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Dynamical Prediction of the Terrestrial Ecosystem and the Global Carbon Cycle: a 25-year Hindcast...
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Dynamical Prediction of the Terrestrial Ecosystem and the Global Carbon Cycle: a 25-year Hindcast Experiment Jin-Ho Yoon Jin-Ho Yoon Dept. Atmospheric and Oceanic Science Dept. Atmospheric and Oceanic Science University of Maryland University of Maryland hors: Ning Zeng, Augustin Vintzileos, G. James Collatz, Eugenia K Annarita Mariotti, Arun Kumar, Antonio Busalacchi, Stephen Lor orators: C. Roedenbeck, P Wetzel, E. Maier-Reimer, Brian Cook, H. Qian, R. Iacono, E. Munoz March 5, 2008 CPASW
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Transcript of Dynamical Prediction of the Terrestrial Ecosystem and the Global Carbon Cycle: a 25-year Hindcast...
Dynamical Prediction of the Terrestrial Ecosystem
and the Global Carbon Cycle: a 25-year Hindcast Experiment
Jin-Ho Yoon Jin-Ho Yoon
Dept. Atmospheric and Oceanic Science Dept. Atmospheric and Oceanic Science University of MarylandUniversity of Maryland
Co-Authors: Ning Zeng, Augustin Vintzileos, G. James Collatz, Eugenia Kalnay, Annarita Mariotti, Arun Kumar, Antonio Busalacchi, Stephen Lord
Collaborators: C. Roedenbeck, P Wetzel, E. Maier-Reimer, Brian Cook, H. Qian, R. Iacono, E. Munoz
March 5, 2008 CPASW
‘‘Breathing’ of the biosphere: CO2 as a Breathing’ of the biosphere: CO2 as a major indicator of climate major indicator of climate
Terrestrial carbon model forced by observed climate variability ENSO, Pinatubo, drought and other signals
Modeled land-atmo flux vs. MLO CO2 growth rate
Seasonal-interannual Seasonal-interannual Prediction of Ecosystem and Prediction of Ecosystem and
Carbon CycleCarbon CycleTwo strands of recent research made this a real possibility
• Significantly improved skill in atmosphere-ocean prediction system, such as CFS at NCEP
• Development of dynamic ecosystem and carbon cycle models that are capable of capturing major interannual variabilities, when forced by realistic climate anomalies
A pilot study at U Maryland: Feasibility study using a prototype eco-carbon prediction system dynamical vs. statistical
TargetsTargets
• Predict spatial patterns and temporal variability of carbon fluxes and pool size Example: Reduced biosphere productivity and enhanced fire and CO2 from Amazon.
• Predict atmospheric CO2 concentration and growth rate. Atmospheric CO2 can be a ‘climate index’ indicating anomalies in the global ecosystem
The NCEP Climate Forecast System The NCEP Climate Forecast System (CFS, Saha et al. 2006)(CFS, Saha et al. 2006)
CFS captures major ENSO and other seasonal-interannual variability
PhotosynthesisAutotrophic respiration
Carbon allocation
Turnover
Heterotrophic respiration
4 Plant Functional Types:Broadleaf treeNeedleleaf treeC3 Grass (cold)C4 Grass (warm)
3 Vegetation carbon pools:LeafRootWood
3 Soil carbon pools:FastIntermediateSlow
Atmospheric CO2
The VEgetation-Global Atmosphere-Soil Model (VEGAS)
NPP=60 Pg/y
Rh=60Pg/y
NEE = Rh – NPP = + 3 (Interannual)
Forecasting Procedure IForecasting Procedure I
CFS (9mon, 15 members)
VEGAS
Output9mon, 15 members
Month 2
CFS (9mon, 15 members)
VEGAS
Output9mon, 15 members
Month 1
1 mo forecastensemble mean
IInitialization
ClimatePredition
Ecosystem+Carbon Model
PredictedEco-carbon
SpinupPrecip
Temp
Precip
Temp
Forecasting procedure IIForecasting procedure II
L=1
L=0
L=3
L=2
tt-1 t+1
Ensemble mean
NEE(‘validation') and MLO CO2NEE(‘validation') and MLO CO2
NEE (land-atmo C flux): VEGAS forced by observed climate (Precip, T) This will be called ‘validation’ as there is no true observation availableOcean contribution smaller, so NEE can be compared with atmo CO2 Using regression of inversion/OCMIP with Nino3.4/MEI?
NEE(‘validation') and Inversion NEE(‘validation') and Inversion (from MPI)(from MPI)
First look: Productivity (NPP) First look: Productivity (NPP)
'Observed'
Predicted global cabon flux (Fta)
Lead time from 0 to 8 months
1. CFS/VEGAS captures most of the interannual variability, but2. Amplitude is underestimated
Anomaly Correlation FtaAnomaly Correlation Fta
High skills in• South America• Indonesia• southern Africa• eastern Australia• western US • central Asia
Summary of skill for anomaly correlationSummary of skill for anomaly correlation
Correlation
Regression
Correlation .vs. Regression (Amplitude)Correlation .vs. Regression (Amplitude)
Benchmark Forecast: Benchmark Forecast: Do we need dynamical forecast?Do we need dynamical forecast?
Relaxation or Damping of climate forcingAnomaly at L=0 will persist or
damped to zero with decorrelation time scale.
Persistence
DampingL=1L=0 L=2
Benchmark ForecastBenchmark ForecastDo we need dynamic forecast system?Do we need dynamic forecast system?
Benchmark ForecastBenchmark Forecast
Beyond ENSO: Beyond ENSO: Drought during 1998-2002Drought during 1998-2002
Beyond ENSO: Fire in the US Beyond ENSO: Fire in the US Natural and anthropogenic factorsNatural and anthropogenic factors
Observation
Model
Conclusions: predictionConclusions: prediction
• Encouraging results (better than expected)
Seasonal prediction of Prec/Tas(CFS) + Dynamic ecosystem model (VEGAS)
Parallel project on ‘Fire danger (potential) prediction’.
Working on ‘operational mode’.
Issues• Overestimation at midlatitude
Implications of prediction• Applications to ecosystem and carbon cycle
• A new framework for study eco-carbon response and feedback to climate
• Identifying ways of incorporating eco-carbon dynamics in the next generation of climate prediction models
Conclusions: predictionConclusions: prediction
Thank you!Thank you!
Questions?Questions?
The NCEP Climate Forecast System The NCEP Climate Forecast System (CFS, Saha et al. 2006)(CFS, Saha et al. 2006)
Summary of skill for anomaly correlationSummary of skill for anomaly correlation
