Merz, Quirina NoƫmiWalter, AchimAasen, HelgeGandorfer, MarkusHoffmann, ChristaEl Benni, NadjaCockburn, MarianneAnken, ThomasFloto, Helga2022-02-242022-02-242022978-3-88579-711-1https://dl.gi.de/handle/20.500.12116/38396Fertilizer distribution can be improved by the use of variable rate technology with which plants only receive the amount of fertilizer they actually need. This amount is often calculated with vegetations indexes, such as the NDVI. The NDVI can be derived from drones or satellites. Drones offer more high-resolution imagery than satellites, but satellite data is more readily available. This study focuses on the spatio-temporal difference of apparent field heterogeneity at different spatial resolutions, resampled to 0.5 m and 20 m from high-resolution drone data, throughout the vegetation period and the error induced by low-resolution image data.enspectral imagingdrone-based systemslow-altitude remote sensingfield heterogeneityvariable rate technologyreturn of investmentUsing high-resolution drone data to assess apparent agricultural field heterogeneity at different spatial resolutionsText/Conference Paper1617-5468