Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-28T15:11:51.997Z Has data issue: false hasContentIssue false

Social innovation that connects people to coasts in the Anthropocene

Published online by Cambridge University Press:  27 March 2023

Louis Celliers*
Affiliation:
Climate Service Center Germany (GERICS), Helmholtz-Zentrum Hereon, Hamburg, Germany Faculty of Sustainability, Social-Ecological Systems Institute (SESI), Leuphana University Lüneburg, Lüneburg, Germany
María Mañez Costa
Affiliation:
Climate Service Center Germany (GERICS), Helmholtz-Zentrum Hereon, Hamburg, Germany
Lena Rölfer
Affiliation:
Climate Service Center Germany (GERICS), Helmholtz-Zentrum Hereon, Hamburg, Germany Faculty of Sustainability, Social-Ecological Systems Institute (SESI), Leuphana University Lüneburg, Lüneburg, Germany
Shankar Aswani
Affiliation:
Departments of Anthropology and Ichthyology and Fisheries Science, Rhodes University, Grahamstown, South Africa
Sebastian Ferse
Affiliation:
Leibniz Centre for Tropical Marine Research (ZMT), Bremen, Germany
*
Corresponding author: Louis Celliers; Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Post-industrial society is driving global environmental change, which is a challenge for all generations, current and future. The Anthropocene is the geological epoch in which humans dominate and it is rooted in the past, present, and future. Future sustainability is building on the momentum of the fundamental importance of studying human dynamics and governance of coupled social and ecological systems. In the Anthropocene, social innovation may play a critical role in achieving new pathways to sustainability. This conventional narrative review uses a qualitative analysis anchored in the Grounded Theory Method and a systematic collection and analysis of papers to identify broad types of social innovations. Scientific journal articles published since 2018 were prioritised for inclusion. The six types of social innovation proposed are (a) authentic engagement; (b) artful and engaging communication; (c) urging and compelling change; (d) governance for social-ecological systems; (e) anticipation in governance; and (f) lived experiences and values. The six innovations proposed in this paper can be embedded within, and form part of, social action using a science–society compact for the sustainable development of coasts in the Anthropocene.

Type
Review
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
© The Author(s), 2023. Published by Cambridge University Press

Impact statement

This paper reflects on the need for sustainability of the coasts in the Anthropocene. It considers the increasing need for science to engage with society to achieve sustainable coastal futures. In the human-dominated system of the future, fact, or scientific evidence alone is not sufficient for society to adapt and transform towards higher degrees of sustainability. We propose that there are interventions and actions at the science–society interface that are needed to enable such higher degrees of sustainability. The paper identifies six social innovations knowable through the scientific literature that have the potential to substantially increase the ability of society to transform to coastal sustainability. These six social innovations are also critical for enabling the achievement of the UN Sustainable Development Goals. The six innovations proposed in this paper can be bound together with social action and interest in a new science–society compact for sustainable coasts in the Anthropocene.

Introduction

Post-industrial society has had a profound impact on the state of the planet, and living with global environmental change is a challenge for all generations, current and future. In an astoundingly short period of two centuries, human activities have caused the climate to change. This change is resulting in impacts from both slow onset changes and extreme events across the Earth system (see, e.g., Steffen et al., Reference Steffen, Rockström, Richardson, Lenton, Folke, Liverman, Summerhayes, Barnosky, Cornell, Crucifix, Donges, Fetzer, Lade, Scheffer, Winkelmann and Schellnhuber2018; Folke et al., Reference Folke, Polasky, Rockström, Galaz, Westley, Lamont, Scheffer, Osterblom, Carpenter, Chapin, Seto, Weber, Crona, Daily, Dasgupta, Gaffney, Gordon, Hoff, Levin, Lubchenco, Steffen and Walker2021). A new geological epoch was started, referred to as the Anthropocene, in which humans dominate the natural system. The Anthropocene is rooted in both the past and the present, but the concept of thresholds and tipping points (Rockström et al., Reference Rockström, Steffen, Noone, Persson, Chapin, Lambin, Lenton, Scheffer, Folke, Schellnhuber, Nykvist, de Wit, Hughes, van der Leeuw, Rodhe, Sorlin, Snyder, Costanza, Svedin, Falkenmark, Karlberg, Corell, Fabry, Hansen, Walker, Liverman, Richardson, Crutzen and Foley2009; Nash et al., Reference Nash, Cvitanovic, Fulton, Halpern, Milner-Gulland, Watson and Blanchard2017; McLaughlin, Reference McLaughlin2018; Turner et al., Reference Turner, Calder, Cumming, Hughes, Jentsch, LaDeau, Lenton, Shuman, Turetsky, Ratajczak, Williams, Williams and Carpenter2020), in a changing climate, makes this geological epoch more a matter of trajectories of change, and the state of the future (Bai et al., Reference Bai, van der Leeuw, O’Brien, Berkhout, Biermann, Brondizio, Cudennec, Dearing, Duraiappah, Glaser, Revkin, Steffen and Syvitski2016). The world is changing faster than people recall, have lived, or are willing to accept. Science tells of major change to be expected, with dire warnings of impacts on human well-being (IPCC reports, media reporting on UNFCCC CoP, etc.). Where, in the past, we may have heard stories of the “good old days”, the stories we are now likely to tell are framed by the uncertainty of the future and the well-being of future generations.

Recent scientific literature reflects on the meaning and relevance of the future (of humanity) for virtually all aspects of human existence as part of social-ecological systems (also known as coupled human-natural systems and complex adaptive systems) (Hulme, Reference Hulme2020; Wyborn et al., Reference Wyborn, Davila, Pereira, Lim, Alvarez, Henderson, Luers, Martinez Harms, Maze, Montana, Ryan, Sandbrook, Shaw and Woods2020; Folke et al., Reference Folke, Polasky, Rockström, Galaz, Westley, Lamont, Scheffer, Osterblom, Carpenter, Chapin, Seto, Weber, Crona, Daily, Dasgupta, Gaffney, Gordon, Hoff, Levin, Lubchenco, Steffen and Walker2021). In a sense, the contemporary desire for societal transformation towards sustainability is explicitly about the future of humanity. This has become a scientific currency with which to purchase leverage for change at a systemic scale (e.g., IPCC reports, and IPBES knowledge products). The UN Sustainable Development Goals (SDGs) are a product of Anthropocene-related thinking and an expression of the aspiration to collectively achieve desirable sustainable futures. Future sustainability (e.g., as expressed by the achievement of the SDGs by 2030) is increasingly understood to be possible only through human dynamics and governance of social-ecological systems (Biermann et al., Reference Biermann, Bai, Bondre, Broadgate, Arthur Chen, Dube, Erisman, Glaser, van der Hel, Lemos, Seitzinger and Seto2016; Lindkvist et al., Reference Lindkvist, Pellowe, Alexander, Drury, Neill, Finkbeiner, Girón-Nava, González-Mon, Johnson, Pittman, Schill, Wijermans, Bodin, Gelcich and Glaser2022).

This emphasis on futures is also relevant and important to oceans and coasts in the Anthropocene. Even without additional climate change impacts, coastal areas are highly dynamic bio-physical systems (at the land–ocean–atmosphere interface) that are constantly being reshaped by natural forces and human activities (Neumann et al., Reference Neumann, Vafeidis, Zimmermann and Nicholls2015; Newton et al., Reference Newton, Harff, You, Zhang and Wolanski2016; He and Silliman, Reference He and Silliman2019; Kopp et al., Reference Kopp, Gilmore, Little, Lorenzo-Trueba, Ramenzoni and Sweet2019). Coasts offer access to resources, both on land and in the ocean, attract people, human settlement, and economic and recreational activities while also being disproportionately affected by climate change (Barnard et al., Reference Barnard, Dugan, Page, Wood, Hart, Cayan, Erikson, Hubbard, Myers, Melack and Iacobellis2021; Defeo and Elliott, Reference Defeo and Elliott2021; IPCC, 2022). The importance of coasts and oceans is evidenced by the articulation of the SDGs (Neumann et al., Reference Neumann, Ott and Kenchington2017; Haas et al., Reference Haas, Mackay, Novaglio, Fullbrook, Murunga, Sbrocchi, McDonald, McCormack, Alexander, Fudge, Goldsworthy, Boschetti, Dutton, Dutra, McGee, Rousseau, Spain, Stephenson, Vince, Wilcox and Haward2021) and the UN Decade of Ocean Science, among other efforts.

The voice of science on the possible future states of the planet has become prominent, and with science data, information, and knowledge it is also possible to create a relationship (a story) between people and the state of the future coast. This relationship between people and place requires intangible elements such as trust, agreement, and values (Lacey et al., Reference Lacey, Howden, Cvitanovic and Colvin2017; Pulkkinen et al., Reference Pulkkinen, Undorf, Bender, Wikman-Svahn, Doblas-Reyes, Flynn, Hegerl, Jönsson, Leung, Roussos, Shepherd and Thompson2022), essential components of connection, and creates an incubator for social innovation. Social innovation is any action by individuals, organisations, and networks to generate novel solutions that contribute to changing behaviour across numerous perspectives, across markets and public sectors, and to enhancing bottom-up responsible inventiveness (Olsson et al., Reference Olsson, Moore, Westley and McCarthy2017; Soma et al., Reference Soma, van den Burg, Hoefnagel, Stuiver and van der Heide2018). It has been suggested that within the context of the Anthropocene, social innovations may play a critical role in achieving new pathways to sustainability (Olsson et al., Reference Olsson, Moore, Westley and McCarthy2017).

The objective of this review paper was to identify types of social innovation that are fundamental for establishing and maintaining the connection between people and the coast, which could result in achieving higher degrees of sustainability, now and in the future. We identify social innovations by assessing recent literature on a broad range of topics including transdisciplinary knowledge co-production, human dynamics related to science–society interactions, anthropology, governance systems and legislation. We also propose that social innovations are essential for achieving the SDGs. We suggest a scheme of types of social innovation and how they relate to the SDGs. While we recognise that the impacts of social innovation can be both positive and negative, we focus on its positive impacts. We conclude by proposing that social innovation become part of a new social mandate or science–society compact for achieving coastal sustainability.

Methods

We use a qualitative analysis anchored in the Grounded Theory Method (Glaser and Strauss, Reference Glaser and Strauss2017) to identify broad types of social innovation from the literature. The steps of Grounded Theory include research design, data collection, data ordering, data analysis, and literature comparison. Data (concepts and theory in scientific literature) were collected using purposive sampling that allowed us to inductively identify social innovations. The social innovations that were included were knowable through scientific literature. The outcome of the methodology is presented as a conventional narrative review.

Literature was identified by (1) date range, and by (2) keywords and phrases from bibliographic databases including Scopus and Web of Science. Articles published from 2018 to June 2022 and listed in bibliographic databases were prioritised for inclusion (82% of the 113 references used in this paper). Very recently published literature was prioritised to demonstrate the rapidly increasing emphasis on social innovation to enable sustainability. We also used discretionary search methods such as reference list checking. We did not undertake a systematic review, and search terms (e.g., coast*; OR ocean*; OR marine; AND future; sustainability, climate change, social-ecological) were used as an initial filter to find other papers and branches of inquiry and interest in a snowball sampling approach, which is suitable for the exploratory approach taken here. Grey literature was not considered.

