PLoS ONE (Jan 2011)

Population status of a cryptic top predator: an island-wide assessment of tigers in Sumatran rainforests.

  • Hariyo T Wibisono,
  • Matthew Linkie,
  • Gurutzeta Guillera-Arroita,
  • Joseph A Smith,
  • Sunarto,
  • Wulan Pusparini,
  • Asriadi,
  • Pandu Baroto,
  • Nick Brickle,
  • Yoan Dinata,
  • Elva Gemita,
  • Donny Gunaryadi,
  • Iding A Haidir,
  • Herwansyah,
  • Indri Karina,
  • Dedy Kiswayadi,
  • Decki Kristiantono,
  • Harry Kurniawan,
  • José J Lahoz-Monfort,
  • Nigel Leader-Williams,
  • Tom Maddox,
  • Deborah J Martyr,
  • Maryati,
  • Agung Nugroho,
  • Karmila Parakkasi,
  • Dolly Priatna,
  • Eka Ramadiyanta,
  • Widodo S Ramono,
  • Goddilla V Reddy,
  • Ente J J Rood,
  • Doddy Y Saputra,
  • Ahmad Sarimudi,
  • Adnun Salampessy,
  • Eka Septayuda,
  • Tonny Suhartono,
  • Ade Sumantri,
  • Susilo,
  • Iswandri Tanjung,
  • Tarmizi,
  • Koko Yulianto,
  • Mohammad Yunus,
  • Zulfahmi

DOI
https://doi.org/10.1371/journal.pone.0025931
Journal volume & issue
Vol. 6, no. 11
p. e25931

Abstract

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Large carnivores living in tropical rainforests are under immense pressure from the rapid conversion of their habitat. In response, millions of dollars are spent on conserving these species. However, the cost-effectiveness of such investments is poorly understood and this is largely because the requisite population estimates are difficult to achieve at appropriate spatial scales for these secretive species. Here, we apply a robust detection/non-detection sampling technique to produce the first reliable population metric (occupancy) for a critically endangered large carnivore; the Sumatran tiger (Panthera tigris sumatrae). From 2007-2009, seven landscapes were surveyed through 13,511 km of transects in 394 grid cells (17×17 km). Tiger sign was detected in 206 cells, producing a naive estimate of 0.52. However, after controlling for an unequal detection probability (where p = 0.13±0.017; ±S.E.), the estimated tiger occupancy was 0.72±0.048. Whilst the Sumatra-wide survey results gives cause for optimism, a significant negative correlation between occupancy and recent deforestation was found. For example, the Northern Riau landscape had an average deforestation rate of 9.8%/yr and by far the lowest occupancy (0.33±0.055). Our results highlight the key tiger areas in need of protection and have led to one area (Leuser-Ulu Masen) being upgraded as a 'global priority' for wild tiger conservation. However, Sumatra has one of the highest global deforestation rates and the two largest tiger landscapes identified in this study will become highly fragmented if their respective proposed roads networks are approved. Thus, it is vital that the Indonesian government tackles these threats, e.g. through improved land-use planning, if it is to succeed in meeting its ambitious National Tiger Recovery Plan targets of doubling the number of Sumatran tigers by 2022.