The Mentawai Island primates are a unique community of sympatrically occurring, endemic species of the c. 6,000 km2 (BPS, 2011) Mentawai Archipelago in West Sumatra, Indonesia. On the four main islands (Siberut, Sipora, North Pagai and South Pagai) six species (Roos et al., Reference Roos, Boonratana, Supriatna, Fellowes, Groves and Nash2014) coexist: the Siberut macaque Macaca siberu, the Pagai Island macaque Macaca pagensis, the Siberut langur Presbytis siberu, the Pagai langur Presbytis potenziani, the pig-tailed snub-nosed langur Simias concolor, and Kloss's gibbon Hylobates klossii. Threatened mainly by anthropogenic hunting and habitat loss (commercial logging, agriculture), all six species are considered to be in decline (Whittaker, Reference Whittaker2006). They are categorized as Vulnerable (M. siberu), Endangered (P. siberu (as P. potenziani siberu) and H. klossii) or Critically Endangered (P. potenziani (as P. potenziani potenziani), M. pagensis and S. concolor) on the IUCN Red List (IUCN, 2014). The pig-tailed langur is among the 25 most threatened primates (Mittermeier et al., Reference Mittermeier, Schwitzer, Rylands, Taylor, Chiozza and Williamson2012).
Regardless of their conservation status, there is a dearth of reliable information on the size of the region's primate population, which is essential for effective management and conservation planning. The few publications that have presented population estimates for the Mentawai Islands are typically species-specific (e.g. Tilson, Reference Tilson1977; Whittaker, Reference Whittaker2005) and/or base their estimates on geographically restricted data (e.g. Waltert et al., Reference Waltert, Abegg, Ziegler, Hadi, Priata and Hodges2008; Quinten et al., Reference Quinten, Waltert, Syamsuri and Hodges2010). Significantly, there is a lack of data from the archipelago's only protected area, Siberut National Park, located on the largest and northernmost of the four islands. Formally declared in 1993, the Park covers >40% of Siberut (Fig. 1) and comprises predominantly evergreen primary lowland rainforest (>80%; M. Quinten, unpubl. data). Unlike many of Indonesia's protected areas, Siberut National Park was designed to contain human settlements. It is subdivided into three land-use zones (sanctuary, traditional use and park village) and there are at least 5,000 inhabitants in the park village zone (PHPA, 1995), which is the least restricted. As with many government-established parks and reserves, protection and enforcement within the Park are hampered by staff members’ lack of knowledge and training in wildlife ecology and conservation management, and by insufficient funding. Thus, despite its >20-year history and its potential importance as a refuge for primates, no systematic surveys have been carried out within the Park boundaries and consequently no data on primate density and abundance are available.
Following on from surveys of primates in the north of the island, outside the National Park (Waltert et al., Reference Waltert, Abegg, Ziegler, Hadi, Priata and Hodges2008; Quinten et al., Reference Quinten, Waltert, Syamsuri and Hodges2010), the Siberut Conservation Programme established a collaboration with the Siberut National Park Authority, Green Siberut Association, and UNESCO to carry out surveys within the Park. Our aims were to provide the first systematic and reliable estimates of primate density and abundance in the Park, extend the existing dataset on primate population sizes in the Mentawai Islands, and provide training in primate survey methodology and data analysis for staff of the National Park Authority and affiliated organizations in the region.
We organized a 3-day workshop (11−14 May 2011), during which participants received in-depth training in theoretical (e.g. survey design, general methodology) and practical (e.g. equipment handling, transect cutting) aspects of primate population surveys. We then assigned successful participants to one of seven teams and sent them to the field to conduct distance sampling surveys (Buckland et al., Reference Buckland, Anderson, Burnham, Laake, Borchers and Thomas2001, Reference Buckland, Plumptre, Thomas and Rexstad2010) of primates at two or three of a total of 18 closed-circuit transects (length per transect 3,700 m), located according to a random vector grid (Fig. 1). The survey design represented the best possible solution taking into account logistical difficulties (no roads, remoteness, difficult terrain) and available resources (time, manpower, budget).
All teams conducted daily survey walks during times of peak primate activity (c. 07.00–11.00 and 14.30–18.00), and recorded standard survey data (cf. Quinten et al., Reference Quinten, Waltert, Syamsuri and Hodges2010). Using a laser range finder, perpendicular distances were measured from the transect line to the centre of all countable individuals of each primate cluster; when primates were detected acoustically the perpendicular distance to the estimated location was measured. All teams returned to mainland Sumatra in June 2011 to attend a workshop, where we analysed all data using DISTANCE v. 6.0 (Thomas et al., Reference Thomas, Laake, Rexstad, Strindberg, Marques and Buckland2009). For this purpose we pooled individual surveys and primate observations by transect, and analysed each species separately using both visual and acoustic observations. We truncated the data to estimate the detection function g(x) and the cluster (group) size (Table 1); we determined cluster size using the size bias regression method, regressing ln(cluster size) against the estimated g(x).
