Köppen, Hadley and Dethloff Zwei Seiten einer Medaille: Vom Globalen und vom Regionalen.

Slides:

Advertisements

Similar presentations

12. September 2008 Jährliches Treffen SWA - GKSS Page 1 An attempt to homogeneously describe 60 years statistics of TC activity in E Asia, Hans.

Advertisements

Where and when should one hope to find added value from dynamical downscaling of GCM data? René Laprise Director, Centre ESCER (Étude et Simulation du.

10 IMSC, August 2007, Beijing Page 1 Construction and applications of 2-d digital filters for separating regional spatial scales Hans von Storch.

Earth Systems Science Chapter 6 I. Modeling the Atmosphere-Ocean System 1.Statistical vs physical models; analytical vs numerical models; equilibrium vs.

Hans von Storch, Frauke Feser, Ralf Weisse and Matthias Zahn Institute for Coastal Research, GKSS Research Center, Germany and KlimaCampus, U of Hamburg,

THORPEX-Pacific Workshop Kauai, Hawaii Polar Meteorology Group, Byrd Polar Research Center, The Ohio State University, Columbus, Ohio David H. Bromwich.

WFM 6311: Climate Risk Management © Dr. Akm Saiful Islam WFM 6311: Climate Change Risk Management Akm Saiful Islam Lecture-4: Module- 3 Regional Climate.

COP-10 In-Session Workshop, Buenos Aires, December 8, Application of Regional Models: High-Resolution Climate Change Scenarios for India Using PRECIS.

IPRC Lunch Time Seminar, 12. March 2002 Hans von Storch Inst. Coastal Research GKSS Research Center Geesthacht Germany Issues in regional atmospheric modelling:

Added Value Generated by Regional Climate Models H. von Storch, F. Feser Institute of Coastal Research, Helmholtz Zentrum Geesthacht, Germany 29 May 1.

Regional climate modeling – added value and utility Hans von Storch and Frauke Feser Institute of Coastal ResearchHelmholtz Zentrum Geesthacht and KlimaCampus.

March/April 中国海洋大学 Lecture "Advanced conceptual issues in climate and coastal science" 12 March - Utility of coastal science with emphasis on climate.

Wind Regimes of Southern California winter S. Conil 1,2, A. Hall 1 and M. Ghil 1,2 1 Department of Atmospheric and Oceanic Sciences, UCLA, Los Angeles,

The case of polar lows Hans von Storch 13 and Matthias Zahn 2 1. Institute of Coastal Research, Helmholtz-Zentrum Geesthacht, Germany. 2. Environmental.

© Crown copyright Met Office Climate Projections for West Africa Andrew Hartley, Met Office: PARCC national workshop on climate information and species.

RCM sensitivity to domain size in summer and winter With the collaboration of: Jean-Philippe Morin (simulations) and Mathieu Moretti (diagnostics) By Martin.

Sea Ice Deformation Studies and Model Development

Strategies for assessing natural variability Hans von Storch Institute for Coastal Research, GKSS Research Center Geesthacht, Germany Lund, ,

Workshop: Aspects of regional modelling – at GKSS Contributions by Hans von Storch, Frauke Feser, Insa Meinke and Burkhardt Rockel Ouranos, Montreal

Development of a downscaling prediction system Liqiang Sun International Research Institute for Climate and Society (IRI)

Key Questions to Answer on Storm Simulation Xiangdong Zhang International Arctic Research Center University of Alaska Fairbanks, Fairbanks, AK 99775, USA.

1.Introduction 2.Description of model 3.Experimental design 4.Ocean ciruculation on an aquaplanet represented in the model depth latitude depth latitude.

Dynamical Downscaling Developing a Model Framework for WRF for Future GCM Downscaling Jared H. Bowden Tanya L. Otte June 25, th Annual Meteorological.

Dynamical Downscaling: Assessment of model system dependent retained and added variability for two different regional climate models Christopher L. Castro.

Downscaling Tropical Cyclones from global re-analysis: Statistics of multi-decadal variability of TC activity in E Asia, VON STORCH Hans and.

Keynote 3.2 Strategies and measures for determining the skill of dynamical downscaling Hans von Storch; HZG Lund, 17. June 2014.

Regional Climate Models Add Value to Global Model Data H. von Storch, F. Feser, B. Rockel, R. Weisse Institute of Coastal Research, Helmholtz Zentrum Geesthacht,

"Retrospective simulation and analysis of changing SE Asian high-resolution typhoon wind and wave statistics" Hans von Storch Institute for Coastal Research.

Downscaling Tropical Cyclones from global re-analysis: Statistics of multi-decadal variability of TC activity in E Asia, Hans von Storch and.

Climate Downscaling Using Regional Climate Models Liqiang Sun.

Preliminary Results of Global Climate Simulations With a High- Resolution Atmospheric Model P. B. Duffy, B. Govindasamy, J. Milovich, K. Taylor, S. Thompson,

© Crown copyright Met Office Providing High-Resolution Regional Climates for Vulnerability Assessment and Adaptation Planning Joseph Intsiful, African.

