Publication | Closed Access
Estimation of global leaf area index and absorbed par using radiative transfer models
1K
Citations
30
References
1997
Year
Precision AgricultureEnvironmental MonitoringRadiative Transfer ModelsBotanyEngineeringLand UseForestryAgricultural EconomicsLand CoverNdvi-fapar RelationsEarth ScienceSocial SciencesRadiative TransferRadiative Transfer ModelPhotosynthesisRadiative AbsorptionGeographyGlobal VegetationDeforestationRadiative Transfer ModellingClimatologyRemote SensingPlant Physiology
The study proposes a simple method to estimate global leaf area index (LAI) and fraction of photosynthetically active radiation absorbed by vegetation (FAPAR) from atmospherically corrected NDVI observations. The authors employ an improved three‑dimensional radiative transfer model of vegetated surfaces, deriving NDVI‑LAI and NDVI‑FAPAR relations for land‑cover classes and proposing a vegetation‑structure‑based classification to support the method. Simulation and validation results demonstrate the feasibility of the proposed LAI and FAPAR estimation method.
A simple method for the estimation of global leaf area index (LAI) and fraction of photosynthetically active radiation absorbed by the vegetation (FAPAR) from atmospherically corrected Normalized Difference Vegetation Index (NDVI) observations is described. Recent improvements to the authors' three dimensional radiative transfer model of a vegetated surface are described. Example simulation results and a validation exercise are discussed. The model was utilized to derive land cover specific NDVI-LAI and NDVI-FAPAR relations. The method therefore requires stratification of global vegetation into cover types that are compatible with the radiative transfer model. Such a classification based on vegetation structure is proposed and a simple method for its derivation is presented. Proof-of-concept results are given to illustrate the feasibility of the proposed method.
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