Abstract
Abstract. Water quality changes of surface waters can be used to assess human impact intensity, but of importance is to consider also impacts of climate change/variability and naturally occurring changes of environmental quality. In Latvia, during the recent decades a major reduction of anthropogenic pressure has happened due to restructuring of economy and industrial production, resulting in major decrease of loading of many groups of pollutants. However, trends and driving factors for other groups of substances have not been much studied. Long term (1980–2012) results of hydrochemical monitoring, performed in rivers of Latvia, are analysed during this study in connection with long-term sets of hydrological and heliophysical data, using standard statistical approaches. Our results indicate that variation of some hydrochemical values, for example COD and total Fe, show clearly visible decadal oscillated character, while variation of some other values, for example phosphate P and total P, show some individual characteristics of decadal oscillations. These results indicate the presence of a large scale, geochemical and geophysical significant process: multiannual pulse of catchment, driven by variation of solar irradiance through complex interactions between global atmospheric circulation, groundwater and surface waterbodies. The process described in our study is significant from a geochemical point of view and must be taken into account in prediction of water quality and quantity. Impacts of natural processes should be considered in the planning of environmental policy.
Highlights
The runoff of dissolved substances by riverine waters is an important factor in evaluation of water quality, but more important, of the character of the processes in waterbody basins (Henriksen et al, 1998)
Chemical composition of surface waters is determined by numerous factors and it depends, at first, on natural conditions, and on the level and extent of human impact
Considering many different sources of water ingredients, the study of their contribution to the aquatic chemistry is at utmost importance in evaluation of water quality (Hounslow, 1995)
Summary
The runoff of dissolved substances by riverine waters is an important factor in evaluation of water quality, but more important, of the character of the processes in waterbody basins (Henriksen et al, 1998). The integral dimensions of adverse processes in water body basins and the increased geochemical mobility of water ingredients can be identified by studying surface-waterdriven geochemical flows (Stumm and Morgan, 1996). Chemical composition of surface waters is determined by numerous factors and it depends, at first, on natural conditions (physico-geographical character of the region, climate, hydrology, hydrogeology etc.), and on the level and extent of human impact. Studies of aquatic chemistry have been used to reveal the dimension of the human activity-related processes in water body basins which have changed water composition (both at global, regional and local level), to mention industrial production (wastewater and solid waste dumping) and agricultural activities (non-point pollution sources), as well as impacts of hydro-technical constructions and changes of land-use patterns. Impacts of climate change of water composition and flows of substances might be considered as major actuality (Whitehead et al, 2009)
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