Classifying low flow hydrological regimes at a regional scale
The paper uses a simple water balance model that partitions the precipitation between actual evapotranspiration, quick flow and delayed flow, and has sufficient complexity to capture the essence of climate and vegetation controls on this partitioning. Using this model, monthly flow duration curves have been constructed from climate data across Europe to address the relative frequency of ecologically critical low flow stages in semi-arid rivers, when flow commonly persists only in disconnected pools in the river bed. The hydrological model is based on a dynamic partitioning of precipitation to estimate water available for evapotranspiration and plant growth and for residual runoff. The duration curve for monthly flows has then been analysed to give an estimate of bankfull flow based on recurrence interval. Arguing from observed ratios of cross-sectional areas at flood and low flows, hydraulic geometry suggests that disconnected flow under >pool> conditions is approximately 0.1% of bankfull flow. Flow duration curves define a measure of bankfull discharge on the basis of frequency. The corresponding frequency for pools is then read from the duration curve, using this (0.1%) ratio to estimate pool discharge from bank full discharge. The flow duration curve then provides an estimate of the frequency of poorly connected pool conditions, corresponding to this discharge, that constrain survival of river-dwelling arthropods and fish. The methodology has here been applied across Europe at 15 km resolution, and the potential is demonstrated for applying the methodology under alternative climatic scenarios.
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European Geosciences Union
2011
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| Online Access: | http://hdl.handle.net/10261/74227 |
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dig-idaea-es-10261-742272020-07-09T09:39:45Z Classifying low flow hydrological regimes at a regional scale Kirkby, M. J. Gallart Gallego, Francesc Kjeldsen, T. R. Irvine, B. J. Froebrich, J. Lo Porto, A. Girolamo, Annalisa de MIRAGE team The paper uses a simple water balance model that partitions the precipitation between actual evapotranspiration, quick flow and delayed flow, and has sufficient complexity to capture the essence of climate and vegetation controls on this partitioning. Using this model, monthly flow duration curves have been constructed from climate data across Europe to address the relative frequency of ecologically critical low flow stages in semi-arid rivers, when flow commonly persists only in disconnected pools in the river bed. The hydrological model is based on a dynamic partitioning of precipitation to estimate water available for evapotranspiration and plant growth and for residual runoff. The duration curve for monthly flows has then been analysed to give an estimate of bankfull flow based on recurrence interval. Arguing from observed ratios of cross-sectional areas at flood and low flows, hydraulic geometry suggests that disconnected flow under >pool> conditions is approximately 0.1% of bankfull flow. Flow duration curves define a measure of bankfull discharge on the basis of frequency. The corresponding frequency for pools is then read from the duration curve, using this (0.1%) ratio to estimate pool discharge from bank full discharge. The flow duration curve then provides an estimate of the frequency of poorly connected pool conditions, corresponding to this discharge, that constrain survival of river-dwelling arthropods and fish. The methodology has here been applied across Europe at 15 km resolution, and the potential is demonstrated for applying the methodology under alternative climatic scenarios. The research reported here received funding from the European Community’s Seventh Framework Programme (FP7/2007-2011) under grant agreement 211732 (MIRAGE project). Peer Reviewed 2013-04-12T09:40:12Z 2013-04-12T09:40:12Z 2011 2013-04-12T09:40:12Z artículo http://purl.org/coar/resource_type/c_6501 doi: 10.5194/HESS-15-3741-2011 issn: 1027-5606 e-issn: 1607-7938 Hydrology and Earth System Sciences 15(12): 3741-3750 (2011) http://hdl.handle.net/10261/74227 10.5194/HESS-15-3741-2011 en #PLACEHOLDER_PARENT_METADATA_VALUE# info:eu-repo/grantAgreement/EC/FP7/211732 Publisher’s version http://dx.doi.org/10.5194/HESS-15-3741-2011 open European Geosciences Union Copernicus Publications |
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The paper uses a simple water balance model that partitions the precipitation between actual evapotranspiration, quick flow and delayed flow, and has sufficient complexity to capture the essence of climate and vegetation controls on this partitioning. Using this model, monthly flow duration curves have been constructed from climate data across Europe to address the relative frequency of ecologically critical low flow stages in semi-arid rivers, when flow commonly persists only in disconnected pools in the river bed. The hydrological model is based on a dynamic partitioning of precipitation to estimate water available for evapotranspiration and plant growth and for residual runoff. The duration curve for monthly flows has then been analysed to give an estimate of bankfull flow based on recurrence interval. Arguing from observed ratios of cross-sectional areas at flood and low flows, hydraulic geometry suggests that disconnected flow under >pool> conditions is approximately 0.1% of bankfull flow. Flow duration curves define a measure of bankfull discharge on the basis of frequency. The corresponding frequency for pools is then read from the duration curve, using this (0.1%) ratio to estimate pool discharge from bank full discharge. The flow duration curve then provides an estimate of the frequency of poorly connected pool conditions, corresponding to this discharge, that constrain survival of river-dwelling arthropods and fish. The methodology has here been applied across Europe at 15 km resolution, and the potential is demonstrated for applying the methodology under alternative climatic scenarios. |
| format |
artículo |
| author |
Kirkby, M. J. Gallart Gallego, Francesc Kjeldsen, T. R. Irvine, B. J. Froebrich, J. Lo Porto, A. Girolamo, Annalisa de MIRAGE team |
| spellingShingle |
Kirkby, M. J. Gallart Gallego, Francesc Kjeldsen, T. R. Irvine, B. J. Froebrich, J. Lo Porto, A. Girolamo, Annalisa de MIRAGE team Classifying low flow hydrological regimes at a regional scale |
| author_facet |
Kirkby, M. J. Gallart Gallego, Francesc Kjeldsen, T. R. Irvine, B. J. Froebrich, J. Lo Porto, A. Girolamo, Annalisa de MIRAGE team |
| author_sort |
Kirkby, M. J. |
| title |
Classifying low flow hydrological regimes at a regional scale |
| title_short |
Classifying low flow hydrological regimes at a regional scale |
| title_full |
Classifying low flow hydrological regimes at a regional scale |
| title_fullStr |
Classifying low flow hydrological regimes at a regional scale |
| title_full_unstemmed |
Classifying low flow hydrological regimes at a regional scale |
| title_sort |
classifying low flow hydrological regimes at a regional scale |
| publisher |
European Geosciences Union |
| publishDate |
2011 |
| url |
http://hdl.handle.net/10261/74227 |
| work_keys_str_mv |
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| _version_ |
1777669239294918656 |