NARCCAP WRF Simulations L. Ruby Leung Pacific Northwest National Laboratory NARCCAP Users Meeting February 14 - 15, 2008 Boulder, CO.

Slides:



Advertisements
Similar presentations
Analysis of Eastern Indian Ocean Cold and Warm Events: The air-sea interaction under the Indian monsoon background Qin Zhang RSIS, Climate Prediction Center,
Advertisements

Can a regional model improve the ability to forecast the North American monsoon? Christopher L. Castro Department of Atmospheric Sciences University of.
Seasonal Climate Predictability over NAME Region Jae-Kyung E. Schemm CPC/NCEP/NWS/NOAA NAME Science Working Group Meeting 5 Puerto Vallarta, Mexico Nov.
Climatology and Climate Change in Athena Simulations Project Athena Team ECMWF, June 7, 2010.
Cost-effective dynamical downscaling: An illustration of downscaling CESM with the WRF model Jared H. Bowden and Saravanan Arunachalam 11 th Annual CMAS.
The causes of extreme rainfall in East Africa: insights from observed data and GCMs Emily Black, Julia Slingo and Ken Sperber.
Dynamical Downscaling of CCSM Using WRF Yang Gao 1, Joshua S. Fu 1, Yun-Fat Lam 1, John Drake 1, Kate Evans 2 1 University of Tennessee, USA 2 Oak Ridge.
Review of Northern Winter 2010/11
Climate Recap and Outlook for Winter Eric Salathé JISAO Climate Impacts Group University of Washington.
Pacific Northwest Climate Model Scenarios 2008 Climate Impacts Group & Department of Atmospheric Sciences University of Washington Eric Salathé Philip.
Adjustment to tropospheric warming over ocean and land surfaces Adam Sobel, John Chiang, Deborah Herceg, Liqiang Sun, Michela Biasutti + many discussions.
Recent Climate Change Modeling Results Climate Impacts Group University of Washington With: Patrick Zahn, Cliff Mass, Rick Steed Eric SlathéEric Salathé.
The importance of clouds. The Global Climate System
India’s Water Crisis El Niño, Monsoon, and Indian Ocean Oscillation.
1 An Overview of the NARCCAP WRF Simulations L. Ruby Leung Pacific Northwest National Laboratory NARCCAP Users Meeting NCAR, Boulder, CO April ,
Extreme Events and Climate Variability. Issues: Scientists are telling us that global warming means more extreme weather. Every year we seem to experience.
Simulations of Floods and Droughts in the Western U.S. Under Climate Change L. Ruby Leung Pacific Northwest National Laboratory US CLIVAR/NCAR ASP Researcher.
Understanding Change in the Climate and Hydrology of the Arctic Land Region: Synthesizing the Results of the ARCSS Fresh Water Initiative Projects Eric.
WRF-VIC: The Flux Coupling Approach L. Ruby Leung Pacific Northwest National Laboratory BioEarth Project Kickoff Meeting April 11-12, 2011 Pullman, WA.
Jerold Herwehe 1, Kiran Alapaty 1, Chris Nolte 1, Russ Bullock 1, Tanya Otte 1, Megan Mallard 1, Jimy Dudhia 2, and Jack Kain 3 1 Atmospheric Modeling.
NARCCAP Users Meeting April 2011 Results from NCEP-driven RCMs Overview Based on Mearns et al. (BAMS, 2011) Results from NCEP-driven RCMs Overview Based.
Atmospheric Modeling in an Arctic System Model John J. Cassano Cooperative Institute for Research in Environmental Sciences and Department of Atmospheric.
Rainfall in Western South America: The “traditional El Niño” versus “Global ENSO” C F Ropelewski and L Goddard IRI The Earth Institute, Columbia University.
Dynamical Downscaling Developing a Model Framework for WRF for Future GCM Downscaling Jared H. Bowden Tanya L. Otte June 25, th Annual Meteorological.
The La Niña Influence on Central Alabama Rainfall Patterns.
CDC Cover. NOAA Lab roles in CCSP Strategic Plan for the U.S. Climate Change Science Program: Research Elements Element 3. Atmospheric Composition Aeronomy.
Water Year Outlook. Long Range Weather Forecast Use a combination of long term predictors –Phase of Pacific Decadal Oscillation (PDO) –Phase of Atlantic.
Regional Climate Simulations of summer precipitation over the United States and Mexico Kingtse Mo, Jae Schemm, Wayne Higgins, and H. K. Kim.
Dynamical downscaling of future climates Steve Hostetler, USGS Jay Alder, OSU/USGS Andrea Schuetz, USGS/OSU Environmental Computing Center, COAS/OSU.
Experiences with 0-36 h Explicit Convective Forecasting with the WRF-ARW Model Morris Weisman (Wei Wang, Chris Davis) NCAR/MMM WSN05 September 8, 2005.