* c, truncation distance for cluster size estimation; w, truncation distance for density estimation; nt, total number of observed clusters; na, number of clusters used for data analysis after truncation; nvisual/acoustic, ratio of visual versus acoustic observations
By surveying all 18 transects 1–4 times we achieved a total survey effort of 192 km, yielding 285 detection events for the four primate species on Siberut (Table 1): S. concolor (52), M. siberu (79), P. siberu (95) and H. klossii (59). Presbytis siberu was the most abundant primate, and based on a density of c. 10.44 individuals per km2 (c. 4.4 clusters per km2) we estimate the total population in the Park to be 17,400 individuals. We modelled a density of 8.5 individuals per km2 (c. 2.4 clusters per km2) and a total population of c. 14,100 individuals for Siberut's other colobine, S. concolor. The estimated densities of H. klossii and M. siberu were 6.29 and 5.55 individuals per km2 (c. 2.36 and c. 1.75 clusters per km2), respectively, yielding population estimates of c. 10,500 gibbons and 9,250 macaques (Table 1). Collectively, this indicates a population of c. 51,000 primates within the Park. However, as our survey transects were located almost exclusively in primate habitat (e.g. primary and swamp forest), leaving non-suitable habitat underrepresented (c. 8–13% of the Park area, including bare land and agricultural areas; M. Quinten, unpubl. data), this number may represent a slight overestimation.
Given that no other systematic survey of primates has been conducted in Siberut National Park we cannot compare our results with earlier information, or comment on population changes over time. A comparison with the only available population estimates for the whole island (Whittaker, Reference Whittaker2006, largely based on WWF, 1980; Table 1), however, suggests that a substantial proportion of the populations of all four primate species occurs within the Park, emphasizing its conservation importance for the region's primates. It also indicates that P. siberu and S. concolor are considerably more abundant on Siberut than Whittaker (Reference Whittaker2006) suggested (our estimates for the Park are c. 1.4–3 times higher than those of Whittaker for the entire island).
Given the Park's comparatively high abundance of primates, and considering that (1) the Park covers almost half of Siberut Island, (2) the areas outside the Park are largely production and conversion forest, and (3) there is little remaining forest (and thus primate habitat) on the three southern Mentawai Islands, we conclude that Siberut National Park represents the most important habitat for primates in the Mentawai region. To successfully fulfil its function as a refuge, the Park administration will need to address two main challenges. Firstly, encroachment associated with human population growth (cf. PHPA, 1995) continues to have a negative impact on primate populations in the Park, principally in terms of habitat loss and hunting (Quinten et al., Reference Quinten, Stirling, Schwarze, Dinata and Hodges2014). Secondly, inadequate funding and levels of training in wildlife management, together with a fragile relationship between the Park authorities and some of its resident communities, compromise the effectiveness of the Park in achieving its conservation objectives.
We advise the Indonesian Ministry of Forestry to increase funding for the Park, to ensure adequate human resources to support the enforcement of its statutes on a local level and to improve staff training in conservation management. Greater emphasis needs to be placed on outreach activities to foster closer interaction and cooperation between Park management and the resident communities, raising local awareness of the value of Siberut's rainforest habitat and the importance of a sustainable approach to resource utilization. Finally, we recommend that further research be carried out, specifically (1) studies to examine the socio-economic needs of the Park's inhabitants, and assess their impact on the land, (2) time-series land-cover assessments to determine rates of deforestation/habitat loss, and (3) long-term monitoring of population trends in the Park (with surveys every 4–5 years); ideally this would be complemented by surveys outside the Park in Siberut's production forest/timber concessions.
Acknowledgements
We thank all partners (the Siberut National Park Authority, the Siberut Conservation Programme, Green Siberut Association, and UNESCO) for their invaluable efforts in planning, coordinating and funding the project, specifically Mr Jusman, Ms Pio, Ms Acha De La Presa and Dr Matthias Waltert. We thank the Rufford Foundation, the Mohamed bin Zayed Species Conservation Fund and the Spanish Agency for International Cooperation for financial support, and the Indonesian Institute of Sciences for providing the necessary research permits. Finally, we thank the members of the dedicated survey teams who made this project possible, including the National Park employees Ridho, Dedet, Kusmiadi, Efrinaldi, Matheus and Badul, the Green Siberut Association staff Yoyok and Silvanus, the SMILE-team Fabianus, Ronal and Hamdi, Bogor Agricultural University students Dani and Yandhi, Darmanto from UNESCO, and Siswanto from R&D Forestry.
Biographical sketches
Marcel C. Quinten is a conservation biologist working with the German Primate Center and the Siberut Conservation Programme on the preservation of the endemic primates of the Mentawai Archipelago. Fifin Nopiansyah is a conservation analyst for the Siberut National Park Authority and is conducting doctoral research on protected area management at Bogor Agricultural University in Java, Indonesia. J. Keith Hodges has research interests in evolutionary endocrinology and comparative reproduction in primates, and primate conservation.