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Analysis of seasonal variation in the hydrological behaviour of a field combining surface and tile drainage

Author

Listed:
  • Gaillot, Arthur
  • Delbart, Célestine
  • Salvador-Blanes, Sébastien
  • Vanhooydonck, Pierre
  • Desmet, Marc
  • Grangeon, Thomas
  • Noret, Aurélie
  • Cerdan, Olivier

Abstract

Agricultural drainage increases hydrological connectivity between fields and receiving environments. Tile drains and drainage ditches are the main drainage types studied at the field scale. They can be associated with temporary surface drains to improve the removal of surface water. Combining surface drains with tile drains is likely to modify surface runoff and soil water dynamics. The behaviour of tile-drained fields has been studied at the event scale, but few studies have been conducted over a full hydrological year, and no studies have quantified water volumes in a field combining surface and tile drainage. So quantifications of water partition between surface drainage, tile drainage and soil water are needed to understand the hydrological behaviour of a field combining surface and tile drains. Moreover, at the event scale, few studies showed macropores can contribute to tile drain runoff but the partition between preferential flow and matrix flow is still unclear. It needs to be study depending on several parameters as soil type, soil water content or agricultural practice for a better understanding. In this study, high temporal resolution quantification of surface runoff and tile drainage was conducted for two full hydrological years to study hydrological functioning of the field using the water balance for a drained field. Soil water pathways were studied under dry and saturated soil conditions, tracing water by measuring stable isotope (18O and 2H) concentrations in rainwater, soil water, and surface and tile runoff. Runoff quantification showed that surface drainage and tile drainage respectively transferred 44% and 20% of annual effective rainfall. However, water balance showed that, at the annual scale, 65% of infiltrating water was not captured by tile drains. At the event scale, water tracing showed a season variation in macropores contribution depending on soil hydric state. Under dry conditions, rainwater was directly transferred to tile drains, likely through macropores. On saturated soil, pre-event soil water content provided most of the water flowing out from the tile drain, but rainfall can contribute up to 25% of the water flowing out from the tile drains. Combining water balance and water trancing allowed to propose a conceptual model for surface and tile drainage hydrological functioning at the event scale.

Suggested Citation

  • Gaillot, Arthur & Delbart, Célestine & Salvador-Blanes, Sébastien & Vanhooydonck, Pierre & Desmet, Marc & Grangeon, Thomas & Noret, Aurélie & Cerdan, Olivier, 2023. "Analysis of seasonal variation in the hydrological behaviour of a field combining surface and tile drainage," Agricultural Water Management, Elsevier, vol. 285(C).
  • Handle: RePEc:eee:agiwat:v:285:y:2023:i:c:s0378377423001944
    DOI: 10.1016/j.agwat.2023.108329
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