TY - JOUR
T1 - Groundwater recharge and evapotranspiration for two natural ecosystems covered with oak and heather
AU - Ladekarl, U.L.
AU - Rasmussen, K.R.
AU - Christensen, S.
AU - Jensen, K.H.
AU - Hansen, B.
N1 - Funding Information:
The authors wish to thank Ole Jensen, Kirsten Rosendahl Nørnberg, and Erik Jensen at the University of Aarhus, Denmark, for technical assistance. Kirsten Schelde, Research Centre Foulum, Denmark, Per-Erik Jansson, Royal Institute of Technology, Stockholm, Sweden, and Peter Engesgaard, Geological Institute, University of Copenhagen Denmark, are thanked for their advice on the models. Knud Erik Nielsen, National Environmental Research Institute, Silkeborg, Denmark, is thanked for the throughfall measurements. The research was funded by the Faculty of Science, University of Aarhus, County of Viborg and the National Environmental Research Programme (the HEATH-project).
PY - 2005/1/10
Y1 - 2005/1/10
N2 - The evapotranspiration and groundwater recharge from two natural areas with high (oak) and low (heath) vegetation were estimated by calibrating a semi-physical numerical soil water and heat model to fit 8 and 7 years of TDR-measurements of water content, respectively. The measurements were made between the surface and 7 m depth. For the oak stand, the estimated annual recharge for the years 1992-1999 is 390 mm, the evaporation from soil and interception is 205 mm, and the transpiration is 285 mm. For the heath area estimation was carried out for the years 1993-1999. However, the heath was struck by a heavy beetle attack in 1994, which strongly affected the vegetation and thus the water balance for the following 3 years. For years not affected, the estimated recharge is 733 mm (about 50% larger than for the oak stand for the same years), the evaporation is 316 mm, and the transpiration is 128 mm. The estimated recharge values compare fairly well to estimates obtained from bromide tracer experiments. However, the recharge estimates obtained from the tracer experiments are very uncertain. The uncertainty is mainly due to spatial heterogeneity making the three replicate samples taken here for each time and depth insufficient. The analyses of TDR-measurements and tracer data showed that water front movement depends on the antecedent soil water content. Some layers are bypassed, especially at low water contents, and at high soil water contents preferential flow was observed at the heath site.
AB - The evapotranspiration and groundwater recharge from two natural areas with high (oak) and low (heath) vegetation were estimated by calibrating a semi-physical numerical soil water and heat model to fit 8 and 7 years of TDR-measurements of water content, respectively. The measurements were made between the surface and 7 m depth. For the oak stand, the estimated annual recharge for the years 1992-1999 is 390 mm, the evaporation from soil and interception is 205 mm, and the transpiration is 285 mm. For the heath area estimation was carried out for the years 1993-1999. However, the heath was struck by a heavy beetle attack in 1994, which strongly affected the vegetation and thus the water balance for the following 3 years. For years not affected, the estimated recharge is 733 mm (about 50% larger than for the oak stand for the same years), the evaporation is 316 mm, and the transpiration is 128 mm. The estimated recharge values compare fairly well to estimates obtained from bromide tracer experiments. However, the recharge estimates obtained from the tracer experiments are very uncertain. The uncertainty is mainly due to spatial heterogeneity making the three replicate samples taken here for each time and depth insufficient. The analyses of TDR-measurements and tracer data showed that water front movement depends on the antecedent soil water content. Some layers are bypassed, especially at low water contents, and at high soil water contents preferential flow was observed at the heath site.
KW - Evapotranspiration
KW - Recharge
KW - TDR
KW - Tracer
KW - Water balance
UR - http://www.scopus.com/inward/record.url?scp=9944253840&partnerID=8YFLogxK
U2 - 10.1016/j.jhydrol.2004.05.003
DO - 10.1016/j.jhydrol.2004.05.003
M3 - Article
AN - SCOPUS:9944253840
SN - 0022-1694
VL - 300
SP - 76
EP - 99
JO - Journal of Hydrology
JF - Journal of Hydrology
IS - 1-4
ER -