Evaluation of atmospheric precipitable water from reanalysis products using homogenized radiosonde observations over China

Many multidecadal atmospheric reanalysis products are available now, but their consistencies and reliability are far from perfect. In this study, atmospheric precipitable water (PW) from the National Centers for Environmental Prediction/National Center for Atmospheric Research (NCEP/NCAR), NCEP/Depa...

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Bibliographic Details
Published in:Journal of geophysical research. Atmospheres 2015-10, Vol.120 (20), p.10,703-10,727
Main Authors: Zhao, Tianbao, Wang, Juanhuai, Dai, Aiguo
Format: Article
Language:English
Subjects:
Annual variations
Atmosphere
atmospheric precipitable water
Atmospheric research
Atmospherics
Bias
China
Climate
Climate science
Climate system
Climatology
Discontinuity
El Nino
Empirical analysis
Energy
Energy policy
ENVIRONMENTAL SCIENCES
Evaluation
Fields
Geophysics
Government agencies
homogenized radiosonde observations
Humidity
Interannual variations
Long-term changes
Lower troposphere
Meteorology
Modes
Plateaus
Precipitable water
Products
Radiosonde data
Radiosondes
reanalysis
Records
Relative humidity
Reliability
Robustness
Satellites
Southern Oscillation
Stratosphere
Temperature
Troposphere
Variance
Variance analysis
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Summary:Many multidecadal atmospheric reanalysis products are available now, but their consistencies and reliability are far from perfect. In this study, atmospheric precipitable water (PW) from the National Centers for Environmental Prediction/National Center for Atmospheric Research (NCEP/NCAR), NCEP/Department of Energy (DOE), Modern Era Retrospective‐Analysis for Research and Applications (MERRA), Japanese 55 year Reanalysis (JRA‐55), JRA‐25, ERA‐Interim, ERA‐40, Climate Forecast System Reanalysis (CFSR), and 20th Century Reanalysis version 2 is evaluated against homogenized radiosonde observations over China during 1979–2012 (1979–2001 for ERA‐40). Results suggest that the PW biases in the reanalyses are within ∼20% for most of northern and eastern China, but the reanalyses underestimate the observed PW by 20%–40% over western China and by ∼60% over the southwestern Tibetan Plateau. The newer‐generation reanalyses (e.g., JRA25, JRA55, CFSR, and ERA‐Interim) have smaller root‐mean‐square error than the older‐generation ones (NCEP/NCAR, NCEP/DOE, and ERA‐40). Most of the reanalyses reproduce well the observed PW climatology and interannual variations over China. However, few reanalyses capture the observed long‐term PW changes, primarily because they show spurious wet biases before about 2002. This deficiency results mainly from the discontinuities contained in reanalysis relative humidity fields in the middle‐lower troposphere due to the wet bias in older radiosonde records that are assimilated into the reanalyses. An empirical orthogonal function (EOF) analysis revealed two leading modes that represent the long‐term PW changes and El Niño–Southern Oscillation‐related interannual variations with robust spatial patterns. The reanalysis products, especially the MERRA and JRA‐25, roughly capture these EOF modes, which account for over 50% of the total variance. The results show that even during the post‐1979 satellite era, discontinuities in radiosonde data can still induce large spurious long‐term changes in reanalysis PW and other related fields. Thus, more efforts are needed to remove spurious changes in input data for future long‐term reanalyses. Key Points Most reanalyses reproduce well the observed PW climatology and interannual variations over China Few reanalyses capture the observed long‐term PW changes due to the wet biases before about 2002 The PW biases results mainly from the discontinuities contained in reanalysis relative humidity
ISSN:2169-897X
2169-8996
DOI:10.1002/2015JD023906