Modelling evaporation from a drained and rewetted peatland
Evaporation from a cutover raised bog in The Netherlands was modelled using a detailed, physically based evaporation model for heterogeneous vegetation and unsaturated soil water flow “SWAPS”. The model enables a quantification of the role of heterogeneity on evaporation. Micro-meteorological measur...
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| Published in | Journal of hydrology (Amsterdam) Vol. 199; no. 3; pp. 252 - 271 |
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| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
Elsevier B.V
10.12.1997
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0022-1694 1879-2707 |
| DOI | 10.1016/S0022-1694(96)03337-9 |
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| Abstract | Evaporation from a cutover raised bog in The Netherlands was modelled using a detailed, physically based evaporation model for heterogeneous vegetation and unsaturated soil water flow “SWAPS”. The model enables a quantification of the role of heterogeneity on evaporation. Micro-meteorological measurements above a vegetation of
Molinia caerulea (purple moor grass) in the cutover raised bog “Engbertsdijksvenen” are used for calibration and validation of the model. In the present study, it is investigated how small scale heterogeneity affects the prediction of evaporation. Therefore, two hypothetical variants, which represent two possible types of small scale heterogeneity in peatlands, are evaluated: (1) peatland in which drainage has resulted in a vegetation cover of 50% purple moor grass and 50% birch, (2) peatland in which after rewetting the vegetation consists of 50% purple moor grass and 50%
Sphagnum mosses. The results show that characteristics of the evaporation from purple moor grass in the two variants are dissimilar. The evaporation from purple moor grass, forming the lower components of a vegetation stand (variant 1), can be accurately predicted via radiation based models. In case purple moor grass is the exposed part of the vegetation (variant 2), such models are not likely to predict the evaporation from purple moor grass correctly. An exposed, aerodynamically rough vegetation requires a model that accounts for the vapour pressure deficit as well. |
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| AbstractList | Evaporation from a cutover raised bog in The Netherlands was modelled using a detailed, physically based evaporation model for heterogeneous vegetation and unsaturated soil water flow `SWAPS'. The model enables a quantification of the role of heterogeneity on evaporation. Micro-meteorological measurements above a vegetation of Molinia caerulea (purple moor grass) in the cutover raised bog `Engbertsdijksvenen' are used for calibration and validation of the model. In the present study, it is investigated how small scale heterogeneity affects the prediction of evaporation. Therefore, two hypothetical variants, which represent two possible types of small scale heterogeneity in peatlands, are evaluated: (1) peatland in which drainage has resulted in a vegetation cover of 50% purple moor grass and 50% birch, (2) peatland in which after rewetting the vegetation consists of 50% purple moor grass and 50% Sphagnum mosses. The results show that characteristics of the evaporation from purple moor grass in the two variants are dissimilar. The evaporation from purple moor grass, forming the lower components of a vegetation stand (variant 1), can be accurately predicted via radiation based models. In case purple moor grass is the exposed part of the vegetation (variant 2), such models are not likely to predict the evaporation from purple moor grass correctly. An exposed, aerodynamically rough vegetation requires a model that accounts for the vapour pressure deficit as well. Most vegetative evaporation models have focused on crops and forests. A model was developed for a cutover raised bog in The Netherlands, based on a physical evaporation model for heterogeneous vegetation and soil water flow-SWAPS. The model quantifies the role of heterogeneity on evaporation. Model calibration and validation are discussed. Two hypothetical variants representing two possible types of small scale heterogeneity in peatlands were evaluated to show that evaporation characteristics in the two types are not similar, and may be more accurate in some cases than in others. An exposed, aerodynamically rough type of vegetation (e.g., purple moor grass) requires a model that also accounts for the vapor pressure deficit. Evaporation from a raised bog, last cut for peat in 1984 and subject to some restoration, was modelled with a detailed physically based evaporation model for heterogeneous vegetation and unsaturated soil water flow (SWAPS). It was a land surface model comprising