Shared effects of organic microcontaminants and environmental stressors on biofilms and invertebrates in impaired rivers

Land use type, physical and chemical stressors, and organic microcontaminants were investigated for their effects on the biological communities (biofilms and invertebrates) in several Mediterranean rivers. The diversity of invertebrates, and the scores of the first principal component of a PCA perfo...

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Veröffentlicht in:	Environmental pollution (1987) 2016-03, Vol.210, p.303-314
Hauptverfasser:	Sabater, S., Barceló, D., De Castro-Català, N., Ginebreda, A., Kuzmanovic, M., Petrovic, M., Picó, Y., Ponsatí, L., Tornés, E., Muñoz, I.
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Schlagworte:	Analysis of Variance Animals Bacillariophyceae Biofilm Biofilms Biofilms - drug effects Biota - drug effects Contaminants orgànics Dissolved inorganic nitrogen Freshwater Invertebrata Invertebrates Mediterranean Organic Chemicals - analysis Organic Chemicals - toxicity Organic microcontaminants Pharmaceutical Preparations - analysis Polluants organiques Principal Component Analysis Rivers - chemistry Water Movements Water Pollutants, Chemical - analysis Water Pollutants, Chemical - toxicity Water scarcity
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container_title	Environmental pollution (1987)
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creator	Sabater, S. Barceló, D. De Castro-Català, N. Ginebreda, A. Kuzmanovic, M. Petrovic, M. Picó, Y. Ponsatí, L. Tornés, E. Muñoz, I.
description	Land use type, physical and chemical stressors, and organic microcontaminants were investigated for their effects on the biological communities (biofilms and invertebrates) in several Mediterranean rivers. The diversity of invertebrates, and the scores of the first principal component of a PCA performed with the diatom communities were the best descriptors of the distribution patterns of the biological communities against the river stressors. These two metrics decreased according to the progressive site impairment (associated to higher area of agricultural and urban-industrial, high water conductivity, higher dissolved organic carbon and dissolved inorganic nitrogen concentrations, and higher concentration of organic microcontaminants, particularly pharmaceutical and industrial compounds). The variance partition analyses (RDAs) attributed the major share (10%) of the biological communities' response to the environmental stressors (nutrients, altered discharge, dissolved organic matter), followed by the land use occupation (6%) and of the organic microcontaminants (2%). However, the variance shared by the three groups of descriptors was very high (41%), indicating that their simultaneous occurrence determined most of the variation in the biological communities. [Display omitted] •River impairment was associated to increasing agricultural and urban-industrial areas, and sites were having waters with high water conductivity and nutrient concentrations, and higher concentrations of organic microcontaminants, particularly pharmaceutical and alkylphenol compounds.•Physico-chemical stressors (high nutrients and dissolved organic matter, altered water flow) were the ones mostly affecting biodiversity.•The simultaneous occurrence of microcontaminants with physico-chemical stressors in urban-industrial areas produced a much higher effect than the simple addition of stressors. Organic microcontaminants reinforce the effects of environmental and land use stressors on biota diversity.
doi_str_mv	10.1016/j.envpol.2016.01.037
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The diversity of invertebrates, and the scores of the first principal component of a PCA performed with the diatom communities were the best descriptors of the distribution patterns of the biological communities against the river stressors. These two metrics decreased according to the progressive site impairment (associated to higher area of agricultural and urban-industrial, high water conductivity, higher dissolved organic carbon and dissolved inorganic nitrogen concentrations, and higher concentration of organic microcontaminants, particularly pharmaceutical and industrial compounds). The variance partition analyses (RDAs) attributed the major share (10%) of the biological communities' response to the environmental stressors (nutrients, altered discharge, dissolved organic matter), followed by the land use occupation (6%) and of the organic microcontaminants (2%). However, the variance shared by the three groups of descriptors was very high (41%), indicating that their simultaneous occurrence determined most of the variation in the biological communities. [Display omitted] •River impairment was associated to increasing agricultural and urban-industrial areas, and sites were having waters with high water conductivity and nutrient concentrations, and higher concentrations of organic microcontaminants, particularly pharmaceutical and alkylphenol compounds.•Physico-chemical stressors (high nutrients and dissolved organic matter, altered water flow) were the ones mostly affecting biodiversity.•The simultaneous occurrence of microcontaminants with physico-chemical stressors in urban-industrial areas produced a much higher effect than the simple addition of stressors. 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The diversity of invertebrates, and the scores of the first principal component of a PCA performed with the diatom communities were the best descriptors of the distribution patterns of the biological communities against the river stressors. These two metrics decreased according to the progressive site impairment (associated to higher area of agricultural and urban-industrial, high water conductivity, higher dissolved organic carbon and dissolved inorganic nitrogen concentrations, and higher concentration of organic microcontaminants, particularly pharmaceutical and industrial compounds). The variance partition analyses (RDAs) attributed the major share (10%) of the biological communities' response to the environmental stressors (nutrients, altered discharge, dissolved organic matter), followed by the land use occupation (6%) and of the organic microcontaminants (2%). However, the variance shared by the three groups of descriptors was very high (41%), indicating that their simultaneous occurrence determined most of the variation in the biological communities. [Display omitted] •River impairment was associated to increasing agricultural and urban-industrial areas, and sites were having waters with high water conductivity and nutrient concentrations, and higher concentrations of organic microcontaminants, particularly pharmaceutical and alkylphenol compounds.•Physico-chemical stressors (high nutrients and dissolved organic matter, altered water flow) were the ones mostly affecting biodiversity.•The simultaneous occurrence of microcontaminants with physico-chemical stressors in urban-industrial areas produced a much higher effect than the simple addition of stressors. 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However, the variance shared by the three groups of descriptors was very high (41%), indicating that their simultaneous occurrence determined most of the variation in the biological communities. [Display omitted] •River impairment was associated to increasing agricultural and urban-industrial areas, and sites were having waters with high water conductivity and nutrient concentrations, and higher concentrations of organic microcontaminants, particularly pharmaceutical and alkylphenol compounds.•Physico-chemical stressors (high nutrients and dissolved organic matter, altered water flow) were the ones mostly affecting biodiversity.•The simultaneous occurrence of microcontaminants with physico-chemical stressors in urban-industrial areas produced a much higher effect than the simple addition of stressors. 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subjects	Analysis of Variance Animals Bacillariophyceae Biofilm Biofilms Biofilms - drug effects Biota - drug effects Contaminants orgànics Dissolved inorganic nitrogen Freshwater Invertebrata Invertebrates Mediterranean Organic Chemicals - analysis Organic Chemicals - toxicity Organic microcontaminants Pharmaceutical Preparations - analysis Polluants organiques Principal Component Analysis Rivers - chemistry Water Movements Water Pollutants, Chemical - analysis Water Pollutants, Chemical - toxicity Water scarcity
title	Shared effects of organic microcontaminants and environmental stressors on biofilms and invertebrates in impaired rivers
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