Hostname: page-component-cd9895bd7-lnqnp Total loading time: 0 Render date: 2024-12-27T09:03:08.608Z Has data issue: false hasContentIssue false

The socio-cultural benefits and costs of the traditional hunting of dugongs Dugong dugon and green turtles Chelonia mydas in Torres Strait, Australia

Published online by Cambridge University Press:  12 December 2017

Aurélie Delisle*
Affiliation:
James Cook University, College of Business Law and Governance, Douglas, Queensland, Australia
Milena Kiatkoski Kim
Affiliation:
James Cook University, College of Science and Engineering, Douglas, Queensland, Australia
Natalie Stoeckl
Affiliation:
James Cook University, Division of Tropical Environments and Societies, Douglas, Queensland, Australia
Felecia Watkin Lui
Affiliation:
James Cook University, Aboriginal and Torres Strait Islander Centre, Cairns, Queensland, Australia, and James Cook University, The Cairns Institute, Cairns, Queensland, Australia
Helene Marsh
Affiliation:
James Cook University, College of Science and Engineering, Douglas, Queensland, Australia
*
(Corresponding author) E-mail adelisle@uow.edu.au
Rights & Permissions [Opens in a new window]

Abstract

Signatory states of the Convention on Biological Diversity must ‘protect and encourage the customary use of biological resources in accordance with traditional cultural practices that are compatible with conservation or sustainable use requirements’. Thus the management of traditional hunting of wildlife must balance the sustainability of target species with the benefits of hunting to traditional communities. Conservation policies usually define the values associated with wild meats in terms of income and nutrition, neglecting a wide range of social and cultural values that are important to traditional hunting communities. We elicited the community-defined benefits and costs associated with the traditional hunting of dugongs Dugong dugon and green turtles Chelonia mydas from communities on two islands in Torres Strait, Australia. We then used cognitive mapping and multidimensional scaling to identify separable groups of benefits (cultural services, provisioning services, and individual benefits) and demonstrate that traditional owners consider the cultural services associated with traditional hunting to be significantly more important than the provisioning services. Understanding these cultural values can inform management actions in accordance with the Convention on Biological Diversity. If communities are unable to hunt, important cultural benefits are foregone. Based on our results, we question the appropriateness of conservation actions focused on prohibiting hunting and providing monetary compensation for the loss of provisioning services only.

Type
Article
Copyright
Copyright © Fauna & Flora International 2017 

Introduction

The hunting of terrestrial and marine wildlife is typically considered to be a matter of conservation concern, even though it can be an important source of livelihood to local communities (Nasi et al., Reference Nasi, Brown, Wilkie, Bennett, Tutin, van Tol and Christophersen2008), particularly indigenous communities. Scientific studies have described the negative impacts of hunting on wildlife, particularly on the native biota in Africa (e.g. Bowen-Jones & Pendry, Reference Bowen-Jones and Pendry1999; Brashares et al., Reference Brashares, Arcese, Sam, Coppolillo, Sinclair and Balmford2004). Research on the hunting of marine mammals and turtles is somewhat less common (Sohou et al., Reference Sohou, Dossou-Bodjrenou, Tchibozo, Chabi-Yaouré, Sinsin and Van Waerebeek2013) despite the fact that, since 1990, people in at least 114 countries have consumed one or more of at least 87 marine mammal species (Robards & Reeves, Reference Robards and Reeves2011). Green turtles Chelonia mydas are still harvested legally for food in several range states despite being categorized as Endangered at a global scale (Seminoff, Reference Seminoff2004).

Historically, the development of species management tools has generally been guided by knowledge of the species’ biology, with limited attention to the broader context of management and the impacts of actions on the users of wildlife. However, the impacts of conservation actions such as hunting regulations on local communities, and their rights to be involved in management, are now being acknowledged. Hence, wildlife managers and conservation organizations face the challenge of minimizing the negative impacts of hunting on the long-term sustainability of wildlife while enhancing the positive impacts (Nasi et al., Reference Nasi, Brown, Wilkie, Bennett, Tutin, van Tol and Christophersen2008; Nyaki et al., Reference Nyaki, Gray, Lepczyk, Skibins and Rentsch2014; Duffy et al., Reference Duffy, St John, Büscher and Brockington2016).

In the 1970s, as wildlife managers and conservation practitioners began to recognize the important links between biodiversity and people, there was a concurrent movement to recognize the rights of indigenous peoples. These processes led to the explicit international recognition of the role of indigenous peoples in the conservation and sustainable use of biodiversity. Two articles (article 8(j) on traditional knowledge, innovations and practices, and article 10(c) on customary sustainable uses of biodiversity) were included in the Convention on Biological Diversity. Article 10(c) requires signatory states (Parties) to ‘protect and encourage the customary use of biological resources in accordance with traditional cultural practices that are compatible with conservation or sustainable use requirements’. Both articles thus bind Parties to the Convention to respect, protect and promote traditional knowledge, innovations and practices. These articles also oblige Parties to protect and encourage customary uses of biological resources in accordance with traditional cultural practices. The articles can be adapted at the national and local levels to strengthen indigenous involvement in decision making in the sustainable use of biodiversity (Sutherland, Reference Sutherland1995).

Cultural dimensions of hunting

The most obvious positive outcomes of hunting are its contributions to nutrition, food security, income generation and livelihoods in rural and remote areas (Bassett, Reference Bassett2005; Nasi et al., Reference Nasi, Brown, Wilkie, Bennett, Tutin, van Tol and Christophersen2008). These outcomes apply not only to the hunters themselves but also to others along the supply chain (Crookes & Milner-Gulland, Reference Crookes and Milner-Gulland2006; Allebone-Webb et al., Reference Allebone-Webb, Kümpel, Rist, Cowlishaw, Rowcliffe and Milner-Gulland2011). Nevertheless, the range of motivations, benefits and costs associated with hunting can be more comprehensive than these values, especially for indigenous and traditional groups. Indigenous communities have particularly strong connections with nature, as their way of life often depends on their access to natural resources (United Nations Environment Programme, 2003), and traditional cultures can help maintain the diversity and resilience of natural systems (Bélair et al., Reference Bélair, Ichikawa, Wong and Mulongoy2010).

Anthropologists and ethnoecologists have studied the cultural values of hunting (Cocks et al., Reference Cocks, López, Dold, Shackleton, Shackleton and Shanley2011; Peterson, Reference Peterson2013), emphasizing the important cultural role that the hunting and sharing of wild meats (which may include terrestrial and marine species of conservation interest) plays in the transmission of traditional ecological knowledge, cultural identity, and medicinal and spiritual values, and in the maintenance of community cohesion (van Vliet et al., Reference van Vliet, Nasi, Taber, Shackleton, Shackleton and Shanley2011; Kalland, Reference Kalland2012; Reo & Whyte, Reference Reo and Whyte2012; Baggio et al., Reference Baggio, BurnSilver, Arenas, Magdanz, Kofinas and De Domenico2016; BurnSilver et al., Reference BurnSilver, Magdanz, Stotts, Berman and Kofinas2016; Watkin Lui et al., Reference Watkin Lui, Stoeckl, Delisle, Kiatkoski Kim and Marsh2016a). However, the incorporation of the social and cultural dimensions of hunting is still relatively undeveloped in contemporary management practices (Nasi et al., Reference Nasi, Brown, Wilkie, Bennett, Tutin, van Tol and Christophersen2008), and conservation policies based on Western concepts usually define the values of wild meats solely in terms of income and protein (Nyaki et al., Reference Nyaki, Gray, Lepczyk, Skibins and Rentsch2014). Even a widely discussed concept such as food security, often regarded as a direct benefit of hunting, is often based on a Western definition focusing on nutrition, calories and purchasing power rather than the holistic nature of food security held by indigenous people such as the Alaskan Inuit, who consider food security to encompass both cultural and environmental systems (Inuit Circumpolar Council-Alaska, 2015).

