Resumen de Calibration of non-invasive fluorescence-based sensors for the manual and on-the-go assessment of grapevine vegetative status in the field Authors

María Paz Diago Santamaría, Clara Rey Caramés, Marine Le Moigne, El Mostafa Fadaili, Javier Tardáguila Laso, Z.G. Cerovic

• Background and Aims Optical sensors can accomplish frequent and spatially widespread non-destructive monitoring of plant nutrient status. The main goal was to calibrate a fluorescence sensor, used both manually (MXH) and on-the-go (MXM), for the assessment of the spatial variability in the vineyard of the concentration of chlorophyll, flavonol and nitrogen in grapevine leaves, against that of a leaf-clip type optical sensor (DX4).

  Methods and Results Measurements were taken in a commercial vineyard on the adaxial and abaxial sides of leaves of nine Vitis vinifera L. cultivars, manually with the DX4 and MXH, and with the MXM mounted on an all-terrain vehicle. A significant correlation was obtained for the chlorophyll and nitrogen indices of MXH and DX4 (R2 > 0.90) and of MXM and DX4 (R2 > 0.74), and the calibration equations were defined. A similar spatial distribution was achieved for the chlorophyll, flavonol and nitrogen indices of the leaves.

  Conclusions The capability of the fluorescence sensor, used manually and on-the-go, for characterising the nutritional status of grapevines was demonstrated.

  Significance of the Study This work reports the first calibration of the hand-held and on-the-go fluorescence sensor to assess key nutritional parameters of grapevines. The applicability of this sensor on-the-go to characterise the spatial variability of the vegetative status of a vineyard for the delineation of homogeneous management zones was proved.