Cross-Cutting Topic DECADAL PREDICTION.

Slides:

Advertisements

Similar presentations

WCRP polar climate predictability initiative Vladimir Ryabinin

Advertisements

CMIP5: Overview of the Coupled Model Intercomparison Project Phase 5

© Crown copyright Met Office Decadal Climate Prediction Doug Smith, Nick Dunstone, Rosie Eade, Leon Hermanson, Adam Scaife.

MOC, Hurricanes and the IPCC AR5 Gerald A. Meehl NCAR.

Jon Robson (Uni. Reading) Rowan Sutton (Uni. Reading) and Doug Smith (UK Met Office) Analysis of a decadal prediction system:

Master Narratives & Global Climate Change Charlie Vars Dave Bella Court Smith IPCC January 29, 2013.

Climate Forecasting Unit Multi-annual forecasts of Atlantic tropical cyclones in a climate service context Louis-Philippe Caron WWSOC, Montreal, August.

Climate System Observations and Prediction Experiment (COPE) Task Force for Seasonal Prediction.

US CLIVAR Themes. Guided by a set of questions that will be addressed/assessed as a concluding theme action by US CLIVAR Concern a broad topical area.

Page 1GMES - ENSEMBLES 2008 ENSEMBLES. Page 2GMES - ENSEMBLES 2008 The ENSEMBLES Project  Began 4 years ago, will end in December 2009  Supported by.

CLIVAR SSG May 2011 IOC/UNESCO, Paris France Jim Hurrell and Martin Visbeck Co-Chairs, International CLIVAR SSG Introduction to CLIVAR SSG-18 Strategy.

International CLIVAR Working Group for Seasonal-to- Interannual Prediction (WGSIP) Ben Kirtman (Co-Chair WGSIP) George Mason University Center for Ocean-Land-Atmosphere.

Hadley Centre © Crown copyright 2004 The CLIVAR International Climate of the Twentieth Century (C20C) Project 1. History and aims 2. Methodology and approach.

Modelling Theme White Paper G. Flato, G. Meehl and C. Jakob.

7 October 2003COST 723 Objectives To determine  the predictability of climate  the effect of human activities on climate WCRP.

R.Sutton RT4 coordinated experiments Rowan Sutton Centre for Global Atmospheric Modelling Department of Meteorology University of Reading.

World Climate Research Programme Climate Information for Decision Making Ghassem R. Asrar Director, WCRP.

Global Framework for Climate Services 1 World Meteorological Organization Working together in weather, climate and water ER 2: Enhanced capacities of Members.

Innovative Program of Climate Change Projection for the 21st century (KAKUSHIN Program) Innovative Program of Climate Change Projection for the 21st century.

© Crown copyright Met Office Decadal predictions of the Atlantic ocean and hurricane numbers Doug Smith, Nick Dunstone, Rosie Eade, David Fereday, James.

Activities and Imperatives Anna Pirani ICPO Visiting Scientist, Princeton University.

1.Introduction Prediction of sea-ice is not only important for shipping but also for weather as it can have a significant climatic impact. Sea-ice predictions.

Research Needs for Decadal to Centennial Climate Prediction: From observations to modelling Julia Slingo, Met Office, Exeter, UK & V. Ramaswamy. GFDL,

CLIVAR and GECAFS Anji Seth International Research Institute For Climate Prediction (IRI)

Jim Hurrell OceanObs September 2009 OceanObs09: Ocean Information for Society Day III: Delivering Services to Society Session B: Forecasting Decadal-to-Centennial.

CLIVAR (Climate Variability and Predictability) CLIVAR is an interdisciplinary research effort within the World Climate Research Programme (WCRP) focusing.

IGST, Washington DC, June 1-3, is a very good source of information on structure of groups, terms of reference, membership and activitieswww.clivar.org.

Action Items and Recommendations WGSIP-12. Color Coding Items In Black Have Been Completed Items in Red Have No Progress to Date Items In Orange Have.

Click to edit Master title style Click to edit Master text styles Second level Third level Fourth level Fifth level 1 COST723 Final Workshop, ,

17 Sep 2012 Martin Visbeck and Jim Hurrell Co-Chairs, CLIVAR SSG GEWEX SSG October 2012 CLIVAR (Climate Variability and Predictability) Asian-Australian.