The difficulties of incorporating the social dimensions of indigenous hunting into contemporary management are compounded when the target species (marine and terrestrial) are of conservation concern (e.g. dugongs Dugong dugon and green turtles Chelonia mydas in Australia; beluga Delphinapterus leucas and bowhead whales Balaena mysticetus in the Arctic). Policies are usually defined according to the predominant discourse based on a value system that narrowly defines hunting values and does not reflect the spectrum of values identified by direct resource user groups (Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008). Moreover, the costs and benefits associated with hunting (or the conservation policies regulating such activity) are generally more salient to the members of indigenous communities than to the outside organizations that typically develop conservation policies (Nyaki et al., Reference Nyaki, Gray, Lepczyk, Skibins and Rentsch2014). Thus, clarifying the range of benefits and costs associated with hunting, and their relative importance from the perspective of indigenous hunting communities, can help the development of understanding about the potential impacts of conservation policies on these communities. The risks of not considering the range of impacts resulting from policies may have severe negative consequences for indigenous peoples (Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008); for example, researchers have highlighted eight invisible losses experienced by First Nation communities in western North America as a result of a lack of recognition of cultural values during the development of environmental policies that affected their access to traditional lands and resources (Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008). Losses included lifestyle losses, loss of identity, health losses, loss of self-determination, emotional losses, loss of order in the world, knowledge losses, and indirect economic losses (Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008).

Such social impacts are not confined to indigenous groups. In the development of marine national parks, managers in New South Wales, Australia, did not fully recognize social impacts on commercial fishers of banning commercial fishing in some areas. Fishers reported that the managers considered only economic impacts when making their decision, and ignored the loss of well-being and community cohesion (Momtaz & Gladstone, Reference Momtaz and Gladstone2008). As a result, fishers became distrustful of the local management authority (Voyer et al., Reference Voyer, Gladstone and Goodall2014).

A potential explanation for the lack of recognition or legitimacy of cultural values in the policy arena may stem from the types of assessments used to describe non-market values. Policy makers and managers may respond better to market values such as income because they are quantifiable for comparison with other values. Moreover, research indicates that decision makers are more inclined to use ecological indicators and market studies rather than non-market valuation studies, at least partially because of the complexity of the methods (Rogers et al., Reference Rogers, Kragt, Gibson, Burton, Petersen and Pannell2015). Non-market valuation studies such as contingent valuation have also been criticized as being unsuitable for research in indigenous communities (Adamowicz et al., Reference Adamowicz, Boxall, Williams and Louviere1998; Venn & Quiggin, Reference Venn and Quiggin2007).

The sharing of food (BurnSilver et al., Reference BurnSilver, Magdanz, Stotts, Berman and Kofinas2016) is a cornerstone of whaling by indigenous communities in the Alaskan Arctic and is integral to maintaining community cohesion. Nonetheless, the system has been described mostly in a qualitative rather than a quantitative manner (BurnSilver et al., Reference BurnSilver, Magdanz, Stotts, Berman and Kofinas2016). Baggio et al. (Reference Baggio, BurnSilver, Arenas, Magdanz, Kofinas and De Domenico2016) and BurnSilver et al. (Reference BurnSilver, Magdanz, Stotts, Berman and Kofinas2016) analysed social networks, harvest and household economic data to quantify the importance of indigenous whaling in the Alaskan Arctic. This quantitative assessment combined with more descriptive studies of the complex values associated with indigenous hunting can assist in formulating a narrative and policies looking at the future of indigenous communities in the face of global environmental change (Baggio et al., Reference Baggio, BurnSilver, Arenas, Magdanz, Kofinas and De Domenico2016; BurnSilver et al., Reference BurnSilver, Magdanz, Stotts, Berman and Kofinas2016).

A participatory approach to understanding costs and benefits of indigenous hunting

The ecosystem services concept has been used widely to identify the values people derive from ecosystems, including through extractive activities such as hunting and fishing (Millennium Ecosystem Assessment, 2005; Chan et al., Reference Chan, Guerry, Balvanera, Klain, Satterfield and Basurto2012a). Most users of the Ecosystem Services Framework emphasize the economic valuation of tangible services over the identification of intangible benefits associated with social and cultural values (Chan et al., Reference Chan, Satterfield and Goldstein2012b). Using economic valuations to inform decision making can be problematic, as the intangible benefits associated with Ecosystem Services can matter more to people than the monetary benefits (Chan et al., Reference Chan, Satterfield and Goldstein2012b). Accordingly, the effective identification and prioritization of the values derived from ecosystems requires the use of qualitative and participatory methods that include the perspectives of communities that are more closely linked with such ecosystems and are therefore potentially affected by management actions (Chan et al., Reference Chan, Guerry, Balvanera, Klain, Satterfield and Basurto2012a).

We used a participatory modelling approach known as cognitive mapping to investigate the costs and benefits of the traditional hunting of two culturally significant species in an area inhabited by indigenous, natural resource dependent communities. Our approach avoids the use of contingent valuation but still defines costs and benefits, as non-market valuation estimates are generally part of a cost–benefit analysis (Supplementary Material 1). Cognitive mapping is an umbrella term that encompasses such techniques as causal, semantic and concept mapping. A cognitive map is a qualitative model describing the elements of a given system. The map uses defined variables and describes their relationships. The variables can represent physical or abstract ideas (Özesmi & Özesmi, Reference Özesmi and Özesmi2003). The person making the cognitive map decides on the important variables that affect a system and then either draws causal relationships among these variables (i.e. causal mapping), with the possibility of indicating the relative strength of the relationships with a number between −1 and 1 (i.e. fuzzy causal mapping), or decides how the variables are interrelated (i.e. concept mapping). Such techniques are used to study decision making and people's perceptions of complex social systems (Axelrod, Reference Axelrod1976; Brown, Reference Brown1992; Carley & Palmquist, Reference Carley and Palmquist1992) and have been applied successfully in natural resource management to improve decision making, define management objectives and analyse stakeholders’ perceptions of ecosystems (Radomski & Goeman, Reference Radomski and Goeman1996; Özesmi & Özesmi, Reference Özesmi and Özesmi1999; Hobbs et al., Reference Hobbs, Ludsin, Knight, Ryan, Biberhofer and Ciborowski2002; Mendoza & Prabhu, Reference Mendoza and Prabhu2003). Cognitive mapping and other mental model techniques have been particularly useful in describing how various stakeholder groups perceive a similar natural resource management issue. In cases of human–wildlife conflict, the reasons and potential solutions can vary between policy makers and other stakeholder groups (Mosimane et al., Reference Mosimane, McCool, Brown and Ingrebretson2014). A better understanding of how various people interpret a similar problem can identify areas of agreement and disagreement, and can be the precursor in establishing a closer working relationship towards effective environmental policy and decision making (Mosimane et al., Reference Mosimane, McCool, Brown and Ingrebretson2014). All cognitive mapping techniques try to understand how an individual interprets concepts, and describe those concepts and their relationships in a graphical layout (Fiol & Huff, Reference Fiol and Huff1992).

We used cognitive mapping to address the following questions: What are the social–cultural costs and benefits associated with traditional hunting of marine megafauna from the perspective of an indigenous community? How are the costs and benefits linked/grouped, and what is their relative importance? The cultural significance of the species and the fact that the meat cannot be sold helps to emphasize the social and cultural rather than the monetary values of hunting.

Case study: traditional fisheries in Torres Strait, Australia

Most of the people living in the Torres Strait region between Australia and Papua New Guinea are indigenous (ABS, 2011) (Fig. 1). Dugongs and green turtles (hereafter turtles) have significant cultural importance for Torres Strait Islanders and have been hunted for millennia. The turtle harvest originated at least 7,000 years ago (Wright, Reference Wright2011), and the dugong harvest at least 4,000 years ago (Crouch et al., Reference Crouch, McNiven, David, Rowe and Weisler2007). The remains of thousands of dugong bones in middens indicate that the harvest has been substantial for at least 400–500 years (McNiven, Reference McNiven2010), pre-dating European settlement in the 19th century.

Fig. 1 Locations of the study communities of Mabuiag and St Paul's (circled) in Torres Strait, Australia.