Publications included in the review for the elements identified, for example, legislation, climate change and coasts, are considered indicative of trends in the scientific literature (inclusive of natural and social sciences). Our approach assumes a connection between the coastal land, ocean, and atmosphere as a complex coastal social-ecological system, which provides cross-disciplinary insight into complex environmental problems (Refulio-Coronado et al., Reference Refulio-Coronado, Lacasse, Dalton, Humphries, Basu, Uchida and Uchida2021). Thus, we included papers that have either a coastal or ocean focus, or both. In some instances, papers from other domains, for example, climate change, or not explicitly related to the coast or ocean were also included if they were deemed to indicate a particularly important and relevant trend.

Social innovation for sustainability

The social innovations identified here are not suggested to be discreet from one another and the overlap between them is expected and a positive trait. They can enable a positive relationship between people and the coast, and create conditions that may enable positive transformation towards sustainability. The six types of social innovation are (a) authentic engagement; (b) artful and engaging communication; (c) urging and compelling change; (d) governance for social-ecological systems; (e) anticipation in governance; (f) and, lived experiences and values. We provide some examples of social innovations with a positive impact on the sustainability of Anthropocene coasts in Table 1.

Table 1. Examples of social innovations that facilitate the connection of people to the coast to achieve higher degrees of sustainability

Authentic engagement

Authentic engagement to achieve coastal sustainability is an openness to engage among, and broaden the participation of, people, organisations, government, business sectors and multiple scientific disciplines. It is as much a mindset as it is an approach. The nature of the engagement breaks down power differences, aims to establish trust and acknowledges the value of different knowledge types, among others. For example, transdisciplinarity is appropriate for a society that is aiming to transform to higher degrees of sustainability (e.g., McKinley et al., Reference McKinley, Crowe, Stori, Ballinger, Brew, Blacklaw-Jones, Cameron-Smith, Crowley, Cocco, O’Mahony, McNally, Power and Foley2021), as is the constellation of “co”-concepts (−design, −creation, −production, etc.) that are linked to a transdisciplinary approach (Norström et al., Reference Norström, Cvitanovic, Löf, West, Wyborn, Balvanera, Bednarek, Bennett, Biggs, de Bremond, Campbell, Canadell, Carpenter, Folke, Fulton, Gaffney, Gelcich, Jouffray, Leach, Le Tissier, Martín-López, Louder, Loutre, Meadow, Nagendra, Payne, Peterson, Reyers, Scholes, Speranza, Spierenburg, Stafford-Smith, Tengö, van der Hel, van Putten and Österblom2020; Chambers et al., Reference Chambers, Wyborn, Klenk, Ryan, Serban, Bennett, Brennan, Charli-Joseph, Fernández-Giménez, Galvin, Goldstein, Haller, Hill, Munera, Nel, Österblom, Reid, Riechers, Spierenburg, Tengö, Bennett, Brandeis, Chatterton, Cockburn, Cvitanovic, Dumrongrojwatthana, Paz Durán, Gerber, Green, Gruby, Guerrero, Horcea-Milcu, Montana, Steyaert, Zaehringer, Bednarek, Curran, Fada, Hutton, Leimona, Pickering and Rondeau2022). It also aims to change the way research is done within society, by breaking down disciplinary “comfort zones” between natural sciences and humanities, as well as among sectors of society (Guillotreau et al., Reference Guillotreau, Trouillet, Mahévas and Pardo2020). Authentic engagement creates active, even rightful, roles for society in knowledge production (Albagli and Iwama, Reference Albagli and Iwama2022), and increases the likelihood for sustainability transitions to be equitable and just (Bennett et al., Reference Bennett, Blythe, Cisneros-Montemayor, Singh and Sumaila2019).

Artful and engaging communication

There is no one-size-fits-all solution for communicating the outcome of science and making people part of the conversation on solutions for sustainability (Bentz et al., Reference Bentz, do Carmo, Schafenacker, Schirok and Corso2021). Visualising the three-dimensionality of the coast (both wet and dry) requires a combination of cultural local knowledge, artistic science and scientifically inspired art. Furthermore, this multidimensionality of the coast is highly dynamic in the short- and longer term. For example, art-based approaches routed in the social-cultural contexts can activate the human imagination and promote collaboration across disciplines (Galafassi et al., Reference Galafassi, Tàbara, Heras, Iles, Locke and Milkoreit2018; Tosca et al., Reference Tosca, Galvin, Gilbert, Walls, Tyler and Nastan2021). Story-telling, narratives, and dialogues deepen learning, reduce ambiguity, and focus on hybridity, sense-making and the potential for transdisciplinary research to generate shared meaning and foster agency (Galafassi et al., Reference Galafassi, Daw, Thyresson, Rosendo, Chaigneau, Bandeira, Munyi, Gabrielsson and Brown2018; Kelly et al., Reference Kelly, Nettlefold, Mossop, Bettiol, Corney, Cullen-Knox, Fleming, Leith, Melbourne-Thomas, Ogier, van Putten and Pecl2020; Vanderlinden et al., Reference Vanderlinden, Baztan, Chouinard, Cordier, Da Cunha, Huctin, Kane, Kennedy, Nikulkina, Shadrin, Surette, Thiaw and Thomson2020). The use of, for example, narrative scenarios may function as accessible communication tools that aim to foster anticipatory governance capacity (Spijkers et al., Reference Spijkers, Merrie, Wabnitz, Osborne, Mobjörk, Bodin, Selig, Le Billon, Hendrix, Singh, Keys and Morrison2021).

Urging and compelling change

Behavioural change may be compelled through the institutionalisation of policy, legislation, and regulations. Humans function better if their actions are bounded (Kotzé and French, Reference Kotzé, French, French and Kotzé2021), and enforceable (legal) boundaries set limits that are meant to achieve, maintain and/or return us to what is perceived to be a desired condition or critical service. Governance systems with institutionalised boundaries must be able to provide guarantees to secure such services (Jentoft, Reference Jentoft2007). Legal and institutional structures can fundamentally shape the adaptive governance of environmental resources at multiple ecological and societal scales (DeCaro et al., Reference DeCaro, Chaffin, Schlager, Garmestani and Ruhl2017). Second, the role of social media and social learning, and moral and ethical suasion (i.e., the ability to persuade) of people, organisations and institutions, are opportunities for socially driven solutions for changing behaviour. They may be of particular relevance where the benefits of the use of legislation are less clear, or where the wielders of ethical suasion hold little practical power other than to influence situations in a positive or negative direction through persuasiveness (see, e.g., Bos et al., Reference Bos, Drupp, Meya and Quaas2020).

Governance for social-ecological systems

Social innovations in governance include the role of authentic engagement and communication as described above. It implies a higher degree of engagement and demands processes of co-creation and implementation of improved, comprehensive, and integrated management plans, enhancement of decision-making processes, and better anticipation and consideration of ambiguity and uncertainty (Haas et al., Reference Haas, Mackay, Novaglio, Fullbrook, Murunga, Sbrocchi, McDonald, McCormack, Alexander, Fudge, Goldsworthy, Boschetti, Dutton, Dutra, McGee, Rousseau, Spain, Stephenson, Vince, Wilcox and Haward2021). The potential for social innovation includes the design of governance systems that combines poly-centric, multi-level, networked governance systems (Partelow et al., Reference Partelow, Schlüter, Armitage, Bavinck, Carlisle, Gruby, Hornidge, Le Tissier, Pittman, Song, Sousa, Văidianu and Van Assche2020) with authentic engagement. It reconceptualises coastal management “units” that reflect social-ecological units, that is, across the land–ocean interface (see Harvey and Clarke, Reference Harvey and Clarke2019), as opposed to purely administrative units.

Anticipation in governance

Purposeful and practical anticipation, and the expertise to do so, has become an indispensable core ingredient of contemporary attempts to govern complex problems (Aykut et al., Reference Aykut, Demortain and Benboudiz2019). For example, anticipatory climate governance is understood to mean the evolution of steering mechanisms in the present to adapt to and/or shape uncertain climate futures (Vervoort and Gupta, Reference Vervoort and Gupta2018). This means drawing on conceptions of the future and considering implications for the present (Muiderman et al., Reference Muiderman, Gupta, Vervoort and Biermann2020). Anticipating future changes in coastal-ocean systems is a substantial challenge for coastal governance, but also essential in the context of accelerating global change. Adaptive management mechanisms such as integrated coastal management (ICM) and ecosystem-based management (EBM) are both approaches that accommodate the dynamic nature of a system. The question arises whether or not, given the role of politics and bureaucracy, the policy implementation cycle of these mechanisms can keep pace with the trajectory of change (Colenbrander and Bavinck, Reference Colenbrander and Bavinck2017; Edwards, Reference Edwards2021). The optimisation of adaptive management approaches to make multiple and dynamic adjustments is already ongoing (e.g., Haasnoot et al., Reference Haasnoot, Kwakkel, Walker and ter Maat2013).

Lived experiences (and values)

There is a critical role for individuals and communities in achieving local coastal sustainability (Westoby and McNamara, Reference Westoby and McNamara2019; McNamara et al., Reference McNamara, Clissold, Westoby, Piggott-McKellar, Kumar, Clarke, Namoumou, Areki, Joseph, Warrick and Nunn2020; Westoby et al., Reference Westoby, McNamara, Kumar and Nunn2020). Cultural and life experiences encourage greater engagement of individuals and communities (and understanding asymmetries within, to avoid potential conflicts) with issues of sustainability (Brown et al., Reference Brown, Adger, Devine-Wright, Anderies, Barr, Bousquet, Butler, Evans, Marshall and Quinn2019). Collective values, shaped by lived experiences, underpin human actions and constitute leverage points for sustainability transformations (Abson et al., Reference Abson, Fischer, Leventon, Newig, Schomerus, Vilsmaier, von Wehrden, Abernethy, Ives, Jager and Lang2017). We understand that user needs, desires and actions hinge on value propositions formed by specific socio-cultural, climatic, spatial and bio-ecological contexts. As such, science-based interventions, for example, the development of climate services, require this contextual understanding to influence, alter and change behaviours (Martinez et al., Reference Martinez, Celliers, Collard, de Jong, Huang-Lachmann, Manez Costa, Rubio-Martin, Ozier-Lafontaine, Garcia Prats, Stelljes, Swart, Wimmermann, Llario and Pulido-Velazquez2022). In most cultures and value systems, the coast is a recognisable entity that is a physical, aesthetic, emotional, and even religious construct, which needs to be considered in scientific approaches that aim at achieving local coastal sustainability (Gillgren et al., Reference Gillgren, Støttrup, Schumacher and Dinesen2018). Littoral societies account for such intertwined characteristics.

Achieving global goals, transformation, and sustainable coastal futures

In this paper, we refer to a combination of emerging or existing social innovations in the Anthropocene that could support efforts to achieve sustainability. None of the social innovations identified here is particularly novel when considered in isolation. For example, there are four decades of published research on local knowledge, ecology, and “storytelling” (Johannes, Reference Johannes1978; Galafassi et al., Reference Galafassi, Daw, Thyresson, Rosendo, Chaigneau, Bandeira, Munyi, Gabrielsson and Brown2018). It has also been shown that formalised legislation often does not sufficiently recognise local forms of governance in coastal areas including customary marine tenure (right to use marine space), local management strategies and local territoriality (Schwarz et al., Reference Schwarz, Gordon and Ramofafia2020; Katikiro et al., Reference Katikiro, Kweka, Minja, Namkesa and Ponte2021). Scientific research has shown that formal management has failed because it has ignored local and informal forms of governance. Similarly, EBM that also considers human and social systems has been demonstrated as a useful approach to managing intact and connected natural systems faced with climate change (Fernandino et al., Reference Fernandino, Elliff and Silva2018; Alexander et al., Reference Alexander, Hobday, Cvitanovic, Ogier, Nash, Cottrell, Fleming, Fudge, Fulton, Frusher, Kelly, MacLeod, Pecl, van Putten, Vince and Watson2019).

