Abstract
Irrigated agriculture is usually performed in semi-arid regions despite scarcity of water resources. Therefore, optimal irrigation management by monitoring the soil is essential, and assessing soil hydraulic properties and water flow dynamics is presented as a first measure. For this purpose, the control of volumetric water content, θ, and pressure head, h, is required. This study adopted two types of monitoring strategies in the same experimental plot to control θ and h in the vadose zone: i) non-automatic and more time-consuming; ii) automatic connected to a datalogger. Water flux was modelled with Hydrus-1D using the data collected from both acquisition strategies independently (3820 daily values for the automatic; less than 1000 for the non-automatic). Goodness-of-fit results reported a better adjustment in case of automatic sensors. Both model outputs adequately predicted the general trend of θ and h, but with slight differences in computed annual drainage (711 mm and 774 mm). Soil hydraulic properties were inversely estimated from both data acquisition systems. Major differences were obtained in the saturated volumetric water content, θs, and the n and α van Genuchten model shape parameters. Saturated hydraulic conductivity, Ks, shown lower variability with a coefficient of variation range from 0.13 to 0.24 for the soil layers defined. Soil hydraulic properties were better assessed through automatic data acquisition as data variability was lower and accuracy was higher.
Highlights
Water scarcity in arid and semi-arid regions is leading a strong competition among all sectors of water users; e.g., urban, industrial or agriculture (Medwsd Working Group, 2008; Jiménez-Martínez et al, 2009)
Data analysis shows that water content tends to take an almost constant value, or a field capacity threshold, immediately after water input, which indicates the high hydraulic diffusivity of soil
Similar trends between the volumetric water content measurements from both types of devices were observed, except for the manual measurements at depths of 45 cm and 60 cm, which presented a flat behaviour from day 350
Summary
Water scarcity in arid and semi-arid regions is leading a strong competition among all sectors of water users; e.g., urban, industrial or agriculture (Medwsd Working Group, 2008; Jiménez-Martínez et al, 2009). Efficient use of water resources is a fundamental objective in these regions, especially for agriculture, as it is the main consumer. To increase water use efficiency in water-scarce areas, deficit irrigation has been promoted in the few last years (Aguilar et al, 2007; Ucar et al, 2009; Hussein et al, 2011). Caution is recommended due to the high evapotranspiration values prevailing in arid and semi-arid regions, which could result in soil salinity depending on water quality and irrigation/rainfall rates (Scanlon et al, 2002; Amezketa, 2007; Dahan et al, 2008). Hydraulic properties and water flow dynamics in agricultural soils need to carefully be assessed
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