Journal of Hydrology and Hydromechanics (Sep 2015)

Surface and subsurface flow in eucalyptus plantations in north-central Portugal

  • Boulet Anne-K.,
  • Prats Sergio A.,
  • Malvar Maruxa C.,
  • González-Pelayo Oscar,
  • Coelho Celeste O.A.,
  • Ferreira Antonio J.D.,
  • Keizer Jan J.

DOI
https://doi.org/10.1515/johh-2015-0015
Journal volume & issue
Vol. 63, no. 3
pp. 193 – 200

Abstract

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In the Baixo Vouga region of north-central Portugal, forests occupy half of the territory, of which two thirds are Eucalypts plantations. The hydrological implications of this large-scale introduction of eucalypt are unknown and the aim of this exploratory study, realized in the Caramulo Mountains, was to describe overland flow (OLF), subsurface flow (SSF) and stream flow (Q) in a catchment dominated by Eucalyptus plantations. The main conclusions are that annual OLF rate is low, spatially heterogeneous between 0.1% and 6% and concentrated during the wet season as saturation excess, particularly as return flow. Infiltration-excess OLF due to the strong soil water repellence (SWR) is dominant during dry season, but produces residual runoff amount. SSF is the principal mechanism of runoff formation. It originates from matrix flow and pipe flow at the soil-bedrock interface, principally during the wet season. Matrix flow is correlated with soil moisture (SM) content, with a threshold of 25 %. Pipe flow starts with saturation of soil bottom but without saturation of the entire soil profile, due to a large network of macropores. Stream flow response is highly correlated with matrix flow behaviour in timing and intensity. SWR induces a very patchy moistening of the soil, concentrates the fluxes and accelerates them almost 100 times greater than normal percolation of the water in the matrix.

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