiers in Marine Science, 8, 671753. https://doi.org/10.3389/fmars.2021.671753CrossRefGoogle Scholar
Raw, J. L., Adams, J. B., Bornman, T. G., Riddin, T., & Vanderklift, M. A. (2021). Vulnerability to sea-level rise and the potential for restoration to enhance blue carbon storage in salt marshes of an urban estuary. Estuarine, Coastal and Shelf Science, 260, 107495. https://doi.org/10.1016/j.ecss.2021.107495CrossRefGoogle Scholar
Reiter, S. M., Cheng, L. M., Pouponneau, A., Taylor, S., & Wedding, L. M. (2021). A framework for operationalizing climate-just ocean commitments under the Paris Agreement. Frontiers in Climate: Climate Law and Policy, 3, 724065. https://doi.org/10.3389/fclim.2021.724065CrossRefGoogle Scholar
Resosudarmo, I. A. P., Atmadja, S., Ekaputri, A. D., Intarini, D. Y., Indriatmoko, Y., & Astri, P. (2014). Does tenure security lead to REDD+project effectiveness? Reflections from five emerging sites in Indonesia. World Development, 55, 6883. https://doi.org/10.1016/j.worlddev.2013.01.015CrossRefGoogle Scholar
Reyes-García, V., & Benyei, P. (2019). Indigenous knowledge for conservation. Nature Sustainability, 2(8), 657658. https://doi.org/10.1038/s41893-019-0341-zCrossRefGoogle Scholar
Rice, J. C. (2011). Achieving coherent policies for conservation and sustainable use of marine ecosystems. Conservation Biology, 25(6), 10651068. http://doi.org/10.1111/j.1523-1739.2011.01757.xCrossRefGoogle ScholarPubMed
Rights and Resources Initiative. (2014). ‘Lots of words, little action. Will the private sector tip the scales for community land rights?’. Washington, DC: Rights and Resources Initiative. https://rightsandresources.org/publication/lots-of-words-little-action/Google Scholar
Rocco, T. S., Plakhotnik, M. S., McGill, C. M., Huyler, D., & Collins, J. C. (2023). Conducting and writing a structured literature review in human resource development. Human Resource Development Review, 22(1), 104125. https://doi.org/10.1177/15344843221141515CrossRefGoogle Scholar
RTW (Remember The Wild). (2024). ‘The connected to Port Phillip Initiative’. https://connectedtoportphillip.com/2019/10/21/blue-carbon-what-is-it-and-why-do-we-care/Google Scholar
Ruiz-Frau, A., Gelcich, S., Hendriks, I. E., Duarte, C. M., & Marbà, N. (2017). Current state of seagrass ecosystem services: Research and policy integration. Ocean and Coastal Management, 149, 107115. https://doi.org/10.1016/j.ocecoaman.2017.10.004CrossRefGoogle Scholar
Sangha, K. K., Stoeckl, N., Crossman, N., & Costanza, R. (2019). A state-wide economic assessment of coastal and marine ecosystem services to inform sustainable development policies in the Northern Territory, Australia. Marine Policy, 107, 103595. https://doi.org/10.1016/j.marpol.2019.103595CrossRefGoogle Scholar
Sapkota, Y., & White, J. R. (2020). Carbon offset market methodologies applicable for coastal wetland restoration and conservation in the United States: A review. Science of the Total Environment, 701, 134497. https://doi.org/10.1016/j.scitotenv.2019.134497CrossRefGoogle ScholarPubMed
Sasmito, S. D., Taillardat, P., Clendenning, J. N., Cameron, C., Friess, D. A., Murdiyarso, D., & Hutley, L. B. (2019). Effect of land-use and land-cover change on mangrove blue carbon: A systematic review. Global Change Biology, 25(12), 42914302. https://doi.org/10.1111/gcb.14774CrossRefGoogle ScholarPubMed
Schlosberg, D. (2007). Defining environmental justice: Theories, movements, and nature. Oxford University Press.CrossRefGoogle Scholar
