Introduction
The conservation and management of marine megafauna is a global challenge, often hampered by a lack of financial and human resources, and there is significant data deficiency in relation to marine species (Schipper et al., Reference Schipper, Chanson, Chiozza, Cox, Hoffmann and Katariya2008; Mangel et al., Reference Mangel, Alfaro-Shigueto, Van Waerebeek, Cáceres, Bearhop, Witt and Godley2010; Broderick, Reference Broderick2015). The situation may be particularly complicated in more remote regions, such as offshore islands and archipelagos, which can be popular fishing grounds as well as hotspots for migratory marine species (Sullivan et al., Reference Sullivan, Reid and Bugoni2006; Brotons et al., Reference Brotons, Grau and Rendell2008; Capietto et al., Reference Capietto, Escalle, Chavance, Dubroca, Delgado de Molina and Murua2014). Threatened marine mammals, turtles and seabirds are not only targeted directly but also suffer high mortality from bycatch (Lewison & Crowder, Reference Lewison and Crowder2007; Pusineri & Quillard, Reference Pusineri and Quillard2008; Senko et al., Reference Senko, Mancini, Seminoff and Koch2014). Marine turtles face threats both in the sea and when nesting on land, and are particularly vulnerable if their nesting grounds are remote, attract a high number of fishers and are located in a region that lacks capacity for monitoring and enforcement.
The majority of marine turtle nesting sites in Madagascar are on the west coast, closest to the most suitable foraging habitats, with higher concentrations of nesting on some of the larger islands in the north-west (Rakotonirina & Cooke, Reference Rakotonirina and Cooke1994; Bourjea et al., Reference Bourjea, Ciccione and Ratsimbazafy2006; Metcalf et al., Reference Metcalf, Hampson, Andriamizava, Andrianirina, Ramiarisoa and Sondotra2007). Nesting rates in Madagascar may have been historically lower than on neighbouring islands (e.g. Europa, Mayotte) but are known to have declined in the latter half of the 20th century (Frazier, Reference Frazier1975; Rakotonirina, Reference Rakotonirina1987; Rakotonirina & Cooke, Reference Rakotonirina and Cooke1994; Walker & Roberts, Reference Walker and Roberts2005). One site that previously hosted dozens of nesting olive ridley turtles Lepidochelys olivacea on the west coast of Madagascar was reported to have had no nesting turtles since the mid 1980s (Rakotonirina & Cooke, Reference Rakotonirina and Cooke1994).
All five species of marine turtles found in Madagascar (green Chelonia mydas, hawksbill Eretmochelys imbricata, loggerhead Caretta caretta, olive ridley, and leatherback Dermochelys coriacea) are protected from domestic exploitation (Presidential Decree 2006–400). However, coastal fishing communities continue to take all five species, at an estimated rate of 10,000−16,000 year−1 (Humber et al., Reference Humber, Godley, Ramahery and Broderick2011). National laws are not enforced for a number of reasons, including a lack of implementation capacity, a reluctance to manage a resource that is culturally important to many fishers, and the extent of the Malagasy coastline and territorial waters (Okemwa et al., Reference Okemwa, Muthiga and Mueni2005).
Conservation of small nesting aggregations of marine turtles is challenging because of the logistics of ensuring that a sufficient number of individuals are encountered or protected, especially in remote environments (Mellors et al., Reference Mellors, McKenzie and Coles2008; Danielsen et al., Reference Danielsen, Burgess, Balmford, Donald, Funder and Jones2009; Pilcher & Chaloupka, Reference Pilcher and Chaloupka2013). Community-based monitoring and participatory research have been shown to be effective in providing reliable scientific data, and cost-effective if well designed (Holck, Reference Holck2008; Carvalho et al., Reference Carvalho, Williams, January and Sowman2009), particularly for small populations or low encounter rates (Gaidet-Drapier et al., Reference Gaidet-Drapier, Fritz and Nyahuma2003; Humber et al., Reference Humber, Godley, Ramahery and Broderick2011).
Participatory monitoring and research has been widely used in the conservation of marine turtles, and has provided important data (Nichols et al., Reference Nichols, Bird and Garcia2000; Humber et al., Reference Humber, Godley, Ramahery and Broderick2011; Garnier et al., Reference Garnier, Hill, Guissamulo, Silva, Witt and Godley2012). Community-based conservation strategies are important within communities that have a vested interest in preserving turtles, especially where turtle fishing is a traditional livelihood and part of local cultural dynamics (Nichols et al., Reference Nichols, Bird and Garcia2000; Havemann & Smith, Reference Havemann and Smith2007).
