GCM Simulations of Stable Isotopes in the Water Cycle in Comparison with GNIP Observations over East Asia
In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (Univer- sity of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precip-...
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| Published in | Acta meteorologica Sinica Vol. 26; no. 4; pp. 420 - 437 |
|---|---|
| Main Author | |
| Format | Journal Article |
| Language | English |
| Published |
Heidelberg
The Chinese Meteorological Society
01.08.2012
College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China%Centre for Australian Weather and Climate Research, Melbourne 3001, Australia%College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China School of the Environment, National Centre for Groundwater Research and Training,Flinders University, Adelaide 5001, Australia |
| Subjects | |
| Online Access | Get full text |
| ISSN | 0894-0525 2191-4788 |
| DOI | 10.1007/s13351-012-0403-x |
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| Abstract | In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (Univer- sity of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precip- itation) observations. The spatial distributions of mean annual δD and mean annual deuterium excess d in precipitation, and the relationship between δ18O and δD in precipitation, are compared between GCMs and GNIP data over East Asia. Overall, the four GCMs reproduce major characteristics of δD in precipitation as observed by GNIP. Among the four models, the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation δD distribution. The simulated d distributions are less consistent with the GNIP results. This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs. The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL, but the simulated MWL intercepts are significantly overestimated. This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well. In term of LMWLs (local meteoric water lines), the simulated LMWL slopes are similar to those from GNIP observa- tions, but slightly overestimated for most locations. Overall, ECHAM4 has better capability in simulating MWL and LMWLs, followed by GISS E. Some isotopic functions (especially those related to kinetic frac- tionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results. Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. |
|---|---|
| AbstractList | In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (University of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precipitation) observations. The spatial distributions of mean annual
δ
D and mean annual deuterium excess
d
in precipitation, and the relationship between
δ
18
O and
δ
D in precipitation, are compared between GCMs and GNIP data over East Asia. Overall, the four GCMs reproduce major characteristics of
δ
D in precipitation as observed by GNIP. Among the four models, the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation
δ
D distribution. The simulated
d
distributions are less consistent with the GNIP results. This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs. The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL, but the simulated MWL intercepts are significantly overestimated. This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well. In term of LMWLs (local meteoric water lines), the simulated LMWL slopes are similar to those from GNIP observations, but slightly overestimated for most locations. Overall, ECHAM4 has better capability in simulating MWL and LMWLs, followed by GISS E. Some isotopic functions (especially those related to kinetic fractionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results. Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (Univer- sity of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precip- itation) observations. The spatial distributions of mean annual δD and mean annual deuterium excess d in precipitation, and the relationship between δ18O and δD in precipitation, are compared between GCMs and GNIP data over East Asia. Overall, the four GCMs reproduce major characteristics of δD in precipitation as observed by GNIP. Among the four models, the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation δD distribution. The simulated d distributions are less consistent with the GNIP results. This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs. The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL, but the simulated MWL intercepts are significantly overestimated. This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well. In term of LMWLs (local meteoric water lines), the simulated LMWL slopes are similar to those from GNIP observa- tions, but slightly overestimated for most locations. Overall, ECHAM4 has better capability in simulating MWL and LMWLs, followed by GISS E. Some isotopic functions (especially those related to kinetic frac- tionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results. Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (University of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precipitation) observations. The spatial distributions of mean annual Delta *dD and mean annual deuterium excess d in precipitation, and the relationship between Delta *d 18O and Delta *dD in precipitation, are compared between GCMs and GNIP data over East Asia. Overall, the four GCMs reproduce major characteristics of Delta *dD in precipitation as observed by GNIP. Among the four models, the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation Delta *dD distribution. The simulated d distributions are less consistent with the GNIP results. This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs. The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL, but the simulated MWL intercepts are significantly overestimated. This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well. In term of LMWLs (local meteoric water lines), the simulated LMWL slopes are similar to those from GNIP observations, but slightly overestimated for most locations. Overall, ECHAM4 has better capability in simulating MWL and LMWLs, followed by GISS E. Some isotopic functions (especially those related to kinetic fractionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results. Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. P426.6; In this paper,we examine the performance of four isotope incorporated GCMs,i.e.,ECHAM4 (University of Hamburg),HadCM3 (Hadley Centre),GISS E (Goddard Institute of Space Sciences),and MUGCM (Melbourne University),by comparing the model results with GNIP (Global Network of Isotopes in Precipitation) observations.The spatial distributions of mean annual δD and mean annual deuterium excess d in precipitation,and the relationship between δ18O and δD in precipitation,are compared between GCMs and GNIP data over East Asia.Overall,the four GCMs reproduce major characteristics of δD in precipitation as observed by GNIP.Among the four models,the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation δD distribution.The simulated d distributions are less consistent with the GNIP results.This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs.The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL,but the simulated MWL intercepts are significantly overestimated.This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well.In term of LMWLs (local meteoric water lines),the simulated LMWL slopes are similar to those from GNIP observations,but slightly overestimated for most locations.Overall,ECHAM4 has better capability in simulating MWL and LMWLs,followed by GISS E.Some isotopic functions (especially those related to kinetic fractionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results.Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. |
| Author | 章新平 孙治安 关华德 张新主 吴华武 黄一民 |
| AuthorAffiliation | College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China Centre for Australian Weather and Climate Research, Melbourne 3001, Australia School of the Environment, National Centre for Groundwater Research and Training, Flinders University, Adelaide 5001, Australia |
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| Cites_doi | 10.1175/1520-0477(1999)080<0029:AOOTRO>2.0.CO;2 10.1007/BF02907091 10.1029/JD092iD12p14739 10.1002/qj.49711649504 10.1002/joc.1740 10.1111/j.2153-3490.1964.tb00181.x 10.1175/JCLI3612.1 10.1175/1520-0469(1978)035<1557:AGSMFS>2.0.CO;2 10.1029/98JD02582 10.1007/s00376-003-0012-9 10.1360/04wd0030 10.1038/311024a0 10.1029/98JD00423 10.1029/JC084iC08p05029 10.1126/science.133.3465.1702 10.1007/s003820050140 10.1002/qj.49711750106 10.1175/1520-0477(1997)078<2539:GPAYMA>2.0.CO;2 10.1175/1520-0442(2002)015<3150:ABOOWA>2.0.CO;2 10.1029/2002JD002670 10.1029/2008JD010825 10.1029/2008JD009839 10.1029/2005JD005790 10.1007/BF02837526 10.1029/2008JD010209 10.1360/csb2009-54-6-804 10.1029/2006JD007657 10.1016/B978-0-12-460817-7.50010-0 10.1029/2009JD012054 |
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| Copyright | The Chinese Meteorological Society and Springer-Verlag Berlin Heidelberg 2012 Copyright © Wanfang Data Co. Ltd. All Rights Reserved. |
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| DocumentTitleAlternate | GCM Simulations of Stable Isotopes in the Water Cycle in Comparison with GNIP Observations over East Asia |
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| Notes | GCM; GNIP, stable isotope, deuterium excess, meteoric water line 11-2277/P In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (Univer- sity of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard Institute of Space Sciences), and MUGCM (Melbourne University), by comparing the model results with GNIP (Global Network of Isotopes in Precip- itation) observations. The spatial distributions of mean annual δD and mean annual deuterium excess d in precipitation, and the relationship between δ18O and δD in precipitation, are compared between GCMs and GNIP data over East Asia. Overall, the four GCMs reproduce major characteristics of δD in precipitation as observed by GNIP. Among the four models, the results of ECHAM4 and GISS E are more consistent with GNIP observed precipitation δD distribution. The simulated d distributions are less consistent with the GNIP results. This may indicate that kinetic fractionation processes are not appropriately represented in the isotopic schemes of GCMs. The GCM modeled MWL (meteoric water line) slopes are close to the GNIP derived MWL, but the simulated MWL intercepts are significantly overestimated. This supports that the four isotope incorporated GCMs may not represent the kinetic fractionation processes well. In term of LMWLs (local meteoric water lines), the simulated LMWL slopes are similar to those from GNIP observa- tions, but slightly overestimated for most locations. Overall, ECHAM4 has better capability in simulating MWL and LMWLs, followed by GISS E. Some isotopic functions (especially those related to kinetic frac- tionation) and their parameterizations in GCMs may have caused the discrepancy between the simulated and GNIP observed results. Future work is recommended to improve isotopic function parameterization on the basis of the high-resolution isotope observations. ZHANG Xinpin , SUN Zhian , GUAN Huade , ZHANG Xinzhu , Wu Huawu , and Huang Yimin 1 College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China 2 Centre for Australian Weather and Climate Research, Melbourne 3001, Australia 3 School of the Environment, National Centre for Groundwater Research and Training, Flinders University, Adelaide 5001, Australia ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 |
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| Publisher | The Chinese Meteorological Society College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China%Centre for Australian Weather and Climate Research, Melbourne 3001, Australia%College of Resources and Environmental Sciences, Hunan Normal University, Changsha 410081, China School of the Environment, National Centre for Groundwater Research and Training,Flinders University, Adelaide 5001, Australia |
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| Snippet | In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (Univer- sity of Hamburg), HadCM3 (Hadley Centre), GISS E... In this paper, we examine the performance of four isotope incorporated GCMs, i.e., ECHAM4 (University of Hamburg), HadCM3 (Hadley Centre), GISS E (Goddard... P426.6; In this paper,we examine the performance of four isotope incorporated GCMs,i.e.,ECHAM4 (University of Hamburg),HadCM3 (Hadley Centre),GISS E (Goddard... |
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| SubjectTerms | Atmospheric Protection/Air Quality Control/Air Pollution Atmospheric Sciences Earth and Environmental Science Earth Sciences GCM Geophysics and Environmental Physics Meteorology 东亚地区 同位素动力学 大气环流模型 大气环流模式 模拟 稳定同位素 降水线 |
| Title | GCM Simulations of Stable Isotopes in the Water Cycle in Comparison with GNIP Observations over East Asia |
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