Schröter, B., Matzdorf, B., Hackenberg, I., & Hauck, J. (2018). More than just linking the nodes: Civil society actors as intermediaries in the design and implementation of payments for ecosystem services – The case of a blue carbon project in Costa Rica. Local Environment: The International Journal of Justice and Sustainability, 23(6), 635651. https://doi.org/10.1080/13549839.2018.1460808CrossRefGoogle Scholar
Secundo, G., Ndou, V., Del Vecchio, P., & De Pascale, G. (2020). Sustainable development, intellectual capital and technology policies: A structured literature review and future research agenda. Technological Forecasting and Social Change, 153, 119917. https://doi.org/10.1016/j.techfore.2020.119917CrossRefGoogle Scholar
Shoreman-Ouimet, E., & Kopnina, H. (2015). Reconciling ecological and social justice to promote biodiversity Conservation. Biological Conservation, 184, 320326. https://doi.org/10.1016/j.biocon.2015.01.030CrossRefGoogle Scholar
Song, A. M., Dressler, W. H., Satizábal, P., & Fabinyi, M. (2021). From conversion to conservation to carbon: The changing policy discourse on mangrove governance and use in the Philippines. IOP Conference Series: Earth and Environmental Science, 755(1), 184195. https://doi.org/10.1016/j.jrurstud.2021.01.008Google Scholar
Sultana, F. (2022). Critical climate justice. The Geographical Journal, 188(1), 118124. https://doi.org/10.1111/geoj.12417CrossRefGoogle Scholar
Sunderlin, W. D., Larson, A. M., Duchelle, A. E., Resosudarmo, I. A. P., Huynh, T. B., Awono, A., & Dokken, T. (2014). How are REDD+proponents addressing tenure problems? Evidence from Brazil, Cameroon, Tanzania, Indonesia, and Vietnam. World Development, 55, 3752. https://doi.org/10.1016/j.worlddev.2013.01.013CrossRefGoogle Scholar
Tanner, T., Lewis, D., Wrathall, D., Bronen, R., Cradock-Henry, N., Huq, S., Lawless, C., Nawrotzki, R., Prasad, V., Rahman, M. A., & Alaniz, R. (2015). Livelihood resilience in the face of climate change. Nature Climate Change, 5(1), 2326. https://doi.org/10.1038/nclimate2431CrossRefGoogle Scholar
Teh, L. C., & Sumaila, U. R. (2013). Contribution of marine fisheries to worldwide employment. Fish and Fisheries, 14(1), 7788. https://doi.org/10.1111/j.1467-2979.2011.00450.xCrossRefGoogle Scholar
Thomas, S. (2014). Blue carbon: Knowledge gaps, critical issues, and novel approaches. Ecological Economics, 107, 2238. https://doi.org/10.1016/j.ecolecon.2014.07.028CrossRefGoogle Scholar
Thomas, S. (2016). Between Tun Mustapha and the deep blue sea: The political ecology of blue carbon in Sabah. Environmental Science & Policy, 55, 2035. https://doi.org/10.1016/j.envsci.2015.08.017CrossRefGoogle Scholar
Thompson, B. S., Primavera, J. H., & Friess, D. A. (2017). Governance and implementation challenges for mangrove forests payments for ecosystem services (PES): Empirical evidence from the Philippines. Ecosystem Services, 23, 146155. https://doi.org/10.1016/j.ecoser.2016.12.007CrossRefGoogle Scholar
Tramel, S. (2020). Convergence as political strategy: Social justice movements, natural resources, and climate change. In Moreda, T., Borras, S. M. Jr., Alonso-Fradejas, A., & Brent, Z. W. (Eds.), Converging social justice issues and movements (pp. 6481). Routledge. https://doi.org/10.4324/9781003000969CrossRefGoogle Scholar
Turnbull, J., Searle, A., Hartman Davies, O., Dodsworth, J., Chasseray-Peraldi, P., von Essen, E., & Anderson-Elliott, H. (2023). Digital ecologies: Materialities, encounters, governance. Progress in Environmental Geography, 2(1-2), 332. https://doi.org/10.1177/27539687221145698CrossRefGoogle Scholar