We present an overview of marine turtle nesting populations in Madagascar and the Western Indian Ocean, including new data recorded by the first community-based marine turtle nesting and protection programme in the Barren Isles, western Madagascar, a site about which little was known previously. To our knowledge there has been no similar programme focused on marine turtle nesting in Madagascar, although there are community-focused programmes that promote locally led conservation and monitoring of marine turtle fisheries (Humber et al., Reference Humber, Godley, Ramahery and Broderick2011; Gibbons, Reference Gibbons2013) and forest and wetland resources (Andrianandrasana et al., Reference Andrianandrasana, Randriamahefasoa, Durbin, Lewis and Ratsimbazafy2005, Hockley et al., Reference Hockley, Jones, Andriahajaina, Manica, Ranambitsoa and Randriamboahary2005, Jones et al., Reference Jones, Andriamarovololona, Hockley, Gibbons and Milner-Gulland2008).
Study area
The Barren Isles is an archipelago of 10 islands off the west coast of Madagascar in the Mozambique Channel (Fig. 1). The archipelago includes c. 5,000 km2 of marine and coastal habitats and some of the healthiest reefs in Madagascar, and supports a productive artisanal pelagic fishery (Leroux, Reference Leroux2007; Van Canneyt et al., Reference Van Canneyt, Doremus, Laran, Ridous and Watremez2010; Cripps, Reference Cripps2011). The Isles have no permanent residents or villages but during the austral winter (April−November) an estimated 4,000 Vezo and Sara migrant fishers from along the west coast of Madagascar set up temporary camps on the islands to exploit the relatively rich marine resources (Blue Ventures, unpubl. data; Cripps, Reference Cripps2009, Reference Cripps2011; Leroux et al., Reference Leroux, Rakotonirina, Ciccione, Hawawini and Campillo2010). All the islands are inhabited during this period, although the island of Nosy Mboro has been protected since 2013 by a local law that prohibits people from staying overnight. Limited nesting surveys in the region suggested there was a small but significant nesting aggregation threatened by direct take from local and migrant fishers (Leroux, Reference Leroux2007).
Methods
Data were collected by a team of eight community members, who were selected through an interview process, having been recommended as turtle nest monitors by a resident researcher in 2011. Criteria for selection included motivation, trustworthiness and the ability to deal with the harsh conditions on the islands. All monitors were fishermen in their 20s to 40s and were paid a monthly salary. In December 2011 the team received 6 days’ training in identifying turtle species and nests, measuring curved carapace length, and photography. This included both office- and field-based training, and methods were based on those of Les tortues marines du Sud Ouest de l'Océan Indien (TORSOOI, 2015), developed to promote standardization of data collection. A month of trial data collection was completed in December 2011. The team was supervised by a project coordinator based in Maintirano, who also visited the teams on the islands at least once per season to check their monitoring methods. Refresher training sessions were held at the start of the 2012 and 2013 seasons.
Four islands were surveyed regularly, by two surveyors per island, during December−May each year during 2011−2014 (three seasons; Table 1). Previous accounts and reports suggested this was the main nesting season, and limited budgets prohibited year-long monitoring across the six islands that are not submerged at high tide. Islands were chosen based on accounts of nesting recorded by a previous research group (G. Leroux, Muséum d'histoire naturelle de la ville de Genève) and reports from the community, as well as size and the feasibility of camping. Three islands (Nosy Abohazo, Nosy Dondosy and Nosy Andrano) were monitored in all three seasons. Nosy Mboro was monitored in 2011–2012 but in 2013 a decree to protect nesting birds prohibited people from staying on the island. Consequently monitoring in 2012–2013 included the island of Nosy Mangily but, given the low nesting rates there, efforts in 2013–2014 were directed to the island of Nosy Lava. In 2012–2013 opportunistic trips were made to Nosy Mboro.
Surveys took place daily for 19−24 consecutive days, with c. 3−15 day intervals between monitoring periods for restocking of supplies and recovery from the difficult living conditions. Two-hour beach walks were conducted nightly during high tide and every morning before the first high tide, with each surveyor covering half of the island.
