Introduction
The dugong Dugong dugon (Sirenia, Dugongidae) has a range spanning waters of 48 countries, from the tropical and subtropical shallow coastal habitats of East Africa to the Red Sea and Arabian Gulf, and eastwards to the Indo-Pacific region as far as Australia (Marsh, Reference Marsh2008). It is a seagrass-community specialist with a diet predominantly of seagrasses, occasionally consuming invertebrates and algae (Marsh et al., Reference Marsh, O'Shea and Reynolds2011). The dugong is categorized as Vulnerable on the IUCN Red List (Marsh, Reference Marsh2008), with some populations greatly diminished, threatened by human activities and in imminent danger of extirpation (Marsh et al., Reference Marsh, O'Shea and Reynolds2011). In South-east Asia studies of dugongs have assessed their relative abundance and threats to the species in Indonesia, Thailand, Cambodia, Vietnam and East Malaysia (de Iongh et al., Reference de Iongh, Langeveld and van der Wal1998; de Iongh, Reference de Iongh1999; Hines et al., Reference Hines, Adulyanukosol and Duffus2005, Reference Hines, Adulyanukosol, Somany, Leng, Cox, Boonyanate and Nguyen2008, Reference Hines, Reynolds, Mignucci-Giannoni, Aragones and Marmontel2012; Tsutsumi et al., Reference Tsutsumi, Ichikawa, Arai, Akamatsu, Shinke, Hara and Adulyanukosol2006; Adulyanukosol et al., Reference Adulyanukosol, Thongsukdee, Hara, Arai and Tsuchiya2007; Jaaman et al., Reference Jaaman, Lah-Anyi and Pierce2008, Reference Jaaman, Lah-Anyi and Pierce2009; Rajamani & Marsh, Reference Rajamani and Marsh2010; Rajamani, Reference Rajamani2013).
In Peninsular Malaysia dugongs are protected under the Fisheries Act 1985 Part VI and the Fisheries (Control of Endangered Species of Fish) Regulations 1999. The Department of Fisheries formulated a National Plan of Action for Dugongs in 2011 to protect, conserve and manage dugongs and their habitats (DOFM, 2011). Additionally, Malaysia is committed to the Convention on Biological Diversity, with a target of having 10% of its marine environment protected by 2020, particularly areas that are important for threatened species (CBD, 2010). To date < 1% of Malaysia's marine area is protected (Bertzky et al., Reference Bertzky, Corrigan, Kemsey, Kenney, Ravilious, Besancon and Burgess2012). Seagrasses are protected only in areas where they fall within marine parks, and are not included in any national policies. Strandings of dugongs have been reported throughout Peninsular Malaysia since the 1940s (e.g. Gibson-Hill, Reference Gibson-Hill1950; Langham, Reference Langham1974; Mansor et al., Reference Mansor, Ahmad, Kushairi and Marsh2000) and the Department of Fisheries has maintained records of dugong mortality since the 1990s, particularly cases reported in the Johor Straits (DOFM, 2011). Nonetheless, information on the dugong in Peninsular Malaysian waters is incomplete but anecdotal evidence suggests that the species has become increasingly rare (Affendi et al., Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005; Zulkifli Poh, Reference Zulkifli Poh2009; L.S. Ponnampalam, unpubl. data).
Beginning in 1999 several surveys were conducted to assess the distribution of dugongs around the Sungai Pulai and Sungai Johor estuaries (sungai = river) and islands off the east coast of Johor (hereafter referred as the Johor islands; Fig. 1), as well as the distribution and diversity of seagrasses in these areas. Aerial surveys for dugongs and seagrass were conducted during 1999–2008 (Mansor et al., Reference Mansor, Ahmad, Kushairi and Marsh2000; Affendi et al., Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005; Ooi et al., Reference Ooi, Affendi and Phang2008) and studies of dugong feeding trails and community-based monitoring occurred during 2008–2009 (Zulkifli Poh, Reference Zulkifli Poh2009; Choo & Ponnampalam, Reference Choo and Ponnampalam2011). Threats to dugongs and their habitats in Johor are varied and increasing in intensity (Ponnampalam & Fairul Izmal, pers. obs.). Dugong carcasses have been reported from parts of Johor's coastline and found as bycatch in fishing gear (Affendi et al., Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005; Choo & Ponnampalam, Reference Choo and Ponnampalam2011; L.S. Ponnampalam, unpubl. data). Dugongs are already extirpated in Mauritius, the Maldives and Taiwan and are Critically Endangered in Okinawa, Japan, and in the Gulf of Mannar, between India and Sri Lanka (Marsh, Reference Marsh2008). Dugongs in Peninsular Malaysia may also face eventual extirpation if their prime habitats remain unprotected, with no specific management measures implemented.
