Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XXXIX-B8, 317-319, 2012
© Author(s) 2012. This work is distributed under
the Creative Commons Attribution 3.0 License.
28 Jul 2012
E. M. Perry1, G. J. Fitzgerald1, N. Poole2, S. Craig3, and A. Whitlock4 1Department Primary Industries, Future Farming Systems Research, 110 Natimuk Rd. Horsham VIC 3401 Australia
2Foundation for Arable Research, Lincoln 7640 NZ
3Birchip Cropping Group, Birchip VIC 3483 Australia
Keywords: Agriculture, Farming, Vegetation, Sensor, Spatial, Real-time Abstract. Commercially available proximal sensors are being used in precision agriculture to provide non-destructive, real-time spatial information on 'green biomass' that may be of interest to the remote sensing community. The sensors are described as biomass sensors, but questions remain on which canopy characteristics can be best estimated by the sensor measurements. In this study Normalized Difference Vegetation Index (NDVI) measurements from active optical sensors were examined across multiple datasets, representing different active optical sensors, different years, and different sites for wheat and barley. The NDVI values were compared with spatially and temporally coincident measurements of fractional green cover and above ground biomass, expressed as dry matter in kg ha-1. Direct comparison of NDVI measurements from the different sensors for the same plots over a range of canopy cover demonstrates differences for plot means of NDVI. Canopy fractional green cover values were well described by NDVI using a linear model. Using all of the datasets, the linear regression of fractional green cover on NDVI yielded an r2 of 0.71 and a standard error of 0.12. NDVI measured by the sensors did not explain as much of the variance in dry matter as for fractional cover. Dry matter was related to NDVI using a non-linear model. For all sensors, sites and dates with green biomass, the model was fitted with r2 value of 0.27, and standard error of 2133 kg ha-1. The relationship between NDVI and dry matter was nearly linear at levels of biomass less than 1000 kg ha-1. Results for these datasets indicate that the active optical sensors may be a useful surrogate for fractional cover, but not for above ground biomass.
Conference paper (PDF, 686 KB)

Citation: Perry, E. M., Fitzgerald, G. J., Poole, N., Craig, S., and Whitlock, A.: NDVI FROM ACTIVE OPTICAL SENSORS AS A MEASURE OF CANOPY COVER AND BIOMASS, Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci., XXXIX-B8, 317-319,, 2012.

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