Torres Strait currently supports the largest population of dugongs globally (Marsh et al., Reference Marsh, O'Shea and Reynolds2011b). A population decline has not been detected by aerial surveys of dugongs conducted during 1987–2013 (Marsh et al., Reference Marsh, Grayson, Grech, Hagihara and Sobtzick2015; Hagihara et al., Reference Hagihara, Cleguer, Preston, Sobtzick, Hamann, Shimada and Marsh2016), probably because dugongs are harvested in only 5% of the 5,268 km2 of very high dugong density habitat as the result of cultural and government controls on the harvest, and socio-economic factors. Contemporary evidence thus suggests that the dugong harvest in Torres Strait is sustainable (Marsh et al., Reference Marsh, Grayson, Grech, Hagihara and Sobtzick2015; Hagihara et al., Reference Hagihara, Cleguer, Preston, Sobtzick, Hamann, Shimada and Marsh2016; Urwin et al., Reference Urwin, McNiven, Clarke, Macquarie and Whap2016).

Torres Strait also provides foraging grounds for abundant stocks of juvenile and adult turtles (Limpus, Reference Limpus2008; Fuentes et al., Reference Fuentes, Bell, Hagihara, Hamann, Hazel and Huth2015; Hagihara et al., Reference Hagihara, Cleguer, Preston, Sobtzick, Hamann, Shimada and Marsh2016) and is an important corridor for populations migrating between eastern Indonesia, the Arufura Sea, the Gulf of Carpentaria and the northern Great Barrier Reef (Limpus & Parmenter, Reference Limpus, Parmenter, Haines, Williams and Coates1986). The level of hunting of green turtles in Torres Strait is likely to be sustainable (Hagihara et al., Reference Hagihara, Cleguer, Preston, Sobtzick, Hamann, Shimada and Marsh2016). However, there are concerns about the long-term future of the turtle stock, largely because of mounting evidence of environmentally caused recruitment failure at Raine Island in the northern Great Barrier Reef, the largest green turtle rookery (Limpus, Reference Limpus2008).

As a signatory to CITES and the Convention on Biological Diversity, Australia has multiple responsibilities associated with the conservation and management of dugongs and turtles. For example, commercial trade in these species (both of which are listed in Appendix I of CITES, 2017) is prohibited. Traditional owners in northern Australian coastal indigenous communities have the right to hunt dugongs and turtles in their Sea Country (an Australian indigenous term that relates to the ‘authority held and responsibilities of particular groups of traditional owners to particular areas of sea, and is based on cultural relationships with these areas’; Plagányi et al., Reference Plagányi, van Putten, Hutton, Deng, Dennis and Pascoe2013). This right is upheld under the Australian Native Title (e.g. Native Title Act 1993) and environment laws in accordance with the Torres Strait Fisheries Act 1984, which facilitate the Torres Strait Treaty between Australia and Papua New Guinea (Havemann & Smith, Reference Havemann and Smith2007). Operationally, these fisheries are managed at the community level through 15 non-statutory community-based turtle and dugong management plans (Marsh et al., Reference Marsh, Grech and Hagihara2011a).

Our research was conducted in two remote indigenous island communities in the Australian waters of Torres Strait (Fig. 1). In 2011 there were close to 6,000 Torres Strait Islanders and/or Aboriginal people living in the region (OESR, 2013), including c. 250 and 235 residents in our study communities of Mabuiag and St Paul's, respectively (Fig. 1).

Dugongs and green turtles are cultural keystone species in Torres Strait (Butler et al., Reference Butler, Tawake, Skewes, Tawake and McGrath2012), defining Torres Strait Islanders wherever they reside (Watkin Lui et al., Reference Watkin Lui, Kiatkoski Kim, Delisle, Stoeckl and Marsh2016b). The hunting and distribution of dugong and turtle meat are part of Ailan Kastom (island custom). The Cambridge Expedition (Haddon, Reference Haddon1912) reported that green turtles and dugongs were an essential part of the diet of Mabuiag Islanders, a fact confirmed by subsequent studies in Torres Strait (Nietschmann, Reference Nietschmann1981; Bliege Bird & Bird, Reference Bliege Bird and Bird1997; Bliege Bird et al., Reference Bliege Bird, Smith and Bird2001; Kwan et al., Reference Kwan, Marsh and Delean2006). Both species are also important for ceremonies (Fitzpatrick-Nietschmann, Reference Fitzpatrick-Nietschmann1980), and hunting confers prestige and recognition within the community on the hunters of eastern Torres Strait (Bliege Bird et al., Reference Bliege Bird, Smith and Bird2001).

In common with other indigenous peoples, the residents of the two study communities are at a significant socio-economic disadvantage compared with the wider community. Almost 70% of jobs in Mabuiag and St Paul's are available only to residents who participate in an employment benefit scheme (Delisle, Reference Delisle2013). Residents earn c. 50% of what their Australian counterparts earn. Each community has only one general store at which to purchase food, and the mean price of commodities is c. 53% higher than on the mainland. Community residents thus face the double burden of low income and high prices, with real incomes substantially below those of their non-indigenous mainland counterparts.

The spending pattern of residents is also different from that of the average Queensland household (Delisle, Reference Delisle2013). For example, in St Paul's c. 40% of all expenditure is on food and beverages, compared to 20% for the average Queensland household (ABS, 2011), which is an indicator of the financial pressures on the residents of these remote communities.

Methods

Data collection

After obtaining ethical approval from local institutions (Torres Strait Regional Authority and each island's traditional owner institution, called a prescribed body corporate), AD travelled to each of the study communities, meeting with leaders to describe the project and discuss appropriate research methods and associated community consultation. The communities requested that we hold regular community meetings to keep them informed of progress, and conduct interviews with a cross-section of individuals from each community.

During May 2009–December 2010 AD undertook eight field trips, each of 2–3 weeks duration, to the two study communities to (1) elicit the community members’ perceived benefits and costs associated with hunting, (2) understand how those benefits and costs were related (using cognitive mapping exercises), and (3) determine the perceived importance of each benefit and cost (by asking individuals to rate them).

Information from (1) and (2) was used to identify separable groups of benefits and costs associated with hunting. Information from (2) and (3) was used to estimate the average importance of groups of separable benefits and costs, and mean values were compared. Statistical tests were used to determine if the differences were significant, so we could determine the relative importance of groups of benefits and costs.

Eliciting the benefits and costs of traditional hunting

We used free listing to identify, via interview, a broad range of benefits and costs associated with hunting. Interviewees were selected from a list, provided by community representatives, of people who were deemed knowledgeable (in that they had sufficient knowledge of hunting and of the community to provide sound information) and included males and females, young and old. Each interviewee was asked two focal questions: (1) What are the benefits of traditional dugong and turtle hunting? (2) What are the costs of traditional dugong and turtle hunting?

Responses were recorded in writing, and audio-recorded if permitted by the participant. At the beginning of each interview the participant was shown the list developed in previous interviews and encouraged to contribute any items that he/she believed should be on it. We stopped conducting these interviews once saturation was reached (i.e. no new elements were identified by new interviewees; Stark & Torrance, Reference Stark, Torrance, Somekh and Lewin2006). Saturation occurred after interviewing 10 participants (six men and four women) on Mabuiag Island, and AD decided to interview the same number of participants (five women and five men) in St Paul's, even though saturation occurred with fewer participants there.

The wording used during free listing sometimes varied between individuals. The content of the list and the various themes elicited were analysed qualitatively for similarity. A final list was generated, accounting for the similarities between the ideas of participants and discarding redundancies. The final lists of benefits and costs were reviewed collectively by the interviewees of each island to check for accuracy and to develop an agreed set of definitions for each item.

Identifying groups of benefits and costs

We then used cognitive mapping to test for the separability (or lack thereof) of the costs and benefits elicited in the previous step.

The 10 people from each island who had participated in the free-listing activities were invited to take part in the cognitive mapping exercises, as were additional members of each community, who were recruited using snowball sampling, with the goal of speaking to a broad cross-section of the population.

Each participant was invited to view and categorize individual values (Rosenberg & Kim, Reference Rosenberg and Kim1975; Coxon, Reference Coxon1999) via a sorting activity using two sets of cards (benefits and costs). Each card had a description of one of the items identified from the free-listing exercises. Respondents were asked to place the cards into groups that ‘went well together’ (ideally, not a single group), and provide a name or label for each group of cards. The exercise was performed twice, once using cards that related to benefits, and once with cards relating to costs.

