carbon, soil moisture and fapar assimilation wolfgang knorr max-planck institute of biogeochemistry...
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![Page 1: Carbon, soil moisture and fAPAR assimilation Wolfgang Knorr Max-Planck Institute of Biogeochemistry Jena, Germany 1 Acknowledgments: Nadine Gobron 2, Marko](https://reader034.vdocuments.site/reader034/viewer/2022051517/56649ec45503460f94bcf2fe/html5/thumbnails/1.jpg)
Carbon, soil moisture and fAPAR assimilation
Wolfgang Knorr
Max-Planck Institute of Biogeochemistry
Jena, Germany 1
Acknowledgments: Nadine Gobron 2, Marko Scholze 3, Peter Rayner 4, Thomas Kaminski 5,
Ralf Giering 5, Heinrich Widmann1
3 4 5 FastOptQUEST /2 IES/JRC LSCE
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Overview
• CO2 – climate linkages
• Satellite fAPAR as soil moisture indicator
• Assimilation of fAPAR
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Atmospheric CO2 Measurements
CCDAS inverse modelling period
... and more stations in CCDAS
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Carbon Cycle Data Assimilation System (CCDAS)
CCDAS Step 2BETHY+TM2
only Photosynthesis, Energy&Carbon Balance
CO2
+ Uncert.
Optimized Params + Uncert.
Diagnostics + Uncert.
satellite fAPAR +Uncert.
CCDAS Step 1full BETHY
PhenologyHydrology
AssimilatedPrescribedAssimilated
BackgroundCO2 fluxes*
* * ocean: Takahashi et al. (1999), LeQuere et al. (2000); emissions: Marland et al. (2001), Andres et al. (1996); land use: Houghton et al. (1990)
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Terr. biosphere–atmosphere CO2 fluxes
ENSO
… preliminary results from extended CCDAS run
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ENSO and global climate normalized anomalies
ENSO
–precipitation temperature
… global drying and warming trend
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for more information see:
http://www.CCDAS.org
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Overview
• CO2 – climate linkages
• Satellite fAPAR as soil moisture indicator
• Assimilation of fAPAR
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canopy
soil
Remotely Sensed Vegetation Activity
ITOC I
TOC
IS I
S
fAPAR:
[(ITOC+I
S)–(ITOC+I
S)]/ I
TOC
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SeaWiFS fAPAR archive
developed by Nadine Gobron, Bernard Pinty, Frédéric Melin, IES/JRC, Ispra
3-channel algorithm taylored to SeaWiFS ocean color instrument (blue, red, near-infrared)
cloud screening algorithm requires no atmospheric correction starts 10/1997, continuing... being extended by same product for MERIS
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Precipitation – fAPAR
leaf area index
precipitation
fAPAR
soil moisture
gridded station data
satellite observationsBETHY simulations
BETHY simulations
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1-month lag
precipitation vs. fAPAR from
SeaWiFS satellite obs.
