Abstract
Soil hydraulic properties are crucial to agriculture and water management and depend on soil structure. The impact of Cu and Zn cations on the hydraulic properties of sandy and loamy clay soil samples of Central Greece, was investigated in the present study. Metal solutions with increased concentrations were used to contaminate the soil samples and the effect on hydraulic properties was evaluated, demonstrating the innovation of the current study. The soil samples were packed separately into transparent columns and the initial values of hydraulic conductivity, cumulative infiltration, infiltration rate and sorptivity were estimated. In order to evaluate soil adsorption, metal concentrations were measured at the water leachate. After the contamination of the soil samples, the hydraulic properties under investigation were determined again, using distilled water as the incoming fluid; the differences at the hydraulic parameters were observed. After doubling metal concentrations into the incoming solution of loamy clay soil, metal adsorption and the values of the hydraulic parameters increased significantly. Loamy clay soil showed interaction between the clay particles and the positive charge in the incoming fluid, which led to a possible increase in aggregation. Furthermore, aggregation may led to pore generation. Contamination of sandy soil exhibited no impact on aggregation and soil structure. In order to evaluate the differences on the hydraulic properties and soil structure, the experimental points were approximated with two infiltration models.
Highlights
Soil hydraulic properties strongly influence agricultural and environmental applications, due to their significant role in irrigation, drainage, water balance, nutrient leaching provision, water supply to crops [1]
The concentrations of all the metals studied were determined by atomic absorption spectrophotometry (AAS) using the flame (F-AAS) or the graphite furnace (GF) techniques [52,53] according to their detection limits
Two different concentrations of Cu were used in order to contaminate the sandy and the loamy clay soil samples and the same procedure was followed in the case of Zn
Summary
Soil hydraulic properties strongly influence agricultural and environmental applications, due to their significant role in irrigation, drainage, water balance, nutrient leaching provision, water supply to crops [1]. Infiltration is influenced by various physical soil properties, such as soil structure and texture, soil moisture, density, sorptivity, hydraulic conductivity, diffusivity, capacity, etc. Loamy clay soil showed a different behavior, as the remaining values of Cu and Zn cations were increased by 29% and 7%, respectively, after doubling Cu and Zn concentrations in the inflow solution. The presence of Cu and Zn cations in the incoming fluid affected cumulative infiltration, hydraulic conductivity, infiltration rate and sorptivity of loamy clay soil. On the other hand, doubling the concentration of Zn in the incoming fluid affected the adsorption by 7% (increase), while the effect on hydraulic parameters varied from 2.2% to 3.1%
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