Here we present the results of a systematic aerial survey conducted around the Johor islands in July 2010. Our main objectives were to (1) determine the distribution of the dugong in the archipelago, (2) assess the encounter rate of dugongs, (3) compare dugong distribution with the extent of existing marine parks, seagrass habitat and areas with human activity, and (4) provide conservation and research recommendations. Our work illustrates how conservation efforts can commence using available data, existing laws and policy mechanisms when resources for research are limited.
Methods
Aerial surveys were conducted around the Johor islands and Pulau Seribuat (in the neighbouring state of Pahang; pulau = island) for 8 consecutive days during 8–15 July 2010 (Fig. 1). The surveys were conducted using a fixed-wing Cessna 172 aircraft, with two experienced observers on board, which departed from the Sultan Ismail International Airport in Senai, Johor. A series of predetermined parallel line transects, each c. 5–10 km in length and set c. 1 km apart, was designed for the survey (Fig. 1). The transects covered the leeward sides of each island and included areas where seagrass beds were known to occur (Affendi et al., Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005; Ooi et al., Reference Ooi, Affendi and Phang2008, Reference Ooi, Kendrick, Van Niel and Affendi2011b; J.L.S. Ooi, unpubl. data). Funding constraints prevented coverage of all of the regional inshore areas and repeated surveys.
Surveys were conducted during high tide each day, for consistency, at a search speed of 167 km per hour and altitude of 213 m, in sea states ⩽ 3 on the Beaufort Scale. The first observer sat in the front right seat, next to the pilot, and the second observer sat in the back seat on the left.
The first observer photographed dugongs, using a digital single-lens reflex camera with a 75–300 mm zoom lens, and the survey search path was recorded using a global positioning system (GPS). Events that occurred during the flight (e.g. departure time, start of transect) were recorded using a digital voice-recorder. When an animal or vessel was sighted a waypoint was recorded on the GPS unit and the event recorded on the voice recorder, including information on group size, behaviour and the size of individuals (e.g. adult or calf). The flight was terminated when all transects had been completed or when weather and sighting conditions deteriorated (rain, haze, sea state > Beaufort 3). Encounter rates were calculated by dividing the total number of individuals sighted during the whole survey by the total survey effort (days, distance, time). The distributions of animals and vessels were plotted in ArcMap v. 10.1 (ESRI, Redlands, USA) and overlaid on known seagrass areas and existing marine park boundaries to assess the extent of overlap.
Results
The transects surveyed covered a total of 2,986.4 km of water, with 17.5 hours of observation. There were 93 sightings of dugongs, 22 of which consisted of mother–calf pairs. The maximum daily counts of dugongs and mother–calf pairs were 20 individuals and four pairs, respectively (Fig. 2). The largest group size observed was five and the smallest number was one. The daily mean encounter rates were 15.4 dugongs per day, 0.04 dugongs per km and 7.04 dugongs per hour.
Dugongs were sighted around all islands surveyed (Fig. 3a). The highest concentrations were observed around Pulau Sibu (n = 66, 71%) and Pulau Tinggi (n = 15, 16%; combined total, n = 81, 87%; Fig. 3a). Of the total number of sightings around Pulau Sibu, 41 (62%) were outside the boundary of the island's marine park. Sightings of mother–calf pairs (n = 19, 21%) were concentrated at Pulau Sibu and mainly outside its marine park boundary (n = 13, 68%; Fig. 3a). Two dugongs were sighted grazing in the seagrass beds at Pulau Setindan (Fig. 3a), near the site of the now-halted Mersing Laguna Reclamation development project.
A total of 178 sightings of green sea turtles Chelonia mydas were recorded during the surveys, concentrated over the extensive seagrass meadows of Pulau Sibu and Pulau Tinggi and extending beyond the boundary of Pulau Sibu marine park (Fig. 3b). Marine vessels observed were artisanal fishing boats with single outboard engines, fishing trawlers, high-speed ferries, cargo tankers and tugboats with barge (Fig. 3). These were sighted mainly around Pulau Sibu, Pulau Besar and Pulau Rawa. Artisanal fishing boats were observed most frequently (1.66 boats per hour), followed by fishing trawlers (0.97 boats per hour).
