Seasonal precipitation interpolation at the Valencia region with multivariate methods using geographic and topographic information
The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known only at certain locations, interpolation procedures are needed in order to predict this variable in other regions. The use of multivariate i...
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| Published in: | International journal of climatology Vol. 30; no. 10; pp. 1547 - 1563 |
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| Format: | Journal Article |
| Language: | English |
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Chichester, UK
John Wiley & Sons, Ltd
01-08-2010
Wiley |
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| Abstract | The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known only at certain locations, interpolation procedures are needed in order to predict this variable in other regions. The use of multivariate interpolation methods is usually preferred, as secondary variables—generally derived using GIS tools—correlated with precipitation can be included. In this paper, a comparative study on different univariate and multivariate interpolation methodologies is presented. Our study area is centred in the region of Valencia, located to the eastern Spanish Mediterranean coast. The followed methodology can be divided in three steps. First, secondary variables having significant correlations with the precipitation were derived, where the hillsides were used as influence areas of certain variables. Secondly, precipitation was interpolated with different methodologies. Finally, the derived models were compared in terms of predicted errors. Models were achieved for seasonal scales, considering a total of 179 raingauges; data of another 45 raingauges were also used to predict errors. Results prove that there is no ideal method for all the cases but it will depend on one hand, on the number of geographical factors that influence the rainfall and, on the other hand, on the major or minor spatial correlation within the rainfall. Copyright © 2009 Royal Meteorological Society |
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| AbstractList | The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known only at certain locations, interpolation procedures are needed in order to predict this variable in other regions. The use of multivariate interpolation methods is usually preferred, as secondary variables-generally derived using GIS tools-correlated with precipitation can be included. In this paper, a comparative study on different univariate and multivariate interpolation methodologies is presented. Our study area is centred in the region of Valencia, located to the eastern Spanish Mediterranean coast. The followed methodology can be divided in three steps. First, secondary variables having significant correlations with the precipitation were derived, where the hillsides were used as influence areas of certain variables. Secondly, precipitation was interpolated with different methodologies. Finally, the derived models were compared in terms of predicted errors. Models were achieved for seasonal scales, considering a total of 179 raingauges; data of another 45 raingauges were also used to predict errors. Results prove that there is no ideal method for all the cases but it will depend on one hand, on the number of geographical factors that influence the rainfall and, on the other hand, on the major or minor spatial correlation within the rainfall. Abstract The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known only at certain locations, interpolation procedures are needed in order to predict this variable in other regions. The use of multivariate interpolation methods is usually preferred, as secondary variables—generally derived using GIS tools—correlated with precipitation can be included. In this paper, a comparative study on different univariate and multivariate interpolation methodologies is presented. Our study area is centred in the region of Valencia, located to the eastern Spanish Mediterranean coast. The followed methodology can be divided in three steps. First, secondary variables having significant correlations with the precipitation were derived, where the hillsides were used as influence areas of certain variables. Secondly, precipitation was interpolated with different methodologies. Finally, the derived models were compared in terms of predicted errors. Models were achieved for seasonal scales, considering a total of 179 raingauges; data of another 45 raingauges were also used to predict errors. Results prove that there is no ideal method for all the cases but it will depend on one hand, on the number of geographical factors that influence the rainfall and, on the other hand, on the major or minor spatial correlation within the rainfall. Copyright © 2009 Royal Meteorological Society The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known only at certain locations, interpolation procedures are needed in order to predict this variable in other regions. The use of multivariate interpolation methods is usually preferred, as secondary variables—generally derived using GIS tools—correlated with precipitation can be included. In this paper, a comparative study on different univariate and multivariate interpolation methodologies is presented. Our study area is centred in the region of Valencia, located to the eastern Spanish Mediterranean coast. The followed methodology can be divided in three steps. First, secondary variables having significant correlations with the precipitation were derived, where the hillsides were used as influence areas of certain variables. Secondly, precipitation was interpolated with different methodologies. Finally, the derived models were compared in terms of predicted errors. Models were achieved for seasonal scales, considering a total of 179 raingauges; data of another 45 raingauges were also used to predict errors. Results prove that there is no ideal method for all the cases but it will depend on one hand, on the number of geographical factors that influence the rainfall and, on the other hand, on the major or minor spatial correlation within the rainfall. Copyright © 2009 Royal Meteorological Society |
| Author | Balaguer‐Beser, Angel Portalés, Cristina Pardo‐Pascual, Josep E. Boronat, Nuria |
| Author_xml | – sequence: 1 givenname: Cristina surname: Portalés fullname: Portalés, Cristina email: criporri@upvnet.upv.es – sequence: 2 givenname: Nuria surname: Boronat fullname: Boronat, Nuria – sequence: 3 givenname: Josep E. surname: Pardo‐Pascual fullname: Pardo‐Pascual, Josep E. – sequence: 4 givenname: Angel surname: Balaguer‐Beser fullname: Balaguer‐Beser, Angel |
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| Cites_doi | 10.3354/cr014115 10.3354/cr023247 10.1002/joc.1131 10.1007/s11269-005-3179-2 10.1007/BF00878160 10.1002/(SICI)1097-0088(199910)19:12<1337::AID-JOC421>3.0.CO;2-G 10.1002/joc.614 10.1002/joc.680 10.1002/joc.951 10.1111/j.1752-1688.1988.tb02991.x 10.1002/1097-0088(20001130)20:14<1823::AID-JOC566>3.0.CO;2-B 10.1175/JHM560.1 10.3354/cr022099 10.1016/j.atmosres.2005.10.016 10.3354/cr010035 10.1175/1520-0450(1992)031<0661:PEIMTU>2.0.CO;2 10.1016/S0022-1694(00)00144-X 10.1002/1097-0088(200010)20:12<1451::AID-JOC547>3.0.CO;2-0 10.1016/S0168-1923(99)00169-0 10.1002/joc.928 10.3354/cr024161 10.5194/hess-5-139-2001 10.1002/esp.1126 10.1016/S0043-1354(01)00375-X 10.1016/S0022-1694(00)00232-8 10.1023/A:1012734519752 10.1175/1520-0442(2000)013<2217:RTCSTC>2.0.CO;2 10.1016/S0022-1694(02)00110-5 10.1175/2007JHM944.1 10.1093/oso/9780195115383.001.0001 10.1175/1520-0434(2001)016<0156:AOIBMF>2.0.CO;2 10.1175/1520-0450(1994)033<0140:ASTMFM>2.0.CO;2 10.1002/(SICI)1097-0088(199807)18:9<1031::AID-JOC303>3.0.CO;2-U 10.1175/1520-0442(2000)013<0746:SDAPOR>2.0.CO;2 10.1080/02626660009492319 10.1007/s00382-007-0338-6 |
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| Keywords | geostatistics Precipitation intensity atmospheric precipitation digital elevation model Spatial correlation kriging topography digital elevation models geographic information systems Multiple regression topographic variables Multivariate interpolation precipitation Spatial distribution Optimum interpolation Rain gauge Comparative study |
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| Snippet | The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is usually known... Abstract The spatial pattern of precipitation is a complex variable that strongly depends on other geographic and topographic factors. As precipitation is... |
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| SubjectTerms | digital elevation model Earth, ocean, space Exact sciences and technology External geophysics Geophysics. Techniques, methods, instrumentation and models geostatistics Meteorology multiple regression precipitation topographic variables Water in the atmosphere (humidity, clouds, evaporation, precipitation) |
| Title | Seasonal precipitation interpolation at the Valencia region with multivariate methods using geographic and topographic information |
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