Summary Results from:

Time-series validation of MODIS land biophysical products in a Kalahari woodland, Africa
As they relate to the validation of MOD15

Authors: Fred Huemmrich, Jeff Privete, Mukufute Mukelabai, Ranga Myneni, Yuri Knyazikhin

Source: International Journal of Remote Sensing, Vol. 26, No. 19, 10 October 2005, 4381-4398

Link to: Access Publication


Monthly measurements of leaf area index (LAI) and the fraction of absorbed photosynthetically active radiation (fAPAR) taken at approximately monthly intervals were collected along three 750 m transects in a Kalahari woodland near Mongu in western Zambia. These data were compared with MODIS NDVI (MOD13, Collection 3) and MODIS LAI and fAPAR products (MOD15, Collection 3) over a 2 year period (2000-2002). MODIS and ground-measured LAI values corresponded well, while there was a significant bias between MODIS and ground-measured fAPAR even though both MODIS variables are produced from the same algorithm. Solar zenith angle effects, differences between intercepted and absorbed photosynthetically active radiation, and differences in measurement of fAPAR (photon counts versus energy) were examined and rejected as explanations for the discrepancies between MODIS and groundmeasured fAPAR. Canopy reflectance model simulations produced different values of fAPAR with the same LAI when canopy cover was varied, indicating that errors in the estimation of canopy cover in the MODIS algorithm due to the land cover classification used are a possible cause of the fAPAR discrepancy. This is one of the first studies of MODIS land product performance in a time-series context. Despite a bias in fAPAR, our results demonstrate that the woodland canopy phonology is captured in the MODIS product.