european scale aq mapping (using interpolation and assimilation) and evaluation of its uncertainty
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European scale AQ mapping (using interpolation and assimilation) and evaluation of its uncertainty Jan Horálek , Pavel Kurfürst Peter de Smet ETC/ACC. - PowerPoint PPT PresentationTRANSCRIPT
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European scale AQ mapping (using European scale AQ mapping (using interpolation and assimilation) and interpolation and assimilation) and
evaluation of its uncertaintyevaluation of its uncertainty
Jan HorálekJan Horálek, Pavel Kurfürst, Pavel KurfürstPeter de SmetPeter de Smet
ETC/ACCETC/ACC
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Task „Spatial air quality data“ under ETC/ACC Task „Spatial air quality data“ under ETC/ACC Implementation planImplementation plan
„to provide support in general to any AQ and spatial „to provide support in general to any AQ and spatial related activity“ related activity“ – e.g. providing inputs for CSI, AP Report– e.g. providing inputs for CSI, AP Report (maps) (maps)
Final outputs of the last year:Final outputs of the last year:ETC/ACC Technical Paper 2005/7ETC/ACC Technical Paper 2005/7ETC/ACC Technical Paper 2005/8ETC/ACC Technical Paper 2005/8„Interpolation and assimilation methods for European „Interpolation and assimilation methods for European scale air quality assessment and mapping“, Part I. and II.scale air quality assessment and mapping“, Part I. and II.
this year Task 5.3.1.2. this year Task 5.3.1.2. MNP, CHMI, NILUMNP, CHMI, NILU
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Concentration in every place is assessed by measured Concentration in every place is assessed by measured data from surrounding stations, especially using their data from surrounding stations, especially using their linear combination: linear combination:
where where Z(sZ(sii), …, Z(s), …, Z(sii)) are the concentration are the concentration
at the surrounding stations, at the surrounding stations, ii are weights. are weights.
Two classes of interpolation methods: Two classes of interpolation methods: - deterministic (simple, e.g. IDW) - deterministic (simple, e.g. IDW) - geostatistical (utilize spatial structure of the AQ - geostatistical (utilize spatial structure of the AQ field; different types of kriging)field; different types of kriging)
1. Interpolation of air quality data 1. Interpolation of air quality data
n
iii sZsZ
10 )()(
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Supplementary (e.g. dispersion model, altitude, Supplementary (e.g. dispersion model, altitude, meteorological parameters, like temperature or wind meteorological parameters, like temperature or wind speed, latitude or longitude) data bring more complex speed, latitude or longitude) data bring more complex information about the whole area.information about the whole area.
Linear regression model of measured AQ data with Linear regression model of measured AQ data with supplementary data + spatial interpolation of residuals supplementary data + spatial interpolation of residuals
wherewhere DD11(s), …, D(s), …, Dmm(s)(s) are supplementary parameters in point are supplementary parameters in point ss
c, c, aa11, …, a, …, amm are parameters of linear regression model are parameters of linear regression model
computed at the basis of data in the places of AQ stations computed at the basis of data in the places of AQ stations
2. Combination o2. Combination off measured AQ data and measured AQ data and different supplementary datadifferent supplementary data
)()(....)(.)( 11 ssDasDacsZ mm
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A.A. Developed mapping Developed mapping methodologymethodology
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Mapping methodologyMapping methodology
rural and urban maps are constructed separatelyrural and urban maps are constructed separately(different character of urban and rural air quality) (different character of urban and rural air quality)
final map is created by merging them final map is created by merging them
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Rural mappingRural mapping
Linear regression model of measured AQ data and Linear regression model of measured AQ data and different supplementary data + spatial interpolation of different supplementary data + spatial interpolation of residuals by ordinaryresiduals by ordinary kriging kriging
wherewhere DD11(s), …, D(s), …, Dmm(s)(s) are supplementary data in the place are supplementary data in the place ss,,
c,c, aa11, …, a, …, amm are parameters of the regression model,are parameters of the regression model,
computed at the places of AQ measurement.computed at the places of AQ measurement.
)()(....)(.)( 11 ssDasDacsZ mm
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Linear regression model – AQ measurement vs. dispersion Linear regression model – AQ measurement vs. dispersion model EMEP, altitude, sunshine duration, 2003model EMEP, altitude, sunshine duration, 2003
measur. vs. lin. regr. model, SOMO35
y = x = 13960 + 0.24*EM + 6.244*alt. + 113.6*s.d.
