A review on regional dynamical downscaling in intraseasonal to seasonal simulation/prediction and major factors that affect downscaling ability

Xue, Yongkang; Janjić, Zavisă; Dudhia, Jimy; Vasic, Ratko; Sales, Fernando De

doi:10.1016/j.atmosres.2014.05.001

Cited by 214 publications

(143 citation statements)

References 141 publications

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“…It is worth noting that SDII is projected to increase by both models in all subregions. Generally, major model biases in simulating present-day climate would be systematically propagated into future climate projections at regional scales [Liang et al, 2008;Xue et al, 2014]. A more accurate simulation of present-day climate provides confidence that future projections are more credible.…”

Section: Discussionmentioning

confidence: 99%

Dynamical downscaling simulation and future projection of precipitation over China

2015

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This study assesses present-day and future precipitation changes over China by using the Weather Research and Forecasting (WRF) model version 3.5.1. The WRF model was driven by the Geophysical Fluid Dynamics Laboratory Earth System Model with the Generalized Ocean Layer Dynamics component (GFDL-ESM2G) output over China at the resolution of 30 km for the present day and near future (2031)(2032)(2033)(2034)(2035)(2036)(2037)(2038)(2039)(2040)(2041)(2042)(2043)(2044)(2045)(2046)(2047)(2048)(2049)(2050) under the Representative Concentration Pathways 4.5 (RCP4.5) scenario. The results demonstrate that with improved resolution and better representation of finer-scale physical process, dynamical downscaling adds value to the regional precipitation simulation. WRF downscaling generally simulates more reliable spatial distributions of total precipitation and extreme precipitation in China with higher spatial pattern correlations and closer magnitude. It is able to successfully eliminate the artificial precipitation maximum area simulated by GFDL-ESM2G over the west of the Sichuan Basin, along the eastern edge of the Tibetan Plateau in both summer and winter. Besides, the regional annual cycle and frequencies of precipitation intensity are also well depicted by WRF. In the future projections, under the RCP4.5 scenario, both models project that summer precipitation over most parts of China will increase, especially in western and northern China, and that precipitation over some southern regions is projected to decrease. The projected increase of future extreme precipitation makes great contributions to the total precipitation increase. In southern regions, the projected larger extreme precipitation amounts accompanied with fewer extreme precipitation frequencies suggest that future daily extreme precipitation intensity is likely to increase in these regions.

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Section: Discussionmentioning

confidence: 99%

Dynamical downscaling simulation and future projection of precipitation over China

2015

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“…Such an approach would allow a broader understanding of the impact of burned areas on surface hydrology, albedo, atmospheric circulation, and precipitation, which is difficult to accomplish via remote sensing and observation studies alone. Moreover, studies have demonstrated that regional climate models provide a reliable tool to study atmospheric circulations and land/atmosphere interactions at spatial scales beyond current general circulation model capabilities Xue 2011, 2013;Xue et al 2014).…”

Section: Introductionmentioning

confidence: 99%

Impact of burned areas on the northern African seasonal climate from the perspective of regional modeling

2015

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“…A number of former studies have shown that the results from the DDM were sensitive to different parameters, especially for convective scheme, domain size, and location (Jones et al 1995;Seth and Giorgi 1998;Hong and Pan 2000). The different model setups were very sensitive to a certain climate condition; however, the comprehensive comparisons studies for several factors were relatively weak (Xue et al 2014). In this study, the sensitive experiments indicated that the combinations of model physics schemes and grid sizes were crucial for the model's dynamic downscaling ability.…”

Section: Conclusion and Discussionmentioning

confidence: 86%

“…The RCMs have been widely used for both past climate simulations (Chou et al 2002;Iizuka 2010;De Sales and Xue 2013) and future climate projection (Liang et al 2008;Chen et al 2010;Boberg and Christensen, 2012;Mearns et al 2012;Yu and Wang 2013). However, many issues related to the downscaling capability of this method usually cause skepticism for the application of RCMs (Laprise et al 2000;Castro et al 2005;Rockel et al 2008;Xue et al 2014), mainly because it is unclear that whether the DDM is really capable of adding more climate information at different scales compared with the GCM results or reanalysis, especially for long-term run, and if so under what conditions?…”

Section: Introductionmentioning

confidence: 99%

“…This is why RCMs with different convective and radiation schemes and land surface parameterizations produce significant different output when compared with those using different parameterizations but only one single model (De Elia et al 2008;Pielke 2013). Thus, it is essential to conduct systematic comparison to define the optimal combination of different parameters for certain regional climate studies (Gao et al 2013;Xue et al 2014). Furthermore, the RCMs' simulations with optimal combination and the data used for specifying LBCs should be compared with the reference datasets to adequately show whether the RCMs really provide new information (Shukla and Lettenmaier 2013).…”

Section: Introductionmentioning

confidence: 99%

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Validating the dynamic downscaling ability of WRF for East Asian summer climate

Gao

Hou

Xue

et al. 2015

Theor Appl Climatol

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To better understand the regional climate model (RCM) performance for East Asian summer climate and the influencing factors, this study evaluated the dynamic downscaling ability of the Weather Research Forecast (WRF) RCM. According to the comprehensive comparison studies on different physical processes and experimental settings, the optimal combination of WRF model setups can be obtained for East Asian precipitation and temperature simulations. Furthermore, based on the optimal combination, when compared with climate observations, WRF shows high ability to downscale NCEP DOE Reanalysis-2, which provided initial and lateral boundary conditions for the WRF, especially for the precipitation simulation due to the better simulated lowlevel water vapor flux. However, the strengthened Western North Pacific Subtropical High (WPSH) from WRF simulation results in the positive anomaly for summer rainfall.

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A review on regional dynamical downscaling in intraseasonal to seasonal simulation/prediction and major factors that affect downscaling ability

Cited by 214 publications

References 141 publications

Dynamical downscaling simulation and future projection of precipitation over China

Dynamical downscaling simulation and future projection of precipitation over China

Impact of burned areas on the northern African seasonal climate from the perspective of regional modeling

Validating the dynamic downscaling ability of WRF for East Asian summer climate

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