June 16th, 2009 Christian Pagé, CERFACS Laurent Terray, CERFACS - URA 1875 Julien Boé, U California Christophe Cassou, CERFACS - URA 1875 Weather typing.

Tropical Domain Results Downscaling Ability of the NCEP Regional Spectral Model v.97: The Big Brother Experiment Conclusions: Motivation: The Big Brother.

Lecture 5 The Climate System and the Biosphere. One significant way the ocean can influence climate is through formation of sea ice. Sea ice is much more.

Towards downscaling changes of oceanic dynamics Hans von Storch and Zhang Meng ( 张萌 ) Institute for Coastal Research Helmholtz Zentrum Geesthacht, Germany.

#1 DACH, Hamburg 14. September 2007 Models „for“ not „of“ Institute of Coastal Research, GKSS Research Centre Geesthacht, and Meteorological Institute,

Assessing and predicting regional climate change Hans von Storch, Jonas Bhend and Armineh Barkhordarian Institute of Coastal Research, GKSS, Germany.

Page 1 Strategies for describing change in storminess – using proxies and dynamical downscaling. Hans von Storch Institute for Coastal Research, GKSS Research.

Downscaling tropical cyclones from global re-analysis and scenarios: Statistics of multi-decadal variability of TC activity in E Asia Hans von Storch,

Page 1. Page 2 German presentations COLIJN Franciscus, GKSS: COSYNA VON STORCH Jin-Song, MPIM: Wind generated power input into the deep ocean VON STORCH.

Retrospective analysis of NE Atlantic weather (especially storms) EXTROP Miami Workshop: Investigation of Tropical and Extra-tropical cyclones using passive.

© Crown copyright Met Office Downscaling ability of the HadRM3P model over North America Wilfran Moufouma-Okia and Richard Jones.

Institut für Küstenforschung I f K Numerical experimentation with regional atmospheric models Hans von Storch and Ralf Weisse 8IMSC, Lüneburg, 15. March.

Page 1 AD hoc Workshop, TC working Group, 12. June 2007, Taipei Progress Report from the GKSS group Hans von Storch and Frauke Feser Institute for Coastal.

Large-Scale Control in Arctic Modelling – A suggestion for a Reconstruction of the Recent Past Hans von Storch Institute for Coastal Research GKSS Research.

Analysis of Typhoon Tropical Cyclogenesis in an Atmospheric General Circulation Model Suzana J. Camargo and Adam H. Sobel.

Arctic climate simulations by coupled models - an overview - Annette Rinke and Klaus Dethloff Alfred Wegener Institute for Polar and Marine Research, Research.

Do we / why do we want to develop an ASM? Climate working group for WRF – workshop on model developments for climate studies with WRF (summary of.

Institute for Coastal Research of GKSS Research Center Germany Changing statistics of polar lows and typhoons in the past and foreseeable future. Hans.

NOAA Northeast Regional Climate Center Dr. Lee Tryhorn NOAA Climate Literacy Workshop April 2010 NOAA Northeast Regional Climate.

Recent Regional Climate State and Change - Derived through Downscaling Homogeneous Large-scale Components of Re-analyses Hans von Storch, Beate Geyer,

The Assessment of Typhoon Hazards at Regional-Scales in the Pacific Regions with Downscaling Numerical Experiments Tetsuya Takemi Fourth Capacity Building.

Towards downscaling oceanic hydrodynamics - Suitability of a high-resolution OGCM for describing regional ocean variability in the South China Sea 针对海洋水动力的降尺度.

1/39 Seasonal Prediction of Asian Monsoon: Predictability Issues and Limitations Arun Kumar Climate Prediction Center

COASTDAT: Regional downscaling re-analysis - concept and utility VON STORCH Hans Institute of Coastal Research, Helmholtz Zentrum Geesthacht, Germany 22.

9th Annual Meteorological Users’ Meeting

Overview of Downscaling

Mesoscale “Surprises” in Complex Terrain Revealed by Regional Climate Simulations Cliff Mass, Atmospheric Sciences University of Washington.

Climatology of coastal low level jets over the Bohai Sea and Yellow Sea and the relationship with regional atmospheric circulations Delei Li1, Hans von.

Formation and modelling of regional climate

Application of the ensemble technique to CRCM simulations

Meng Zhang (张萌), Hans von Storch

Global Downscaling Hans von Storch and Frauke Feser

Hans von Storch and Frauke Feser

Influence of large-scale nudging on RCM’s internal variability

Presentation transcript:

Köppen, Hadley and Dethloff Zwei Seiten einer Medaille: Vom Globalen und vom Regionalen

Climate = statistics of weather The genesis of climate C s = f(C l, Φ s ) with C l = larger scale climate C s = smaller scale climate Φ s = physiographic detail at smaller scale

Global climate Formation of the general circulation on an aqua planet from a state of rest (from Fischer et al., 1991)

Risbey and Stone (1996) Long term mean of - zonal wind at 200 hpa, - geopotential, height at 500 hPa, and - band-pass filtered variance of 500 hpa geopotential height („storm track“) caused by planetary scale land-sea contrast and orographic features Continental climate

Regional climates do not create global climate. Instead, regional climate should be understood as the result of an interplay of global climate and regional physiographic detail. The local processes are important for the formation of the global climate not in terms of their details but through their overall statistics. Implications: Planetary scale climate can be modeled with dynamical models with limited spatial resolution the success on planetary scales does not imply success on regional or local scales.