David M. Legler U.S. CLIVAR Office U.S. Climate Variability and Predictability Program usclivar.org CLIVAR Welcome Climate Diagnostics.

© Crown copyright Met Office The impact of initial conditions on decadal climate predictions Doug Smith, Nick Dunstone, Rosie Eade, James Murphy, Holger.

PPAI Decadal Prediction/Predictability/Variability –Reviewed the WGCM/WGSIP Decadal Prediction Experiment –Reviewed/Revised Decadal WG Prospectus Reviewed.

WCC-3, Geneva, 31 Aug-4 Sep 2009 Advancing Climate Prediction Science – Decadal Prediction Mojib Latif Leibniz Institute of Marine Sciences, Kiel University,

26-28 July 2006US CLIVAR Summit -- Breckenridge, CO PPAI PPAI Concluding Report Proposed focus: DROUGHT ENSOExtreme Events Decadal Variability MJO Nowcasting.

Report of WGCM (Met Office, Exeter, 3-5 Oct 2005) and WGCM/WMP (Met Office, Exeter, 5 Oct 2005 (pm)) meetings Howard Cattle.

NAME SWG th Annual NOAA Climate Diagnostics and Prediction Workshop State College, Pennsylvania Oct. 28, 2005.

CT2 : Assessing sources of uncertainty in ocean analysis and forecasts We consider the structural sources of uncertainty generic to all practical forecasting.

Climate Mission Outcome A predictive understanding of the global climate system on time scales of weeks to decades with quantified uncertainties sufficient.

The WCRP strategic framework : Coordinated Observation and Prediction of the Earth System (COPES) Peter Lemke (AWI), David Carson (WMO) and members.

Equatorial Atlantic Variability: Dynamics, ENSO Impact, and Implications for Model Development M. Latif 1, N. S. Keenlyside 2, and H. Ding 1 1 Leibniz.

RAL, 2012, May 11 Research behaviour Martin Juckes, 11 May, 2012.

on Near Term Climate Prediction

WORLD CLIMATE RESEARCH PROGRAMME

Climate Change Climate change scenarios of the

The Decadal Climate Prediction Project (DCPP)

WG on Nowcasting Research World Meteorological Organization

Edwin Gerber (New York University)

WORLD CLIMATE RESEARCH PROGRAMME

WORLD CLIMATE RESEARCH PROGRAMME

WORLD CLIMATE RESEARCH PROGRAMME

Open Science Conference

CLIVAR/WCRP Issues Imperatives WCRP Restructuring

Workshop 1: GFDL (Princeton), June 1-2, 2006

CLIVAR International Climate of the 20th Century (C20C) Project

WGCM/WGSIP decadal prediction proposal

WCRP update DCPP meeting, Barcelona, 12 May 2016 M. Rixen,

WGSIP16 Tuesday.

Michel Rixen, WCRP Joint Planning Staff

Understanding and forecasting seasonal-to-decadal climate variations

Decadal Forecast Exchange

Strat-trop interaction and Met Office seasonal forecasting

Proposed WCRP Grand Challenge on Near Term Climate Prediction

What is our Vision for Decadal

CLIVAR Report to WOAP4 Detlef Stammer.

Water Science-Policy Interface (CIS-SPI) Progress report

What is our Vision for Decadal

Transition of WCRP projects beyond 2013: SPARC legacy and issues Christian von Savigny (IUP Bremen) on behalf of SPARC.

GODAE Final Symposium, 12 – 15 November 2008, Nice, France

Presentation transcript:

Cross-Cutting Topic DECADAL PREDICTION

Examples of Decadal Climate Anomalies Which Have Gone Down in Folkore Southern US Dustbowl (Grapes of Wrath) Sahel Drought (Band Aid)

CLIVAR Panels Contributing to Input to Decadal Paper VACS WGSIP US CLIVAR WG on multi-year drought Atlantic Panel Pacific Panel SPARC Dynamical impacts Chemical impacts

Why Now? Global Ocean-Atmosphere re-analyses are being produced over the last 50 years Coupled models are starting to be run on decadal timescales from these analyses