However, the overlap between and the use of multiple social innovations offer exciting opportunities. If considered collectively, they can create a connection between people and the coast. This relationship potentially creates the mechanisms and methods to agree on the alternative, shared, negotiated visions for achieving goals of sustainability. The social innovations weave sectors of society together, including science, and in doing so, make it possible for transformation towards greater degrees of sustainability. The mere existence of science and scientific understanding of the changing planetary system is proving to be an insufficient enabler for a societal transformation to sustainability. That is why we seek novel and broader views on social innovations and sustainability, combined with the sciences, to transform society and achieve environmental and social sustainability (Horcea-Milcu et al., Reference Horcea-Milcu, Martín-López, Lam and Lang2020; McKinley et al., Reference McKinley, Acott and Yates2020; Folke et al., Reference Folke, Polasky, Rockström, Galaz, Westley, Lamont, Scheffer, Osterblom, Carpenter, Chapin, Seto, Weber, Crona, Daily, Dasgupta, Gaffney, Gordon, Hoff, Levin, Lubchenco, Steffen and Walker2021).

The science-inspired social innovations also respond to two contemporary challenges to science and “evidence” guiding decision-making for (coastal) sustainability. First, there is a need for science to inform a human-dominated system. This system is under pressure from climate change and rampant resource extraction, and people tend to be more willing and able to engage with science, not as a dominant force, but as an equal alongside other sources of information (Vanderlinden et al., Reference Vanderlinden, Baztan, Chouinard, Cordier, Da Cunha, Huctin, Kane, Kennedy, Nikulkina, Shadrin, Surette, Thiaw and Thomson2020; Serrao-Neumann et al., Reference Serrao-Neumann, de Araújo Moreira, Dalla Fontana, Torres, Lapola, Nunes, Marengo and Di Giulio2021; Vogel and O’Brien, Reference Vogel and O’Brien2021). The knowledge needs of society are becoming more complex and more dynamic (Mach et al., Reference Mach, Lemos, Meadow, Wyborn, Klenk, Arnott, Ardoin, Fieseler, Moss, Nichols, Stults, Vaughan and Wong-Parodi2020; Pasquier et al., Reference Pasquier, Few, Goulden, Hooton, He and Hiscock2020), and “facts” are no longer enough (Hulme, Reference Hulme2020). Second, there is growing anti-science activism that portrays scientists and science as being “other”, and apart from society and its interests (Hockfield, Reference Hockfield2018; Holt, Reference Holt2018; Hotez, Reference Hotez2021). Science needs to win the hearts and minds of people by using social innovations to connect them with solutions to the challenges they are facing.

Social innovation and the sustainable development goals

We are aware, through science outputs, for example, IPCC reports, of the accelerating rate of change in the earth’s system. If we are to achieve higher degrees of sustainability and meet the SDGs, we must have equally assertive and effective decision- and policy-making. The six types of social innovations are not presented as edifices of truth, complete and comprehensive, or rooted in the absolute. Depending on the context, the social innovations described can stand alone, or can also be inseparable. Complex coastal ecosystems are inhabited by a multilayer mosaic of people, communities, and multi-level government, with unique and often conflicting lived experiences. For some, a coast is a place of business and wealth, and for others a home and a connection to some form of cultural or spiritual reality. The groups and individuals of the social mosaic of the coast are differently motivated, perceive risk differently, and are exposed to multiple but different hazards. This mosaic of social and ecological patterns (a social-ecological system) calls for a deeper understanding of how knowing about the system (science, experience, etc.) can result in actions that sustain its functioning.

Social innovations that authentically engage different coastal users cannot be achieved unless we understand how to talk to each other. How do we communicate value, and present scientific outputs so they can be similarly understood while acknowledging different perspectives and ways of knowing? Only once we engage with the appropriate level of trust and dispersion of power can we design governing systems for complex coastal systems. However, such governing systems cannot be designed for contemporary environmental, financial, and social conditions, but the rate of change in the earth system also demands that our designs for governance and management must now consider an inevitable future state. This raises questions about how to deal with formal and legally entrenched boundaries of actions. What social innovations are required to maintain order and critical services, and how do we establish new societal practices that keep up with the rate of system change?

In terms of the global ambitions for sustainability, the six types of social innovations have the potential to directly contribute to at least seven of the 17 SDGs (Figure 1), although their relevance and potential contribution are not restricted to these. Authentic engagement is most immediately relevant to the Goals related to equality and partnerships (SDGs 5: gender equality, 10: reduced inequalities, and 17: partnership for goals), which have meaningful, equitable participation at their core, but potentially contribute to several other goals, notably those involving (collective) governance and institution-building, which are enhanced by authentic, well-planned engagement (e.g., Reed et al., Reference Reed, Vella, Challies, de Vente, Frewer, Hohenwallner-Ries, Huber, Neumann, Oughton, Sidoli del Ceno and van Delden2018; Bennett et al., Reference Bennett, Blythe, Cisneros-Montemayor, Singh and Sumaila2019).

Figure 1. Characters of social innovation that connect people to Anthropocene coasts to achieve higher degrees of sustainability as defined by the United Nations Sustainable Development Goals (SDGs).

Artful and engaging communication is of relevance to galvanising collective action and mobilising societal actors as well as developing science–society compacts (SDGs 13: climate action, and 17: partnership for goals), as it serves to bridge different relevant knowledge systems and triggers motivations to achieve greater sustainability (e.g., Paterson et al., Reference Paterson, Le Tissier, Whyte, Robinson, Thielking, Ingram and McCord2020). There is also a case to be made for a narrative that incorporates a greater connection between land, ocean, and climate, as well as the institutions and partnerships (between science and society) that embed social innovations in actions (SDG 17) (Obura, Reference Obura2020).

Urging and compelling change, including by moral suasion, directly relates to goals with strong moral and ethical dimensions (such as SDGs 5: 10, and 16: peace, justice and strong institutions) and contributes to the forging of strong partnerships based on common interests (SDG 17). However, it also contributes to meeting Goals requiring collective action and drastic changes in behaviour, such as sustainable consumption and production (SDGs 12) (e.g., Ostrom, Reference Ostrom2010). Governance tailored to interconnected, social-ecological systems across the land–ocean interface enhances the sustainability of coastal terrestrial and marine systems and cities (SDGs 11: sustainable cities and communities, 14: life below water, and 15: life on land) (Singh et al., Reference Singh, Cottrell, Eddy and Cisneros-Montemayor2021).

Similarly, anticipation in governance contributes to finding shared and common visions about alternative future states of climate resilience and sustainable coastal social-ecological systems including urban areas (SDGs 11, 13, 14, and 15) (e.g., Vervoort and Gupta, Reference Vervoort and Gupta2018; Levin et al., Reference Levin, Anderies, Adger, Barrett, Bennett, Cardenas, Carpenter, Crepin, Ehrlich, Fischer, Folke, Kautsky, Kling, Nyborg, Polasky, Scheffer, Segerson, Shogren, van den Bergh, Walker, Weber and Wilen2021; Rölfer et al., Reference Rölfer, Celliers and Abson2022). Finally, lived experiences and values – similar to authentic engagement – creates the conditions for justice and equity among societal actors, including intersectional approaches to inequalities, for example, by including actors from different cultural backgrounds, gender, and ages (SDGs 5, 10, and 11) (e.g., Staffa et al., Reference Staffa, Riechers and Martin-Lopez2022). The goals of equity (SDG 10: reduced inequalities), justice (SDG 16) and gender equality (SDG 5) are frequently invoked in one or more of the six types of social innovations, highlighting the intersectionality across all social innovations.

Embedding social innovation

The combination of social innovations identified from the scientific literature relates strongly to transformation and sustainability. However, a missing element or action is needed to embed science-derived or -inspired social innovation as part of societal processes to achieve sustainability. Scientists and the sectors and actors within society have mutual responsibilities as part of a transdisciplinary approach to achieve higher degrees of sustainability. Much has been written about Mode 2 engagement between science and society (Funtowicz and Ravetz, Reference Funtowicz and Ravetz1993), and the responsibilities of scientists to engage with society (Gallopín et al., Reference Gallopín, Funtowicz, O’Connor and Ravetz2008). Equally so, societal actors are also responsible for engaging differently, more broadly, with science and each other, and taking responsibility to integrate science as part of societal processes (e.g., governance, knowledge co-production). Actors within science and society should agree on these roles and responsibilities, who acts and when, or how responsibilities are shared. This is not intended to perpetuate a polarised view of science and society, but rather an agreement and commitment to actions.

One example of such an agreement was previously coined as a science–society contract to achieve targets for sustainability (Lubchenco, Reference Lubchenco1998). There are benefits to a more structured and equal relationship between science and society, for example, a science–society compact (avoiding the possible adversarial connotation of legal contracts). Such a structured relationship can create conditions for sciences to support the transformation of society towards sustainable future coasts. The example of a science–society compact may be a tool with which to govern a fundamental shift from an anthropocentric to a more eco-centric and regenerative social contract, acknowledging society as part of a coupled social-ecological system (Huntjens, Reference Huntjens2021).

Embedding the roles and contributions of science and social innovation in such a deliberative mechanism for engagement may create a social mandate to enable behaviour changes through ownership. This may render the often hard evidenced-based decisions on sustainability (e.g., managed retreat, lifestyle change) bearable in the long term and provide the basis for future climate action (Howarth et al., Reference Howarth, Bryant, Corner, Fankhauser, Gouldson, Whitmarsh and Willis2020), particularly for coastal sustainability.

A science–society compact may help to define the use of all the elements described in this paper to achieve higher degrees of sustainability and the SDGs. We maintain that achieving the SDGs does not become possible until we connect science to society, and through data, information and knowledge connect society with the environment, including the coast. These connections need to be forged under conditions of contested politics, everyday foundations of action, constant change, increasing degrees of urgency, and flexibility and appetite for social innovation such as we never needed previously (Nightingale et al., Reference Nightingale, Eriksen, Taylor, Forsyth, Pelling, Newsham, Boyd, Brown, Harvey, Jones, Bezner Kerr, Mehta, Naess, Ockwell, Scoones, Tanner and Whitfield2019).

Conclusion

Recent literature is replete with references to the future, various states of the future, and the agency needed to achieve desirable visions of such futures. We already know that compared to inland systems, coastal areas will be disproportionality more affected by global change and human activities, as we approach the middle of the twenty-first century. Social innovation’s role in achieving higher degrees of sustainability is recognised, and the academic literature is reporting on a growing need for eco-centric and regenerative social action. The role of social innovations is inescapably part of human intentions to achieve higher degrees of sustainability, especially for coasts in the Anthropocene.

The six types of social innovation cannot be considered in isolation from one another, from the global efforts to understand and govern Earth systems, or the local actions to manage and live with global change impacts. We suggest a much higher degree of organising social innovations is needed. This also means exploring how they collectively enable human action based on diverse knowledge types. Knowing about social innovation is not enough, and there is a need and opportunity to embed such innovations within society using a science–society compact. Finally, in summarising the six types of social innovations, it is important to note that there are conceivably many additional types of social innovations that may support or enable a trajectory towards sustainable coastal futures. Education, awareness, and literacy are just some elements that can still be added (Westley et al., Reference Westley, Olsson, Folke, Homer-Dixon, Vredenburg, Loorbach, Thompson, Nilsson, Lambin, Sendzimir, Banerjee, Galaz and van der Leeuw2011; Kelly et al., Reference Kelly, Evans, Alexander, Bettiol, Corney, Cullen-Knox, Cvitanovic, de Salas, Emad, Fullbrook, Garcia, Ison, Ling, Macleod, Meyer, Murray, Murunga, Nash, Norris, Oellermann, Scott, Stark, Wood and Pecl2021; Stephenson et al., Reference Stephenson, Hobday, Allison, Armitage, Brooks, Bundy, Cvitanovic, Dickey-Collas, de Miranda Grilli, Gomez, Jarre, Kaikkonen, Kelly, López, Muhl, Pennino, Tam and van Putten2021).