4-month lag
r>0r<0
0.5°x0.5°, ≥50% cloud free, ≥75% temporal coverage
percent area with 99% significant correlation
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precipitation vs. fAPAR:
satellite and model
1-month lag
percent area with 99% significant correlation
r>0r<0
SeaWiFS fAPAR
BETHY simulated fAPAR
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precipitation vs. fAPAR:
satellite and model
4-month lag
BETHY simulated fAPAR
percent area with 99% significant correlation
r>0r<0
SeaWiFS fAPAR
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1-month lag
precipitation vs. satellite fAPAR
and simulated soil moisture
percent area with 99% significant correlation
SeaWiFS fAPAR
BETHY simulated soil moisture
r>0r<0
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precipitation vs. satellite fAPAR
and simulated soil moisture
percent area with 99% significant correlation
SeaWiFS fAPAR
BETHY simulated soil moisture
r>0r<0
4-month lag
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ENSO – SeaWiFS fAPARlagged correlation
3-month lag
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Overview
• CO2 – climate linkages
• Satellite fAPAR as soil moisture indicator
• Assimilation of fAPAR
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fAPAR Assimilation
BETHY
carbon and waterfluxes
climate &soils data**
Prescribed PFT distribution*
model-derivedfAPAR
ecosystem modelparameters
satellitefAPAR
mismatch
optimization
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The Cost Function
Measure of the mismatch (cost function):
€
J (r m ) =
12
[r m −
r m 0]Cm0
-1 [r m −
r m 0]
T +12
[r y (
r m )−
r y 0]Cy
-1[r y (
r m )−
r y 0]
T
model diagnostics
error covariance matrixof measurements
measurements
assumedmodel parameters
a priori error covariancematrix of parametersa priori
parameter values
aim: minimize J(m)
[for each grid point separately]
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The Parameters
parameter vector m={m1,m2,m3}:
m1
m2
m3
T
wmax
fc
shift of leaf onset/shedding temperature
maximum soil water holding capacity
fraction of grid cell covered with vegetation
temperature limitation
water limitation
residual, unmodelled limitations (nitrogen, land use)
vector of prior parameter values m0:
T=0
wmax,0(derived from FAO soil map)
fc,0(function of P/PET and Temp. of warmest month)
represents:
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Prior Parameter 1
prior values:
map reflects presence of crops; red: unvegetated
note: each 0.5°x0.5° has mixture of up to 6 PFTs
T=5°C
T=12°C for crops
T=15°C^
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wmax,0 [mm]
Prior Parameter 2
bucket model:
precipitation=input
runoff=overflow
fullbucket:wmax
currentbucket:w
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Prior Parameter 3
fc,0=Pannual/PETannualWTwarmest month)/^
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Prior Parameter Errors
error covariance matrix of parameters Cm0:
€
Cm0 =
1K2 0 0
0 (2wmax,0)2 0
0 0 0.252
⎛
⎝
⎜ ⎜ ⎜
⎞
⎠
⎟ ⎟ ⎟
off-diagonal elements assumed 0 here= no prior correlation between errors of different parameters
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The Assimilated Data
model diagnostics vector y={y1,y2,...,y12}:
yi modelled fAPAR of month i
satellite-derived diagnostics vector y0={y0,1,y0,2,...,y0,12}:
y0,i SeaWiFS derived fAPAR of month i
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Prior Errors of Measurements
error covariance matrix of measurements Cy:
€
Cy i, j =0.052 if valid measurement
∞ if data gap
⎧ ⎨ ⎩
=σ y,i2
off-diagonal elements again 0= no prior correlation between errors of different months
i=j
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Parameter 2 (regional)soil water-holding capacity
prior optimized
local site
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Local Simulations
Paragominas3°S 48°W 63 m
Paragominas3°S 48°W 63 m
-
-
precipitation [mm/month]
evapotranspiration [mm/month]
fAPAR
no remote sens. datafAPAR prescribedfAPAR assimilatedNPP [gC/(m2 month)]
1992
remote sensing data
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Measured Soil Moisture
Paragominas3°S 48°W 63 m
Paragominas3°S 48°W 63 m
-
-
precipitation [mm/month] fAPAR
no remote sens. datafAPAR prescribedfAPAR assimilated1992
1992 1992
0...2m depth 0...8m depth
remote sensing data
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evapotranspiration (regional)
prior optimized
mm/yearmm/year
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July soil moisture (regional, dry season)
prior
Parag.
optimized
mmmm
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Conclusions
• The carbon cycle is highly sensitive to climate fluctuations
• Vegetation can be quantified reliably from space
• fAPAR lags precipitation by ~1–4(?) months
• seems to behave similar to soil moisture
• assimilation of fAPAR can deliver valuable information on
soil moisture status
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Conclusions
• Need to improve phenology model
• Implement sequential 2-D var assimilation scheme
• Assimilate fAPAR into coupled ECHAM5-BETHY model
(hope not too distant) goal: make fAPAR what SST
is for ocean-atmosphere interactions... and
improve seasonal forecasts
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Thank You For Your Attention!