(Mt/Ag/EnSc/EnSt 404/504 - Global Change) Climate Models (from IPCC WG-I, Chapter 10) Projected Future Changes Primary Source: IPCC WG-I Chapter 10 - Global.
Mechanisms of drought in present and future climate Gerald A. Meehl and Aixue Hu.
Fine-resolution global time slice simulations Philip B. Duffy 1,2,3 Collaborators: G. Bala 1, A. Mirin 1 1 Lawrence Livermore National Laboratory 2 University.
NOAA’s Climate Prediction Center & *Environmental Modeling Center Camp Springs, MD Impact of High-Frequency Variability of Soil Moisture on Seasonal.
MM5 - Iowa State Soil initialization: - Reanalysis run: soil moisture at initial time - GCM runs: soil moisture in a “neutral” year of reanalysis run Spin.
Does El Niño Intensity Matter for California Precipitation? Andy Hoell*, Marty Hoerling*, Jon Eischeid* #, Klaus Wolter* #, Randy Dole *, Judith Perlwitz*
NARCCAP Meeting September 2009 Results from NCEP-driven RCMs ~ Overview ~ Results from NCEP-driven RCMs ~ Overview ~ William J. Gutowski, Jr. & Raymond.
Yuqing Wang and Chunxi Zhang International Pacific Research Center University of Hawaii at Manoa, Honolulu, Hawaii.
John Mejia and K.C. King, Darko Koracin Desert Research Institute, Reno, NV 4th NARCCAP Workshop, Boulder, CO, April,
ESSL Nested Regional Climate Simulations with WRF Bill Kuo 1 C. Bruyere 1, J. Done 1, G. Holland 1, R. Leung 2, Y. Liu 1,3, S. Tulich 1, A. Suzuki 4 1.
Module 17 MM5: Climate Simulation BREAK. Regional Climate Simulation for the Pan-Arctic using MM5 William J. Gutowski, Jr., Helin Wei, Charles Vörösmarty,
Hydro-Climate Course March 2004, CU, Boulder Asian Monsoon… K. Krishna Kumar CIRES Visiting Fellow
ENSO-Basic State Interactions Jin-Yi Yu Department of Earth System Science University of California, Irvine.
Winter Outlook for the Pacific Northwest: Winter 06/07 14 November 2006 Kirby Cook. NOAA/National Weather Service Acknowledgement: Climate Prediction Center.
Analysis and modelling of the 2010 Pakistan heavy precipitation events Milind Mujumdar Centre for Climate Change Research (CCCR), Indian Institute of Tropical.
NAME SWG th Annual NOAA Climate Diagnostics and Prediction Workshop State College, Pennsylvania Oct. 28, 2005.
Impacts of Climate Change and Variability on Agriculture: Using NASA Models for Regional Applications Radley Horton 1, Cynthia Rosenzweig 2, and David.
The impact of lower boundary forcings (sea surface temperature) on inter-annual variability of climate K.-T. Cheng and R.-Y. Tzeng Dept. of Atmos. Sci.
ESSL Holland, CCSM Workshop 0606 Predicting the Earth System Across Scales: Both Ways Summary:Rationale Approach and Current Focus Improved Simulation.
The North American Monsoons (NAM) can provide upwards of 70% of the annual precipitation to the southwest United States and Mexico. Already susceptible.
Does nudging squelch the extremes in regional climate modeling?
R.W. Arritt for the NARCCAP Team December 2006
Tanya L. Spero1, Megan S. Mallard1, Stephany M
Climate and Global Dynamics Laboratory, NCAR
Sensitivity of precipitation extremes to ENSO variability
9th Annual Meteorological Users’ Meeting
Daylength Local Mesoscale Winds Chinook Winds (Foehn) Loma, MT: January 15, 1972, the temperature rose from -54 to 49°F (-48 to 9°C), a 103°F (58°C)
Climate Change Results National Center for Atmospheric Research
El Niño and La Niña.
Will Extremes Become the Norm under Future Climate Change?
Recent Climate Change Modeling Results
Climate Science Research
Validation of GCM, and the need of High resolution atmospheric and hydrological model Vicente Barros and Mariano Re San José de Costa Rica 28 May 2003.
The Experimental Climate Prediction Center Regional Spectral Model (ECPC-RSM) Contribution to the North American Regional Climate Change Assessment Program.
An Overview of the NARCCAP WRF Simulations and Analysis
Recent Climate Change Modeling Results
On HRM3 (a.k.a. HadRM3P, a.k.a. PRECIS) North American simulations
Additional NARCCAP Results
University of Washington Center for Science in the Earth System
RegCM3 Lisa C. Sloan, Mark A. Snyder, Travis O’Brien, and Kathleen Hutchison Climate Change and Impacts Laboratory Dept. of Earth and Planetary Sciences.
Presentation transcript:

NARCCAP WRF Simulations L. Ruby Leung Pacific Northwest National Laboratory NARCCAP Users Meeting February , 2008 Boulder, CO

Phase 1 Simulation A WRF simulation driven by the NCEP/DOE reanalysis and AMIP SST has been completed for 1979/ /12 using the NARCCAP domain Physics parameterizations: CAM radiation, KF convection, WSM5 mixed phase microphysics, YSU non-local PBL, Noah LSM Update of SST, sea ice, vegetation fraction, surface albedo; consistent treatment of snow emissivity in Noah LSM Model outputs for Table 2 and zg500 have been archived at NERSC and NCAR

Cold Season Variability ACC ~ 0.90 ACC ~ 0.94 ACC ~ 0.92ACC ~ 0.30 ACC ~ 0.60 in NCEP WRF and MM5 have similar skill in capturing cold season variability

Warm Season Variability ACC ~ 0.80ACC ~ 0.60 ACC ~ ACC ~ ACC ~ 0.60 in NCEP ACC ~ 0.17 in NCEP Larger differences between WRF and MM5 year-to-year variability, but generally ACCs are similar

Mean Cold Season T and P

Impacts of ENSO in the Cold Season

ENSO Anomalies Regional details in the ENSO precipitation anomalies demonstrate the interactions between large scale circulation changes with the regional topography Leung et al. (2003) RCM SimulationObservationNCEP Reanalyses Cascades Sierra Moist Dry Composited El Nino Precipitation Anomaly

Mean El Nino T and P Anomaly Cool-Wet (Southwest) vs Warm-Dry (Northwest)

Mean La Nina T and P Anomaly Cool-Wet (Northwest) vs Warm-Dry (Southwest)

Atmospheric Rivers and Floods An atmospheric river was present in all of the floods on the Russian River since 1997, though not all atmospheric rivers are flood producers Main ingredients for heavy orographic precipitation: LLJ, large moisture content, neutral stability Stratification with respect to unsaturated vs saturated conditions can produce drastically different orographic response Ralph et al. (2005)

Mean T and P Anomaly Averaged Over 143 Days During Pineapple Express Events ( )

The 1986 President Day Event (Anomaly)

The 1997 New Year Event (Anomaly)

OBS NCEP WRF MM5 JJA Mean Precipitation Mean JJA Precipitation

JJA Precipitation Anomaly (1993 minus 1988) OBS NCEP WRF MM JJA Precip Anomaly

July 1993: 500mb Winds NCEPMM5 WRFWRF-init

July 1993: 850mb Winds NCEPMM5 WRFWRF-init

July 1993: Rainfall OBSMM5 WRF-init WRF

Diurnal Cycle of Rainfall and 850mb Winds Rainfall850mb Winds

Ongoing and Future Work Evaluation of the global reanalysis driven WRF simulation Processing of model outputs for archiving (Table 3 and Table 5) Phase 2 simulations: - Currently downscaling CCSM for (completed 8 years) - Will begin downscaling CCSM future climate ( ) - Downscaling of other GCM scenarios (GFDL)