UN-DESA (World Bank and United Nations Department of Economic and Social Affairs). (2017). The Potential of the Blue Economy: Increasing Long-term Benefits of the Sustainable Use of Marine Resources for Small Island Developing States and Coastal Least Developed Countries. World Bank, Washington DC. https://openknowledge.worldbank.org/server/api/core/bitstreams/cee24b6c-2e2f-5579-b1a4-457011419425/contentGoogle Scholar
UNEP, (United Nations Environment Programme). (2019). Environmental Rule of Law: First Global Report. https://wedocs.unep.org/handle/20.500.11822/27279Google Scholar
UNFCCC (United Nations Framework Convention on Climate Change Subsidiary Body for Scientific and Technological Advice). (2009). Reducing emissions from deforestation in developing countries: Approaches to stimulate action. In Proceedings of the Issues Relating to Indigenous People and Local Communities for the Development and Application of Methodologies (Bonn). https://unfccc.int/sites/default/files/resource/docs/2009/sbsta/eng/misc02a02.pdfGoogle Scholar
Van Hecken, G., & Bastiaensen, J. (2010). Payments for ecosystem services: Justified or not? A political view. Environmental Science & Policy, 13(8), 785792. https://doi.org/10.1016/j.envsci.2010.09.006CrossRefGoogle Scholar
Van Slobbe, E., de Vriend, H. J., Aarninkhof, S., Lulofs, K., de Vries, M., & Dircke, P. (2013). Building with Nature: in search of resilient storm surge protection strategies. Natural Hazards, 66, 14611480. https://doi.org/10.1007/s11069-013-0612-3CrossRefGoogle Scholar
Vanderklift, M. A., Marcos-Martinez, R., Butler, J. R. A., Coleman, M., Lawrence, A., Prislan, H., Steven, A. D. L., & Thomas, S. (2019). Constraints and opportunities for market-based finance for the restoration and protection of blue carbon ecosystems. Marine Policy, 107(103429). https://doi.org/10.1016/j.marpol.2019.02.001CrossRefGoogle Scholar
Vierros, M. (2017). Communities and blue carbon: The role of traditional management systems in providing benefits for carbon storage, biodiversity conservation and livelihoods. Climatic Change, 140(1), 89100. https://doi.org/10.1007/s10584-013-0920-3CrossRefGoogle Scholar
Warner, R., Kaidonis, M., Dun, O., Rogers, K., Shi, Y., Nguyen, T. T. X., & Woodroffe, C. D. (2016). Opportunities and challenges for mangrove carbon sequestration in the Mekong River Delta in Vietnam. Sustainability Science, 11(4), 661677. https://doi.org/10.1007/s11625-016-0359-3CrossRefGoogle Scholar
Weichselgartner, J., & Kelman, I. (2015). Geographies of resilience: Challenges and opportunities of a descriptive concept. Progress in Human Geography, 39(3), 249267. https://doi.org/10.1177/0309132513518834CrossRefGoogle Scholar
Wittman, H. K., & Caron, C. (2009). Carbon offsets and inequality: Social costs and co-benefits in Guatemala and Sri Lanka. Society and Natural Resources, 22(8), 710726. https://doi.org/10.1080/08941920802046858CrossRefGoogle Scholar
Wylie, L., Sutton-Grier, A., & Moore, A. (2016). Keys to successful blue carbon projects: Lessons learned from global case studies. Marine Policy, 65, 7684. https://doi.org/10.1016/j.marpol.2015.12.020CrossRefGoogle Scholar
Zeng, Y., Friess, D. A., Sarira, T. V., Siman, K., & Koh, L. P. (2021). Global potential and limits of mangrove blue carbon for climate change mitigation. Current Biology, 31(8), 17371743. https://doi.org/10.1016/j.cub.2021.01.070CrossRefGoogle ScholarPubMed
Figure 0

Table 1. Selected studies of social and cultural dimensions of blue carbon included in structured review

Figure 1

Figure 1. Selected articles by year of publication, demonstrating the overall increase in publications addressing the social and cultural dimensions of blue carbon over time.