%0 Journal Article %1 Zhao2009 %A Zhao, Feng %A Gu, Xingfa %A Verhoef, Wout %A Wang, Qiao %A Yu, Tao %A Liu, Qiang %A Huang, Huaguo %A Qin, Wenhan %A Chen, Liangfu %A Zhao, Huijie %D 2009 %J Remote Sensing of Environment %K agriculture crops inversions models optical radiativetransfer reflectance %P - %R DOI: 10.1016/j.rse.2009.09.018 %T A spectral directional reflectance model of row crops %U http://www.sciencedirect.com/science/article/B6V6V-4XNVTFC-1/2/ddf8100462f946032c6faf1d03d4e724 %V In Press, Corrected Proof %X A computationally efficient reflectance model for row planted canopies is developed in this paper through separating the contributions of incident direct and diffuse radiation scattered by row canopies. The row model allows calculating the reflectance spectrum in any given direction for the optical spectral region. The performance of the model is evaluated through comparisons with field measurements of winter wheat as well as with an established 3D computer simulation model. Especially the systematic comparisons with the computer simulation model demonstrate that the model can adequately simulate the characteristic distribution of directional reflectance factors of row canopies, which is shown in the polar map of reflectance as a high or low value stripe approximately parallel to the row orientation, besides the hotspot effect. Physical mechanisms causing the dynamics were proposed and supported by comparison studies. The features of reflectance distributions of row canopies, which are distinctively different from those of homogeneous canopy, imply that it is problematic to use one-dimensional radiation transfer model to interpret radiation data and estimate the structural or spectral parameters of row canopies from reflectance measurements. Finally, further improvements needed for the current model are briefly discussed.

@article{Zhao2009, abstract = {A computationally efficient reflectance model for row planted canopies is developed in this paper through separating the contributions of incident direct and diffuse radiation scattered by row canopies. The row model allows calculating the reflectance spectrum in any given direction for the optical spectral region. The performance of the model is evaluated through comparisons with field measurements of winter wheat as well as with an established 3D computer simulation model. Especially the systematic comparisons with the computer simulation model demonstrate that the model can adequately simulate the characteristic distribution of directional reflectance factors of row canopies, which is shown in the polar map of reflectance as a high or low value stripe approximately parallel to the row orientation, besides the hotspot effect. Physical mechanisms causing the dynamics were proposed and supported by comparison studies. The features of reflectance distributions of row canopies, which are distinctively different from those of homogeneous canopy, imply that it is problematic to use one-dimensional radiation transfer model to interpret radiation data and estimate the structural or spectral parameters of row canopies from reflectance measurements. Finally, further improvements needed for the current model are briefly discussed.}, added-at = {2009-11-13T11:39:59.000+0100}, author = {Zhao, Feng and Gu, Xingfa and Verhoef, Wout and Wang, Qiao and Yu, Tao and Liu, Qiang and Huang, Huaguo and Qin, Wenhan and Chen, Liangfu and Zhao, Huijie}, biburl = {https://www.bibsonomy.org/bibtex/2f24de1e93c33d0efba343ee18a67a33d/jgomezdans}, description = {ScienceDirect - Remote Sensing of Environment : A spectral directional reflectance model of row crops}, doi = {DOI: 10.1016/j.rse.2009.09.018}, interhash = {18324ca58fe47fa3e060f98c60f8c135}, intrahash = {f24de1e93c33d0efba343ee18a67a33d}, issn = {0034-4257}, journal = {Remote Sensing of Environment}, keywords = {agriculture crops inversions models optical radiativetransfer reflectance}, pages = { - }, timestamp = {2009-11-13T11:39:59.000+0100}, title = {A spectral directional reflectance model of row crops}, url = {http://www.sciencedirect.com/science/article/B6V6V-4XNVTFC-1/2/ddf8100462f946032c6faf1d03d4e724}, volume = {In Press, Corrected Proof}, year = 2009 }