Dynamical processes in the atmosphere

Dynamical processes in a global atmospheric general circulation model

The concept of downscaling does NOT imply that smaller scales are irrelevant for the larger scales. Small scale processes, such as convection, play a key role in forming the global climate – However it is only the overall effect of these processes which matter, not the space-time details. Therefore parameterizations of small scale processes are sufficient for global (and regional) models. It is this fortuitous arrangement, which allows us simulate the global and continental climate well – even without simulating any regional climate adequately.

Concept of Parameterization von Storch, H., 1997: Conditional statistical models: A discourse about the local scale in climate modelling. In P. Müller and D. Henderson (Eds.): Monte Carlo Simulations in Oceanography: Proceedings of the 9th 'Aha Huliko'a Winter Workshop, 1997, University of Hawaii at Manoa, January 14-17, 1997, 49-58

Roeckner & Lohmann, 1993 No cirrus Effect of black cirrus detailed parameterization Latitude-height distribution of temperature (deg C) Difference “black cirrus” - detailed parameterization Difference “no cirrus” - detailed parameterization

Winter (DJF) geopotential difference (gpm) at 500 hPa ‘‘New sea-ice and snow albedo run minus control run’’ (a) averaged over the first 250 years of the 500 year long run and (b) averaged over the last 250 years, (c) short-term response (years 2-9) Dethloff, K., A. Rinke, A. Benkel, M. Køltzow, E. Sokolova, S. Kumar Saha, D. Handorf, W. Dorn, B. Rockel, H. von Storch, J. E. Haugen, L. P. Røed, E. Roeckner, J. H. Christensen, and M. Stendel, 2006: A dynamical link between the Arctic and the global climate system. Geophys. Res. Lett. 33 L03703, doi: /2005GL025245

1.Concepts of regional modelling 2.Intermittent Divergence in Phase Space (IDSP) 3.Added value generated by RCMs Downscaling

Concepts of regional modelling 1.In the conventional set-up, the regional model is constrained by providing time variable boundary values along lateral margins and at the surface (as long as sea surface temperatures, ice coverage etc. are not modelled themselves) 2.To avoid numerical problems, the concept of sponge zones was invented by Davis in the 1970s. This sponge zone has typically a width of several grid boxes. 3.This concept is the conventional approach. The large scale dynamical state is imposed through the lateral boundary conditions, the regional physiographic detail by the lower boundary conditions. 4.In the “large-scale constraint” approach (specifically: spectral nudging) an additional constraint on the large scales is imposed in the interior of the domain.

The Rinke & Dethloff study on regional modelling of the Arctic atmosphere Rinke, A., and K. Dethloff, 2000: On the sensitivity of a regional Arctic climate model to initial and boundary conditions. Clim. Res. 14, Ensemble standard deviation 500 hPa height [m²/s²] idsp

Regional climate dynamics are also chaotic – very different trajectories may emerge from very slightly disturbed initial conditions – long after the predictive influence of the initial state has disappeared. The phenomenon is intermittent – as soon as the influence of the boundary is recovering, the “divergence in phase space” is vanishing. idsp

IDSP problem In large area simulations, lateral control is insufficient to maintain large scale states The development in the interior of a domain is mostly but not completely determined by the lateral boundary conditions. The RCM tendency to exhibit IDSP depends on the degree of “flushing” the area, i.e. the efficiency that disturbances travel from the boundaries through the area in a relatively short time. Midlatitude marine climate with moderate longitudinal extension (4000 km): mostly ok Arctic: problem Tropics: don’t know Note: In certain cases, one may be interested in getting idsp, in order to determine the degrees of freedom in a given region.

Added Value  Dynamical downscaling does not add value to global reanalysis wind speed in open ocean areas, while it does for complex coastal areas.  Regional models show an added value in describing meso-scale variability compared to the driving global reanalysis, in particular, when the RCM is constrained at the large spatial scales  Polar lows locations and places of occurrence can be described realistically in regional model simulations while not all polar lows can be found in the global reanalysis.  RCM typhoon core pressure values and near-surface wind speed values over all closer to best track data than forcing reanalyses.  Higher resolved description of physiographic details  Higher spatial resolution  Better representation of spatially distributed processes

Summary Climate = statistics of variability, exists for all spatial (and temporal) scales. Spatial scales are ordered, so that for the determination of larger scales only a statistical description of the influence of smaller scales is needed (parameterizations – hurray for Hadley). But, large-scale models fail to specify details of smaller scale climate (need for downscaling – hurray for Köppen). Global and regional variability are siblings, which impact each other, but play a rather different role in the dynamics and impacts of climate. The Arctic is a particular active region, with a climate having strong own dynamics and strong impact on the global dynamics (hurray for Dethloff)