The groups of benefits and costs were coded into separate binary matrices. The name of each benefit or cost appeared as a header on both the columns and the rows of each matrix. If a respondent had placed two items in a group together, then the entry in the cell of the matrix corresponding to those two items was 1; otherwise it was 0. We then constructed a single aggregate matrix for each community (Mabuiag and St Paul's); simplistically, the sum of all individual matrices. These aggregate matrices were then analysed using multidimensional scaling. We used both metric (which deals with interval or ratio-level data) and non-metric multidimensional scaling (which deals with ordinal data) to obtain visual representations of the relationships between the numerous benefits and costs identified in the free-listing exercises, using normalized raw stress scores to determine the optimal number of dimensions. With these visual representations we were able to identify separable groups of benefits and costs. Following Blake et al. (Reference Blake, Schulze and Hughes2003) we calculated the Euclidean distance between all values in the matrices, for each community, and then calculated Pearson's R to determine if the observed differences between communities were statistically significant (Blake et al., Reference Blake, Schulze and Hughes2003).

Representativeness of participants

On Mabuiag Island 40 residents were asked to participate in the cognitive mapping and 38 agreed (29 men and nine women; 38% of the permanent adult population of the island). In St Paul's, 45 residents were asked to participate and 40 agreed (31 men and 9 women; 31% of the permanent adult population). Hunting is a male-only activity in Torres Strait. Our sample included male hunters and non-hunters, including elders who no longer hunt but teach the younger generation about hunting, and women, who do not hunt but prepare the food products of the hunt. Based on discussion with community members who defined an age cut-off of 35 years between younger and older men, our sample included a total of 32 older men (> 35 years) and 28 younger men (≤ 35 years). Twenty households (108 people) on Mabuiag and 27 (93 people) in St Paul's (43 and 39% of the total population, respectively) were asked to provide information on hunting patterns. Using this approach we were able to interview 75% of all active hunters.

The demographic composition of the surveyed households was analysed and compared with the secondary socio-demographic data available from the 2006 census (ABS, 2006a,b). There were no statistically significant differences (ascertained using one-sample z-tests for population proportions) between the household composition of the sampled population and the socio-demographic data from the census (ABS, 2006a,b). Thus we have no reason to believe that our sample was not representative of the general population of these communities.

Estimating the relative value of each group of benefits and costs

We used the sets of cards that had been provided for the sorting session, and asked interviewees to score each item on a scale from 0 = not important to 10 = very important. To account for individual differences, scores were normalized, so the sum of all the scores given by any single individual equalled 1.

We then calculated the mean value of each of the separable groups of costs and benefits identified in the multidimensional scaling (hereafter clusters, k), and their mean value relative to the other clusters. For each participant: mean value of k = sum of individual item values/number of items, and relative value of k = mean value of k/sum of value of all clusters.

For each participant the relative value thus represents the proportion of total value captured by each cluster k. A Wilcoxon test was used to determine if differences between cluster means and cluster relative values were statistically significant.

Results

The benefits and costs of traditional hunting

Eighteen benefits and 11 costs were identified through the free-listing exercises (Table 1). The graphical representations of the results of the multidimensional scaling analyses (Fig. 2) helped identify three clusters each of benefits (community, family, individual) and costs (community, family, environmental; Table 1).

Fig. 2 Multidimensional scaling representations of the clusters of benefits (a & b) and costs (c & d) of hunting, at the aggregated and individual levels, for the respondents of Mabuiag and St Paul's (Fig. 1) combined (N = 78). The clusters of benefits include community benefits (tr, keeps tradition; cu, keeps culture; un, unity of the community; sh, sharing; pa, Islan Pasin; te, teaching the children; sp, spiritual connection to the sea; ce, food for ceremonies; kn, shows knowledge of the hunter; is, essence of being an Islander), family benefits (co, food for home consumption; fr, fresh food; ta, tasty food; ef, cost-effective), and individual benefits (sk, shows skills of the hunter; st, shows strength of the hunter; pr, prestige; he, health). The clusters of costs include community costs (resp, no respect for cultural protocols; bhu, bad hunting; lsh, less sharing; inj, injuries), family costs (fu, fuel; ti, time; prne, pressure for results when in need of food; pras, pressure for results when asked to go hunting), and environmental costs (la, few animals; cl, cleaning animal waste on the beach; no, disturbance of animals from noise).

Table 1 Benefits and costs of hunting perceived by Torres Strait Islanders from the communities of Mabuiag and St Paul's (Fig. 1), elicited during free-listing exercises, grouped into clusters identified through multidimensional scaling. The numbers in parentheses are mean ± SD of raw rating scores (range 0–10).

The typology of the benefit clusters was identical for the two study communities. The two representations of the benefits of hunting were highly correlated (R 2 = 0.989, P = 0.01 level); thus we present the combined cognitive map of benefits. All stress values for the multidimensional scaling outputs were acceptable (Kruskal & Wish, Reference Kruskal and Wish1978) and indicated that a three-dimensional solution produced the best fit at both the aggregated and individual levels.

The analyses also identified three distinct clusters for costs associated with hunting for Mabuiag respondents, and four distinct clusters for St Paul's. The two aggregated representations based on the island of residence were perfectly correlated (R 2 = 1.0, P = 0.001). As a result, we analysed the cognitive maps of respondents from Mabuiag and St Paul's combined. When data from all respondents were combined, the analyses identified the same three distinct clusters defined by the Mabuiag respondents.

There were no statistical differences between Mabuiag and St Paul's regarding the relative importance of community and family benefits (community benefits, P = 0.686; family benefits, P = 0.330; Mann–Whitney test). The mean importance of the community benefits cluster was significantly greater than that of family benefits, which in turn was greater than that of individual benefits, and these differences were statistically significant (Fig. 3a).

Fig. 3 Relative importance scores for clusters of (a) benefits and (b) costs of hunting as perceived by respondents from Mabuiag and St Paul's in Torres Strait, Australia (Fig. 1). The median is represented by a horizontal line, the box represents the inter-quartile range, and the whiskers represent the data range. Box plots that do not share the same letter are derived from distributions that are significantly different from each other at P < 0.001 (Wilcoxon test).

There were no statistically significant differences in the importance of cost clusters between communities. The importance of community costs was significantly greater than that of both family and environmental costs. There was no significant difference in the importance of family and environmental costs (Fig. 3b).

The age of male residents was a statistically significant determinant of the relative importance of a cluster. Younger men placed more importance on family benefits (P = 0.000; Mann–Whitney test), whereas older men placed more importance on community benefits (P = 0.000; Mann–Whitney test). Age had no significant effect on the relative importance of individual benefits (P = 0.094; Mann–Whitney test). Older men considered community costs to be more important than the younger men did (P = 0.000; Mann–Whitney test), whereas younger men considered family costs to be more important than the older men did (P = 0.003; Mann–Whitney test). The relative importance of environmental costs was independent of age (P = 0.548; Mann–Whitney test).

Discussion

The free-listing exercises confirmed the multidimensional nature of the benefits and costs of traditional hunting of marine megafauna for two communities in Torres Strait. The cognitive mapping exercises demonstrated that traditional hunting provides bundles of benefits and costs to these communities. Community-defined benefits associated with traditional hunting in this region are clearly separable into one market and two non-market-based clusters (in terms of benefits to family, community and individuals).

Family benefits were all related to meat/market values and were thus closely associated with provisioning services, highlighting the importance of food for sustenance and to indirectly supplement incomes by foregoing the need to purchase other types of protein (Penny & Moriarty, Reference Penny, Moriarty, Hetze and Frith1977; Altman, Reference Altman1987). Individual benefits encapsulated health benefits (Rose, Reference Rose1996; Burgess et al., Reference Burgess, Johnston, Berry, McDonnell, Yibarbuk and Gunabarra2009), but also acknowledged that hunting gives men an opportunity to demonstrate their skills (Bliege Bird et al., Reference Bliege Bird, Smith and Bird2001), which is important to their sense of identity. Community benefits included a broad range of cultural benefits, including, but not limited to, sharing (Wenzel, Reference Wenzel1995; Bliege Bird & Bird, Reference Bliege Bird and Bird1997), the maintenance of culture (Severance et al., Reference Severance, Franco, Hamnett, Anderson and Aitaoto2013; Vaughan & Vitousek, Reference Vaughan and Vitousek2013), and the provision of food for ceremonial purposes (Nietschmann, Reference Nietschmann1981, Reference Nietschmann1984; Kwan, Reference Kwan2002).

