The use of multicomponent statistical analysis in hydrogeological environmental research

he present article examines the possibilities of investigating NO3- spread in aquifers by applying multicomponent statistical methods (factor, cluster and discriminant analysis) on hydrogeological, hydrochemical, and environmental parameters. A 4-R-Mode factor. model determined from the analysis showed its useful role in investigating hydrogeological parameters affecting NO3- concentration, such as its dilution by upcoming groundwater of the recharge areas. The relationship between NO3- concentration and agricultural activities can be determined sufficiently by the first factor SO42- which relies on NO3- and 4 of the same origin-that of agricultural fertilizers. The other three factors of R-Mode analysis are not connected directly to the NO3- problem. They do however, by extracting the role of the unsaturated zone, show an interesting relationship between organic matter content, thickness and saturated hydraulic conductivity. The application of Hirerarchical Cluster Analysis, based on all possible combinations of classification method, showed two main groups of samples. The first group comprises samples from the edges and the second from the central part of the study area. By the application of Discriminant Analysis it was shown that NO3- and SO2- ions are the most 4 significant variables in the discriminant function. Therefore, the first group is considered to comprise all samples from areas not influenced by fertilizers lying on the edges of contaminating activities such as crop cultivation, while the second comprises all the other samples. (C) 2004 Elsevier Ltd. All rights reserved.