During surveys, new nesting activities were recorded. If the nesting adult was not observed then species and clutch deposition were ascertained from the size and shape of tracks. When a turtle was observed, she was left to lay her clutch before curved carapace length was measured. Nests were marked with wooden stakes.
On the first day of surveys at the beginning of the season or after the break between monitoring sessions, beaches were checked on arrival. Nests recorded on the first day of the survey period were excluded from temporal analyses as their lay date could not be determined accurately.
Interpolation of nest data
To assess seasonality for the three islands monitored each season the data were interpolated to account for gaps in monitoring. A mean of 14 days of nesting counts (7 days before and after the monitoring gap) was calculated and used to estimate nesting counts for the days within the monitoring period when surveys were not conducted.
Current nesting overview
We reviewed the current (post 2000) status of nesting populations across Madagascar and neighbouring countries in the Western Indian Ocean region (Figs 2 & 3) through an extensive literature and database search (e.g. IOSEA, 2011; SWOT, 2012). We contacted key partners in Madagascar for additional or missing information, and current nesting activity was recorded at three Blue Ventures Conservation sites (sites 11, 12 & 13; Fig. 2) through participatory mapping exercises and key informant interviews during April−May 2011 and in March and May 2013.
Historical nesting reports
To contextualize our findings we conducted an extensive search of peer-reviewed and grey literature (e.g. IOSEA, SWOT, Sea Turtle Online Bibliography, Google Scholar, Researchgate, SEATURTLE.ORG) for historical (pre 2000) accounts of nesting from across Madagascar. Historical records were also based on participatory mapping exercises and key informant interviews. Participatory mapping was carried out in the region around the village of Andavadoaka (Fig. 2, site 11) during April−May 2011. Elders in 10 villages were shown maps of the region and asked to indicate where they had last seen a turtle nest, in what year, and the species if known. Interviews were conducted in Belo-sur-Mer (Fig. 2, site 12) and Maintirano/Barren Isles in March and May 2013, respectively. The interviews were conducted in the local Malagasy dialect by a member of Blue Ventures and translated into French or English during the interview, and afterwards from notes taken. Interviews were informal, with individuals or small groups, and maps were provided for reference. Questions were open-ended to facilitate the natural flow of information and discussion. The Andavadoaka and Belo-sur-Mer regions are home to Vezo fishers, who rely almost exclusively on marine resources for their livelihoods.
Results
Current nesting in the Barren Isles
A total of 173 nesting emergences were observed over three nesting seasons between January 2012 and May 2014, and 135 nests were recorded (Table 1). Over the three nesting seasons a mean of 33.6 green turtle nests per year (2011−2012, 19 nests; 2012−2013, 45 nests; 2013−2014, 37 nests) and 11.0 hawksbill turtle nests per year (2011−2012, 7 nests; 2012−2013, 15 nests; 2013−2014, 11 nests) were recorded at our study sites. The majority of nests were identified as belonging to green (74.8%, n = 101) and hawksbill turtles (24.4%, n = 33), with one olive ridley nest confirmed. Two loggerhead turtle nesting emergences were observed but no nesting was recorded.
Seasonality
Nesting activity was detected in each month of the monitoring period (Fig. 4). The number of green turtle nests peaked in February and March in the first two seasons but in December and May in the 2013–2014 season (Fig. 4; Supplementary Fig. S1). Hawksbill nesting was not recorded in every month in each season but peaked during December−February in each monitoring season (Fig. 4; Supplementary Fig. S1).
Location of nests
Of the three islands monitored consistently the majority of nesting activity took place on Nosy Abohazo (60.7%, n = 68), with all but four nests identified as those of green turtles (Table 1; Fig. 3). Nosy Andrano accounted for 32.1% (n = 36) of nesting activity, with 58.3% (n = 21) green and 41.7% (n = 15) hawksbill turtles.
Adult turtles
Throughout the survey period a total of 72 turtles were measured. The mean curved carapace length of nesting green turtles was 105.6 ± SD 6.6 cm (range 94–126 cm, n = 58), and of hawksbill turtles 84.4 ± SD 12.2 cm (range 52–97 cm, n = 13). The one olive ridley measured had a curved carapace length of 69 cm.
Loss of nests
No removal of eggs or illegal killing of nesting females was observed on the islands while monitors were present. However, six nests may have been raided for eggs on Nosy Abohazo while monitors were not present, although it was not possible to confirm this. We received reports of nests being raided on unmonitored islands, as well as harvesting of adult turtles illegally by fishers for local consumption and to satisfy orders from local businessmen.