Our cognitive mapping exercises did not separate clearly market and non-market costs. Fuel and time costs (both linked to the market) grouped together with ‘pressure for results when in need of food and/or when asked to go hunting’ (in a group termed family costs). However, community costs were deemed to be significantly greater than family costs, confirming previous observations that socio-cultural (community) values (be they costs or benefits) are more important than market values. People are motivated by both extrinsic and intrinsic factors (Gneezy et al., Reference Gneezy, Meier and Rey-Biel2011), and these findings suggest that intrinsic motivations are likely to be strongly associated with culture. The important policy implication of this finding is that policy makers need to be careful that extrinsic incentives designed to alter hunting behaviours do not negatively affect these intrinsic (cultural) motivations.

The valuation of such services (formally, indigenous cultural services, as defined in the Common International Classification of Ecosystem Services; BISE, 2016) is particularly challenging for three reasons. Not only is the idea of ‘valuing’ indigenous cultural services contentious and probably inappropriate in many contexts (Venn & Quiggin, Reference Venn and Quiggin2007), but many of these services are inherently inseparable from each other and from other ecosystem services. Consequently, one cannot simply estimate the value of individual services and sum them (de Groot et al., Reference de Groot, Wilson and Boumans2002; Carbone & Kerry Smith, Reference Carbone and Kerry Smith2013). There are also tenuous or non-existent links between most indigenous cultural services and market prices (Daniel et al., Reference Daniel, Muhar, Arnberger, Aznar, Boyd and Chan2012), requiring the use of sophisticated valuation approaches by which inferences may be drawn about those values. There is a substantive and rapidly growing body of literature on methods for doing so (Bateman & Great Britain Department for Transport, Reference Bateman2002; Day et al., Reference Day, Bateman, Carson, Dupont, Louviere and Morimoto2012) but not all of these methods can be validly applied in all settings. Although simpler than more accepted approaches to cost–benefit analysis such as contingent valuation, our methodological approach facilitates quantification of the cost-effectiveness of various management approaches (Supplementary Material 1), using culturally appropriate participatory methods to address the problems outlined above.

Further developments

Our research group continues to work with the communities and agencies involved and we are confident that the population status of dugongs and turtles and the hunting patterns and values of Torres Strait Islanders have not changed (Fuentes et al., Reference Fuentes, Bell, Hagihara, Hamann, Hazel and Huth2015; Marsh et al., Reference Marsh, Grayson, Grech, Hagihara and Sobtzick2015; Cleguer et al., Reference Cleguer, Preston, Hagihara, Shimada, Udyawer and Hamann2016; Hagihara et al., Reference Hagihara, Cleguer, Preston, Sobtzick, Hamann, Shimada and Marsh2016; Urwin et al., Reference Urwin, McNiven, Clarke, Macquarie and Whap2016; Watkin Lui et al., Reference Watkin Lui, Stoeckl, Delisle, Kiatkoski Kim and Marsh2016a,Reference Watkin Lui, Kiatkoski Kim, Delisle, Stoeckl and Marshb). We have also conducted research on the values of hunting with the Torres Strait Islander diaspora (Watkin Lui et al., Reference Watkin Lui, Stoeckl, Delisle, Kiatkoski Kim and Marsh2016a,Reference Watkin Lui, Kiatkoski Kim, Delisle, Stoeckl and Marshb) with whom c. 12% of the meat is shared, an important cultural practice (Supplementary Material 1).

Nonetheless, the debate over traditional hunting of dugongs and turtles has intensified (Watkin Lui et al., Reference Watkin Lui, Kiatkoski Kim, Delisle, Stoeckl and Marsh2016b). The Australian government is under increasing pressure to ban the practice and to offer monetary compensation to the Islanders based on the replacement value of the meat. Yielding to these demands would reflect a limited understanding of the multidimensional benefits gained by the Torres Strait communities involved in traditional hunting. Not considering the full spectrum of values as assessed by an affected community group can have negative consequences for resource users (invisible losses; Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008) as well as decision makers, who risk angering people with whom they want to work (Voyer et al., Reference Voyer, Gladstone and Goodall2014), which can lead to regulatory non-compliance, especially in remote areas such as Torres Strait.

The recognition and integration of cultural values of indigenous hunting into the environmental decision making and political discourse is politically difficult but could help foster co-management processes based on institutional fit, from local to global (Robards & Lovecraft, Reference Robards and Lovecraft2010). However, a more open dialogue about indigenous hunting risks making way for interest groups that disagree with indigenous perspectives (Robards & Lovecraft, Reference Robards and Lovecraft2010). Indigenous groups must prepare for possible conflicts with non-indigenous attitudes about wildlife conservation, sustainability and environmental management, while being ready to confront decisions made at the global or national level by global political environment groups ignorant of the cultural impacts of their decisions (Wenzel, Reference Wenzel2009).

Banning the hunting of dugongs and green turtles in Torres Strait would also contravene the hunting rights established by Australian Native Title and environmental laws, and the Torres Strait Treaty between Australia and Papua New Guinea (Havemann & Smith, Reference Havemann and Smith2007). Thus our results contribute to the debate by providing policy makers and interested stakeholder groups with a comprehensive understanding of the hunting values of Torres Strait Islanders, which could be used as a foundation for co-management processes for the management of dugong and turtle hunting. We have made an initial attempt at estimating a lower bound for the monetary value of these values in Supplementary Material 1.

Conclusion

The methodology we developed provides insights into types of benefits and costs associated with traditional hunting, and their relative importance from a community perspective. Our approach could be used to develop a typology of costs and benefits of related activities in other communities that hunt for terrestrial and marine wild meats. The technique also made it possible to make various kinds of benefits and costs more visible, and to use a quantitative assessment. Our findings reinforce the call of previous researchers (e.g. Gregory et al., Reference Gregory, Failing and Harstone2007; Turner et al., Reference Turner, Gregory, Brooks, Failing and Satterfield2008) to consider socio-cultural issues when devising natural resource management strategies. Various groups interested in the sustainable management of wildlife inevitably hold diverse images, values and worldviews. A comprehensive understanding of the values held by those primarily affected by a management decision can assist stakeholders to work together to achieve a common goal, and fulfil the requirements of co-management promoted by management agencies. The approach outlined here is relatively straightforward to implement in remote communities and cross-cultural situations, and could have wide application with indigenous communities.

Acknowledgements

This work was supported by grants from the Marine and Tropical Sciences Research Facility, the Australian Marine Mammal Centre and James Cook University stipend and fee-offset scholarships to AD. We thank the people of Mabuiag and St Paul's, who welcomed AD into their community and their homes and made this research possible. The Torres Strait Regional Authority provided valuable logistical support and advice. We also thank two anonymous reviewers for their valuable comments.

Author contributions

The study was conceived and conducted as a PhD project by AD under the supervision of NS and HM. FWL provided cultural advice from the perspective of an Australian Indigenous researcher. MKK recast the research into an appropriate theoretical background for an Oryx special issue on cultural values in the context of her work with the other members of the research team on associated projects.

Biographical sketches

Aurélie Delisle’s research lies at the intersection of environmental sustainability, governance, food security and livelihood outcomes, particularly in Pacific island countries and territories. Milena Kiatkoski Kim is an expert in environmental governance and the socio-cultural factors associated with environmental management in Latin America and Oceania. Natalie Stoeckl is an economist interested in the environmental and social/distributional issues associated with economic growth. Felecia Watkin Lui is a Torres Strait Islander whose research interest and practice focus on Indigenous studies. Helene Marsh is a specialist on dugong and sea turtle biology and conservation.

