2. Materials and methodsSoil evapor

2. Materials and methods
Soil evaporation was measured or estimated with different inorganic and organic mulching materials in laboratory (experiment 1) and field (experiments 2) conditions. In experiment 1, the top layer (0–10 cm) of a clayey soil located in the experimental farm of the Agrifood Research and Technology Center of Aragon (CITA) was used. The soil of experiment 2, located in the AFFRUCAS (Association of fruit growers of the County of Caspe) farm, has an average depth of 1.5 m and is classified as calcic haploxerept, fine loamy, mixed, thermic (Soil Survey Staff, 2006).

The field capacity (FC) and permanent wilting point (PWP) determinations were performed in the CITA laboratory with a pressure plate apparatus at pressures of 33 and 1500 kPa, respectively, according to Klute (1986). Disturbed soil samples were taken at several locations in each experiment with a 50 mm diameter auger. The particle size composition and the values of FC and PWP of the soils used in the two experiments are presented in Table 1 (means of three replications).

2.1. Experiment 1 (soil trays)
Soil evaporation from a saturated soil placed in plastic trays closed at the bottom and covered with different mulching materials was measured by weighing periodically the trays with a 0.1 g precision balance. The trays were located in a room maintained at constant air temperature (28 °C) and air relative humidity (60%). The trays (29 cm length, 19 cm width, and 5 cm height) were filled with 1000 g of air-dry soil. Based on a measured saturation percentage of the soil of 56 g per 100 g, the required amount of water was evenly added to each tray to bring it to saturation. The gravimetric values of FC and PWP of the soil were 27.5 g per 100 g and 18.7 g per 100 g, respectively (Table 1). Thereafter, the mulching materials were placed over the saturated soil in direct contact with it. The trays were weighed the first day of the trial just after the installation of the mulching materials over the saturated soil. The weight was measured three days after the beginning of the experiment and daily thereafter at 09:00 am. The positions of the eighteen trays on the bedplate were changed randomly every day.

Besides the control or bare soil, the following mulching materials were examined: black polyethylene (PE) film of 0.1 mm thickness with a specific weight of 0.09 g cm−3 (plastic); natural fibers of jute geotextile (Corchorpsus caularis) with a thickness of 5.5 mm and a specific weight of 0.10 g cm−3 (Ponpun Viscosa Yute-6.5 of 650 g m−2; Bontrech Co., Zaragoza, Spain) (geotextile); wheat chopped straw with 5 cm thickness and a specific weight of 0.08 g cm−3 (wheat straw); vine pruning residue with 5 cm thickness and a specific weight of 0.09 g cm−3 (vine residues); pine bark (chunks of 3 cm average diameter) with a thickness of 5 cm and a specific weight of 0.17 g cm−3 (pine bark).

The statistical design was at random with three replications per treatment.