Abstract
Forested catchments are generally assumed to provide higher quality water. However, this hypothesis must be validated in various contexts as interactions between multiple land use and land cover (LULC) types, ecological variables and water quality variables render this relationship highly complex. This paper applies a straightforward multivariate approach on a typical large monitoring dataset of a highly managed and densely populated area (Wallonia, Belgium; 10-year dataset), quantifying forest cover effects on nine physico-chemical water quality variables. Results show that forest cover explains about one third of the variability of water quality and is positively correlated with higher quality water. When controlling for spatial autocorrelation, forest cover still explains 9% of water quality. Unlike needle-leaved forest cover, broad-leaved forest cover presents an independent effect from ecological variables and explains independently 4.8% of water quality variability while it shares 5.8% with cropland cover. This study demonstrates clear independent effects of forest cover on water quality, and presents a method to tease out independent LULC effects from typical large multivariate monitoring datasets. Further research on explanatory variables, spatial distribution effects and water quality datasets could lead to effective strategies to mitigate pollution and reach legal targets.
Highlights
Water is the most essential component for the life of all beings [1,2]
Presents these results shows that forest cover still explains 9.3% of water quality variability when the shared effect in with a factorial plan by is the constrained axisand (RDA1)
Our study demonstrates significant effects of forest cover on water quality, disentangles independent and shared effects of correlated Land use and Land cover (LULC) categories while controlling for autocorrelation, and applies a method to mine large monitoring datasets
Summary
Water is the most essential component for the life of all beings [1,2]. In response to the global degradation of ecosystems and their services, water quality management is at the core of policies such as the European Water Framework Directive (Directive, 2000/60/CE) aiming at maintaining or restoring the chemical, physical and biological integrity of surface and groundwater bodies. Managing water quality is challenging and implies to deal with both point and non-point source. As non-point source pollutions result from complex run-off and landscape interactions, they are more complex to identify than confined point source pollutions [6]. Land use and Land cover (LULC) are key landscape elements affecting water quality through their impact on non-point source pollution
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