Identification of Recharge Areas Using Geochemical Factor Analysis

Lawrence, Fred W.; Upchurch, Sam B.

doi:10.1111/j.1745-6584.1982.tb01387.x

Cited by 162 publications

(86 citation statements)

References 7 publications

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“…One disadvantage of FA, however, is the difficulty of distinguishing the processes that cause similar variations in the groundwater chemistry (Olmez et al 1994). In addition, a priori knowledge of the hydrogeologic processes affecting the environment under investigation is required for an effective application of FA (Lawrence and Upchurch 1983).…”

Section: Methodsmentioning

confidence: 99%

Identification of groundwater chemistry origins in a regional aquifer system (Wielkopolska region, Poland)

Dragon

Górski

2014

Environ Earth Sci

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This paper describes the origin of the groundwater chemistry in the regional aquifer located in the Wielkopolska region of western Poland. Factor analysis was used for the identification of geochemical processes that influence the groundwater chemistry. Two groups of processes were identified: anthropogenic (i.e., caused by groundwater contamination) and geogenic (i.e., caused by natural geochemical processes). Based on a background of the natural variations in the groundwater chemistry, the effect of upward groundwater flow from the deep part of the flow system on the groundwater chemistry was identified. The boron concentrations and isotope data allowed for the identification of zones of relatively old groundwater. The spatial distribution of fluoride concentrations allowed for the identification of recharge zones. This study demonstrates the general usefulness of groundwater chemistry differentiation for supporting identification of groundwater flow patterns. It also demonstrates the importance of using chemical data to evaluate the connectivity between different aquifers. These interpretations can be used for better management of water resources on a regional scale.

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Section: Methodsmentioning

confidence: 99%

Identification of groundwater chemistry origins in a regional aquifer system (Wielkopolska region, Poland)

Dragon

Górski

2014

Environ Earth Sci

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“…This may contribute to the releasing of Fe 2+ and SO 4 2-into the groundwater. The moderate negative loading of NH + 4 in this factor may indicate less oxygenated pathway owing to oxidation of pyrite (Lawrence and Upchurch 1982). .…”

Section: +mentioning

confidence: 99%

“…Over the past 30 years, Factor analysis (FA) has been successfully used to sort out the hydrochemical processes and relationships of collected groundwater data (Morin et al, 1979, Lawrence andUpchurch, 1982;Saad and Turgeon, 1988;and Deverel 1989). The goal of FA is to simplify the quantitative description of a system by determining the minimum number of new variables necessary to reproduce various attributes of the data.…”

Section: Factor Analysis (R-mode)mentioning

confidence: 99%

“…In the presence of substantially large amount of base information concerning the groundwater chemistry, and the limitation associated with the classical graphical approaches, which often allow using a finite number of variables (Ashley and Lloyd, 1978;Dalton and Upchurch, 1978;and Lawrence and Upchurch, 1982), multivariate techniques may be useful and come into consideration as an essential tool because the relative importance combinations of chemical and non-chemical variables can be evaluated.…”

Section: Introductionmentioning

confidence: 99%

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Use of Factor Analysis to Identify Sources Controlling Groundwater Chemistry in The Shallow Coastal Plain Aquifer, Western Saudi Arabia

Bayumi¹,

Alyamani²

2002

ear

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ABSTRACT. R-mode Factor analysis was used to interpret collected data concerning the groundwater chemistry from the shallow coastal plain aquifer and relating them to specific factors that brought about changes in the water quality. Five factors, accounting for nearly 81% of the total variance, were identified. These factors reflect different chemical processes that control the groundwater chemistry. Factor 1 reflects the most important process; namely the intensive evaporation which resulted in the highly mineralized water. Other processes that could be associated with this factor include the chemical weathering of silicate minerals, ion exchange reactions and mixing processes. Factor 2 represents the precipitation and dissolution of carbonate minerals (calcite and dolomite). Factors 1 and 2 could be considered the major factors controlling the chemical composition of the groundwater since they account for 50% of the total variance and together, they produce a chemical population ranging from low to extremely high saline water, which is confirmed by the chemical analysis results. The other three factors, which dominate the chemical processes, include oxidation of pyrite, groundwater pollution and solubility of silica. They could, therefore, be considered as contributor factors to the groundwater chemistry in an overall scale. Distribution score maps of the first four factors were constructed to delineate their relative spatial impact.

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“…Ashley and Lloyd (1978) used factor analysis to evaluate the hydrogeochemical process in the Santiago basin of Chile and the Derbyshire Dome of England. Lawrence and Upchurch (1982) also used the technique to delineate the zones of natural recharge to groundwater in the Florida aquifer. Ruiz et al (1990) suggested that the basic purpose of such an analysis was to study the hydrogeochemistry of aquifers by simplifying the numerous and complex groundwater data into a set of factors, few in number which can explain a large amount of the variance of the analytical data and also indicate the source of origin of various ions present in water.…”

Section: Introductionmentioning

confidence: 99%

Evaluation of major factors influencing the geochemistry of groundwater using graphical and multivariate statistical methods in Yenagoa city, Southern Nigeria

Okiongbo

Douglas

2014

Appl Water Sci

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To achieve a better understanding of the nature of the factors influencing groundwater composition as well as to specify them quantitatively, conventional graphical and multivariate statistical analysis (principal component analysis) were applied on hydrochemical data consisting of 51 groundwater samples collected from domestic boreholes in Yenagoa city, Bayelsa State, Nigeria. The mode of study includes analysis of major ion contents and other chemical parameters such as pH, total dissolved solids and electrical conductivity of the groundwater samples. The PCA yielded three principal components explaining 78.38 % of the total variance of the 11 parameters. The three components are interpreted as controlled by the natural weathering of existing silicate rocks, reverse ion-exchange processes and oxidation reactions which are further supported by the scatter diagrams, ionic signatures and mechanisms controlling the water chemistry diagrams as the common factors influencing the groundwater hydrogeochemical character. Limited anthropogenic influence on the groundwater composition has also been noticed in the study area. The groundwater poses no threat to human health because the concentrations of physico-chemical parameters that can be used to evaluate drinking water quality are within World Health Organisation standard specification. The groundwater in the area is fresh, high salinity and low sodium in nature.

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Identification of Recharge Areas Using Geochemical Factor Analysis

Cited by 162 publications

References 7 publications

Identification of groundwater chemistry origins in a regional aquifer system (Wielkopolska region, Poland)

Identification of groundwater chemistry origins in a regional aquifer system (Wielkopolska region, Poland)

Use of Factor Analysis to Identify Sources Controlling Groundwater Chemistry in The Shallow Coastal Plain Aquifer, Western Saudi Arabia

Evaluation of major factors influencing the geochemistry of groundwater using graphical and multivariate statistical methods in Yenagoa city, Southern Nigeria

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