Phenotyping studies of spring wheat by multispectral image analysis

English. To meet an increasing demand for food production there is a need for faster genetic gainsin Norwegian cereal breeding through more precise phenotyping. High-Throughput Phe-notyping (HTP) and genomic selection through multispectral imaging and statistical anal-ysis offer possibilities of yield gains. Several indices have been tested to indicate grainyield, such as the Normalized Differential Vegetation Index (NDVI), MERIS TerrestrialChlorophyll Index (MTCI) and the Enhanced Vegetative Index (EVI). These indices uti-lize the difference in reflectivity in different spectral bands. The indices can indicatedifferences between healthy plants, stressed plants or non-plants.The research revolves around 96 plots of 24 historical wheat cultivars and 602 plots of301 younger breed lines. Both sites planted at Vollebekk research farm at Ås in Norway,laid out in an alpha-lattice split plot design. The design for the 24 historical cultivars hadtwo levels of nitrogen (N) fertilization, 75 and 150 kg N/ha, applied at sowing. Therewere two replicates of wheat cultivars of each fertilization level. The set of 24 springwheat represents the yield progress over the last 40 years in Norway.Multispectral images were taken in the wavebands green (GRE) (550nm), red (RED)(660nm), red edge (REG) (735nm) and near-infrared (NIR) (790nm) with a Parrot Se-quoia multispectral camera combined with a sunshine sensor. The spectral band imageswere stitched together using Pix4D software by utilizing GPS coordinates and image fea-tures. To aid stitching of the multispectral and RGB images, tie point objects were laidout in the field. Maps of vegetation indices were computed in Python, by forming linearcombinations and ratios of sums and differences in the multispectral reflection. In addi-tion,3D models and Digital Surface Models (DSM) of the area were calculated from RGBimages using Pix4D, which were used to indicate plant height. All cameras and sensorswere mounted on a light Unmanned Aerial Vehicle (UAV). Images were taken throughoutthe season of growth at regular intervals.The time series of the vegetation indices showed peak values during the period of grainfilling before declining when plants approached maturity. Values where slightly higher forwheat plots that received a higher dose of fertilization throughout the season of sampling.By combining the digital measurements with manual measurements of grain yield, kernelweight, and plant height, the statistical significance of separating cultivars is explored.

M-MF