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Verification of clustering properties of extreme daily temperatures in winter and summer using the extremal index in five downscaled climate models. José .A. LÓPEZ Climatological Techniques Unit AEMET Spain. EMMS & ECAM 2011, Berlin. Outline. Methodology
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Verification of clustering properties of extreme daily temperatures in winter and summer using the extremal index in five downscaled climate models José .A. LÓPEZ Climatological Techniques Unit AEMET Spain EMMS & ECAM 2011, Berlin
Outline • Methodology • Extremal Index θ: definition, example • Estimation of θ • Declustering procedure • Bootstrapping technique for C.I. • Data, deviation index • Verification for Dec-Jan lowest daily temperatures • Observed θ values • Statistics of verification of θ for AR4 models • Some results including AR3 models • Verification for Jul-Aug highest daily temperatures • .... • ... EMMS & ECAM 2011, Berlin
The Extremal Index: Definition • The Extremal Index θ is a statistical measure of the clustering in a stationary series. It varies between 0 and 1, with 1 corresponding to absence of clustering (Poisson process) Formal definition: • Let X(i), i=1,..,n be a stationary series of r.v. with cdf F (with F*= 1-F); define M(n)= max(X(i): 1 ≤ i ≤ n). We say that the process X(i) has extremal indexθε [0, 1] if for each τ > 0 there is a succession u(n) such that for n -> ∞, • a) n F* (u(n)) -> τ (mean nº of exceedances = τ) • b) P ( M(n) ≤ u(n) ) -> exp (- θτ) • If θ = 1 the exceedances of progressively higher thresholds u(n) occur independently, i.e. They for a Poisson process (this is the case of independent r.v X(i) EMMS & ECAM 2011, Berlin
The Extremal Index : interexceedance times The extremal index is the proportion of interexceedance times that may be regarded as intercluster times. This fact is used for declustering. EMMS & ECAM 2011, Berlin
The Extremal Index : simulation with an ARMAX process The ARMAX process is defined by: where de Z’s are standard independent Fechet variables, i.e. prob(Z < x) = Exp (-1/x) This process has an extremal index: Θ = 1 - α EMMS & ECAM 2011, Berlin
The Extremal Index : simulation for θ = 1 (Poisson) EMMS & ECAM 2011, Berlin
The Extremal Index : simulation for θ = 0.8 EMMS & ECAM 2011, Berlin
The Extremal Index : simulation for θ = 0.5 EMMS & ECAM 2011, Berlin
The Extremal Index : simulation for θ = 0.2 EMMS & ECAM 2011, Berlin
Estimation of the Extremal Index If the Ti are the successive times between exceedances of the high threshold u the Extremal Index is estimates by: (Ferro, C.A.T. “Inference for cluster of extreme values”, J.R.Statist.Soc. B(2003), 65, Part 2, 545-556) . EMMS & ECAM 2011, Berlin
Declustering procedure Objective: Define the clusters in a series of exceedances The times between exceedances are classified as inter-cluster times or intra-cluster (belonging to the same cluster) ones according to their length. The criterion used is “objective” and simple, it depends only the Extremal Index θ. More specifically the longest θ N inter-exceedance times are assigned an inter-cluster character, the rest are assigned an intra-cluster character. Between two successive inter-cluster times there is a set (which may be void) of intra-cluster times EMMS & ECAM 2011, Berlin
Bootstrapping technique In order to build confidence intervals for the θ of a series, a “bootstrapping” technique was used: • Sample with replacement successively from the set of inter-cluster times, and then from the set of sets of intra-cluster times to build a fictitious process • Compute the θ of this fictitious process • Repeat the above steps the desired nº of times to build the confidence interval EMMS & ECAM 2011, Berlin
