The performance of foliage mass and crown radius models in forming the input of a forest reflectance model: A test on forest growth sample plots and Landsat 7 ETM+ images

• Published in: Remote sensing of environment Vol. 110; no. 4; pp. 445 - 457
• Main Authors: Lang, Mait, Nilson, Tiit, Kuusk, Andres, Kiviste, Andres, Hordo, Maris
• Format: Journal Article Conference Proceeding
• Language: English
• Published: New York, NY Elsevier Inc 30.10.2007; Elsevier Science
• Subjects: Animal, plant and microbial ecology; Applied geophysics; Biological and medical sciences; Canopy cover; Earth sciences; Earth, ocean, space; Exact sciences and technology; Forest reflectance model; Fundamental and applied biological sciences. Psychology; General aspects. Techniques; Internal geophysics; Landsat 7 ETM; Picea abies; Teledetection and vegetation maps; Tree foliage mass; Baltic region; Estonia; Tree foliage mass; Forest reflectance model; Canopy cover; Landsat 7 ETM; Thematic Mapper; Multispectral detection; Europe; simulation; Space remote sensing; Landsat; Prediction; Image; trees; forests; Modeling; Landsat satellite; allometry; Regression model; Tree crown; Foliage; growth; statistical analysis; Reflectance; statistics
• ISSN: 0034-4257; 1879-0704
• DOI: 10.1016/j.rse.2006.11.030

Several published foliage mass and crown radius regression models were tested on the preparation of the input for the reflectance model of Kuusk and Nilson [Kuusk, A. and Nilson, T. (2000), A directional multispectral forest reflectance model. Remote Sensing of Environment, 72(2):244–252.] for 246 forest growth sample plots in Estonia. In each test, foliage mass and crown radius for trees in the sample plots were predicted with a particular pair of allometric regression models. The forest reflectance model was then run using the estimated foliage mass and crown radius values. Reflectance factors were simulated and compared with the reflectance values obtained from three atmospherically corrected Landsat 7 Enhanced Thematic Mapper (ETM+) scenes. The statistics of linear regression between the simulated and measured reflectance factors were used to assess the performance of foliage and crown radius models. The hypothesis was that the best allometric regression models should provide the best fit in reflectance. The strongest correlation between the simulated and measured reflectance factors was found in the short-wave infrared band (ETM + 5) for all the images. The highest R 2 = 0.71 was observed in Picea abies dominated stands. No excellent combination of foliage mass and crown radius functions was found, but the ranking based on determination coefficients showed that some linear crown radius models are not applicable to our data. Processing of raster images, reflectance measurement for small sample plots, usage of tree-species-specific fixed parameters (specific leaf area, etc.), and the ignored influence of phenology introduced additional variation into the relationships between simulated and measured reflectance factors. Further studies are needed, but these preliminary results demonstrate that the proposed method could serve as an effective way of testing the performance of foliage mass and canopy cover regressions.