Open peer review

To view the open peer review materials for this article, please visit http://doi.org/10.1017/cft.2023.12.

Acknowledgements

Dr. Maraja Riechers is acknowledged for providing comments on the early drafts of the paper. Dr. Martin Le Tissier was part of an early conversation that eventually turned into the outline for this paper. The Coastal Futures Working Group (2020–2022), supported by the German Committee Future Earth (DKN) and the Deutsche Forschungsgemeinschaft (DFG), (of which authors L.C. and S.F. are members) is acknowledged for providing a platform for collaboration in understanding ‘Coastal Futures’.

Author contribution

L.C. was responsible for the conceptual development of the paper, and most of the drafting. M.M., L.R., S.A. and S.F. contributed to conceptual development throughout the process and assisted with drafting and continuously reviewing the text.

Financial support

L.C. and L.R. acknowledge funding from the Helmholtz-Zentrum Hereon project I2B CoastalClimateServices@GERICS.

Competing interest

The authors declare none.

References

Abson, DJ, Fischer, J, Leventon, J, Newig, J, Schomerus, T, Vilsmaier, U, von Wehrden, H, Abernethy, P, Ives, CD, Jager, NW and Lang, DJ (2017) Leverage points for sustainability transformation. Ambio 46(1), 3039. https://doi.org/10.1007/s13280-016-0800-y.CrossRefGoogle ScholarPubMed
Agnew, S, Kopke, K, Power, O-P, Troya, MDC and Dozier, A (2022) Transdisciplinary research: Can citizen science support effective decision-making for coastal infrastructure management? Frontiers in Marine Science 9. https://doi.org/10.3389/fmars.2022.809284.CrossRefGoogle Scholar
Albagli, S and Iwama, AY (2022) Citizen science and the right to research: Building local knowledge of climate change impacts. Humanities and Social Sciences Communications 9(1), 39. https://doi.org/10.1057/s41599-022-01040-8.CrossRefGoogle Scholar
Alexander, KA, Hobday, AJ, Cvitanovic, C, Ogier, E, Nash, KL, Cottrell, RS, Fleming, A, Fudge, M, Fulton, EA, Frusher, S, Kelly, R, MacLeod, CK, Pecl, GT, van Putten, I, Vince, J and Watson, RA (2019) Progress in integrating natural and social science in marine ecosystem-based management research. Marine and Freshwater Research 70(1), 7183. https://doi.org/10.1071/mf17248.CrossRefGoogle Scholar
Aswani, S (2020) New directions in maritime and fisheries anthropology. American Anthropologist 122(3), 473486. https://doi.org/10.1111/aman.13380.CrossRefGoogle Scholar
Aswani, S, Lemahieu, A and Sauer, WHH (2018) Global trends of local ecological knowledge and future implications. PLoS One 13(4), e0195440. https://doi.org/10.1371/journal.pone.0195440.CrossRefGoogle ScholarPubMed
Aykut, S, Demortain, D and Benboudiz, B (2019) The politics of anticipatory expertise: Plurality and contestation of futures knowledge in governance—Introduction to the special issue. Science & Technology Studies 32(4), 212. https://doi.org/10.23987/sts.87369.CrossRefGoogle Scholar
Bai, X, van der Leeuw, S, O’Brien, K, Berkhout, F, Biermann, F, Brondizio, ES, Cudennec, C, Dearing, J, Duraiappah, A, Glaser, M, Revkin, A, Steffen, W and Syvitski, J (2016) Plausible and desirable futures in the Anthropocene: A new research agenda. Global Environmental Change 39, 351362. https://doi.org/10.1016/j.gloenvcha.2015.09.017.CrossRefGoogle Scholar
Barnard, PL, Dugan, JE, Page, HM, Wood, NJ, Hart, JAF, Cayan, DR, Erikson, LH, Hubbard, DM, Myers, MR, Melack, JM and Iacobellis, SF (2021) Multiple climate change-driven tipping points for coastal systems. Scientific Reports 11(1), 15560. https://doi.org/10.1038/s41598-021-94942-7.CrossRefGoogle ScholarPubMed
Bennett, NJ, Blythe, J, Cisneros-Montemayor, AM, Singh, GG and Sumaila, UR (2019) Just transformations to sustainability. Sustainability 11(14), 3881. https://doi.org/10.3390/su11143881.CrossRefGoogle Scholar
Bennett, NJ, Whitty, TS, Finkbeiner, E, Pittman, J, Bassett, H, Gelcich, S and Allison, EH (2018) Environmental stewardship: A conceptual review and analytical framework. Environmental Management 61(4), 597614. https://doi.org/10.1007/s00267-017-0993-2.CrossRefGoogle ScholarPubMed
Bentz, J, do Carmo, L, Schafenacker, N, Schirok, J and Corso, SD (2021) Creative, embodied practices, and the potentialities for sustainability transformations. Sustainability Science 17(2), 687699. https://doi.org/10.1007/s11625-021-01000-2.CrossRefGoogle Scholar
Biermann, F, Bai, X, Bondre, N, Broadgate, W, Arthur Chen, C-T, Dube, OP, Erisman, JW, Glaser, M, van der Hel, S, Lemos, MC, Seitzinger, S and Seto, KC (2016) Down to earth: Contextualizing the Anthropocene. Global Environmental Change 39, 341350. https://doi.org/10.1016/j.gloenvcha.2015.11.004.CrossRefGoogle Scholar
Bos, B, Drupp, MA, Meya, JN and Quaas, MF (2020) Moral suasion and the private provision of public goods: Evidence from the COVID-19 pandemic. Environmental and Resource Economics 76, 11171138. https://doi.org/10.1007/s10640-020-00477-2.CrossRefGoogle ScholarPubMed
Brown, K, Adger, WN, Devine-Wright, P, Anderies, JM, Barr, S, Bousquet, F, Butler, C, Evans, L, Marshall, N and Quinn, T (2019) Empathy, place and identity interactions for sustainability. Global Environmental Change 56, 1117.CrossRefGoogle Scholar
Celliers, L, Scott, D, Ngcoya, M and Taljaard, S (2021) Negotiation of knowledge for coastal management? Reflections from a transdisciplinary experiment in South Africa. Humanities and Social Sciences Communications 8(1), 207. https://doi.org/10.1057/s41599-021-00887-7.CrossRefGoogle Scholar
Chambers, JM, Wyborn, C, Klenk, NL, Ryan, M, Serban, A, Bennett, NJ, Brennan, R, Charli-Joseph, L, Fernández-Giménez, ME, Galvin, KA, Goldstein, BE, Haller, T, Hill, R, Munera, C, Nel, JL, Österblom, H, Reid, RS, Riechers, M, Spierenburg, M, Tengö, M, Bennett, E, Brandeis, A, Chatterton, P, Cockburn, JJ, Cvitanovic, C, Dumrongrojwatthana, P, Paz Durán, A, Gerber, J-D, Green, JMH, Gruby, R, Guerrero, AM, Horcea-Milcu, A-I, Montana, J, Steyaert, P, Zaehringer, JG, Bednarek, AT, Curran, K, Fada, SJ, Hutton, J, Leimona, B, Pickering, T and Rondeau, R (2022) Co-productive agility and four collaborative pathways to sustainability transformations. Global Environmental Change 72, 102422. https://doi.org/10.1016/j.gloenvcha.2021.102422.CrossRefGoogle Scholar
Colenbrander, D and Bavinck, M (2017) Exploring the role of bureaucracy in the production of coastal risks, City of Cape Town, South Africa. Ocean & Coastal Management 150, 3550. https://doi.org/10.1016/j.ocecoaman.2016.11.012.CrossRefGoogle Scholar
da Costa, JP, Mouneyrac, C, Costa, M, Duarte, AC and Rocha-Santos, T (2020) The role of legislation, regulatory initiatives and guidelines on the control of plastic pollution. Frontiers in Environmental Science 8. https://doi.org/10.3389/fenvs.2020.00104.CrossRefGoogle Scholar
Dam Lam, R, Gasparatos, A, Chakraborty, S, Rivera, H and Stanley, T (2019) Multiple values and knowledge integration in indigenous coastal and marine social-ecological systems research: A systematic review. Ecosystem Services 37, 100910. https://doi.org/10.1016/j.ecoser.2019.100910.CrossRefGoogle Scholar
DeCaro, DA, Chaffin, BC, Schlager, E, Garmestani, AS and Ruhl, JB (2017) Legal and institutional foundations of adaptive environmental governance. Ecology and Society 22(1), 132. https://doi.org/10.5751/ES-09036-220132.CrossRefGoogle ScholarPubMed
Defeo, O and Elliott, M (2021) The ‘triple whammy’ of coasts under threat—Why we should be worried! Marine Pollution Bulletin 163, 111832. https://doi.org/10.1016/j.marpolbul.2020.111832.CrossRefGoogle ScholarPubMed
Edwards, N (2021) Politics of the coastal professional. Ocean & Coastal Management 202, 105419. https://doi.org/10.1016/j.ocecoaman.2020.105419.CrossRefGoogle Scholar
Fernandino, G, Elliff, CI and Silva, IR (2018) Ecosystem-based management of coastal zones in face of climate change impacts: Challenges and inequalities. Journal of Environmental Management 215, 3239. https://doi.org/10.1016/j.jenvman.2018.03.034.CrossRefGoogle ScholarPubMed
Folke, C, Polasky, S, Rockström, J, Galaz, V, Westley, F, Lamont, M, Scheffer, M, Osterblom, H, Carpenter, SR, Chapin, FS, 3rd, Seto, KC, Weber, EU, Crona, BI, Daily, GC, Dasgupta, P, Gaffney, O, Gordon, LJ, Hoff, H, Levin, SA, Lubchenco, J, Steffen, W and Walker, BH (2021) Our future in the Anthropocene biosphere. Ambio 50(4), 834869. https://doi.org/10.1007/s13280-021-01544-8.CrossRefGoogle ScholarPubMed
Funtowicz, SO and Ravetz, JR (1993) Science for the post-normal age. Futures 25(7), 739755. https://doi.org/10.1016/0016-3287(93)90022-l.CrossRefGoogle Scholar
Galafassi, D, Daw, TM, Thyresson, M, Rosendo, S, Chaigneau, T, Bandeira, S, Munyi, L, Gabrielsson, I and Brown, K (2018) Stories in social-ecological knowledge cocreation. Ecology and Society 23(1), 23. https://doi.org/10.5751/es-09932-230123.CrossRefGoogle Scholar
Galafassi, D, Tàbara, JD, Heras, M, Iles, A, Locke, KA and Milkoreit, M (2018) Restoring our senses, restoring the earth. Fostering imaginative capacities through the arts for envisioning climate transformations. Elementa: Science of the Anthropocene 6, 69. https://doi.org/10.1525/elementa.330.Google Scholar
Galdies, C, Bellerby, R, Canu, D, Chen, W, Garcia-Luque, E, Gašparović, B, Godrijan, J, Lawlor, PJ, Maes, F, Malej, A, Panagiotaras, D, Romera, BM, Reymond, CE, Rochette, J, Solidoro, C, Stojanov, R, Tiller, R, Torres de Noronha, I, Uścinowicz, G, Natașa, V, Walsh, C and Guerra, R (2020) European policies and legislation targeting ocean acidification in European waters—Current state. Marine Policy 118, 103947. https://doi.org/10.1016/j.marpol.2020.103947.CrossRefGoogle Scholar
Gallopín, GC, Funtowicz, S, O’Connor, M and Ravetz, J (2008) Science for the twenty-first century: From social contract to the scientific core. International Social Science Journal 53(168), 219229. https://doi.org/10.1111/1468-2451.00311.CrossRefGoogle Scholar
Gerkensmeier, B, Ratter, BMW, Vollmer, M and Walsh, C (2018) Managing coastal risks at the Wadden Sea: A societal perspective. Disaster Prevention and Management 27(1), 1527. https://doi.org/10.1108/dpm-04-2017-0074.CrossRefGoogle Scholar
Gillgren, C, Støttrup, JG, Schumacher, J and Dinesen, GE (2018) Working together: Collaborative decision making for sustainable integrated coastal management (ICM). Journal of Coastal Conservation 23(5), 959968. https://doi.org/10.1007/s11852-018-0631-z.CrossRefGoogle Scholar
Glaser, BG and Strauss, AL (2017) The Discovery of Grounded Theory. New York: Routledge. https://doi.org/10.4324/9780203793206.CrossRefGoogle Scholar
Goldberg, J, Marshall, N, Birtles, A, Case, P, Bohensky, E, Curnock, M, Gooch, M, Parry-Husbands, H, Pert, P, Tobin, R, Villani, C and Visperas, B (2016) Climate change, the great barrier reef and the response of Australians. Palgrave Communications 2(1), 15046. https://doi.org/10.1057/palcomms.2015.46.CrossRefGoogle Scholar
Guillotreau, P, Trouillet, B, Mahévas, S and Pardo, S (2020) Addressing transdisciplinary and participation issues to cope with rapid changes shifting marine social ecological systems. Marine Policy 117, 103929. https://doi.org/10.1016/j.marpol.2020.103929.CrossRefGoogle Scholar
