Intensive crop production in Po Valley (Northern Italy) is associated to high risk of nitrate leaching. A multi-year monitoring of soil solution nitrogen was conducted at 6 sites under the ordinary farm management of maize crop (Zea mays L.) in order to assess NO 3-N leaching. The amount of N fertilizer (organic+mineral) varied from 209 to 801kgNha -1year -1. Maize biomass ranged from 15 to 32tha -1 and N removal from 150 to 400kgha -1. Soil water solution was sampled at five depths along the soil profile (from 0.3 to 1.5m) at time intervals of 7-30 days using suction cups. Soil water content (SWC) was measured daily by TDR at the same depths of suction cups. Soil water NO 3-N concentrations varied from 0 to 110mgL -1, with the highest concentrations measured after fertilizer application. Once validated on measured SWC data, SWAP model was applied to estimate the drainage flux. Annual leaching was calculated by multiplying drainage flux by soil water NO 3-N concentration. N Leaching ranged from 14 to 321kgha -1year -1, according to fertilization, crop N removal, rainfall, irrigation management, and it was mainly affected by N surplus.
Nitrate leaching under maize cropping systems in Po Valley (Italy) / A. Perego, A. Basile, A. Bonfante, R. De Mascellis, F. Terribile, B. Brenna, M. Acutis. - In: AGRICULTURE, ECOSYSTEMS & ENVIRONMENT. - ISSN 0167-8809. - 147:1(2012), pp. 57-65. [10.1016/j.agee.2011.06.014]
Nitrate leaching under maize cropping systems in Po Valley (Italy)
A. PeregoPrimo
;M. AcutisUltimo
2012
Abstract
Intensive crop production in Po Valley (Northern Italy) is associated to high risk of nitrate leaching. A multi-year monitoring of soil solution nitrogen was conducted at 6 sites under the ordinary farm management of maize crop (Zea mays L.) in order to assess NO 3-N leaching. The amount of N fertilizer (organic+mineral) varied from 209 to 801kgNha -1year -1. Maize biomass ranged from 15 to 32tha -1 and N removal from 150 to 400kgha -1. Soil water solution was sampled at five depths along the soil profile (from 0.3 to 1.5m) at time intervals of 7-30 days using suction cups. Soil water content (SWC) was measured daily by TDR at the same depths of suction cups. Soil water NO 3-N concentrations varied from 0 to 110mgL -1, with the highest concentrations measured after fertilizer application. Once validated on measured SWC data, SWAP model was applied to estimate the drainage flux. Annual leaching was calculated by multiplying drainage flux by soil water NO 3-N concentration. N Leaching ranged from 14 to 321kgha -1year -1, according to fertilization, crop N removal, rainfall, irrigation management, and it was mainly affected by N surplus.
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