Spatial patterns of daily rainfall in central Kenya: Application of principal component analysis, common factor analysis and spatial correlation

Bärring, Lars

doi:10.1002/joc.3370070306

Cited by 32 publications

(30 citation statements)

References 38 publications

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“…The PCA is designed not merely as a data reduction technique, but as a method which ensures that only the fundamental modes of variation of the data are considered. Several criteria have been suggested for deciding how many PCs to retain in order to separate 'signal' from 'noise' (Jolliffe, 1986;Bärring, 1987;Preisendorfer, 1988), but a clear-cut number of PCs is certainly rare. In this study, the simple scree test of Cattell (1966a) was adopted.…”

Section: Data Base and Methodologymentioning

confidence: 98%

Daily rainfall affinity areas in Mediterranean Spain

Romero¹,

Ramis²,

Guijarro³

et al. 1999

Int. J. Climatol.

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Section: Data Base and Methodologymentioning

confidence: 98%

Daily rainfall affinity areas in Mediterranean Spain

Romero¹,

Ramis²,

Guijarro³

et al. 1999

Int. J. Climatol.

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“…The PCA was applied in T-mode with a correlation matrix, using the time steps as variables and the grid points as observations. Several authors (Bärring, 1987;Preisendorfer, 1988;Jolliffe, 2002) have used different criteria to decide the number of PCs to retain so as to discriminate between signal and noise. In this case, we have considered only the most important components that account for at least 90% of the total variance.…”

Section: Methodsmentioning

confidence: 99%

Synoptic patterns associated with wildfires caused by lightning in Castile and Leon, Spain

García‐Ortega¹,

Trobajo²,

López³

et al. 2011

Nat. Hazards Earth Syst. Sci.

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Abstract. The Iberian Peninsula presents the highest number of wildfires in Europe. In the NW of Spain in particular, wildfires are the natural risk with the greatest economic impact in this region. Wildfires caused by lightning are closely related to the triggering of convective phenomena. The prediction of thunderstorms is a very complex task because these weather events have a local character and are highly dependent on mesoscale atmospheric conditions. The development of convective storms is directly linked to the existence of a synoptic environment favoring convection. The aim of this study is to classify the atmospheric patterns that provide favorable environments for the occurrence of wildfires caused by lightning in the region of Castile and Leon, Spain. The database used for the study contains 376 wildfire days from the period 1987-2006. NCEP data reanalysis has been used. The atmospheric fields used to characterise each day were: geopotential heights and temperatures at 500 hPa and 850 hPa, relative humidity and the horizontal wind at 850 hPa. A Principal Component Analysis in T-mode followed by a Cluster Analysis resulted in a classification of wildfire days into five clusters. The characteristics of these clusters were analysed and described, focusing particularly on the study of those wildfire days in which more than one wildfire was detected. In these cases the main feature observed was the intensification of the disturbance typical of the cluster to which the wildfire belongs.

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“…Several criteria have been suggested for deciding how many PCs to retain in order to separate 'signal' from 'noise' (Jolliffe, 1986;Barring, 1987;Preisendorfer, 1988), but a clear-cut number of PCs is certainly rare. The simple scree test of Cattell (1966) was adopted.…”

Section: Introductionmentioning

confidence: 98%