Remote Sensing (Mar 2016)

A 30+ Year AVHRR LAI and FAPAR Climate Data Record: Algorithm Description and Validation

  • Martin Claverie,
  • Jessica L. Matthews,
  • Eric F. Vermote,
  • Christopher O. Justice

DOI
https://doi.org/10.3390/rs8030263
Journal volume & issue
Vol. 8, no. 3
p. 263

Abstract

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In- land surface models, which are used to evaluate the role of vegetation in the context of global climate change and variability, LAI and FAPAR play a key role, specifically with respect to the carbon and water cycles. The AVHRR-based LAI/FAPAR dataset offers daily temporal resolution, an improvement over previous products. This climate data record is based on a carefully calibrated and corrected land surface reflectance dataset to provide a high-quality, consistent time-series suitable for climate studies. It spans from mid-1981 to the present. Further, this operational dataset is available in near real-time allowing use for monitoring purposes. The algorithm relies on artificial neural networks calibrated using the MODIS LAI/FAPAR dataset. Evaluation based on cross-comparison with MODIS products and in situ data show the dataset is consistent and reliable with overall uncertainties of 1.03 and 0.15 for LAI and FAPAR, respectively. However, a clear saturation effect is observed in the broadleaf forest biomes with high LAI (>4.5) and FAPAR (>0.8) values.

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