Authors
Stephen Sitch, Benjamin Smith, I Colin Prentice, Almut Arneth, Alberte Bondeau, Wolfgang Cramer, Jed O Kaplan, Samuel Levis, Wolfgang Lucht, M Thonicke Sykes, Kirsten Thonicke, S Venevsky
Publication date
2003/2
Journal
Global change biology
Volume
9
Issue
2
Pages
161-185
Publisher
Blackwell Science, Ltd
Description
The Lund–Potsdam–Jena Dynamic Global Vegetation Model (LPJ) combines process‐based, large‐scale representations of terrestrial vegetation dynamics and land‐atmosphere carbon and water exchanges in a modular framework. Features include feedback through canopy conductance between photosynthesis and transpiration and interactive coupling between these ‘fast’ processes and other ecosystem processes including resource competition, tissue turnover, population dynamics, soil organic matter and litter dynamics and fire disturbance. Ten plants functional types (PFTs) are differentiated by physiological, morphological, phenological, bioclimatic and fire‐response attributes. Resource competition and differential responses to fire between PFTs influence their relative fractional cover from year to year. Photosynthesis, evapotranspiration and soil water dynamics are modelled on a daily time step, while …
Total citations
Scholar articles
S Sitch, B Smith, IC Prentice, A Arneth, A Bondeau… - Global change biology, 2003
S Sitch, B Smith, IC Prentice, A Arneth, A Bondeau… - Glob. Change Biol