Data and models used Period: 1961-1990 Data used: observed and dowscaled daily temperature at 16 observatories of Spain Models AR4: cccma-cgcm3 (CA), gfdl-cm2 (US), inmcm3 (RU), mpi-echam5 (AL), mri-cgcm2 (JA) Models AR3: ECHAM4, HadAM3, CGCM2 The statistical downscaling technique was analog-based EMMS & ECAM 2011, Berlin
Verification of the Extremal Index in extreme temperature for downscaled climate models • The thresholds used to build the exceedances (on 15-day moving windows) • 90th percentile for Jul-Aug • 10th percentile for Dic-Jan (in this case the values below the threshold are found) • In order to assess the differences in θ between observations and downscaled data the following deviation index was used where 1000 bootstrap samples where used to compute the medians and the IQR EMMS & ECAM 2011, Berlin
Dec-Jan (occurrances below the 10th percentile of daily temperature) EMMS & ECAM 2011, Berlin
Observed values of θ Dec-Jan (in percent) Median= 37 Max = 57 Min = 23 EMMS & ECAM 2011, Berlin
Observed values of θ Dec-Jan: values above (1) and below (-1) the median EMMS & ECAM 2011, Berlin
Observed values of θ Dec-Jan : spatial distribution Lowest values of θ(more clustering) in the NE and interior Highest values of θ (less clustering) in the western half EMMS & ECAM 2011, Berlin
Verification of θ for AR4 downscaled models Dec-Jan Histogram of absolute deviation index of θ (on the y-axis nº of observatories, on the x-axis accumulated frequencies) Aver. absol. dev. Index: CA (1.3), US(2.3), RU(1.3) AL(0.8) JA (1.2) Aver. dev. Index: CA (0.9), US(2.3), RU(0.2) AL(-0.3) JA (-0.2) EMMS & ECAM 2011, Berlin
Verification of θ for AR4 downscaled models Dec-Jan: leading models At each observatory the downscaled model that leads the others in terms of absolute deviation index (in no case by more than 1.0) EMMS & ECAM 2011, Berlin
Verification of θ for downscaled models in Dec-Jan: leading models AR4+ 3 AR3 models Four models of AR4 show little or moderate global bias in θ, whereas with AR3 only one shows little bias (the rest show more clustering) Aver. dev. IndexAR3 : EC (-2.3) HA ( -1.5) CG (-0.5) Aver. dev. Index AR4: CA (0.9), US(2.3), RU(0.2) AL(-0.3) JA (-0.2) EMMS & ECAM 2011, Berlin
Jul-Aug (occurrances above the 90th percentile of daily temperature) EMMS & ECAM 2011, Berlin
Observed values of θ Jul-Aug (in percent) Median = 48 Max = 81 Min = 36 EMMS & ECAM 2011, Berlin
Observed values of θ Jul-Aug: values above (1) and below (-1) the median EMMS & ECAM 2011, Berlin
Observed values of θ Jul-Aug : spatial distribution It is more difficult than in the Dic-Jan case to discern spatial patterns of the θ index The northern coast and obsevatories on the Iberian mountain range show above average θ values (less clustering) The contrary (more clustering) happens at the NE extreme (Catalonia) EMMS & ECAM 2011, Berlin
Verification of θ for AR4 downcaled models Jul-Aug Histogram of absolute deviation index of θ (on the y-axis nº of observatories, on the x-axis accumulated frequencies) Aver. absol. dev. Index: CA (1.6), US(1.8), RU(3.0) AL(1.6) JA (1.3) Aver. dev. Index: CA (-1.4), US(-1.6), RU(-2.9) AL(-1.2) JA (-0.5) EMMS & ECAM 2011, Berlin
Verification of θ for AR4 downcaled models Jul-Aug All the downscaled AR4 models show a bias towards excessive clustering (the Japanese little) in Jul-Aug (though less than in the three AR3 models) EMMS & ECAM 2011, Berlin
Verification of θ for AR4 downscaled models Jul-Aug: leading models At each observatory the downscaled model that leads the others in terms of absolute deviation index (with an asterisk when the difference to the others is >1.0) EMMS & ECAM 2011, Berlin
Verification of θ for downscaled models in Jul-Aug: leading models AR4+ 3 AR3 models There is a clear decrease in the amount of bias (excess clustering) in AR4 models with respect to AR3· Aver. dev. Index AR3: EC (-2.9) HA ( -4.1) CG (-2.4) Aver. dev. Index AR4: CA (-1.4), US(-1.6), RU(-2.9) AL(-1.2) JA (-0.5) EMMS & ECAM 2011, Berlin
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