Haas, B, Mackay, M, Novaglio, C, Fullbrook, L, Murunga, M, Sbrocchi, C, McDonald, J, McCormack, PC, Alexander, K, Fudge, M, Goldsworthy, L, Boschetti, F, Dutton, I, Dutra, L, McGee, J, Rousseau, Y, Spain, E, Stephenson, R, Vince, J, Wilcox, C and Haward, M (2022) The future of ocean governance. Reviews in Fish Biology and Fisheries 32, 253270. https://doi.org/10.1007/s11160-020-09631-x.CrossRefGoogle ScholarPubMed
Haasnoot, M, Kwakkel, JH, Walker, WE and ter Maat, J (2013) Dynamic adaptive policy pathways: A method for crafting robust decisions for a deeply uncertain world. Global Environmental Change 23(2), 485498. https://doi.org/10.1016/j.gloenvcha.2012.12.006.CrossRefGoogle Scholar
Harvey, N and Clarke, B (2019) 21st century reform in Australian coastal policy and legislation. Marine Policy 103, 2732. https://doi.org/10.1016/j.marpol.2019.02.016.CrossRefGoogle Scholar
He, Q and Silliman, BR (2019) Climate change, human impacts, and coastal ecosystems in the Anthropocene. Current Biology 29(19), R1021R1035. https://doi.org/10.1016/j.cub.2019.08.042.CrossRefGoogle ScholarPubMed
Hockfield, S (2018) Our science, our society. Science 359(6375), 499. https://doi.org/10.1126/science.aat0957.CrossRefGoogle ScholarPubMed
Holt, R (2018) A tale of two cultures. Science 359(6374), 371. https://doi.org/10.1126/science.aat0588.CrossRefGoogle ScholarPubMed
Horcea-Milcu, A-I, Martín-López, B, Lam, DPM and Lang, DJ (2020) Research pathways to foster transformation: Linking sustainability science and social-ecological systems research. Ecology and Society 25(1). https://doi.org/10.5751/es-11332-250113.CrossRefGoogle Scholar
Hotez, PJ (2021) Anti-science kills: From soviet embrace of pseudoscience to accelerated attacks on US biomedicine. PLoS Biology 19(1), e3001068. https://doi.org/10.1371/journal.pbio.3001068.CrossRefGoogle ScholarPubMed
Howarth, C, Bryant, P, Corner, A, Fankhauser, S, Gouldson, A, Whitmarsh, L and Willis, R (2020) Building a social mandate for climate action: Lessons from COVID-19. Environmental and Resource Economics volume 76, 11071115. https://doi.org/10.1007/s10640-020-00446-9.CrossRefGoogle ScholarPubMed
Hulme, M (2020) One earth, many futures, no destination. One Earth 2(4), 309311. https://doi.org/10.1016/j.oneear.2020.03.005.CrossRefGoogle Scholar
Huntjens, P (2021) Towards a Natural Social Contract. Cham: Springer. https://doi.org/10.1007/978-3-030-67130-3.CrossRefGoogle Scholar
IPCC (2022) WG II: Summary for Policymakers (Climate Change 2021: Sixth Assessment Report of the Intergovernmental Panel on Climate Change, Issue). C. U. Press.Google Scholar
Jentoft, S (2007) Limits of governability: Institutional implications for fisheries and coastal governance. Marine Policy 31(4), 360370. https://doi.org/10.1016/j.marpol.2006.11.003.CrossRefGoogle Scholar
Johannes, RE (1978) Traditional marine conservation methods in Oceania and their demise. Annual Review of Ecology and Systematics 9(1), 349364. https://doi.org/10.1146/annurev.es.09.110178.002025.CrossRefGoogle Scholar
Katikiro, RE, Kweka, OL, Minja, R, Namkesa, F and Ponte, S (2021) Stakeholder engagement and conservation outcomes in marine protected areas: Lessons from the Mnazi Bay-Ruvuma estuary Marine Park (MBREMP) in Tanzania. Ocean & Coastal Management 202, 105502. https://doi.org/10.1016/j.ocecoaman.2020.105502.CrossRefGoogle Scholar
Kelly, R, Evans, K, Alexander, K, Bettiol, S, Corney, S, Cullen-Knox, C, Cvitanovic, C, de Salas, K, Emad, GR, Fullbrook, L, Garcia, C, Ison, S, Ling, S, Macleod, C, Meyer, A, Murray, L, Murunga, M, Nash, KL, Norris, K, Oellermann, M, Scott, J, Stark, JS, Wood, G and Pecl, GT (2021) Connecting to the oceans: Supporting ocean literacy and public engagement. Reviews in Fish Biology and Fisheries 32, 123143. https://doi.org/10.1007/s11160-020-09625-9.CrossRefGoogle Scholar
Kelly, R, Nettlefold, J, Mossop, D, Bettiol, S, Corney, S, Cullen-Knox, C, Fleming, A, Leith, P, Melbourne-Thomas, J, Ogier, E, van Putten, I and Pecl, GT (2020) Let’s talk about climate change: Developing effective conversations between scientists and communities. One Earth 3(4), 415419. https://doi.org/10.1016/j.oneear.2020.09.009.CrossRefGoogle Scholar
Kopp, RE, Gilmore, EA, Little, CM, Lorenzo-Trueba, J, Ramenzoni, VC and Sweet, WV (2019) Usable science for managing the risks of sea-level rise. Earths Future 7(12), 12351269. https://doi.org/10.1029/2018EF001145.CrossRefGoogle ScholarPubMed
Kotzé, LJ and French, D (2021) Chapter 1: Staying within the planets safe operating space? Law and the planetary boundaries. In French, D and Kotzé, LJ (eds), Research Handbook on Law, Governance and Planetary Boundaries. Cheltenham, UK: Edward Elgar Publishing. https://doi.org/10.4337/9781789902747.00007.Google Scholar
Lacey, J, Howden, M, Cvitanovic, C and Colvin, RM (2017) Understanding and managing trust at the climate science–policy interface. Nature Climate Change 8(1), 2228. https://doi.org/10.1038/s41558-017-0010-z.CrossRefGoogle Scholar
Levin, SA, Anderies, JM, Adger, N, Barrett, S, Bennett, EM, Cardenas, JC, Carpenter, SR, Crepin, AS, Ehrlich, P, Fischer, J, Folke, C, Kautsky, N, Kling, C, Nyborg, K, Polasky, S, Scheffer, M, Segerson, K, Shogren, J, van den Bergh, J, Walker, B, Weber, EU, & Wilen, J (2021) Governance in the face of extreme events: Lessons from evolutionary processes for structuring interventions, and the need to go beyond. Ecosystems 25, 697711. https://doi.org/10.1007/s10021-021-00680-2.CrossRefGoogle Scholar
Lindkvist, E, Pellowe, KE, Alexander, SM, Drury, O, Neill, E, Finkbeiner, EM, Girón-Nava, A, González-Mon, B, Johnson, AF, Pittman, J, Schill, C, Wijermans, N, Bodin, Ö, Gelcich, S and Glaser, M (2022) Untangling social–ecological interactions: A methods portfolio approach to tackling contemporary sustainability challenges in fisheries. Fish and Fisheries 23, 12021220. https://doi.org/10.1111/faf.12678.CrossRefGoogle ScholarPubMed
Lipiec, E, Ruggiero, P, Mills, A, Serafin, KA, Bolte, J, Corcoran, P, Stevenson, J, Zanocco, C and Lach, D (2018) Mapping out climate change: Assessing how coastal communities adapt using alternative future scenarios. Journal of Coastal Research 34(5), 11961208. https://doi.org/10.2112/jcoastres-d-17-00115.1.CrossRefGoogle Scholar
Lubchenco, J (1998) Entering the century of the environment: A new social contract for science. Science 279(5350), 491497. https://doi.org/10.1126/science.279.5350.491.CrossRefGoogle Scholar
Lund, D (2021) Navigating slow-onset risks through foresight and flexibility in Fiji: Emerging recommendations for the planned relocation of climate-vulnerable communities. Current Opinion in Environmental Sustainability 50, 1220. https://doi.org/10.1016/j.cosust.2020.12.004.CrossRefGoogle Scholar
Mach, KJ, Lemos, MC, Meadow, AM, Wyborn, C, Klenk, N, Arnott, JC, Ardoin, NM, Fieseler, C, Moss, RH, Nichols, L, Stults, M, Vaughan, C and Wong-Parodi, G (2020) Actionable knowledge and the art of engagement. Current Opinion in Environmental Sustainability 42, 3037. https://doi.org/10.1016/j.cosust.2020.01.002.CrossRefGoogle Scholar
Martinez, G, Celliers, L, Collard, M, de Jong, F, Huang-Lachmann, J-T, Manez Costa, M, Rubio-Martin, A, Ozier-Lafontaine, H, Garcia Prats, A, Stelljes, N, Swart, R, Wimmermann, T, Llario, F and Pulido-Velazquez, M (2022) Societal local and regional resiliency spurred by contextualized climate services: The role of culture in co-production. Climate Services 26, 100300. https://doi.org/10.1016/j.cliser.2022.100300.CrossRefGoogle Scholar
McKinley, E, Acott, T and Yates, KL (2020) Marine social sciences: Looking towards a sustainable future. Environmental Science & Policy 108, 8592. https://doi.org/10.1016/j.envsci.2020.03.015.CrossRefGoogle Scholar
McKinley, E, Crowe, PR, Stori, F, Ballinger, R, Brew, TC, Blacklaw-Jones, L, Cameron-Smith, A, Crowley, S, Cocco, C, O’Mahony, C, McNally, B, Power, P and Foley, K (2021) ‘Going digital’ - lessons for future coastal community engagement and climate change adaptation. Ocean & Coastal Management 208, 105629. https://doi.org/10.1016/j.ocecoaman.2021.105629.CrossRefGoogle Scholar
McLaughlin, JF (2018) Safe operating space for humanity at a regional scale. Ecology and Society 23(2), 43. https://doi.org/10.5751/es-10171-230243.CrossRefGoogle Scholar
McNamara, KE, Clissold, R, Westoby, R, Piggott-McKellar, AE, Kumar, R, Clarke, T, Namoumou, F, Areki, F, Joseph, E, Warrick, O and Nunn, PD (2020) An assessment of community-based adaptation initiatives in the Pacific Islands. Nature Climate Change 10(7), 628639. https://doi.org/10.1038/s41558-020-0813-1.CrossRefGoogle Scholar
Merrie, A, Keys, P, Metian, M and Österblom, H (2018) Radical Ocean futures-scenario development using science fiction prototyping. Futures 95, 2232. https://doi.org/10.1016/j.futures.2017.09.005.CrossRefGoogle Scholar
Muiderman, K, Gupta, A, Vervoort, J and Biermann, F (2020) Four approaches to anticipatory climate governance: Different conceptions of the future and implications for the present. WIREs Climate Change 11(6), e673. https://doi.org/10.1002/wcc.673.CrossRefGoogle Scholar
Nash, KL, Cvitanovic, C, Fulton, EA, Halpern, BS, Milner-Gulland, EJ, Watson, RA and Blanchard, JL (2017) Planetary boundaries for a blue planet. Nature Ecology & Evolution 1(11), 16251634. https://doi.org/10.1038/s41559-017-0319-z.CrossRefGoogle ScholarPubMed
Neumann, B, Ott, K and Kenchington, R (2017) Strong sustainability in coastal areas: A conceptual interpretation of SDG 14. Sustainability Science 12(6), 10191035. https://doi.org/10.1007/s11625-017-0472-y.CrossRefGoogle Scholar
Neumann, B, Vafeidis, AT, Zimmermann, J and Nicholls, RJ (2015) Future coastal population growth and exposure to sea-level rise and coastal flooding—A global assessment. PLoS One 10(3), e0118571. https://doi.org/10.1371/journal.pone.0118571.CrossRefGoogle ScholarPubMed
Newton, A, Harff, J, You, Z-J, Zhang, H and Wolanski, E (2016) Sustainability of future coasts and estuaries: A synthesis. Estuarine, Coastal and Shelf Science 183, 271274. https://doi.org/10.1016/j.ecss.2016.11.017.CrossRefGoogle Scholar
Nightingale, AJ, Eriksen, S, Taylor, M, Forsyth, T, Pelling, M, Newsham, A, Boyd, E, Brown, K, Harvey, B, Jones, L, Bezner Kerr, R, Mehta, L, Naess, LO, Ockwell, D, Scoones, I, Tanner, T and Whitfield, S (2019) Beyond technical fixes: Climate solutions and the great derangement. Climate and Development 12(4), 343352. https://doi.org/10.1080/17565529.2019.1624495.CrossRefGoogle Scholar
Norström, AV, Cvitanovic, C, Löf, MF, West, S, Wyborn, C, Balvanera, P, Bednarek, AT, Bennett, EM, Biggs, R, de Bremond, A, Campbell, BM, Canadell, JG, Carpenter, SR, Folke, C, Fulton, EA, Gaffney, O, Gelcich, S, Jouffray, J-B, Leach, M, Le Tissier, M, Martín-López, B, Louder, E, Loutre, M-F, Meadow, AM, Nagendra, H, Payne, D, Peterson, GD, Reyers, B, Scholes, R, Speranza, CI, Spierenburg, M, Stafford-Smith, M, Tengö, M, van der Hel, S, van Putten, I and Österblom, H (2020) Principles for knowledge co-production in sustainability research. Nature Sustainability 3(3), 182190. https://doi.org/10.1038/s41893-019-0448-2.CrossRefGoogle Scholar
Obura, DO (2020) Getting to 2030—Scaling effort to ambition through a narrative model of the SDGs. Marine Policy 117, 103973. https://doi.org/10.1016/j.marpol.2020.103973.CrossRefGoogle Scholar
Olsson, P, Moore, M-L, Westley, FR and McCarthy, DDP (2017) The concept of the Anthropocene as a game-changer: A new context for social innovation and transformations to sustainability. Ecology and Society 22(2), 31. https://doi.org/10.5751/es-09310-220231.CrossRefGoogle Scholar
