Peer-Reviewed Journal Details
Mandatory Fields
Vero, SE,Ibrahim, TG,Creamer, RE,Grant, J,Healy, MG,Henry, T,Kramers, G,Richards, KG,Fenton, O
2014
December
Journal Of Contaminant Hydrology
Consequences of varied soil hydraulic and meteorological complexity on unsaturated zone time lag estimates
Published
WOS: 15 ()
Optional Fields
Time lag Hydrus Water quality Unsaturated INTENSIVE DAIRY FARM SOUTH-EAST IRELAND SOLUTE-TRANSPORT PEDOTRANSFER FUNCTIONS WATER RETENTION OVERLAND-FLOW NITRATE CONCENTRATIONS MANAGEMENT-PRACTICES GROUNDWATER NITRATE TEMPORAL VARIATIONS
170
53
67
The true efficacy of a programme of agricultural mitigation measures within a catchment to improve water quality can be determined only after a certain hydrologic time lag period (subsequent to implementation) has elapsed. As the biophysical response to policy is not synchronous, accurate estimates of total time lag (unsaturated and saturated) become critical to manage the expectations of policy makers. The estimation of the vertical unsaturated zone component of time lag is vital as it indicates early trends (initial breakthrough), bulk (centre of mass) and total (Exit) travel times. Typically, estimation of time lag through the unsaturated zone is poor, due to the lack of site specific soil physical data, or by assuming saturated conditions. Numerical models (e.g. Hydrus 1D) enable estimates of time lag with varied levels of input data. The current study examines the consequences of varied soil hydraulic and meteorological complexity on unsaturated zone time lag estimates-using simulated and actual soil profiles. Results indicated that; greater temporal resolution (from daily to hourly) of meteorological data was more critical as the saturated hydraulic conductivity of the soil decreased; high clay content soils failed to converge reflecting prevalence of lateral component as a contaminant pathway; elucidation of soil hydraulic properties was influenced by the complexity of soil physical data employed (textural menu, ROSETTA, full and partial soil water characteristic curves), which consequently affected time lag ranges; as the importance of the unsaturated zone increases with respect to total travel times the requirements for high complexity/resolution input data become greater. The methodology presented herein demonstrates that decisions made regarding input data and landscape position will have consequences for the estimated range of vertical travel times. Insufficiencies or inaccuracies regarding such input data can therefore mislead policy makers regarding the achievability of water quality targets. (C) 2014 Elsevier B.V. All rights reserved.
10.1016/j.jconhyd.2014.10.002
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