R2 = 0.59
0
5000
10000
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25000
0 5000 10000 15000 20000
linear regression model [µg.m-3.days]
mea
sure
men
ts
[µg
.m-3
.day
s]
measur. vs. lin. r. mod., PM 10 ann. avg
y = x = 1.41*EM - 0.007*alt.+ 0.26*sun.d.
R2 = 0.40
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linear regression model [µg.m-3]m
easu
rem
ents
[µ
g.m
-3]
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PMPM1010 – rural map (combination of AQ data with EMEP – rural map (combination of AQ data with EMEP
dispersion model, altitude and sunshine duration), 2003dispersion model, altitude and sunshine duration), 2003
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PMPM1010 – urban map (rural map + interpolation of urban – urban map (rural map + interpolation of urban
increment „Delta“), 2003increment „Delta“), 2003
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Merging of rural and urban map – using population Merging of rural and urban map – using population density mapdensity map
PM10 ann. avg vs. popul. dens. classes
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<50
50-
100
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200-
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500-
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>5000
popul. dens. cl. [inhbs.km-2]
PM
10 a
nn
ual
avg
. [µ
g.m
-3]
rural
urb+sub
CLASS [inhbs.km-2]
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50
60
70
PM
10
an
n.
avg
, 2
00
2
[µg
.m-3
]
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PMPM1010 - - annual average, 2003 annual average, 2003
Combined rural and urban mapCombined rural and urban map
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B. Final European maps for 2003B. Final European maps for 2003
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Ozone -Ozone - SOMO35, 2003 SOMO35, 2003
Combined rural and urban mapCombined rural and urban map
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PMPM1010 - - annual average, 2003 annual average, 2003
Combined rural and urban map Combined rural and urban map
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PMPM1010 - - 36. highest daily value, 2003 36. highest daily value, 2003
Combined rural and urban map Combined rural and urban map
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PMPM1010 - - annual average, 2003 annual average, 2003
Concentration map + population densityConcentration map + population density
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C. This year’s activityC. This year’s activity
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Actual maps for 2004 Actual maps for 2004 plusplus mapping of mapping of more components resp. parametersmore components resp. parameters
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Ozone -Ozone - SOMO35, 2004 SOMO35, 2004
Combined urban and rural mapCombined urban and rural map
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PMPM1010 - - annual average, 2004 annual average, 2004
Combined urban and rural mapCombined urban and rural map
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PMPM1010 - - 36. highest daily value, 2004 36. highest daily value, 2004
Combined urban and rural mapCombined urban and rural map
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PMPM1010 - - 56. highest daily value, 2004 56. highest daily value, 2004
Combined urban and rural mapCombined urban and rural map
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For the purposes of protection of vegetations - rural For the purposes of protection of vegetations - rural background stations only used for mappingbackground stations only used for mapping
In this stage pure interpolation only (no use of supplem. In this stage pure interpolation only (no use of supplem. data in places with no measurements) data in places with no measurements)
82 rural background stations with NO 82 rural background stations with NOxx data in AirBase data in AirBase
For some countries NO For some countries NOxx had to be computed from NO had to be computed from NO
and NOand NO22 data in AirBase (188 stations) data in AirBase (188 stations)
For 23 For 23 stations, in which NO stations, in which NO22 is measured only, N is measured only, NOOxx was was
computed based on linear regression (separately for computed based on linear regression (separately for 4 geographic areas)4 geographic areas)
NONOxx rural mappingrural mapping
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NONOxx rural mapping – relation between NOrural mapping – relation between NOxx and NO and NO22
NOx vs. NO2 - rural background, 2004, North
y = 0.0054x2 + 1.1441x
R2 = 0.9892
0
5
10
15
0 2 4 6 8 10 12
NO2
NO
x
NOx vs. NO2 - rural background, 2004, North-west
y = 0.0278x2 + 0.9208x
R2 = 0.9557
01020304050607080
0 10 20 30 40
NO2
NO
x
