Active restoration accelerates the carbon recovery of human-modified tropical forests
Christopher D. Philipson(University of Dundee), David F. R. P. Burslem(University of Alberta), Pedro Moura Costa(University of Oxford), Sol Milne(University of Aberdeen), James A. Margrove(ETH Zurich), Roberta E. Martin(Arizona State University), Gregory P. Asner(Colorado State University), Glen Reynolds, Yap Sau Wai(Sabah Environmental Trust), Doreen S. Boyd(University of Nottingham), Giles M. Foody(University of Southampton), Martijn Snoep(Wageningen University & Research), Mark Cutler(University of Dundee), Philippa R. Lincoln(Moredun Research Institute), Alicia Ledo(University of Aberdeen), Charlotte Wheeler(University of Edinburgh), Geertje van der Heijden(Marquette University), Hamzah Tangki(Symrise (Germany)), Joel Fiddes(Merck Serono S.A. (Switzerland)), Michelle A. Pinard(University of Aberdeen), Philip G. Brodrick(Arizona State University)
Cited by 127
Related Papers
Global Consequences of Land Use
|Science|2005|12.9k
Land-use choices: balancing human needs and ecosystem function
|Frontiers in Ecology and the Environment|2004|858
A massive rock and ice avalanche caused the 2021 disaster at Chamoli, Indian Himalaya
|Science|2021|807
Characterizing canopy biochemistry from imaging spectroscopy and its application to ecosystem studies
|Remote Sensing of Environment|2009|626
Predictive relations of tropical forest biomass from Landsat TM data and their transferability between regions
|Remote Sensing of Environment|2003|581