Multi-site evaluation of the JULES land surface model using global and local data

D. Slevin*, S. F. B. Tett, M. Williams

*Corresponding author for this work

Research output: Contribution to journalArticlepeer-review

Abstract

This study evaluates the ability of the JULES land surface model (LSM) to simulate photosynthesis using local and global data sets at 12 FLUXNET sites. Model parameters include site-specific (local) values for each flux tower site and the default parameters used in the Hadley Centre Global Environmental Model (HadGEM) climate model. Firstly, gross primary productivity (GPP) estimates from driving JULES with data derived from local site measurements were compared to observations from the FLUXNET network. When using local data, the model is biased with total annual GPP underestimated by 16 % across all sites compared to observations. Secondly, GPP estimates from driving JULES with data derived from global parameter and atmospheric reanalysis (on scales of 100 km or so) were compared to FLUXNET observations. It was found that model performance decreases further, with total annual GPP underestimated by 30% across all sites compared to observations. When JULES was driven using local parameters and global meteorological data, it was shown that global data could be used in place of FLUXNET data with a 7 % reduction in total annual simulated GPP. Thirdly, the global meteorological data sets, WFDEI and PRINCETON, were compared to local data to find that the WFDEI data set more closely matches the local meteorological measurements (FLUXNET) Finally, the JULES phenology model was tested by comparing results from simulations using the default phenology model to those forced with the remote sensing product MODIS leaf area index (LAI). Forcing the model with daily satellite LAI results in only small improvements in predicted GPP at a small number of sites, compared to using the default phenology model.

Original languageEnglish
Pages (from-to)295-316
Number of pages22
JournalGeoscientific Model Development
Volume8
Issue number2
DOIs
Publication statusPublished - 2015

Keywords

  • ENVIRONMENT SIMULATOR JULES
  • NET ECOSYSTEM EXCHANGE
  • TERRESTRIAL BIOSPHERE
  • CARBON-DIOXIDE
  • CLIMATE-CHANGE
  • VEGETATION MODELS
  • ENERGY-BALANCE
  • WATER FLUXES
  • ELEVATED CO2
  • PART 1

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