Historical nesting
According to reports from interviews and the literature there are at least 44 known former nesting sites in Madagascar (Fig. 2; Supplementary Table S3). The size of nesting aggregations at these sites at the time of recording is likely to have been relatively small (< 10 nests per year). Interviews with elders in the regions around Andavadoaka and Belo-sur-Mer highlighted that there has been a decline in nesting since their earliest memories (1960s). In the Maintirano region it was reported that Nosy Dondosy previously hosted much larger numbers of nesting turtles but is now one of the most heavily populated by fishers, and elders attributed the decline in nesting to increased human presence since 1999. A similar situation was reported for the island of Nosy Vao, 70 km north of Maintirano, which now hosts fisher settlements. In the past, green and hawksbill turtles also nested on the mainland coast north and south of Maintirano but there are no reports of nests in this region at present.
National nesting
Sites in Madagascar that still host regular nesting activity are concentrated in the north-west (Fig. 2), where there are nesting hotspots on islands. However, nesting is relatively low throughout Madagascar, with most sites estimated to have < 50 nests per year. In the south-west there are individual reports of sporadic nesting, in particular at two sites where interviews were conducted (Andavadoaka, site 11, and Belo-sur-Mer, site 12; Fig. 2; Supplementary Tables S1 & S3). We estimate a minimum nesting rate for all of Madagascar of c. 1,200 nests per year (c. 74%, n = 888, green turtles; 18%, n = 220, hawksbill turtles; 1%, n = 11, loggerhead turtles; 7%, n = 80, unidentified).
Regional nesting
Madagascar is surrounded by protected nesting populations on islands, in particular the Îles Éparses (the Scattered Islands in the Indian Ocean: Tromelin, the Glorioso Islands and Europa; Fig. 3). At these sites nesting is in the range of 1,000–5,000 nests per year or nesting females per year. Similar nesting rates are reported for Mayotte and the north-east coast of South Africa (Supplementary Table S2). The majority (82%, n = 18,636) of nesting activities recorded were of green turtles on the Îles Éparses, Mayotte and the Comores, with loggerhead turtles accounting for 89% (n = 3,701) of recordings on mainland Africa (South Africa and Mozambique).
Discussion
Historical vs current nesting indicates a decline
Nesting numbers in Madagascar may have been low historically but there is currently only one nesting site estimated to have > 500 nests per year (Nosy Hara, Fig. 2, site 1). Nesting has declined in particular on the mainland as a result of systematic collection of eggs and nesting females (Rakotonirina & Cooke, Reference Rakotonirina and Cooke1994; Walker & Roberts, Reference Walker and Roberts2005; Cooke et al., Reference Cooke, Lutjeharms, Vasseur, Goodman and Benstead2003). Furthermore at > 40 sites where nesting was recorded historically there has been no nesting since 2000. There were large numbers of loggerhead turtles nesting in the south-east during the 1970s but only 23 nests were recorded in the 2001–2002 nesting season, of which half were taken illegally (Gladstone et al., Reference Gladstone, Andriantahina and Soafiavy2003). In this study declines were reported at all sites, including along the coastline adjacent to the islands where monitoring was carried out. Madagascar's islands (e.g. Nosy Iranja, Nosy Hara) remain the most important nesting sites within national waters (Bourjea et al., Reference Bourjea, Ciccione and Ratsimbazafy2006; Metcalf et al., Reference Metcalf, Hampson, Andriamizava, Andrianirina, Ramiarisoa and Sondotra2007). However, on Nosy Ve, one of the five small islands on the west coast protected in 1923, nesting was last reported in 1986 (A. Cooke, unpubl. data), and nesting is no longer known to occur on Nosy Vao (fishers, pers. comm.).
Madagascar's turtles in a regional context
There are significant turtle nesting aggregations on the islands around Madagascar, many of which are uninhabited and fully protected (e.g. Europa, Tromelin; Fig. 3; Supplementary Table S2). Green turtles nest in significant numbers in the South West Indian Ocean (e.g. Europa, 7,000–10,000 year−1; Mayotte, 4,000–6,000 year−1), making it an important region for this species (Bourjea et al., Reference Bourjea, Frappier, Quillard, Ciccione, Roos, Hughes and Grizel2007, Reference Bourjea, Mortimer, Garnier, Okemwa, Godley and Hughes2015; van der Elst et al., Reference van der Elst, Fennessy, Everett, Mackay, Floros and Schleyer2012), and the west coast of Madagascar is a known foraging ground for green turtles from these nesting sites, as demonstrated by tag returns (Fig. 3; Ifremer & Kelonia, 2014).