NOx vs. NO2 - rural background, 2004, Centre + East
y = 0.0272x2 + 1.0123x
R2 = 0.922
0
10
20
30
40
50
60
0 5 10 15 20 25 30
NO2
NO
x
NOx vs. NO2 - rural background, 2004, South
y = 0.0144x2 + 1.3241x
R2 = 0.9309
01020304050607080
0 10 20 30 40 50
NO2
NO
x
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NONOxx - - rural map, annual average, 2004rural map, annual average, 2004
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SOSO22 - - rural map, annual average,rural map, annual average, 2004 2004
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Ozone Ozone -- AOT40 for crops, 2004 AOT40 for crops, 2004
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Ozone -Ozone - AOT40 for crops, 2004AOT40 for crops, 2004
„Agricultural Areas at Risk / Damage„Agricultural Areas at Risk / Damage““
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Ozone -Ozone - AOT40 for crops, 2004AOT40 for crops, 2004
„Arable Land at Risk / Damage“„Arable Land at Risk / Damage“
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OzonOzonee - - AOT40 for crops, 2004 AOT40 for crops, 2004
„Permanent Crops at Risk / Damage“„Permanent Crops at Risk / Damage“
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Ozone -Ozone - AOT40 for crops, 2004AOT40 for crops, 2004
„Pastures at Risk / Damage„Pastures at Risk / Damage““
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Ozone -Ozone - AOT40 for crops, 2004 AOT40 for crops, 2004
„Heterogeneous Agricultural Areas at Risk / Damage„Heterogeneous Agricultural Areas at Risk / Damage““
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Ozone -Ozone - AOT40 for forests, 2004 AOT40 for forests, 2004
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Ozone -Ozone - AOT40 for forests, 2004 AOT40 for forests, 2004
„Forests at Risk / Damage“„Forests at Risk / Damage“
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Ozon -Ozon - AOT40 for forests, 2004AOT40 for forests, 2004
„Broad-Leaved Forests at Risk / Damage“„Broad-Leaved Forests at Risk / Damage“
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Ozon -Ozon - AOT40 for AOT40 for forests, 2004forests, 2004
„Coniferous Forests at Risk / Damage„Coniferous Forests at Risk / Damage““
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Ozon -Ozon - AOT40 AOT40 for forests, 2004for forests, 2004
„Mixed Forests at Risk / Damage„Mixed Forests at Risk / Damage““
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Using of actual meteorological Using of actual meteorological instead of instead of long-term long-term climaticclimatic data data
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Under IP2005 climatic data were usedUnder IP2005 climatic data were used(averages 1961-1990)(averages 1961-1990)
This year we use actual This year we use actual (2004) (2004) meteorological data meteorological data obtained from ECWMF. obtained from ECWMF.
Improving of results (higher coefficient of determination RImproving of results (higher coefficient of determination R22):):
Using of actual meteorological data instead of Using of actual meteorological data instead of long-term long-term climaticclimatic data data
climatic_61-90 meteo_20041 (altitude, temper., w.speed, sol.rad./sunsh.dur., EMEP) 0.43 0.462 (altitude, w.speed, sol.rad./sunsh.dur., EMEP) 0.42 0.453 (altitude, temperature, wind speed, EMEP) 0.32 0.394 (altitude, w.speed, rel. humidity, EMEP) 0.37 0.415 (altitude, wind speed, sol.rad./sunsh.dur.) 0.27 0.316 (altitude, temperature, wind speed) 0.26 0.31
type of regression modelR2
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Major improvement in the usability of supplementary Major improvement in the usability of supplementary parameters – actual wind speed improves parameters – actual wind speed improves the assessment of PMthe assessment of PM1010 (contrary to climatic long (contrary to climatic long
term wind speed)term wind speed) Caused by the differences between actual and climatic Caused by the differences between actual and climatic
wind speed.wind speed.
Using of actual meteorological data instead of Using of actual meteorological data instead of long-term long-term climaticclimatic data data
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Comparison of actual meteorological 2004Comparison of actual meteorological 2004and climatic 1961-1990 dataand climatic 1961-1990 data
relative humidity - 2004 vs. 1961-90
y = 0.2587x + 73.919
R2 = 0.8481
80
85
90
95
100
50 60 70 80 90 100
rel. humidity 1961-90 [%]
rel.
hu
mid
ity
2004
[%
]
surf. solar rad. 2004 vs. sunshine dur. 1961-90
y = 201140x + 2599515
R2 = 0,9093
0
5000000
10000000
15000000
20000000
0 20 40 60 80
sunshine duration 1961-90 [%]
surf
. so
lar
r. 2
004
[Ws.
m-2
]
temperature - 2004 vs. 1961-90
y = 0.9227x + 1.4319
R2 = 0.9337
0
5
10
15
20
0 5 10 15 20
total precipitation 1961-90 [mm.year-1]
tota
l p
reci
p.
