Water modelling approaches and opportunities to simulate spatial water variations at crop field level

Tenreiro, Tomás R.; García-Vila, Margarita; Gómez, José A.; Jimenez-Berni, José A.; Fereres, Elías

Water modelling approaches and opportunities to simulate spatial water variations at crop field level

Tomás R. Tenreiro, Margarita García-Vila, José A. Gómez, José A. Jimenez-Berni and Elías Fereres

Agricultural Water Management, 2020, vol. 240, issue C

Abstract: Considerable spatial variability in soil hydraulic properties exists within a field, even in those considered homogeneous. Spatial variability of water as a major driver of crop heterogeneity gains particular relevance within the context of precision agriculture, but modelling has devoted insufficient efforts to scale up from point to field the associated ‘cause-effect’ relations of water spatial variations. Seven crop simulation models (WOFOST, DSSAT, APSIM, DAISY, STICS, AquaCrop and MONICA) and five hydrologic models (HYDRUS-1D, HYDRUS-2D, SWAP, MIKE-SHE and SWIM) were selected and their water modelling approaches were systematically reviewed for comparison. Crop models rely mainly on ‘discrete’ and empirical approaches for modelling soil water movement while hydrologic models emphasize more ‘continuous’ and mechanistic ones. Combining both types of models may not be the best way forward as none of the models consider all of the processes which are relevant for the simulation of spatial variations. Hydrologic models pay more attention to spatially variable water processes than crop simulation models, although their focus is on scales higher than the field which is the relevant scale for assessing the influence of such variations on crop behaviour. Opportunities for progress in the spatial simulation of water processes at field level will probably come from two different directions. One implying a stronger synergism between both model families by using continuous-type approaches to simulate some mechanisms in existing crop models, and the other through the integration of lateral flows in the simulation of discrete water movement approaches.

Keywords: Crop-modelling; Water-balance; Spatial modelling; Water management; Precision agriculture (search for similar items in EconPapers)
Date: 2020
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Citations: View citations in EconPapers (9)

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Persistent link: https://EconPapers.repec.org/RePEc:eee:agiwat:v:240:y:2020:i:c:s0378377419321821

DOI: 10.1016/j.agwat.2020.106254

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