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Assessing vineyard condition with hperspectral indices: Leaf and canopy reflectance simulation in a row-strucutred discontinuous canopy

Assessing vineyard condition with hperspectral indices: Leaf and canopy reflectance simulation in a row-strucutred discontinuous canopy
【摘要】: 

Methods for chlorosis detection and physiological condition monitoring in Vitis vinifera L, through accurate chlorophyll a and b content (Cab) estimation at lead and canopy levels are presented in this manuscript. A total of 24 vineyards were identified for field and airborne data collection with the Compact Airborne Spectrographic Imager (CASI), the Reflective Optics System Imaging Spectrometer (ROSIS) and the Digital Airborne Imaging Spectrometer (DAIS-7915) hyperspectral sensors in 2002 and 2003 in northem Spain, comprising 103 study areas of 10 * 10 m in size, with a total of 1467 leaves collected for determination of pigment concentration. A subsample of 605 leaves was used for measuring the optical properties of reflectance and tranmittance with a Li-Cor 1800-12 Integrating Sphere coupled by a 200um diameter single mode fiber to an Ocean Optics model USB2000 spectrometer. Several narrow-band vegetation indices were calculated from lead reflectance spectra, and the PROSPECT leaf optical model was used for inversion using the extensive database od lead optical properties. Results showed that the best indicators for chlorophyll content estimation in V. vinifera L. leaves were narrow-band hyperspectral indices calculated in the 700-750 nm spectral region (r2 ranging between 0.8 and 0.9), with poor performance of traditional indices such as the Normalized Difference Vegetation Index (NDVI). Results for other biochemicals indicated that the Structure Insensitive Pigment Index (SIPI) and the Photochemical Reflectance Index (PRI) were more sensitice to carotenoids C x+c and chlorophyll-carotenoid ratios Cab/Cx+c than to chlorophyll content Cab. Chlorophyll a and b estimation by inversion of the PROSPECT leaf model on V. vinifera L. spectra was successful, yielding a determination coefficient of r2=0.95, with an RMSE=5.3ug/cm2. The validity of leaf-level indices for chlorophyll content estimation at the canopy level in V. vinifera L. was studied using the scaling-up approach that links PROSPECT and rowMCRM canpy reflectance simulation to account for the effects of vineyard structure, vine dimensions, row orientation and soil and shadow effects on the canopy reflectance. The index calculated as a combination of the Transformed Chlorophyll Absorption in Reflectance Index (TCARI), and the Optimized Soil-Adjusted Vegetation Index (OSAVI) in the form RCARI/OSAVI was the most consistent index for estimating Cab on aggregated and pure vine pixels extracted from 1 m CASI and ROSIS hyperspectral imagery. Predictive relationships were developed with PROSPECT-rowMCRM model between Cab and TCARI/OSAVI as function of LAI, using field-measured vine dimensions and image-extracted siul background, row-orientation and viewing geometry values. Prediction relationships for Cab content with TCARI/OSAVI were successfuly applied to the 103 study sites imaged on 24 fields by ROSIS and CASI airborne sensors, yielding r2=0.67 and RMSE-11.5ug/cm2.

Current research efforts in precision viticulture and on the temporal and spatial monitoring of Vitis vinifera L. show a growing interest in remote sensing methods due to its potential for estimating vine biophysical vatiables such as shape, size and vigor, potential indicators of fruit quality and yield (a full review of optical remote sensing methods for vineyard monitoring can be found in Hall et al., 2002)

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