Many rice growers are now using simple Normalised Difference Vegetative Index (NDVI) images of crops to assist with crop management. These images utilize two wavelength bands – one in the visible and one in the infrared. Spectrometers/radiometers which scan visible (VIS) and NIR wavelengths are available. However, to achieve the maximum benefits from the instruments, direct comparisons on sets of crops with known density and nutrient status need to be made. Importance of this research This report contains the results of an evaluation of sensors which could increase the precision of variable crop fertilization. This technology could lead to higher returns per hectare and per megalitre of water through the achievement of uniformly high yields of high quality rice. The results would have immediate value to rice growers when incorporated into the SunRice Tissue Testing Service. Objectives/aims of the proposed research The aims of this project were to provide: • an evaluation of the potential of available airborne scanning NIR sensors to determine variations in dry matter and shoot composition (eg Nitrogen and starch) across rice crops • an understanding of the limitations of fresh tissue analysis by airborne NIR sensors • calibrations for nutrients in fresh rice tissue for use in interpreting data obtained from airborne NIR sensors • a basis on which to keep the Tissue Testing Service in line with the latest technology.