Nature Communications (Dec 2017)

Long-term carbon sink in Borneo’s forests halted by drought and vulnerable to edge effects

  • Lan Qie,
  • Simon L. Lewis,
  • Martin J. P. Sullivan,
  • Gabriela Lopez-Gonzalez,
  • Georgia C. Pickavance,
  • Terry Sunderland,
  • Peter Ashton,
  • Wannes Hubau,
  • Kamariah Abu Salim,
  • Shin-Ichiro Aiba,
  • Lindsay F. Banin,
  • Nicholas Berry,
  • Francis Q. Brearley,
  • David F. R. P. Burslem,
  • Martin Dančák,
  • Stuart J. Davies,
  • Gabriella Fredriksson,
  • Keith C. Hamer,
  • Radim Hédl,
  • Lip Khoon Kho,
  • Kanehiro Kitayama,
  • Haruni Krisnawati,
  • Stanislav Lhota,
  • Yadvinder Malhi,
  • Colin Maycock,
  • Faizah Metali,
  • Edi Mirmanto,
  • Laszlo Nagy,
  • Reuben Nilus,
  • Robert Ong,
  • Colin A. Pendry,
  • Axel Dalberg Poulsen,
  • Richard B. Primack,
  • Ervan Rutishauser,
  • Ismayadi Samsoedin,
  • Bernaulus Saragih,
  • Plinio Sist,
  • J. W. Ferry Slik,
  • Rahayu Sukmaria Sukri,
  • Martin Svátek,
  • Sylvester Tan,
  • Aiyen Tjoa,
  • Mark van Nieuwstadt,
  • Ronald R. E. Vernimmen,
  • Ishak Yassir,
  • Petra Susan Kidd,
  • Muhammad Fitriadi,
  • Nur Khalish Hafizhah Ideris,
  • Rafizah Mat Serudin,
  • Layla Syaznie Abdullah Lim,
  • Muhammad Shahruney Saparudin,
  • Oliver L. Phillips

DOI
https://doi.org/10.1038/s41467-017-01997-0
Journal volume & issue
Vol. 8, no. 1
pp. 1 – 11

Abstract

Read online

The existence of a pan-tropical forest carbon sink remains uncertain due to the lack of data from Asia. Here, using direct on-the-ground observations, the authors confirm remaining intact forests in Borneo have provided a long-term carbon sink, but carbon net gains are vulnerable to drought and edge effects.