1. Acevedo-Opazo, C., Tisseyre, B., Guillaume, S., & Ojeda, H. (2008). The potential of high spatial resolution information to define within-vineyard zones related to vine water status. Precision Agriculture,
9, 285–302.
2. Bartholomeus, R. P., Witte, J. P. M., van Bodegom, P. M., & Aerts, R. (2008). The need of data harmonization to derive robust empirical relationships between soil conditions and vegetation. Journal of Vegetation Science,
19, 799–808.
3. Baume, O., Skøien, J., Carré, F., Heuvelink, G., & Pebesma, E. (2009). Data harmonization of environmental variables: From simple to general solutions. In J. Hřebíček, J. Hradec, E. Pelikán, O. Mírovský, W. Pilmmann, I. Holoubek, & T. Bandholz (Eds.), European conference of the Czech presidency of the council of the European Union towards environment (pp. 162–169).
4. Baume, O., Skøien, J. O., Heuvelink, G. B. M., Pebesma, E. J., & Melles, S. J. (2010). A geostatistical approach to data harmonization—Application to radioactivity exposure data. International Journal of Applied Earth Observation and Geoinformation,
13, 409–419.
5. Bivand, R. S., Pebesma, E. J., & Gomez-Rubio, V. (2013). Applied spatial data analysis with R. New York, NY, USA: Springer.