"Simulations of Seasonal and Latitudinal Variations in Leaf Inclination Angle Distribution: Implications for Remote Sensing"
written by Karl F. Huemmrich,
published by Advances in Remote Sensing, Vol.2 No.2, 2013
has been cited by the following article(s):
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[1] Estimating Leaf Angle Distribution from Smartphone Photos
IEEE Geoscience and Remote Sensing Letter, 2019
[2] Estimating Leaf Angle Distribution From Smartphone Photographs
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[3] * author for correspondence: sserbin@ bnl. gov Brookhaven National Laboratory, Environmental & Climate Sciences Department, Bldg. 490D-PO Box 5000 …
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[4] Scaling Functional Traits From Leaves to Canopies
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[5] Radiative transfer modelling reveals why canopy reflectance follows function
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[6] Differentiating plant functional types using reflectance: which traits make the difference?
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[7] Effects of Crop Leaf Angle on LAI-Sensitive Narrow-Band Vegetation Indices Derived from Imaging Spectroscopy
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[8] Nutritional and developmental influences on components of rice crop light use efficiency
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[9] Efficiency of chlorophyll in gross primary productivity
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[10] Efficiency of chlorophyll in gross primary productivity: A proof of concept and application in crops
Journal of Plant Physiology, 2016
[11] Spectral anisotropy of subtropical deciduous forest using MISR and MODIS data acquired under large seasonal variation in solar zenith angle
International Journal of Applied Earth Observation and Geoinformation, Elsevier, 2015
[12] Joint leaf chlorophyll content and leaf area index retrieval from Landsat data using a regularized model inversion system (REGFLEC)
Remote Sensing of Environment, 2015
[13] Application of the photosynthetic light-use efficiency model in a northern Great Plains grassland
Remote Sensing of Environment, 2015
[14] Relationship between fraction of radiation absorbed by photosynthesizing maize and soybean canopies and NDVI from remotely sensed data taken at close range and from MODIS 250m resolution data
Remote Sensing of Environment, Elsevier, 2014
[15] Relationships between gross primary production, green LAI, and canopy chlorophyll content in maize: Implications for remote sensing of primary production
Remote Sensing of Environment, Elsevier, 2014
[16] Relationship between fraction of radiation absorbed by photosynthesizing maize and soybean canopies and NDVI from remotely sensed data taken at close range …
Remote Sensing of Environment, 2014
[17] TESI SPERIMENTALE
2013