Ostrom, E (2010) Analyzing collective action. Agricultural Economics 41, 155166. https://doi.org/10.1111/j.1574-0862.2010.00497.x.CrossRefGoogle Scholar
Partelow, S, Schlüter, A, Armitage, D, Bavinck, M, Carlisle, K, Gruby, RL, Hornidge, A-K, Le Tissier, M, Pittman, JB, Song, AM, Sousa, LP, Văidianu, N and Van Assche, K (2020) Environmental governance theories: A review and application to coastal systems. Ecology and Society 25(4). https://doi.org/10.5751/es-12067-250419.CrossRefGoogle Scholar
Pasquier, U, Few, R, Goulden, MC, Hooton, S, He, Y and Hiscock, KM (2020) We can’t do it on our own!”—Integrating stakeholder and scientific knowledge of future flood risk to inform climate change adaptation planning in a coastal region. Environmental Science & Policy 103, 5057. https://doi.org/10.1016/j.envsci.2019.10.016.CrossRefGoogle Scholar
Paterson, SK, Le Tissier, M, Whyte, H, Robinson, LB, Thielking, K, Ingram, M and McCord, J (2020) Examining the potential of art-science collaborations in the Anthropocene: A Case study of catching a wave. Frontiers in Marine Science 7. https://doi.org/10.3389/fmars.2020.00340.CrossRefGoogle Scholar
Planque, B, Mullon, C, Arneberg, P, Eide, A, Fromentin, JM, Heymans, JJ, Hoel, AH, Niiranen, S, Ottersen, G, Sandø, AB, Sommerkorn, M, Thébaud, O and Thorvik, T (2019) A participatory scenario method to explore the future of marine social-ecological systems. Fish and Fisheries 20(3), 434451. https://doi.org/10.1111/faf.12356.CrossRefGoogle Scholar
Pulkkinen, K, Undorf, S, Bender, F, Wikman-Svahn, P, Doblas-Reyes, F, Flynn, C, Hegerl, GC, Jönsson, A, Leung, G-K, Roussos, J, Shepherd, TG and Thompson, E (2022) The value of values in climate science. Nature Climate Change 12(1), 46. https://doi.org/10.1038/s41558-021-01238-9.CrossRefGoogle Scholar
Reed, MS, Vella, S, Challies, E, de Vente, J, Frewer, L, Hohenwallner-Ries, D, Huber, T, Neumann, RK, Oughton, EA, Sidoli del Ceno, J and van Delden, H (2018) A theory of participation: What makes stakeholder and public engagement in environmental management work? Restoration Ecology 26, S7S17. https://doi.org/10.1111/rec.12541.CrossRefGoogle Scholar
Refulio-Coronado, S, Lacasse, K, Dalton, T, Humphries, A, Basu, S, Uchida, H and Uchida, E (2021) Coastal and marine socio-ecological systems: A systematic review of the literature. Frontiers in Marine Science 8, 648006. https://doi.org/10.3389/fmars.2021.648006.CrossRefGoogle Scholar
Reiblich, J, Hartge, E, Wedding, LM, Killian, S and Verutes, GM (2019) Bridging climate science, law, and policy to advance coastal adaptation planning. Marine Policy 104, 125134. https://doi.org/10.1016/j.marpol.2019.02.028.CrossRefGoogle Scholar
Rockström, J, Steffen, W, Noone, K, Persson, A, Chapin, FS, 3rd, Lambin, EF, Lenton, TM, Scheffer, M, Folke, C, Schellnhuber, HJ, Nykvist, B, de Wit, CA, Hughes, T, van der Leeuw, S, Rodhe, H, Sorlin, S, Snyder, PK, Costanza, R, Svedin, U, Falkenmark, M, Karlberg, L, Corell, RW, Fabry, VJ, Hansen, J, Walker, B, Liverman, D, Richardson, K, Crutzen, P and Foley, JA (2009) A safe operating space for humanity. Nature 461(7263), 472475. https://doi.org/10.1038/461472a.CrossRefGoogle ScholarPubMed
Rölfer, L, Celliers, L and Abson, DJ (2022) Resilience and coastal governance: Knowledge and navigation between stability and transformation. Ecology and Society 27(2). https://doi.org/10.5751/es-13244-270240.CrossRefGoogle Scholar
Schlüter, A, Van Assche, K, Hornidge, A-K and Văidianu, N (2020) Land-sea interactions and coastal development: An evolutionary governance perspective. Marine Policy 112, 103801. https://doi.org/10.1016/j.marpol.2019.103801.CrossRefGoogle Scholar
Schwarz, A-M, Gordon, J and Ramofafia, C (2020) Nudging statutory law to make space for customary processes and community-based fisheries management in Solomon Islands. Maritime Studies 19(4), 475487. https://doi.org/10.1007/s40152-020-00176-0.CrossRefGoogle Scholar
Serrao-Neumann, S, de Araújo Moreira, F, Dalla Fontana, M, Torres, RR, Lapola, DM, Nunes, LH, Marengo, JA and Di Giulio, GM (2021) Advancing transdisciplinary adaptation research practice. Nature Climate Change 11(12), 10061008. https://doi.org/10.1038/s41558-021-01221-4.CrossRefGoogle Scholar
Singh, GG, Cottrell, RS, Eddy, TD and Cisneros-Montemayor, AM (2021) Governing the Land-Sea Interface to achieve sustainable coastal development. Frontiers in Marine Science 8. https://doi.org/10.3389/fmars.2021.709947.CrossRefGoogle Scholar
Soma, K, van den Burg, SWK, Hoefnagel, EWJ, Stuiver, M and van der Heide, CM (2018) Social innovation—A future pathway for blue growth? Marine Policy 87, 363370. https://doi.org/10.1016/j.marpol.2017.10.008.CrossRefGoogle Scholar
Spijkers, J, Merrie, A, Wabnitz, CCC, Osborne, M, Mobjörk, M, Bodin, Ö, Selig, ER, Le Billon, P, Hendrix, CS, Singh, GG, Keys, PW and Morrison, TH (2021) Exploring the future of fishery conflict through narrative scenarios. One Earth 4(3), 386396. https://doi.org/10.1016/j.oneear.2021.02.004.CrossRefGoogle Scholar
Staffa, RK, Riechers, M and Martin-Lopez, B (2022) A feminist ethos for caring knowledge production in transdisciplinary sustainability science. Sustainability Science 17(1), 4563. https://doi.org/10.1007/s11625-021-01064-0.CrossRefGoogle ScholarPubMed
Steffen, W, Rockström, J, Richardson, K, Lenton, TM, Folke, C, Liverman, D, Summerhayes, CP, Barnosky, AD, Cornell, SE, Crucifix, M, Donges, JF, Fetzer, I, Lade, SJ, Scheffer, M, Winkelmann, R and Schellnhuber, HJ (2018) Trajectories of the earth system in the Anthropocene. Proceedings of the National Academy of Sciences of the United States of America 115(33), 82528259. https://doi.org/10.1073/pnas.1810141115.CrossRefGoogle ScholarPubMed
Stephenson, RL, Hobday, AJ, Allison, EH, Armitage, D, Brooks, K, Bundy, A, Cvitanovic, C, Dickey-Collas, M, de Miranda Grilli, N, Gomez, C, Jarre, A, Kaikkonen, L, Kelly, R, López, R, Muhl, E-K, Pennino, MG, Tam, JC and van Putten, I (2021) The quilt of Sustainable Ocean governance: Patterns for practitioners. Frontiers in Marine Science 8. https://doi.org/10.3389/fmars.2021.630547.CrossRefGoogle Scholar
Sterling, EJ, Pascua, P, Sigouin, A, Gazit, N, Mandle, L, Betley, E, Aini, J, Albert, S, Caillon, S, Caselle, JE, Cheng, SH, Claudet, J, Dacks, R, Darling, ES, Filardi, C, Jupiter, SD, Mawyer, A, Mejia, M, Morishige, K, Nainoca, W, Parks, J, Tanguay, J, Ticktin, T, Vave, R, Wase, V, Wongbusarakum, S and McCarter, J (2020) Creating a space for place and multidimensional well-being: Lessons learned from localizing the SDGs. Sustainability Science 15(4), 11291147. https://doi.org/10.1007/s11625-020-00822-w.CrossRefGoogle Scholar
Stori, FT, Peres, CM, Turra, A and Pressey, RL (2019) Traditional ecological knowledge supports ecosystem-based management in disturbed coastal marine social-ecological systems. Frontiers in Marine Science 6, 571. https://doi.org/10.3389/fmars.2019.00571.CrossRefGoogle Scholar
Strand, M, Rivers, N and Snow, B (2022) Reimagining ocean stewardship: Arts-based methods to ‘hear’ and ‘see’ indigenous and local knowledge in ocean management. Frontiers in Marine Science 9. https://doi.org/10.3389/fmars.2022.886632.CrossRefGoogle Scholar
Tosca, MG, Galvin, A, Gilbert, I, Walls, KL, Tyler, GE and Nastan, AM (2021) Reimagining futures. Elementa: Science of the Anthropocene 9(1), 00016. https://doi.org/10.1525/elementa.2021.00016.Google Scholar
Tsatsaros, JH, Bohnet, IC, Brodie, JE and Valentine, P (2021) A transdisciplinary approach supports community-led water quality monitoring in river basins adjacent to the great barrier reef, Australia. Marine Pollution Bulletin 170, 112629. https://doi.org/10.1016/j.marpolbul.2021.112629.CrossRefGoogle Scholar
Turner, MG, Calder, WJ, Cumming, GS, Hughes, TP, Jentsch, A, LaDeau, SL, Lenton, TM, Shuman, BN, Turetsky, MR, Ratajczak, Z, Williams, JW, Williams, AP and Carpenter, SR (2020) Climate change, ecosystems and abrupt change: Science priorities. Philosophical Transactions of the Royal Society of London. Series B, Biological Sciences 375(1794), 20190105. https://doi.org/10.1098/rstb.2019.0105.CrossRefGoogle ScholarPubMed
Van Assche, K, Hornidge, A-K, Schlüter, A and Vaidianu, N (2020) Governance and the coastal condition: Towards new modes of observation, adaptation and integration. Marine Policy 112, 103413. https://doi.org/10.1016/j.marpol.2019.01.002.CrossRefGoogle Scholar
Vanderlinden, J-P, Baztan, J, Chouinard, O, Cordier, M, Da Cunha, C, Huctin, J-M, Kane, A, Kennedy, G, Nikulkina, I, Shadrin, V, Surette, C, Thiaw, D and Thomson, KT (2020) Meaning in the face of changing climate risks: Connecting agency, sensemaking and narratives of change through transdisciplinary research. Climate Risk Management 29, 100224. https://doi.org/10.1016/j.crm.2020.100224.CrossRefGoogle Scholar
Vervoort, J and Gupta, A (2018) Anticipating climate futures in a 1.5 °C era: The link between foresight and governance. Current Opinion in Environmental Sustainability 31, 104111. https://doi.org/10.1016/j.cosust.2018.01.004.CrossRefGoogle Scholar
Vince, J and Hardesty, BD (2018) Governance solutions to the tragedy of the commons that marine plastics have become. Frontiers in Marine Science 5. https://doi.org/10.3389/fmars.2018.00214.CrossRefGoogle Scholar
Vogel, C and O’Brien, K (2021) Getting to the heart of transformation. Sustainability Science 17, 653659. https://doi.org/10.1007/s11625-021-01016-8.CrossRefGoogle Scholar
Vollstedt, B, Koerth, J, Tsakiris, M, Nieskens, N and Vafeidis, AT (2021) Co-production of climate services: A story map for future coastal flooding for the city of Flensburg. Climate Services 22, 100225. https://doi.org/10.1016/j.cliser.2021.100225.CrossRefGoogle Scholar
Werle, D, Boudreau, PR, Brooks, MR, Butler, MJA, Charles, A, Coffen-Smout, S, Griffiths, D, McAllister, I, McConnell, ML, Porter, I, Rolston, SJ and Wells, PG (2018) Synthesis looking ahead: Ocean governance challenges in the twenty-first century. In International Ocean Institute-Canada (ed.), The Future of Ocean Governance and Capacity Development. Canada: International Ocean Institute, pp. 533542. https://doi.org/10.1163/9789004380271_094.Google Scholar
Westley, F, Olsson, P, Folke, C, Homer-Dixon, T, Vredenburg, H, Loorbach, D, Thompson, J, Nilsson, M, Lambin, E, Sendzimir, J, Banerjee, B, Galaz, V and van der Leeuw, S (2011) Tipping toward sustainability: Emerging pathways of transformation. Ambio 40(7), 762780. https://doi.org/10.1007/s13280-011-0186-9.CrossRefGoogle ScholarPubMed
Westoby, R and McNamara, KE (2019) Fear, grief, hope and action. Nature Climate Change 9(7), 500501. https://doi.org/10.1038/s41558-019-0511-z.CrossRefGoogle Scholar
Westoby, R, McNamara, KE, Kumar, R and Nunn, PD (2020) From community-based to locally led adaptation: Evidence from Vanuatu. Ambio 49(9), 14661473. https://doi.org/10.1007/s13280-019-01294-8.CrossRefGoogle ScholarPubMed
Wyborn, C, Davila, F, Pereira, L, Lim, M, Alvarez, I, Henderson, G, Luers, A, Martinez Harms, MJ, Maze, K, Montana, J, Ryan, M, Sandbrook, C, Shaw, R and Woods, E (2020) Imagining transformative biodiversity futures. Nature Sustainability 3(9), 670672. https://doi.org/10.1038/s41893-020-0587-5.CrossRefGoogle Scholar
Figure 0

