A long-term elution experiment to study the saturated transport of pre-accumulated fertilizers by-products, was conducted within a large tank (4 x 8 x 1.4 m) equipped with 26 standard piezometers. Sandy sediments (35 m(3)), used to fill the tank, were excavated from an unconfined alluvial aquifer near Ferrara (Northern Italy); the field site was connected to a pit lake located in a former agricultural field. To evaluate spatial heterogeneity, the tank's filling material was characterized via slug tests and grain-size distribution analysis. The investigated sediments were characterized by a large spectrum of textures and a heterogeneous hydraulic conductivity (k) field. Initial tank pore water composition exhibited high concentration of nitrate (NO(3) (-)) sulfate (SO(4) (2-)) calcium (Ca(2+)), and magnesium (Mg(2+)), due to fertilizer leaching from the top soil in the field site. The initial spatial distribution of NO(3) (-) and SO(4) (2-) was heterogeneous and not related to the finer grain-size content (< 63 mu m). The tank's material was flushed with purified tap water for 800 days in steady-state conditions; out flowing water was regularly sampled to monitor the migration rate of fertilizer by-products. Complete removal of NO(3) (-) and SO(4) (2-) took 500 and 600 days, respectively. Results emphasized organic substrate availability and spatial heterogeneities as the most important constraints to denitrification and nitrogen removal, which increase the time required to achieve remediation targets. Finally, the obtained clean-up time was compared with a previous column experiment filled with the same sediments.
Large tank experiment on nitrate fate and transport: the role of permeability distribution / M., Mastrocicco; Colombani, Nicolo'; S., Palpacelli; G., Castaldelli. - In: ENVIRONMENTAL EARTH SCIENCES. - ISSN 1866-6280. - STAMPA. - 63:5(2011), pp. 903-914. [10.1007/s12665-010-0759-0]
Large tank experiment on nitrate fate and transport: the role of permeability distribution
COLOMBANI, NICOLO';
2011
Abstract
A long-term elution experiment to study the saturated transport of pre-accumulated fertilizers by-products, was conducted within a large tank (4 x 8 x 1.4 m) equipped with 26 standard piezometers. Sandy sediments (35 m(3)), used to fill the tank, were excavated from an unconfined alluvial aquifer near Ferrara (Northern Italy); the field site was connected to a pit lake located in a former agricultural field. To evaluate spatial heterogeneity, the tank's filling material was characterized via slug tests and grain-size distribution analysis. The investigated sediments were characterized by a large spectrum of textures and a heterogeneous hydraulic conductivity (k) field. Initial tank pore water composition exhibited high concentration of nitrate (NO(3) (-)) sulfate (SO(4) (2-)) calcium (Ca(2+)), and magnesium (Mg(2+)), due to fertilizer leaching from the top soil in the field site. The initial spatial distribution of NO(3) (-) and SO(4) (2-) was heterogeneous and not related to the finer grain-size content (< 63 mu m). The tank's material was flushed with purified tap water for 800 days in steady-state conditions; out flowing water was regularly sampled to monitor the migration rate of fertilizer by-products. Complete removal of NO(3) (-) and SO(4) (2-) took 500 and 600 days, respectively. Results emphasized organic substrate availability and spatial heterogeneities as the most important constraints to denitrification and nitrogen removal, which increase the time required to achieve remediation targets. Finally, the obtained clean-up time was compared with a previous column experiment filled with the same sediments.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.