Discussion
Dugongs, habitats and anthropogenic activities
Our results suggest the dugong population in Johor is small, based on the maximum daily count of only 20 animals in 2,986.4 km of surveys. Conversely, few areas in South-east Asia have more dugongs in such a confined area (e.g. Trang Province, Thailand; Hines et al., Reference Hines, Adulyanukosol and Duffus2005; Tsutsumi et al., Reference Tsutsumi, Ichikawa, Arai, Akamatsu, Shinke, Hara and Adulyanukosol2006) and the high percentage of calves indicates a reproducing population. The highest concentrations of dugongs (including mother–calf pairs) and sea turtles, particularly off the south-west of Pulau Sibu, are attributable to the presence of seagrass meadows in the area. Ooi et al. (Reference Ooi, Kendrick and Van Niel2011a) reported that the seagrasses Halodule uninervis and Cymodocea serrulata dominate the seagrass meadows in Pulau Tinggi and the dominant seagrass in the Pulau Sibu area is H. uninervis (Ooi et al., Reference Ooi, Affendi and Phang2008). Both species are consumed extensively by dugongs (Marsh et al., Reference Marsh, O'Shea and Reynolds2011). Seagrass distribution data are lacking for the surveyed area, especially outside the Pulau Sibu marine park, where dugong sightings were concentrated, indicating the need for further surveys of seagrasses.
Of the three main dugong areas in Johor (i.e. Sungai Pulai and Sungai Johor estuaries and Johor islands; Fig. 1), the Johor islands appear to be the only area with habitat suitable for maintaining a viable population of dugongs. Our findings and those of Mansor et al. (Reference Mansor, Ahmad, Kushairi and Marsh2000) and Affendi et al. (Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005) indicate that the Johor islands are the site of the most significant congregation of dugongs in Peninsular Malaysia. Previous seagrass surveys in the Sungai Pulai estuary (Zulkifli Poh, Reference Zulkifli Poh2009; Choo & Ponnampalam, Reference Choo and Ponnampalam2011) and the Sungai Johor estuary (Affendi et al., Reference Affendi, Ooi, Phang, Hussin, Rosman and Fauzi2005; Ooi et al., Reference Ooi, Affendi and Phang2008) revealed the presence of dugong feeding trails in areas with high seagrass biomass. However, these areas are affected by major developments, including port expansions and petrochemical facilities, both of which are known to cause habitat degradation and water pollution and to threaten marine life (Ralph & Burchett, Reference Ralph and Burchett1998; Macinnis-Ng & Ralph, Reference Macinnis-Ng and Ralph2003; Wake, Reference Wake2005; Ng & Song, Reference Ng and Song2010; Yap & Lam, Reference Yap and Lam2013). Thus, it is unlikely that these areas are sustainable long-term habitats for the dugongs. The Sungai Pulai estuary and the mangrove coastline of the Johor Straits are scheduled for significant development under the Iskandar Malaysia development plan (Iskandar Malaysia, 2011). The heavily industrialized Sungai Johor estuary area is also being developed further, to include a deep-water petroleum refinery (Integrated Envirotech, 2012). In interviews local fishermen from both areas reported low encounter rates with dugongs since 2004, with encounters mainly involving stranded dead animals (Zulkifli Poh, Reference Zulkifli Poh2009; L.S. Ponnampalam, unpubl. data).
In contrast, the Johor islands have experienced a lower level of human-induced environmental degradation, partly because of the designated marine parks in the area and the low levels of development on the islands (L.S. Ponnampalam, pers. obs.). Given the extensive areas of seagrass beds, particularly off Pulau Sibu and Pulau Tinggi, the islands are likely to be an important habitat for dugongs, providing them with safe refuge and an abundant food supply. However, interviews with fishermen along the east coast of Johor in 2010 revealed that commercial trawl fishing takes place illegally within the marine parks of Pulau Sibu and Pulau Tinggi (L.S. Ponnampalam, unpubl. data), which is likely to damage or destroy the dugongs’ seagrass habitats (Duarte, Reference Duarte2009). Vessel traffic may also pose threats to dugongs in the study area, although our observations revealed some degree of separation between dugongs and vessels. The animals may be at risk from boat strikes and disturbance, which have already been demonstrated to be an increasing threat to dugongs in some heavily used waterways of Australia (Hodgson & Marsh, Reference Hodgson and Marsh2007). Additionally, the vicinity of the Johor islands is exposed to the threats of large-scale coastal development projects, which include dredging and extensive land reclamation, under the East Coast Economic Region Master Plan. For example, the proposed (but cancelled) Mersing Laguna Reclamation in Mersing Bay was a potential threat to dugongs, the seagrass beds in the area and the general environment (Erftemeijer & Lewis, Reference Erftemeijer and Lewis2006; Wang et al., Reference Wang, Chen, Zhang, Jin and Lu2010). Our survey results show that the proposed reclamation area may be a tide-influenced feeding ground for dugongs, as reported for dugongs in Australia (Sheppard et al., Reference Sheppard, Jones, Marsh and Lawler2009). As such, increased protection of the area and specific management measures are needed to support dugong populations.