Although numbers of turtles taken by fishers in Madagascar's waters appear to have remained at the same levels since the 1970s (Hughes, Reference Hughes1971; Frazier, Reference Frazier1980; Rakotonirina & Cooke, Reference Rakotonirina and Cooke1994; Humber et al., Reference Humber, Godley, Ramahery and Broderick2011), many rookeries in the South West Indian Ocean report increases in nesting since the estimate of < 5,500 nesting green turtles in the 1970s (Frazier, Reference Frazier1975), in particular where nesting turtles have had long-term protection, and there are now likely to be > 27,000 nesters per year in the region (van der Elst et al., Reference van der Elst, Fennessy, Everett, Mackay, Floros and Schleyer2012). The recovery of green turtle nesting populations has not been limited to the South West Indian Ocean but has occurred globally (Broderick et al., Reference Broderick, Frauenstein, Glen, Hays, Jackson and Pelembe2006; Chaloupka & Balazs, Reference Chaloupka and Balazs2007; Stokes et al., Reference Stokes, Fuller, Glen, Godley, Hodgson and Rhodes2014; Weber et al., Reference Weber, Weber, Ellick, Avery, Frauenstein and Godley2014). Recoveries have also been reported for hawksbill, loggerhead, leatherback, olive ridley and Kemp's ridley Lepidochelys kempii turtles (Márquez et al., Reference Márquez, Díaz, Sánchez, Burchfield, Leo and Carrasco1999; Dutton et al., Reference Dutton, Dutton, Chaloupka and Boulon2005; Richardson et al., Reference Richardson, Hall, Mason, Andrews, Bjorkland, Cai and Bell2006; Marcovaldi & Chaloupka, Reference Marcovaldi and Chaloupka2007; Metcalfe et al., Reference Metcalfe, Agamboué, Augowet, Boussamba, Cardiec and Fay2015).
Despite regional and global recoveries as a result of increased protection and the cessation of commercial turtle harvesting, populations in Madagascar appear to have remained at the same level or decreased. Nesters in Madagascar may represent remnants of once larger nesting populations. Consistently high levels of harvesting may still be keeping nesting rates low in Madagascar. Small-scale fisheries can have a significant impact on mortality in marine turtles (Alfaro-Shigueto et al., Reference Alfaro-Shigueto, Mangel, Bernedo, Dutton, Seminoff and Godley2011; Humber et al., Reference Humber, Godley, Ramahery and Broderick2011).
Importance of small nesting populations
Our results suggest that the Barren Isles is one of the few remaining important nesting sites in Madagascar, with at least 27−60 nests per year, as there are reports of nesting outside the monitoring season. Although larger nesting sites exist in northern Madagascar, there are no long-term studies to indicate whether these sites are in decline or recovering, with the exception of Nosy Iranja, where regular monitoring since 2000 has indicated an increase in nesting numbers (Bourjea et al., Reference Bourjea, Ciccione and Ratsimbazafy2006; J. Bourjea, pers. comm.). Many smaller nesting populations in Madagascar have declined or been extirpated. Relatively small nesting populations (e.g. c. 100 nests per year) have been shown to be both nationally and regionally important (Rees et al., Reference Rees, Saad and Jony2008; Richardson et al., Reference Richardson, Bruford, Calosso, Campbell, Clerveaux and Formia2009) and can recover rapidly if protected. Their protection should be encouraged, to reduce the risk of focusing on a few exceptional nesting beaches to the detriment of smaller, historically important sites (McClenachan et al., Reference McClenachan, Jackson and Newman2006; Bell et al., Reference Bell, Blumenthal, Broderick and Godley2010).
Nesting in the Barren Isles is also likely to have declined as it is reported that all the islands except Nosy Ampasy, Nosy Marify and Nosy Manandra (which are sand banks) had larger nesting aggregations previously. Interviewees attributed the decline in nesting to increased human presence since c. 1999 and increasing numbers of migrant fishers. The Barren Isles are threatened not only by increasing fishing pressure but also by increasing commercial interests from semi-industrial and industrial fisheries, targeting high-value species such as sharks and sea cucumbers, and commercial mining operations targeting the islands’ guano deposits (Cripps, Reference Cripps2009, Reference Cripps2011).