Footnotes

*

Also at: James Cook University, College of Science and Engineering, Douglas, Queensland, Australia

Also at: University of Wollongong, Australian National Centre for Ocean Resources & Security, Wollongong, New South Wales, Australia

Also at: James Cook University, Aboriginal and Torres Strait Islander Centre, Cairns, Queensland, Australia

Supplementary material for this article is available at https://doi.org/10.1017/S0030605317001466

References

ABS (2006a) Mabuiag (IC) (IARE 15027), Indigenous Profile. Australian Bureau of Statistics, Canberra, Australia. Http://www.censusdata.abs.gov.au/ABSNavigation/prenav/ProductSearch?&areacode=IARE15027&producttype=CommunityProfiles&action=401 [accessed 10 April 2012].Google Scholar
ABS (2006b) St Pauls (IC) (IARE 15017), Indigenous Profile. Australian Bureau of Statistics, Canberra, Australia. Http://www.censusdata.abs.gov.au/ABSNavigation/prenav/ProductSearch?&areacode=IARE15017&producttype=CommunityProfiles&action=401 [accessed 10 April 2012].Google Scholar
ABS (2011) Census of Population and Housing—Counts of Aboriginal and Torres Strait Islander Australians. Catalogue Number 2075.0. Http://www.abs.gov.au/ausstats/abs@.nsf/Lookup/2075.0main+features52011 [accessed 6 November 2014].Google Scholar
Adamowicz, W.L., Boxall, P., Williams, M. & Louviere, J. (1998) Stated preference approaches for measuring passive use values: choice experiments and contingent valuation. American Journal of Agricultural Economics, 80, 6475.CrossRefGoogle Scholar
Allebone-Webb, S.M., Kümpel, N.F., Rist, J., Cowlishaw, G., Rowcliffe, J.M. & Milner-Gulland, E.J. (2011) Use of market data to assess bushmeat hunting sustainability in Equatorial Guinea. Conservation Biology, 25, 597606.Google Scholar
Altman, J.C. (1987) Hunter-Gatherers Today: An Aboriginal Economy in North Australia. Australian Institute of Aboriginal Studies, Canberra, Australia.Google Scholar
Axelrod, R. (1976) Structure of Decision: The Cognitive Maps of Political Elites. Princeton University Press, Princeton, USA.Google Scholar
Baggio, J.A., BurnSilver, S.B., Arenas, A., Magdanz, J.S., Kofinas, G.P. & De Domenico, M. (2016) Multiplex social ecological network analysis reveals how social changes affect community robustness more than resource depletion. Proceedings of the National Academy of Sciences of the United States of America, 113, 1370813713.Google Scholar
Bassett, T.J. (2005) Card-carrying hunters, rural poverty, and wildlife decline in northern Côte d'Ivoire. The Geographical Journal, 171, 2435.Google Scholar
Bateman, I.J. & Great Britain Department for Transport (2002) Economic Valuation with Stated Preference Techniques: A Manual. Edward Elgar, Cheltenham, UK.Google Scholar
Bélair, C., Ichikawa, K., Wong, B.Y.L. & Mulongoy, K.J. (eds) (2010) Sustainable Use of Biological Diversity in Socio-ecological Production Landscapes. Background to the ‘Satoyama Initiative for the Benefit of Biodiversity and Human Well-being’. Secretariat of the Convention on Biological Diversity, Montreal, Canada.Google Scholar
BISE (2016) Common International Classification of Ecosystem Services (CICES) v. 4.3. Http://biodiversity.europa.eu/maes/common-international-classification-of-ecosystem-services-cices-classification-version-4.3 [accessed 17 January 2017].Google Scholar
Blake, B.F., Schulze, S. & Hughes, J.M. (2003) Perceptual Mapping by Multidimensional Scaling: A Step by Step Primer. Cleveland State University, Cleveland, USA.Google Scholar
Bliege Bird, R.L. & Bird, D.W. (1997) Delayed reciprocity and tolerated theft: the behavioral ecology of food-sharing strategies. Current Anthropology, 38, 4978.Google Scholar
Bliege Bird, R.L., Smith, E.A. & Bird, D.W. (2001) The hunting handicap: costly signaling in human foraging strategies. Behavioral Ecology and Sociobiology, 50, 919.Google Scholar
Bowen-Jones, E. & Pendry, S. (1999) The threat to primates and other mammals from the bushmeat trade in Africa, and how this threat could be diminished. Oryx, 33, 233246.Google Scholar
Brashares, J.S., Arcese, P., Sam, M.K., Coppolillo, P.B., Sinclair, A.R.E. & Balmford, A. (2004) Bushmeat hunting, wildlife declines, and fish supply in West Africa. Science, 306, 11801183.Google Scholar
Brown, S.M. (1992) Cognitive mapping and repertory grids for qualitative survey research: some comparative observations. Journal of Management Studies, 29, 287307.Google Scholar
Burgess, C.P., Johnston, F.H., Berry, H.L., McDonnell, J., Yibarbuk, D., Gunabarra, C. et al. (2009) Healthy country, healthy people: the relationship between Indigenous health status and “caring for country”. Medical Journal of Australia, 190, 567572.Google Scholar
BurnSilver, S., Magdanz, J., Stotts, R., Berman, M. & Kofinas, G. (2016) Are mixed economies persistent or transitional? Evidence using social networks from Arctic Alaska. American Anthropologist, 118, 121129.Google Scholar
Butler, J.R.A., Tawake, A., Skewes, T., Tawake, L. & McGrath, V. (2012) Integrating traditional ecological knowledge and fisheries management in the Torres Strait, Australia: the catalytic role of turtles and dugong as cultural keystone species. Ecology and Society, 17, 34, http://dx.doi.org/10.5751/ES-05165-170434.Google Scholar
Carbone, J.C. & Kerry Smith, V. (2013) Valuing nature in a general equilibrium. Journal of Environmental Economics and Management, 66, 7289.Google Scholar
Carley, K. & Palmquist, M. (1992) Extracting, representing, and analyzing mental models. Social Forces, 70, 601636.Google Scholar
Chan, K.M.A., Guerry, A.D., Balvanera, P., Klain, S., Satterfield, T., Basurto, X. et al. (2012a) Where are cultural and social in ecosystem services? A framework for constructive engagement. BioScience, 62, 744756.Google Scholar
Chan, K.M.A., Satterfield, T. & Goldstein, J. (2012b) Rethinking ecosystem services to better address and navigate cultural values. Ecological Economics, 74, 818.Google Scholar
CITES (2017) Convention on International Trade in Endangered Species of Wild Fauna and Flora. Appendices I, II and III. Http://cites.org/eng/app/appendices.php [accessed 21 September 2017].Google Scholar
Cleguer, C., Preston, S., Hagihara, R., Shimada, T., Udyawer, V., Hamann, M. et al. (2016) Working with the Community to Understand the Use of Space by Dugongs and Green Turtles in Torres Strait: A Project in Collaboration with the Mura Badulgal Registered Native Title Bodies Corporate. Report to the National Environmental Science Program, Reef and Rainforest Research Centre Limited, Cairns, Australia.Google Scholar
Cocks, M., López, C. & Dold, T. (2011) Cultural importance of non-timber forest products: opportunities they pose for bio-cultural diversity in dynamic societies. In Non-Timber Forest Products in the Global Context (eds Shackleton, S., Shackleton, C. & Shanley, P.), pp. 107128. Springer, Berlin, Heidelberg, Germany.Google Scholar
Coxon, A.P.M. (1999) Sorting Data: Collection and Analysis. Sage Publications, Thousand Oaks, USA.Google Scholar
Crookes, D.J. & Milner-Gulland, E.J. (2006) Wildlife and economic policies affecting the bushmeat trade: a framework for analysis. South African Journal of Wildlife Research, 36, 159165.Google Scholar
Crouch, J.B., McNiven, I.J., David, B., Rowe, C. & Weisler, M. (2007) Berberass: marine resource specialisation and environmental change in Torres Strait during the past 4000 years. Archaeology in Oceania, 42, 4964.Google Scholar
Daniel, T.C., Muhar, A., Arnberger, A., Aznar, O., Boyd, J.W., Chan, K.M.A et al. (2012) Contributions of cultural services to the ecosystem services agenda. Proceedings of the National Academy of Sciences of the United States of America, 109, 88128819.Google Scholar
Day, B., Bateman, I.J., Carson, R.T., Dupont, D., Louviere, J.J., Morimoto, S. et al. (2012) Ordering effects and choice set awareness in repeat-response stated preference studies. Journal of Environmental Economics and Management, 63, 7391.Google Scholar
de Groot, R.S., Wilson, M.A. & Boumans, R.M.J. (2002) A typology for the classification, description and valuation of ecosystem functions, goods and services. Ecological Economics, 41, 393408.Google Scholar
Delisle, A. (2013) A socio-economic investigation of the Torres Strait Indigenous dugong and turtle fisheries. PhD thesis. James Cook University, Townsville, Australia.Google Scholar
Duffy, R., St John, F.A.V., Büscher, B. & Brockington, D. (2016) Toward a new understanding of the links between poverty and illegal wildlife hunting. Conservation Biology, 30, 1422.Google Scholar
Fiol, C.M. & Huff, A.S. (1992) Maps for managers: Where are we? Where do we go from here? Journal of Management Studies, 29, 267285.CrossRefGoogle Scholar
Fitzpatrick-Nietschmann, J. (1980) Another way of dying: the social and cultural context of death in a Melanesian community, Torres Strait. PhD thesis. University of Michigan, Ann Arbor, USA.Google Scholar
Fuentes, M.M.P.B., Bell, I., Hagihara, R., Hamann, M., Hazel, J., Huth, A. et al. (2015) Improving in-water estimates of marine turtle abundance by adjusting aerial survey counts for perception and availability biases. Journal of Experimental Marine Biology and Ecology, 471, 7783.Google Scholar
Gneezy, U., Meier, S. & Rey-Biel, P. (2011) When and why incentives (don't) work to modify behavior. Journal of Economic Perspectives, 25, 191210.Google Scholar
Gregory, R., Failing, L. & Harstone, M. (2007) Meaningful resource consultations with First Peoples: notes from British Columbia. Environment, 50, 3645.Google Scholar
Haddon, A.C. (1912) Reports of the Cambridge Anthropological Expedition to Torres Strait. Cambridge University Press, Cambridge, UK.Google Scholar
Hagihara, R., Cleguer, C., Preston, S., Sobtzick, S., Hamann, M., Shimada, T. & Marsh, H. (2016) Improving the Estimates of Abundance of Dugongs and Large Immature and Adult-Sized Green Turtles in Western and Central Torres Strait. Report to the National Environmental Science Programme, Reef and Rainforest Research Centre Limited, Cairns, Australia.Google Scholar
Havemann, P. & Smith, R. (2007) Current Legislation and Policy Conducive to Sustainable Community Management of Dugong and Turtle Traditional Fisheries in the Torres Strait. James Cook University, Townsville, Australia.Google Scholar
