TY - JOUR
T1 - Monitoring and modelling canopy water storage amounts in support of atmospheric deposition studies
AU - Bouten, Willem
AU - Schaap, Marcel G.
AU - Aerts, Jeroen
AU - Vermetten, Aart W.M.
N1 - Funding Information:
It was made possible to carry out this study thanks to the efforts of P. Hakkaart of the Technical University of Delft and E. de Water and E. Sabajo of the University of Amsterdam in the development and construction of the measuring system. F.C. Bosveld of the Royal Netherlands Meteorological Institute is acknowledged for providing his meteorological data (Meteorological Set 1) and stimulating discussions. A. Tiktak provided data on rainfall (clearing) and throughfall. The research was partly funded by the Dutch Priority Programme on Acidification.
PY - 1996
Y1 - 1996
N2 - Canopy water storage amounts were measured with a newly developed measuring system based on the attenuation of a 10.26 GHz microwave signal. Every 5 min, vertical scans were made, over a period of 9 months. A physically based multi-layer interception model with empirical parameters was calibrated using a non-linear optimization technique. The calibrated model appeared to be capable of explaining up to 92% of the measured variance of water storage amounts for an independent validation period when using on-site measurements of meteorological variables. The performance decreased only slightly to 89% when other input sets were used for this period. These were necessary to extrapolate the results to longer time series required for evaluating canopy resistances in the study of deposition of airborne pollutants (Vermetten et al., Proc. 5th IPSASEP Conf., Vol. 3, 1992). The resemblance between measured throughfall amounts and simulated results and the plausibility of the model parameters, although they were optimized without setting any limits, enhances confidence in the model results.
AB - Canopy water storage amounts were measured with a newly developed measuring system based on the attenuation of a 10.26 GHz microwave signal. Every 5 min, vertical scans were made, over a period of 9 months. A physically based multi-layer interception model with empirical parameters was calibrated using a non-linear optimization technique. The calibrated model appeared to be capable of explaining up to 92% of the measured variance of water storage amounts for an independent validation period when using on-site measurements of meteorological variables. The performance decreased only slightly to 89% when other input sets were used for this period. These were necessary to extrapolate the results to longer time series required for evaluating canopy resistances in the study of deposition of airborne pollutants (Vermetten et al., Proc. 5th IPSASEP Conf., Vol. 3, 1992). The resemblance between measured throughfall amounts and simulated results and the plausibility of the model parameters, although they were optimized without setting any limits, enhances confidence in the model results.
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U2 - 10.1016/0022-1694(95)02907-9
DO - 10.1016/0022-1694(95)02907-9
M3 - Article
AN - SCOPUS:0030158028
SN - 0022-1694
VL - 181
SP - 305
EP - 321
JO - Journal of Hydrology
JF - Journal of Hydrology
IS - 1-4
ER -