Benefits of community-based monitoring
We present the results of the first long-term community-based monitoring of nesting turtles in Madagascar, providing data on the nesting activity of a small and remote nesting population. In line with Danielsen et al. (Reference Danielsen, Burgess, Balmford, Donald, Funder and Jones2009) the scheme could be categorized as Category 3: Collaborative Monitoring with External Data Interpretation, where communities are involved in data collection and decision making but analysis has been done externally by scientists.
There is a lack of up-to-date data on nesting in Madagascar, as well as a lack of capacity to carry out monitoring and research to address critical management gaps (Humber & Hykle, Reference Humber and Hykle2011; IOSEA, 2014). Compared with more scientific approaches, community-based monitoring has been shown to produce similar results on status and changes of species and natural resources, and is often more cost-effective (Danielsen et al., Reference Danielsen, Jensen, Burgess, Altamirano, Alviola and Andrianandrasana2014a; Rovero et al., Reference Rovero, Mtui, Kitegile, Jacob, Araldi and Tenan2015; Table 2). Furthermore, incentive-based approaches to marine turtle conservation, where community members may be paid to monitor, report on or protect turtles, nests or hatchlings, have often improved conservation outcomes, such as reduced poaching of eggs and turtles (Ferraro, Reference Ferraro2007; Ferraro & Gjertsen, Reference Ferraro and Gjertsen2009; Gjertsen & Niesten, Reference Gjertsen and Niesten2010). The incentives offered in this programme (i.e. a stable, monthly wage during the rainy season and the prestige of working with an NGO) were sufficient for community members to work in potentially harsh conditions during the nesting season. Local stakeholders could also play an important role in providing data for multilateral environment agreements, such as IOSEA (Indian Ocean South East Asia Marine Turtle Memorandum of Understanding; Danielsen et al., Reference Danielsen, Pirhofer-Walzl, Adrian, Kapijimpanga, Burgess and Jensen2014b; Table 2). For these benefits to be fully harnessed, a simple system for data collection, sharing and assimilation would be required, and would need to be appropriate to the capacity available at monitoring sites. However, it is clear that communities can play a pivotal role in filling gaps in data and conservation management, particularly at remote sites (Alfaro-Shigueto et al., Reference Alfaro-Shigueto, Mangel, Dutton, Seminoff and Godley2012; Dutra & Koenen, Reference Dutra and Koenen2014).
The benefits of community-based monitoring extend further than simply the means to generate data (Table 2). Community teams on nesting beaches can reduce incidences of nesting females, and nests, being taken both during and after the monitoring period (Smith & Otterstrom, Reference Smith and Otterstrom2009; Garnier et al., Reference Garnier, Hill, Guissamulo, Silva, Witt and Godley2012; Girard & Breheret, Reference Girard and Breheret2013). Reports from the teams in this study indicate that the number of nests disturbed was low, and that a visit to Nosy Lava in the 2012–2013 nesting season (not part of regular monitoring that year) showed that all nests found had been disturbed, probably by fishers digging for eggs while staying on the islands. Reports from pre-2011 indicated that nests were raided frequently (G. Leroux, unpubl. data).
Community-based projects improve capacity to monitor and manage natural resources, and build trust and commitment to wider natural resource management (Danielsen et al., Reference Danielsen, Burgess and Balmford2005, Reference Danielsen, Burgess, Balmford, Donald, Funder and Jones2009; Carvalho et al., Reference Carvalho, Williams, January and Sowman2009). Engaging communities in monitoring has also been shown to increase local empowerment, either as a direct strategy or as an unexpected outcome (Constantino et al., Reference Constantino, Carlos, Ramalho, Rostant, Marinelli and Teles2012). Monitoring systems that involve local people have also been shown to be more effective than conventional monitoring done solely by scientists, leading to quicker decision making and more effective conservation management interventions (Danielsen et al., Reference Danielsen, Mendoza, Tagtag, Alviola, Balete and Jensen2007, Reference Danielsen, Burgess, Jensen and Pirhofer-Walzl2010). Although this can lead to greater autonomy in resource management, it may not translate into increased conservation impact, as decisions may be made contrary to the conservation agenda (Constantino et al., Reference Constantino, Carlos, Ramalho, Rostant, Marinelli and Teles2012; Funder et al., Reference Funder, Danielsen, Ngaga, Nielsen and Poulsen2013). Increased empowerment is particularly important in this region as a community-managed marine protected area is under development. The NGO Blue Ventures is leading the capacity–building and has helped to remove a potential area of conflict by building trust and demonstrating that it does not facilitate or promote the prosecution of those that hunt turtles (Table 2). Legislation in Madagascar permits the transfer of natural resource management rights to communities, and there has been an increase in bottom-up conservation and management initiatives. There are currently > 150 locally managed marine protected areas, from none in 2007 (Rakotoson & Tanner, Reference Rakotoson and Tanner2006; Rocliffe et al., Reference Rocliffe, Peabody, Samoilys and Hawkins2014; MIHARI, 2015). However, there are limitations to the amount of data that can be collected through community-based programmes (Table 2). In this case monitoring did not cover the whole nesting season, and year-round assessment is prohibited by the cost and the fact that community members need to return to fishing during the austral winter.