Hobbs, B.F., Ludsin, S.A., Knight, R.L., Ryan, P.A., Biberhofer, J. & Ciborowski, J.J.H. (2002) Fuzzy cognitive mapping as a tool to define management objectives for complex ecosystems. Ecological Applications, 12, 15481565.Google Scholar
Inuit Circumpolar Council-Alaska (2015) Alaskan Inuit Food Security Conceptual Framework: How to Assess the Arctic from an Inuit Perspective. Technical Report. Inuit Circumpolar Council-Alaska, Anchorage, USA.Google Scholar
Kalland, A. (2012) Unveiling the Whale: Discourses on Whales and Whaling. Berghahn Books, New York, USA.Google Scholar
Kruskal, J.B. & Wish, M. (1978) Multidimensional Scaling. Sage Publications, Newbury Park, USA.Google Scholar
Kwan, D. (2002) Towards a sustainable indigenous fishery for dugongs in Torres Strait: a contribution of empirical data analysis and process. PhD thesis. James Cook University, Townsville, Australia.Google Scholar
Kwan, D., Marsh, H. & Delean, S. (2006) Factors influencing the sustainability of customary dugong hunting by a remote indigenous community. Environmental Conservation, 33, 164171.Google Scholar
Limpus, C.J. (2008) A Biological Review of Australian Marine Turtle Species. 2. Green Turtle, Chelonia mydas (Linnaeus). Queensland Environmental Protection Agency, Brisbane, Australia.Google Scholar
Limpus, C.J. & Parmenter, C.J. (1986) The sea turtle resource of the Torres Strait region. In Torres Strait Fisheries Seminar (eds Haines, A.K., Williams, G.C. & Coates, D.), pp. 95107. Australian Publishing Services, Canberra, Australia.Google Scholar
Marsh, H., Grayson, J., Grech, A., Hagihara, R. & Sobtzick, S. (2015) Re-evaluation of the sustainability of a marine mammal harvest by indigenous people using several lines of evidence. Biological Conservation, 192, 324330.Google Scholar
Marsh, H., Grech, A. & Hagihara, R. (2011a) Aerial Survey of Torres Strait to Evaluate the Efficacy of an Enforced and Possibly Extended Dugong Sanctuary as One of the Tools for Managing the Dugong Fishery. James Cook University, Townsville, Australia.Google Scholar
Marsh, H., O'Shea, T.J. & Reynolds, J.E. (2011b) Ecology and Conservation of the Sirenia: Dugongs and Manatees. Cambridge University Press, Cambridge, UK.Google Scholar
McNiven, I.J. (2010) Navigating the human–animal divide: marine mammal hunters and rituals of sensory allurement. World Archaeology, 42, 215230.Google Scholar
Mendoza, G.A. & Prabhu, R. (2003) Qualitative multi-criteria approaches to assessing indicators of sustainable forest resource management. Forest Ecology and Management, 174, 329343.Google Scholar
Millennium Ecosystem Assessment (2005) Ecosystems and Human Well-Being: Synthesis. Island Press, Washington, DC, USA.Google Scholar
Momtaz, S. & Gladstone, W. (2008) Ban on commercial fishing in the estuarine waters of New South Wales, Australia: community consultation and social impacts. Environmental Impact Assessment Review, 28, 214225.Google Scholar
Mosimane, A.W., McCool, S., Brown, P. & Ingrebretson, J. (2014) Using mental models in the analysis of human–wildlife conflict from the perspective of a social–ecological system in Namibia. Oryx, 48, 6470.Google Scholar
Nasi, R., Brown, D., Wilkie, D., Bennett, E., Tutin, C., van Tol, G. & Christophersen, T. (2008) Conservation and Use of Wildlife-Based Resources: The Bushmeat Crisis. Secretariat of the Convention on Biological Diversity, Montreal, Canada, and Center for International Forestry Research (CIFOR), Bogor, Indonesia.Google Scholar
Nietschmann, B.Q. (1981) Good dugong, bad dugong; good turtle, bad turtle. Natural History, 90, 5562.Google Scholar
Nietschmann, B.Q. (1984) Hunting and ecology of dugongs and green turtles in Torres Strait. National Geographic Society Research Reports, 17, 625651.Google Scholar
Nyaki, A., Gray, S.A., Lepczyk, C.A., Skibins, J.C. & Rentsch, D. (2014) Local-scale dynamics and local drivers of bushmeat trade. Conservation Biology, 28, 14031414.Google Scholar
OESR (Office of Economic and Statistical Research) (2013) Indigenous Regional Profiles Census 2011. Http://www.oesr.qld.gov.au/regions/fitzroy/profiles/indigenous-reg-profiles-c11/index.php [accessed 16 January 2014].Google Scholar
Özesmi, S.L. & Özesmi, U. (1999) An artificial neural network approach to spatial habitat modelling with interspecific interaction. Ecological Modelling, 116, 1531.Google Scholar
Özesmi, S.L. & Özesmi, U. (2003) A participatory approach to ecosystem conservation: fuzzy cognitive maps and stakeholder group analysis in Uluabat Lake, Turkey. Environmental Management, 31, 518531.Google Scholar
Penny, D.H. & Moriarty, J. (1977) The Aboriginal economy—then and now. In The Nutrition of Aborigines in Relation to the Ecosystem of Central Australia (eds Hetze, B.S. & Frith, H.J.), pp. 1924. CSIRO Publishing Services, Adelaide, Australia.Google Scholar
Peterson, N. (2013) On the persistence of sharing: personhood, asymmetrical reciprocity, and demand sharing in the Indigenous Australian domestic moral economy. The Australian Journal of Anthropology, 24, 166176.Google Scholar
Plagányi, E.E., van Putten, I., Hutton, T., Deng, R.A., Dennis, D., Pascoe, S. et al. (2013) Integrating indigenous livelihood and lifestyle objectives in managing a natural resource. Proceedings of the National Academy of Sciences of the United States of America, 110, 36393644.CrossRefGoogle ScholarPubMed
Radomski, P.J. & Goeman, T.J. (1996) Decision making and modeling in freshwater sport-fisheries management. Fisheries, 21, 1421.2.0.CO;2>CrossRefGoogle Scholar
Reo, N.J. & Whyte, K.P. (2012) Hunting and morality as elements of traditional ecological knowledge. Human Ecology, 40, 1527.Google Scholar
Robards, M.D. & Lovecraft, A.L. (2010) Evaluating comanagement for social–ecological fit: Indigenous priorities and agency mandates for Pacific walrus. Policy Studies Journal, 38, 257279.Google Scholar
Robards, M.D. & Reeves, R.R. (2011) The global extent and character of marine mammal consumption by humans: 1970–2009. Biological Conservation, 144, 27702786.Google Scholar
Rogers, A.A., Kragt, M.E., Gibson, F.L., Burton, M.P., Petersen, E.H. & Pannell, D.J. (2015) Non-market valuation: usage and impacts in environmental policy and management in Australia. The Australian Journal of Agricultural and Resource Economics, 59, 115.Google Scholar
Rose, D. (1996) Nourishing Terrains: Australian Aboriginal Views of Landscape and Wilderness. Australian Heritage Commission, Canberra, Australia.Google Scholar
Rosenberg, S. & Kim, M.P. (1975) The method of sorting as a data-gathering procedure in multivariate research. Multivariate Behavioral Research, 10, 489502.Google Scholar
Seminoff, J.A. (Southwest Fisheries Science Center, U.S.) (2004) Chelonia mydas. In The IUCN Red List of Threatened Species 2004: e.T4615A11037468. Http://dx.doi.org/10.2305/IUCN.UK.2004.RLTS.T4615A11037468.en [accessed 21 September 2017].Google Scholar
Severance, C., Franco, R., Hamnett, M., Anderson, C. & Aitaoto, F. (2013) Effort triggers, fish flow, and customary exchange in American Samoa and the Northern Marianas: critical human dimensions of Western Pacific fisheries. Pacific Science, 67, 383393.Google Scholar
Sohou, Z., Dossou-Bodjrenou, J., Tchibozo, S., Chabi-Yaouré, F., Sinsin, B. & Van Waerebeek, K. (2013) Biodiversity and status of cetaceans in Benin, West Africa: an initial assessment. West African Journal of Applied Ecology, 21, 121134.Google Scholar
Stark, S. & Torrance, H. (2006) Case study. In Research Methods in the Social Sciences (eds Somekh, B. & Lewin, C.), pp. 3340. Sage Publications, London, UK.Google Scholar
Sutherland, J. (1995) Representations of indigenous peoples’ knowledge and practice in modern international law and politics. Australian Journal of Human Rights, 2, 3957.Google Scholar
Turner, N.J., Gregory, R., Brooks, C., Failing, L. & Satterfield, T. (2008) From invisibility to transparency: identifying the implications. Ecology and Society, 13(2), 7, http://www.ecologyandsociety.org/vol13/iss2/art7/.Google Scholar
United Nations Environment Programme (2003) Cultural Diversity and Biodiversity for Sustainable Development. UNEP, Nairobi, Kenya.Google Scholar
Urwin, C., McNiven, I.J., Clarke, S., Macquarie, L. & Whap, T. (2016) Hearing the evidence: using archaeological data to analyse the long-term impacts of dugong (Dugong dugon) hunting on Mabuyag, Torres Strait, over the past 1000 years. Australian Archaeology, 82, 201217.Google Scholar
van Vliet, N., Nasi, R. & Taber, A. (2011) From the forest to the stomach: bushmeat consumption from rural to urban settings in Central Africa. In Non-Timber Forest Products in the Global Context (eds Shackleton, S., Shackleton, C. & Shanley, P.), pp. 129148. Springer, Berlin, Heidelberg, Germany.CrossRefGoogle Scholar
Vaughan, M.B. & Vitousek, P.M. (2013) Mahele: sustaining communities through small-scale inshore fishery catch and sharing networks. Pacific Science, 67, 329344.Google Scholar
Venn, T.J. & Quiggin, J. (2007) Accommodating indigenous cultural heritage values in resource assessment: Cape York Peninsula and the Murray–Darling Basin, Australia. Ecological Economics, 61, 334344.Google Scholar
Voyer, M., Gladstone, W. & Goodall, H. (2014) Understanding marine park opposition: the relationship between social impacts, environmental knowledge and motivation to fish. Aquatic Conservation: Marine and Freshwater Ecosystems, 24, 441462.Google Scholar
Watkin Lui, F., Stoeckl, N., Delisle, A., Kiatkoski Kim, M. & Marsh, H. (2016a) Motivations for sharing bushmeat with an urban diaspora in Indigenous Australia. Human Dimensions of Wildlife, 21, 345360.Google Scholar
Watkin Lui, F., Kiatkoski Kim, M., Delisle, A., Stoeckl, N. & Marsh, H. (2016b) Setting the table: indigenous engagement on environmental issues in a politicized context. Society and Natural Resources, 29, 12631279.Google Scholar
Wenzel, G.W. (1995) Ningiqtuq: resource sharing and generalized reciprocity in Clyde River, Nunavut. Arctic Anthropology, 32, 4360.Google Scholar
Wenzel, G.W. (2009) Canadian Inuit subsistence and ecological instability—if the climate changes, must the Inuit? Polar Research, 28, 8999.Google Scholar
Wright, D. (2011) Mid Holocene maritime economy in the western Torres Strait. Archaeology in Oceania, 46, 2327.Google Scholar
Figure 0