Table 1. Examples of social innovations that facilitate the connection of people to the coast to achieve higher degrees of sustainability

Figure 1

Figure 1. Characters of social innovation that connect people to Anthropocene coasts to achieve higher degrees of sustainability as defined by the United Nations Sustainable Development Goals (SDGs).

Author comment: Social innovation that connects people to coasts in the Anthropocene — R0/PR1

Comments

Please accept the submission of the manuscript entitled ‘Social innovations that connect people to coasts in the Anthropocene'

This paper reflects on the need for sustainability of the coasts in the Anthropocene. It considers the increasing need for science to engage with society in order to achieve sustainable coastal futures. In the human-dominated system of the future, it is clear that fact, or scientific evidence alone is not sufficient for society to adapt and transform towards higher degrees of sustainability.

We propose that there are interventions and actions at the science-society interface that are needed to enable such higher degrees of sustainability. The paper identifies six social innovations that, together with scientific evidence, can substantially increase the ability of society to transform to coastal sustainability. These six social innovations are also critical for enabling the achievement of the SDGs. The six innovations proposed in this paper can be bound together with social action and interest in a new science-society contract for sustainable coasts in the Anthropocene.

Dr Louis Celliers ([email protected]) is the corresponding author of this manuscript. None of the authors are declaring conflict of interest.

Do not hesitate to contact me should you require any additional information.

Review: Social innovation that connects people to coasts in the Anthropocene — R0/PR2

Conflict of interest statement

Reviewer declares none.

Comments

Comments to Author: Very well-written paper that explores the various social innovations for a sustainable coastal future. The premise of the paper is engaging and the impact was very well made. However, I would like to make two comments that can hopefully improve this:

1. The methods could be clarified further, especially on the inductive methodologies, which were mentioned, but not explained. This was very apparent in the first paragraph of the Methods, where the authors indicated that the keywords used to initiate the search were general terms combined with more specific terms related to the 6 social innovations. This somewhat implies a more deductive analysis, rather than inductive. More clarification is needed here.

2. The introduction section could be improved slightly especially regarding the writing style. As this paper focuses on social innovations and have mentioned multiple times the need for inclusive multi-stakeholder participation, engagement, communication etc.. I believe it is useful that the authors also consider the non-experts as potential readers. Therefore, terms such as futures narrative and humans forcing could be explained better.

There are also some minor writing mistakes throughout:

e.g. Last sentence, Second paragraph of Introduction

Review: Social innovation that connects people to coasts in the Anthropocene — R0/PR3

Conflict of interest statement

NA

Comments

Comments to Author: This paper has the potential to make a powerful contribution to the scholarship around how we approach futures in the Anthropocene and I liked the fact it focussed on the coastal zone. Many interesting points are made, and I agree with the underpinning argument that social innovation is needed. Yet overall a number of the points made are ‘undercooked’ - big concepts such as the social contract, science communication, and others are listed rather than discussed, asserted as important, but not really explored with sophistication. The paper overall also needs a good edit, so that it flows and avoids repetition. For example, the table does not really list characteristics but more articles, and I suggest that it could be merged with the prior text which covers the same ground. The latter part of the paper also reiterates many of the same points without adding value or depth. The method does not go into enough detail about how many papers were originally gathered and what processes were used to arrive at the final 97 - overall more detail needed here. The SGDs suddenly appear at the end but need to be properly reference/woven in earlier. Having said all this, this paper gave me food for thought, there is a lot of good thinking in here and loved the table 1 circle diagram. I encourage the authors to revise this paper, edit it and lift the level of discussion so it is deeper and explores with more sophistication many of the excellent ideas raised,

Recommendation: Social innovation that connects people to coasts in the Anthropocene — R0/PR4

Comments

Comments to Author: The reviewers have indicated that this paper has the potential to make an important contribution to the literature and that it provides food for thought. I agree that the paper has much potential. The reviewers have made excellent recommendations. I agree with all that has been recommended and find that major revision will be necessary. I encourage the authors to address each of the reviewers’ excellent recommendations in the revision process. After improving the introduction, methods and discussion as recommended by the reviewers, and as partially summarized and expanded upon below, I recommend a careful and thorough edit, especially for clarity, parallel sentence construction, complete sentence construction and proper use of singular and plural forms. I hope the authors will take this lengthy recommendation as enthusiasm for their important work, which I expect will prove to be an important resource and starting point for those seeking to develop new means for much needed social innovation.