2004
[m
m]
wind speed - 2004 vs. 1961-90
y = 0.5934x + 1.1393
R2 = 0.3133
012345678
0 2 4 6 8
wind speed 1961-90 [m.s-1]
win
d s
pee
d 2
004
[m
.s-1
]
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Analysis of mapping Analysis of mapping error/uncertaintyerror/uncertainty
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CCrossvalidation: interpolation is done without one station,rossvalidation: interpolation is done without one station, repeatedly for all points – stituation in places with no repeatedly for all points – stituation in places with no
measurement is simulated. measurement is simulated. Crossvalidation gives the objective measure of the quality Crossvalidation gives the objective measure of the quality
of interpolation. of interpolation. Several indicators: root-mean-square error (RMSE), Several indicators: root-mean-square error (RMSE),
mean prediction error (MPE), absolute error (MAE) mean prediction error (MPE), absolute error (MAE)
wherewhere Z(sZ(sii) ) is a value of concentration in the is a value of concentration in the ii-th point-th point
ŻŻ(s(sii)) is the estimation in the is the estimation in the ii-th point using other points-th point using other points
MAE should be the smallest and MPE should be the MAE should be the smallest and MPE should be the nearest to zero nearest to zero
N
iii sZsZ
NRMSE
1
2))(ˆ)((1
Crossvalidation analysis of interpolation errorCrossvalidation analysis of interpolation error
N
iii sZsZ
NMPE
1
))(ˆ)((1
N
iii sZsZ
NMAE
1
)(ˆ)(1
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Crossvalidation scatterplot: measured values and Crossvalidation scatterplot: measured values and interpolated values interpolated from other stations interpolated values interpolated from other stations are are plottedplotted Linear regression of these values: In ideal case would be Linear regression of these values: In ideal case would be
x=y and Rx=y and R22=1.=1.
Crossvalidation analysis of interpolation errorCrossvalidation analysis of interpolation error
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Cross-validation analysis – PMCross-validation analysis – PM1010 rural, annual average, rural, annual average,
interpolation by ord. kriging (left) and cokriging (rightinterpolation by ord. kriging (left) and cokriging (right))
Predicted (in crossvalidation) vs. measured, ordinary kriging
y = 0.3736x + 12.593R2 = 0.3363
0
5
10
15
20
25
30
35
40
0 10 20 30 40 50 60
PM10 measured
PM
10 e
stim
ated
, cro
ssv.
Predicted (in crossvalidation) vs. measured, ordinary cokriging
y = 0.5741x + 8.5817R2 = 0.584
0
5
10
15
20
25
30
35
40
0 10 20 30 40 50 60
PM10 measured
PM
10 e
stim
ated
, cro
ssv.
RMSE 5.92
MPE -0.19
MAE 4.30
R2 0.34
RMSE 4.67
MPE -0.15
MAE 3.31
R2 0.58
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Possible only for geostatistic method (krigingPossible only for geostatistic method (kriging etc.) etc.)
Contrary to crossvalidation – this error mapping has some Contrary to crossvalidation – this error mapping has some uncertainty in itself.uncertainty in itself.
Mapping of standard prediction errorMapping of standard prediction error
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AOT40 for crops (rural areas), 2004 AOT40 for crops (rural areas), 2004 ordinary cokriging (using altitudeordinary cokriging (using altitude))
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AOT40 for crops (rural areas), 2004 AOT40 for crops (rural areas), 2004 ordinary cokriging - Prediction Standard Error ordinary cokriging - Prediction Standard Error
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PMPM1010 - - annual average, 2003 annual average, 2003
Combined rural and urban map Combined rural and urban map
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PM10 -PM10 - annual average, 2003 – prediction error mapannual average, 2003 – prediction error map
done by done by Marek BrabecMarek Brabec
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Further activitiesFurther activities
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Further activities Further activities
Improved urban mappingImproved urban mapping
Development of mapping PM2.5 Development of mapping PM2.5
Filling the gaps in maps caused by the lack of population Filling the gaps in maps caused by the lack of population density data (ORNL database). density data (ORNL database).
Population at risk – maps and tablesPopulation at risk – maps and tables
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Thank you for attention.Thank you for attention.