The JRA-25 Reanalysis
スポンサーリンク
概要
- 論文の詳細を見る
A long-term global atmospheric reanalysis, named "Japanese 25-year Reanalysis (JRA-25)" was completed using the Japan Meteorological Agency (JMA) numerical assimilation and forecast system. The analysis covers the period from 1979 to 2004. This is the first long-term reanalysis undertaken in Asia. JMA's latest numerical assimilation system, and specially collected observational data, were used to generate a consistent and high-quality reanalysis dataset designed for climate research and operational monitoring and forecasts. One of the many purposes of JRA-25 is to enhance the analysis to a high quality in the Asian region. Six-hourly data assimilation cycles were performed, producing 6-hourly atmospheric analysis and forecast fields of various physical variables. The global model used in JRA-25 has a spectral resolution of T106 (equivalent to a horizontal grid size of around 120 km) and 40 vertical layers with the top level at 0.4 hPa. In addition to conventional surface and upper air observations, atmospheric motion vector (AMV) wind retrieved from geostationary satellites, brightness temperature from TIROS Operational Vertical Sounder (TOYS), precipitable water retrieved from orbital satellite microwave radiometer radiance and other satellite data are assimilated with three-dimensional variational method (3D-Var). JMA produced daily sea surface temperature (SST), sea ice and three-dimensional ozone profiles for JRA-25. A new quality control method for TOYS data was developed and applied in advance. Many advantages have been found in the JRA-25 reanalysis. Predicted 6-hour global total precipitation distribution and amount are well reproduced both in space and time. The performance of the long time series of the global precipitation is the best among the other reanalyses, with few unrealistic variations from degraded satellite data contaminated by volcanic eruptions. Secondly, JRA-25 is the first re-analysis to assimilate wind profiles around tropical cyclones reconstructed from historical best track in-formation; tropical cyclones were analyzed properly in all the global regions. Additionally, low-level cloud along the subtropical western coast of continents is well simulated and snow depth analysis is also of a good quality. The article also covers material which requires attention when using JRA-25.
- 社団法人日本気象学会の論文
- 2007-06-25
著者
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YAMAZAKI Nobuo
Meteorological Research Institute
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Yamazaki N
Meteorological Research Institute Japan Meteorological Agency:meteorological College Japan Meteorolo
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ONOGI Kazutoshi
Japan Meteorological Agency
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TSUTSUI Junichi
Central Research Institute of Electric Power Industry
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KOIDE Hiroshi
Japan Meteorological Agency
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SAKAMOTO Masami
Japan Meteorological Agency
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KOBAYASHI Shinya
Japan Meteorological Agency
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HATSUSHIKA Hiroaki
Central Research Institute of Electric Power Industry
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MATSUMOTO Takanori
Japan Meteorological Agency
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KAMAHORI Hirotaka
Meteorological Research Institute, Japan Meteorological Agency
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TAKAHASHI Kiyotoshi
Meteorological Research Institute, Japan Meteorological Agency
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KADOKURA Shinji
Central Research Institute of Electric Power Industry
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WADA Koji
Central Research Institute of Electric Power Industry
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KATO Koji
Meteorological Satellite Center, Japan Meteorological Agency
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OYAMA Ryo
Meteorological Satellite Center, Japan Meteorological Agency
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OSE Tomoaki
Japan Meteorological Agency
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MANNOJI Nobutaka
Japan Meteorological Agency
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TAIRA Ryusuke
Meteorological College, Japan Meteorological Agency
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Oyama Ryo
Meteorological Satellite Center Japan Meteorological Agency
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Ose Tomoaki
Japan Meteorological Agency:meteorological Research Institute Japan Meteorological Agency
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Taira Ryusuke
Meteorological College Japan Meteorological Agency
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Tsutsui Junichi
Central Res. Inst. Of Electric Power Ind.
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Kamahori Hirotaka
Meteorological Research Institute Japan Meteorological Agency:japan Meteorological Agency
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Hatsushika Hiroaki
Central Research Institute Of Electric Power Industry:toyama Prefectural Environmental Science Resea
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Matsumoto Takanori
Japan Meteorological Agency:meteorological Satellite Center Japan Meteorological Agency
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Takahashi Kiyotoshi
Meteorological Research Institute Japan Meteorological Agency
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Takahashi Kiyotoshi
Meteorological Research Institute
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Kato Koji
Meteorological Satellite Center Japan Meteorological Agency
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Yamazaki Noboru
Meteorological Research Institute, Japan Meteorological Agency:Meteorological College, Japan Meteorological Agency
関連論文
- Long-Term Changes of Heavy Precipitation and Dry Weather in Japan (1901-2004)
- Long-Term Changes in the Diurnal Precipitation Cycles in Japan for 106 Years (1898-2003)
- The JRA-25 Reanalysis
- Variational Assimilation of TMI Rain Type and Precipitation Retrievals into Global Numerical Weather Prediction
- Statistical Relationship between ISCCP Cloud Type and Vertical Relative Humidity Profile
- Performance of Global Climate Models for Reproducing Present SLP Field over Eastern Asian Region in the CO_2 Transient Run
- Statistical Downscaling Estimates of High Temperature in Summer in Japan
- Performance of RegCM2.5/NCAR-CSM Nested System for the Simulation of Climate Change in East Asia Caused by Global Warming
- Seasonal/Regional Variation of Variability Characteristic of Daily Maximum/Minimum Temperatures in Japan Observed and Reproduced by RegCM Nested in NCAR-CSM
- Preface(Special Edition on the JRA-25 Reanalysis
- Atmospheric quasi-14 month fluctuation and excitation of the Chandler wobble
- A Mesoscale Model Intercomparison : A Case of Explosive Development of a Tropical Cyclone : COMPARE III
- Structure Functions and R=σ_L/σ_T in a Covariant Harmonic Oscillator Quark Model with QCD Corrections
- The Thermal Features in the Boreal Subtropical Regions with Its Relationship to the South China Sea Monsoon Onset
- Regional Differences of Daily Rainfall Charcteristics in East Asian Summer Monsoon Season
- Impact of Wind Profile Retrievals on the Analysis of Tropical Cyclones in the JRA-25 Reanalysis
- Evaluation of Anisotropic Mapping Function Using JMA 10-km Spectral Model
- Implications of Anthropogenic Climate Change for Tropical Cyclone Activity : A Case Study with the NCAR CCM2
- Scaling and Duality Scheme in Deep Inelastic Processes
- Hadron Total Cross Sections in the Quark Parton Model
- Stabilization of atmospheric carbon dioxide via zero emissions—An alternative way to a stable global environment. Part 2: A practical zero-emissions scenario
- Stabilization of atmospheric carbon dioxide via zero emissions—An alternative way to a stable global environment. Part 1: Examination of the traditional stabilization concept