A few specific points made with the goal of assisting in improving the manuscript and elevating its likely impact:

I agree with the reviewers that the SDGs need to come in sooner. I recommend introducing the SDGs and their relationship to the present work in the introduction, rather than just mentioning the acronym (if the authors choose to retain reference to the SDGs in the discussion) The last sentence at the end of the first paragraph of the introduction seems to need a reference. Also in the introduction, is it truly meaningful to define social innovation as either positive or negative? This seems rather black and white, as illustrated by the example provided, which seems to have both positive and negative aspects to it. And, is it really the innovation that has positive and negative elements, or the outcome of the innovation? The definition seems overly simplified and also begs evaluation of the categories of the approaches identified by the authors in order to classify. I recommend reconsidering whether or not there is a need to define innovation as wholly positive or negative in the context of this paper. The authors refer to social-ecological system, which I recognize is terminology used in some fields. Given the emphasis in the paper on transdisciplinary, it would be valuable at the first mention of this term, to indicate others that have similar meanings, such as “coupled human-natural system” or “complex adaptive system.”

I agree with the reviewers that the methods require more explanation, including clarification that the goal of this work is (as I glean from the majority of the paper) to identify and categorize different approaches to social innovation, not to “understand” them, as stated in the first sentence of the methods. Also, I can understand bounding the search in time, but please provide a justification for doing so, and for selecting 2018 as the cutoff. If the keywords come from the different types of social innovation, then how did the authors ensure that they didn’t miss other types? How were the citations then grouped into the six different categories? Including the list of keywords would be useful as well. I suggest that the authors consider modifying the names of the different types of innovation so that they are parallel in construction (all verbs or all nouns, or all modified verbs or nouns) and that there be a closer match with the headings that are used ahead of the summaries of each. It is also important for the order of the list and the order of the explanations be adjusted so that they are consistent with each other. I agree with the reviewer suggestion to merge the paragraphs and the very long and text-heavy table, which really provides the examples of specific social innovation approaches that the reader craves as they read the descriptions of the identified categories. I do wonder if a table listing the citations reviewed that fall under each category, as well as the characteristics and obstacles would be useful. Please be sure to refer to the table in the text. Also, the “anticipation” category, based on the last sentence sounds like “adaptive management,” which has been around for a long time… how are the anticipation approaches novel? Further, is there anything that all of these categories of innovation have in common? It seems on the middle of page 11 that the others consider them all to include “collective engagement,” (but is that really true?).

I echo one of the reviewers in recommending a careful and thorough revision of the discussion to more deeply develop and substantiate the key points, and also to include improve organization, remove redundancy and increase clarity. I also recommend that the authors pay special attention to the points they are making regarding a science-society contract. This section seems to go against a statement the authors make in the previous section (which many will agree is important) that science should not be seen as separate from society. Calling for a contract actually separates the two entities by pointing to, and discussing them as separate entities that interact, and thus need to a contract. I recommend that the authors consider carefully what points they wish to make in this regard and ensure that they are consistent throughout. Please also take care to be clear regarding what is already known and demonstrated and what is posited by the authors of this article. , e.g., first sentence of the last paragraph before the conclusion, “The science-society contract can help…” Figure 1 appears to be valuable, but the text and symbols need to be much larger to be legible. Conclusion also needs streamlining and editing, especially last paragraph, e.g. “The six types are novel,” or categorizing is novel?

Given that the focus of the paper is on identifying different social innovations that seek to connect people to coasts, rather than assessing the success of these social innovations I encourage the authors to consider minor adjustments to their title, and the text throughout (e.g., in the impact statement—“can substantially increase” might better be “have the potential to”) so that title and text are fully consistent with the aim of the paper in this regard. And, one last comment, which may seem minor, but is important. The term “human development” has, unfortunately, become more common in the literature recently (I’m not sure why), but grammatically, just as “human settlement” means the settlement of humans, “human development” means “the development of humans,” (e.g., from child to adult) not coastal development built by humans, or carried out by humans. Avoiding this terminology becomes even more important as efforts becomes even more transdisciplinary, for example, including the fields of health and medicine. I urge the authors to use alternate terminology to avoid perpetuating the use of this term, which will be confusing to some. I thank the authors for their hard work and invited submission and I hope to see a major revision soon.

Decision: Social innovation that connects people to coasts in the Anthropocene — R0/PR5

Comments

No accompanying comment.

Author comment: Social innovation that connects people to coasts in the Anthropocene — R1/PR6

Comments

No accompanying comment.

Review: Social innovation that connects people to coasts in the Anthropocene — R1/PR7

Conflict of interest statement

Reviewer declares none.

Comments

Comments to Author: The reworked article is definitely much better than the original version, with more compelling discussion made on the impact of social innovations. However, there are some minor errors that could be corrected prior to publication

Line 312 - change the word ‘portraits’

Line 393 - spelling 'withing"

Recommendation: Social innovation that connects people to coasts in the Anthropocene — R1/PR8

Comments

Comments to Author: I appreciate that the authors have submitted a revised manuscript. The improvements made are helpful, and yet there are some further revisions needed prior to publication. I am recommending minor revision because I expect these last revisions can be made fairly easily. It is of the utmost importance to complete the next revision with a round of careful editing by someone whose first language is English, to assist in smoothing awkward phrasing, improving word choice to convey accurate meaning, and editing for correct plural vs. singular usage. I have made some line-by-line comments that will assist in this regard as a start.

Also, although more detail has been added to the methods section, there is a need to replace a few instances of jargon with clearer language and to clarify procedures more fully. Please see specific notes below regarding the methods. Also, please take care with the sixth social innovation, which appears to be based on only one of the papers identified through the methods described. There must be other citations that can be added here, perhaps from Table 1, at least?

Lastly, I am concerned that ties to the SDGs seem cursory, especially given the addition of a sentence in the introduction that indicates the types of social innovation will be tied to the SDGs. There does not seem to be much additional description of the SDGs early on. And, although I want to be, but I’m not yet swayed by the three-paragraph section that attempts to tie the different social innovations to the SDGs. Can you add more specifics in terms of which types of social innovations you believe are best suited to address the different SDGs? Currently the last paragraph of that section is the only place in that section where SDGs come in and it reads as more of a list of the different SDGs than establishment of a connection between the SDGs and the different types of social innovation that have been identified.

Methods –

I appreciate that the authors have added more detail to the methods, however, more clarification is still needed. Frist, the authors state this in the response to comments: “We did not undertake a systematic review and search terms were used as an initial filter to find other papers and branches of inquiry/interest.” Please add this information into the methods section itself for transparency.

Secondly, between the significant amount of jargon in the paragraph below (bolded), and awkward phrasing, it is very difficult to understand. Please write without jargon, or explain jargon parenthetically. Also, did you categorize “properties” and “patterns” to identify the different types of social innovations? Please say what the properties and patterns are that you identified as associated with each type of social innovation. I also don’t understand what is meant by the “six types containing approaches, methods and tools reported in the academic literature.” This may just be awkward phrasing, but I can’t tell. Please explain differently and more clearly what is meant here. The italicized text is also awkwardly stated and unclear. Is it truly even unnecessary? Isn’t the paper based on the premise that you can identify different types of social innovation from the literature?

“Data collection was done using purposive sampling that enable us to created propositions [ such as?],

146 which involved conceptual relationships [such as?]. This allowed us to inductively identify properties [such as?] and patterns [such as?]

147 to be categorised and yielded to identify social innovation types. The six types contain approaches,

148 methods, and tools, which are reported on in the academic literature. The social innovation that was

149 included had a direct relationship with scientific research, the use of scientific outputs or scientific methods. The types of social innovation described here were knowable through scientific literature.

151 The outcome of the methodology is presented as a conventional narrative review.

And, Line 153 – what specific key words and phrases were used?

Other line by line comments/corrections -

In the text below, lines 65-68,

it is not clear what “it” is, and the sentence is convoluted. Please rephrase for clarity. Also, italicizing of “future” really isn’t necessary and I would argue it is distracting. Please remove italics.

“While the understanding

65 of the Anthropocene is rooted in both the past and the present, the concept of thresholds and tipping

66 points (McLaughlin, 2018; Nash et al., 2017; Rockström et al., 2009; Turner et al., 2020), intertwined

67 drivers, complex dynamic structures, emergent phenomena and unintended consequences make it more

68 a matter of trajectories of change, and the state of the future (Bai et al., 2016).”

Line 76 stories are, not stories is

Line 78,79 change parenthetical to “(also known as coupled human-natural systems and complex adaptive systems):

Line 102 – 103 – suggest changing this sentence to “The importance of coasts and oceans is evidenced by the articulation of the SDGs and the UN Decade of Ocean Science, among other efforts.

Lines 120-127 – The first person used previously, seemed to flow better. Suggest changing back to firest person.

Line 131 – change impact to impacts

Line 134- change “the paper concludes” to “We conclude”

Line 136 – changing “sustainability of future coasts” to “coastal sustainability” would be clearer.

Line 144 – change “included” to “include” because this theory stands in the present, even though your analysis was done in the past.

Line 145 – change “data collection was done” to “data were collected” ; change enable to enabled; change created to create

Line 253- there are crucial roles

The lived experience and values social innovation is based only on one paper—are there not others you can include and point to here? Otherwise, the case for this as a type of social innovation is quite thin. Also, what is meant by “culture and life experiences” as social innovation? Can you give some examples, please?

Table 1 is much improved and more useful. However, “High levels of personal connection” is quite vague—can you elaborate just enough more here for readers to understand what this means? High levels of personal connection in what context and how is this achieved?

Line 272 and 273 – innovation should be innovations

Line 273 change “transformation” to “efforts to achieve”

Lines 273-276 – “coastal local ecological research knowledge” is to long of a compound noun to be read easily. Four decades are referred to here either with a reference, or with reference to a single article from 1978? What is sea tenure? This paragraph needs careful editing for clarity and proper English usage.

Line 285 – remove “of these”

299-300 This sentence is not clear. Please rephrase carefully for clarity.

303 – delete “simultaneously” and change to “people tend to be more willing,…”

Line 306 – remove “that encourages change” change “are more complex ” to “are becoming more coimplex”

Line 312 – portraits should be portrays

Line 348-349 – suggest deleting—redundant and not tied in here.

351 – change to “Social innovations that authentically engage different coastal users… “

Throughout social innovation is sometimes used in singular form and other times in plural form. I recommend sticking with the plural form for consistency rather than switching back and forth without clear reason.

Line 358- suggest deleting sentence starting with “There is an emerging…”

Line 360 – delete also and change on to about

Line 351 – what social innovations are required

Line 365- Please either add references to demonstrate the claim that these social innovations are directly contributing to the SDGs then, OR change “are directly contributing “ to “have the potential to directly contribute to”

Lines 368-377 – This hasn’t been sufficiently further developed to warrant inclusion. As written, this is a stretch. I recommend deletion of these lines and changing the heading of this section to something like “Social innovations to support communication and effective decision-making”

Decision: Social innovation that connects people to coasts in the Anthropocene — R1/PR9

Comments

No accompanying comment.

Author comment: Social innovation that connects people to coasts in the Anthropocene — R2/PR10

Comments

No accompanying comment.

Recommendation: Social innovation that connects people to coasts in the Anthropocene — R2/PR11

Comments

Comments to Author: Thank you for undertaking such a wonderful and thorough revision and incorporation of feedback. The manuscript is much improved and I expect it will be an important contribution. I do hope that prior to publication, the authors will add a line to their acknowledgements to appreciate the helpful and constructive feedback provided throughout the review process by reviewers (and editors, if you so choose). This is especially valuable for reviewers to see and know that their efforts and time are appreciated by authors. Thank you for your contribution and the grace with which you responded to recommendations. All best, Laura Moore

Decision: Social innovation that connects people to coasts in the Anthropocene — R2/PR12

Comments

No accompanying comment.