a 2-layer evaporation-interception scheme and an unsaturated soil moisture flow scheme. The model calculated water and energy balances from micro-meteorological data, accounting for feedback and coupling between processes in the soil, vegetation and the atmospheric surface layer. It was calibrated from measurements made above purple moor grass in a similar raised bog to that studied. The effect of small-scale heterogeneity on the prediction of evaporation was examined by evaluating 2 hypothetical variants: peatland with equal areas of purple moor grass and birch; and peatland with equal areas of purple moor grass and Sphagnum mosses. The characteristics of the evaporation from purple moor grass were dissimilar. Where the grass formed the lower components of a vegetation stand, evaporation from it could be accurately predicted by radiation based models. When the grass was the exposed part of the vegetation this type of model was unsatisfactory because it did not account for the vapour pressure deficit. The same consideration applied to the birch which acted as aerodynamically rough component of the vegetation in the first variant. Evaporation from a cutover raised bog in The Netherlands was modelled using a detailed, physically based evaporation model for heterogeneous vegetation and unsaturated soil water flow “SWAPS”. The model enables a quantification of the role of heterogeneity on evaporation. Micro-meteorological measurements above a vegetation of Molinia caerulea (purple moor grass) in the cutover raised bog “Engbertsdijksvenen” are used for calibration and validation of the model. In the present study, it is investigated how small scale heterogeneity affects the prediction of evaporation. Therefore, two hypothetical variants, which represent two possible types of small scale heterogeneity in peatlands, are evaluated: (1) peatland in which drainage has resulted in a vegetation cover of 50% purple moor grass and 50% birch, (2) peatland in which after rewetting the vegetation consists of 50% purple moor grass and 50% Sphagnum mosses. The results show that characteristics of the evaporation from purple moor grass in the two variants are dissimilar. The evaporation from purple moor grass, forming the lower components of a vegetation stand (variant 1), can be accurately predicted via radiation based models. In case purple moor grass is the exposed part of the vegetation (variant 2), such models are not likely to predict the evaporation from purple moor grass correctly. An exposed, aerodynamically rough vegetation requires a model that accounts for the vapour pressure deficit as well. |
| Author | Dolman, A.J. Spieksma, J.F.M. Schouwenaars, J.M. Moors, E.J. |
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| Cites_doi | 10.1016/0168-1923(94)02180-R 10.1098/rstb.1976.0035 10.1007/BF00119440 10.1175/1520-0493(1972)100<0081:OTAOSH>2.3.CO;2 10.1007/BF00120056 10.1016/0002-1571(71)90034-3 10.1002/joc.3370150110 10.1016/0168-1923(88)90042-1 10.1256/smsqj.46909 10.1016/0304-3770(94)90019-1 10.2166/nh.1994.0011 10.1016/0022-1694(83)90045-8 10.1016/0168-1923(88)90003-2 10.1016/0168-1923(94)02178-M 10.1016/0304-3770(88)90019-8 10.1016/0304-3770(90)90020-L 10.1016/0168-1923(93)90036-H 10.2166/nh.1996.0007 10.1016/0022-1694(88)90182-5 10.1016/0168-1923(90)90047-A 10.1016/0304-3770(92)90081-S |
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| Keywords | Drainage Evaporation Rewetting Peatland |
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| Snippet | Evaporation from a cutover raised bog in The Netherlands was modelled using a detailed, physically based evaporation model for heterogeneous vegetation and... Evaporation from a raised bog, last cut for peat in 1984 and subject to some restoration, was modelled with a detailed physically based evaporation model for... Most vegetative evaporation models have focused on crops and forests. A model was developed for a cutover raised bog in The Netherlands, based on a physical... |
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| SubjectTerms | Accuracy Aerodynamics Aircraft components Betula Calibration Drainage Evaporation evapotranspiratie evapotranspiration Exposure Forming Freshwater Grasses Heterogeneity hydraulic conductivity hydraulisch geleidingsvermogen hydrologie Hydrology infiltratie infiltration kwel Mathematical models mathematics and statistics model validation modellen Molinia caerulea mosses and liverworts Netherlands onderzoek peat soils Peatland Peatlands Plants (botany) prediction Radiation Rewetting seepage soil chemistry soil physics soil science soil water Sphagnum Supports Vapor pressure Vapors veengronden Vegetation vegetation cover water flow Wetting |
| Title | Modelling evaporation from a drained and rewetted peatland |
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