Atlantic Meridional Transport at 26N Upper 1200m (Balmaseda et al, 2007) Bryden Trend=-0.159 +/- 0.162 Sv/y -8.7% per decade Assimilation Trend= -0.074 +/- 0.020 Sv/y. -4.% per decade Surface fluxes only Trend= -0.029 +/- 0.013 Sv/y. -2% per decade Climatology Trend= -0.009 +/- 0.006 Sv/y -0.6% per decade

Volume transport upper 2000m (x20Sv) Heat Transport (x1 PW)

Decadal Climate Predictions at the Hadley Centre Doug Smith, James Murphy, Stephen Cusack A decadal prediction system (DePreSys) has been built Based on ensemble runs of HadCM3 started from analysed fields of observed anomalies of ocean T and S, and atmosphere wind, temperature, surface pressure Forecasts include GHG, aerosol forcing (SRES B2) Forecasts repeat previous 11 year solar cycle, and decay volcanic aerosol from initial conditions (i.e. assume no prior knowledge of future eruptions) Do we achieve additional skill by starting the model from observed initial conditions ? Test by running a set of DePreSys ensemble hindcasts, started from 1st March, June, September and December in each year from 1982 to 2001 (20 years x 4 seasons = 80 start dates) Compare against a parallel set of runs (NoAssim), which include the same external forcings as DePreSys but omit the assimilation of observed initial conditions (No Assim runs are started from initial states taken from HadCM3 “all forcings” simulations of historical climate change.) © Crown copyright 2004

Skill for SAT (years 5-10) Keenlyside et al. 2007

Coordinated Decadal Predictions are beginning within EU ENSEMBLES project

Proposal for Coordinated WCRP coupled model experimentation A:1965 initial conditions, observed GHGs and aerosols from 1965 B:1994 initial conditions, observed GHGs and aerosols from 1994 C:1965 initial conditions, observed GHGs and aerosols from 1994 D:1994 initial conditions, observed GHGs and aerosols from 1965 Hence (A-B)  overall level of predictability (A-D) & (B-C)  impact of initial conditions (A-C) & (B-D)  impact of GHG forcing

Relevance to WCRP: i Science From a scientific point of view the time is ripe for WCRP to start organising coordinated experimentation to assess decadal prediction skill from analysed initial conditions Decadal prediction will be a natural “meeting ground” for the weather and climate modelling communities and hence implementation of seamless strategy. Proposal links in with other projects eg EU ENSEMBLES

i Science (continued) The overarching objectives of WCRP are: To determine the effect of human activities on climate To determine the predictability of climate The proposed coordinated study addresses both of these objectives – the intrinsic predictability of climate, ie the role of initial conditions, and the anthropogenic forcing of climate.

ii Policy Relevance Many applications in health, agriculture, water management, tourism, forestry, fisheries, hurricane prediction, shipping and offshore construction, power generation… Key WCRP contribution to the problem of climate adaptation. It is possible that AR5 will include a chapter on hi-res decadal timescale predictions (eg to 2030). It is important for WCRP to play a leading role in this area.

iii Organisation and Governance Proposal draws on expertise of scientists across whole range of WCRP. Scoping of proposed activity should be carried out by short-period pan-WCRP Task Force lead by CLIVAR and involving experts from CliC, GEWEX and SPARC, reporting on progress to WMP and WOAP, aiming for the development of a more comprehensive plan for the initial experiment for JSC XXIX.

iv Visibility and communication by WCRP Great opportunities for the visibility of WCRP, emphasising the need for “short-term” climate predictions for climate adaptation purposes.

v Interaction with other bodies IGBP CLIPS IPCC

vi Capacity building in/by WCRP Decadal prediction will provide a focus for development of capacity in terms of seamless prediction and linkage between weather and climate prediction institutes. Potential for a wide range of prediction services, building capacity for planning across the developed and developing world.

Update June 2007 Proposal endorsed by JSC Now ready to start discussion with the community Please send comments and your interest in participating in WCRP cross-cutting decadal prediction activity to me (tim.palmer@ecmwf.int) A more definitive (eg DEMETER-like) multi-model study will be proposed after this first proof-of-concept phase has been assessed.