Aligning conservation and research
Lack of comprehensive scientific information should not be a deterrent to the implementation of conservation actions. We recommend that a dugong conservation area be designed and managed following the strategies outlined in Supplementary Table S1, combined with stakeholder consultation and involvement. Furthermore, we recommend that focused research in priority areas (outlined in Supplementary Table S2) be undertaken in tandem with our conservation recommendations. Research and conservation should be undertaken concurrently, with each complementing the other, to continue to improve and strengthen the effectiveness of management of the area and target species over time (Fig. 4).
As a signatory to the Convention on Biological Diversity, Malaysia is obligated to protect 10% of representative marine ecosystems within its national boundaries. The establishment of a dugong conservation area would contribute to the global goal of meeting the Aichi Biodiversity Targets (CBD, 2010). Moreover, conservation alongside research is in line with the objectives and strategies of Malaysia's National Plan of Action for Dugongs (DOFM, 2011). We recommend that the dugong conservation area be established in the areas of high dugong concentrations, such as outside the boundaries of the existing Pulau Sibu marine park (Fig. 3). The protection afforded by the current marine parks alone is probably insufficient, as is the case in Indonesia (de Iongh, Reference de Iongh1999), as anthropogenic activities continue to increase. We believe that, given the range of stakeholders and the fact that some of their activities may be benign to dugongs, a managed area that involves careful management of selected human activities is preferable to a marine park, which is fully protected under Malaysian law. Nonetheless, many social–cultural–economic aspects will need to be considered when establishing the dugong conservation area (Ban et al., Reference Ban, Hansen, Jones and Vincent2009). A framework for conservation of sirenians is provided in Marsh et al. (Reference Marsh, O'Shea and Reynolds2011) and Hines et al. (Reference Hines, Reynolds, Mignucci-Giannoni, Aragones and Marmontel2012), encompassing a range of regulatory (e.g. legislation, enforcement and protected areas) and enabling tools (e.g. education/awareness-raising, research and adaptive management, community partnerships). The careful development, implementation and maintenance of a combination of both categories of tools are critical to the conservation of dugongs in Malaysia and elsewhere. Although there have been discussions among stakeholders since this research was carried out, the rate of progress towards establishing a managed area is slow. In 2013 the protected area boundaries were extended by 1 nautical mile under state legislation, which, while useful, does not fully encompass the areas identified to be of significance to the dugong population at the study site.
The waters around the Johor islands potentially host the most significant concentration of dugongs in Peninsular Malaysia, partly as a result of the protection provided by marine parks, which are located away from development. Despite the low counts from our survey the presence of calves, substantial areas of forage, and marine parks provide hope that the dugongs can be conserved through proactive actions. We suggest that limited data, in this case on dugong distribution, extent of seagrass habitat and the use of such habitat by dugongs, are not a barrier to effective and enhanced conservation actions, especially where marine parks and statutory protection already exist. We emphasize that conservation and adaptive management actions should be implemented immediately in some cases while collection of scientific data continues. Multi-disciplinary research activities are being undertaken to improve understanding of the distribution and habitat use of dugongs, and the federal and Johor state governments have taken an interest in the matter. However, the level of threat to the dugong population in the area is likely to increase (Ponnampalam & Fairul Izmal, pers obs.).
The case of the dugongs in the Johor islands suggests that for certain wildlife species or populations there may be insufficient time to wait for comprehensive scientific justification and data collection before conservation actions are implemented (Johannes, Reference Johannes1998). In most cases involving threatened species, research should be undertaken concurrently with conservation actions (Marsh et al., Reference Marsh, O'Shea and Reynolds2011).
Acknowledgements
Funding for this survey was provided by Titan Chemical Corp. Bhd. We thank our pilot, Capt. Cheng Xitao, for his contribution, and Vivian Kuit for assisting with editing of the figures.
Biographical sketches
Louisa Ponnampalam is working towards filling the knowledge gaps on the ecology of dugongs and cetaceans in Malaysia and building local research capacity for conservation. Fairul Izmal is a marine environmental consultant. His interests lie in improving scientific knowledge, awareness and policy legislation in relation to cetaceans and dugongs in Malaysia. Kanjana Adulyanukosol has studied dugongs in Thailand for 25 years and has been involved in community education in her study areas. Jillian Ooi studies the distribution patterns of tropical seagrasses in relation to ecological drivers, and the utilization of seagrass habitats by marine organisms. John E. Reynolds III has been involved in conservation-based marine mammal research and global marine conservation efforts over the last 4 decades.