Conclusion
It is vital that Madagascar's remaining nesting turtle populations are protected, as reports emerge of new markets for turtles and their shells (Repoblikan'i Madagasikara, 2013). To monitor and protect nesting of multiple species across small, scattered, remote sites would require significant financial resources and capacity, which are currently unavailable at the local or national levels. However, we have shown that focused months of fieldwork by community members can provide reliable and valuable data on the size of nesting, and protect nests and females.
Our recommendations for establishing similar programmes fall into three main categories. Firstly, before a programme is designed it is important to decide on the objective. If data are to be used to advise and support community management then community consultations should inform project design, and the monitoring and analysis can be adapted to suit the needs of the community. If the data are intended for more detailed analysis or to contribute to national or regional indicators, such as IOSEA, then it would be important to assess the methods and standards recommended. Secondly, sufficient and relevant training for monitors is vital, with regular follow-up in the field, and adaptation of methods based on feedback. Thirdly, communication is key. Depending on the level of participation in its design, communicating the reason for, and results of, the monitoring programme is essential to maintain support and reduce any potential misunderstandings.
The current project has protected a site of regional importance for green and hawksbill turtles in the Western Indian Ocean and made significant progress towards protecting this site in the longer term, with official temporary marine protected area status now granted (Blue Ventures Conservation, 2014). However, the fact that fishers in Madagascar take numerous foraging turtles could undermine conservation efforts elsewhere in the Western Indian Ocean (Mortimer et al., Reference Mortimer, Meylan and Donnelly2007). Nonetheless, these protected turtle populations could be the basis of a regional sustainable harvest, while also alleviating the pressure on Madagascar's remaining nesting populations. To protect these nesting populations illegal take must be reduced through strengthening existing legislation and empowering communities and NGOs to manage marine turtle populations and other marine resources (Evely et al., Reference Evely, Pinard, Reed and Fazey2011; Harris, Reference Harris2011; Gibbons, Reference Gibbons2013).
Acknowledgements
We thank in particular Audrey Campillo, a researcher affiliated with the La Réunion-based research group Kelonia (www.kelonia.org), who provided initial training for the community monitoring team in Madagascar. We also thank the eight community members of the monitoring team from Maintirano, Jean Berthieu Nomenjanahary and Armel Bezafy for their assistance, Charlotte Moffat, Jérémie Bossert and Marianne Teoh for assisting with community interviews and data organization, Samir Gandhi for helping to prepare Figs 1–3, the State of the World's Sea Turtles, National Geographic's Conservation Trust and The Rufford Foundation for supporting Blue Ventures’ marine turtle conservation and research work in Madagascar, and two referees for their helpful input.
Biographical sketches
Frances Humber is interested in increasing the knowledge of the status of traditional and artisanal fisheries, in particular the traditional shark and turtle fisheries of Madagascar, through community-based assessment. Brendan Godley is interested in the study and conservation of marine vertebrates. Tanguy Nicolas, Florence Pichon and Olivier Raynaud previously coordinated Blue Ventures’ Barren Isles and Maintirano Project. Tanguy currently works with the IUCN French Committee focusing on biodiversity in Mayotte and other EU member states overseas territories of the Indian Ocean, Florence is studying community-based climate change adaptation, and Olivier works for the Conservatoire du littoral in Saint Martin and Saint Barthélémy, focusing on coastal and insular land acquisition and ecosystem restoration. Annette Broderick’s research focuses on the exploitation and status of marine vertebrate populations, in particular marine turtles.