Fig. 1 Locations of the study communities of Mabuiag and St Paul's (circled) in Torres Strait, Australia.

Figure 1

Fig. 2 Multidimensional scaling representations of the clusters of benefits (a & b) and costs (c & d) of hunting, at the aggregated and individual levels, for the respondents of Mabuiag and St Paul's (Fig. 1) combined (N = 78). The clusters of benefits include community benefits (tr, keeps tradition; cu, keeps culture; un, unity of the community; sh, sharing; pa, Islan Pasin; te, teaching the children; sp, spiritual connection to the sea; ce, food for ceremonies; kn, shows knowledge of the hunter; is, essence of being an Islander), family benefits (co, food for home consumption; fr, fresh food; ta, tasty food; ef, cost-effective), and individual benefits (sk, shows skills of the hunter; st, shows strength of the hunter; pr, prestige; he, health). The clusters of costs include community costs (resp, no respect for cultural protocols; bhu, bad hunting; lsh, less sharing; inj, injuries), family costs (fu, fuel; ti, time; prne, pressure for results when in need of food; pras, pressure for results when asked to go hunting), and environmental costs (la, few animals; cl, cleaning animal waste on the beach; no, disturbance of animals from noise).

Figure 2

Table 1 Benefits and costs of hunting perceived by Torres Strait Islanders from the communities of Mabuiag and St Paul's (Fig. 1), elicited during free-listing exercises, grouped into clusters identified through multidimensional scaling. The numbers in parentheses are mean ± SD of raw rating scores (range 0–10).

Figure 3

Fig. 3 Relative importance scores for clusters of (a) benefits and (b) costs of hunting as perceived by respondents from Mabuiag and St Paul's in Torres Strait, Australia (Fig. 1). The median is represented by a horizontal line, the box represents the inter-quartile range, and the whiskers represent the data range. Box plots that do not share the same letter are derived from distributions that are significantly different from each other at P < 0.001 (Wilcoxon test).

Supplementary material: PDF

Delisle et al supplementary material 1

Text and Table

Download Delisle et al supplementary material 1(PDF)
PDF 260.6 KB