INVESTIGADORES
CARRERAS Hebe Alejandra
artículos
Título:
Integral assessment of pollution in the Suquía River (Córdoba, Argentina) as a
Autor/es:
MERLO, C; ABRIL, A; AME, V; ARGUELLO, G; CARRERAS, H; CHIAPPERO, M.; HUED, A.; WANNAZ, E.; GALANTI, L.; MONFERRAN, M; GONZALEZ, C.M.; SOLIS, V
Revista:
SCIENCE OF THE TOTAL ENVIRONMENT
Editorial:
ELSEVIER SCIENCE BV
Referencias:
Año: 2011 vol. 409 p. 5034 - 5045
ISSN:
0048-9697
Resumen:
The Suquía River lower?middle basin (Córdoba, Argentina) is subject to a strong anthropic impact because it
receives pollutants from different sources (industries, wastewaters, heavy traffic, agricultural land use, etc.)
We have assessed the degree of watershed degradation of Suquía River lower?middle sections through the
analysis of different ecosystem compartments (air, water, riparian soil, sediments and biota), in order to provide
useful data to be considered in future river restoration programs. Four study sites were selected along
the river (La Calera city, Córdoba city, Corazón de María village and Río Primero city) which were sampled
during the low- and high-water flow periods. We analyzed: a) chemical and physical characteristics of
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
analysis of different ecosystem compartments (air, water, riparian soil, sediments and biota), in order to provide
useful data to be considered in future river restoration programs. Four study sites were selected along
the river (La Calera city, Córdoba city, Corazón de María village and Río Primero city) which were sampled
during the low- and high-water flow periods. We analyzed: a) chemical and physical characteristics of
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
We have assessed the degree of watershed degradation of Suquía River lower?middle sections through the
analysis of different ecosystem compartments (air, water, riparian soil, sediments and biota), in order to provide
useful data to be considered in future river restoration programs. Four study sites were selected along
the river (La Calera city, Córdoba city, Corazón de María village and Río Primero city) which were sampled
during the low- and high-water flow periods. We analyzed: a) chemical and physical characteristics of
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
analysis of different ecosystem compartments (air, water, riparian soil, sediments and biota), in order to provide
useful data to be considered in future river restoration programs. Four study sites were selected along
the river (La Calera city, Córdoba city, Corazón de María village and Río Primero city) which were sampled
during the low- and high-water flow periods. We analyzed: a) chemical and physical characteristics of
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as fish assemblages, lichens (Usnea amblyoclada),
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
vascular plants (Tradescantia pallida), and microorganisms (fecal coliform and Escherichia coli) were
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
used to further assess the status of the river. All analyzed ecological compartments were affected by water
pollution, particularly, fish assemblages, sediments and riparian soils by heavy metal and coliform bacteria.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
Moreover, we detected a possible contribution of sulfur and a high pollutant content in air that merit further
research about other air?water exchanges. Accordingly, we strongly suggest that an action to restore or remediate
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
the anthropic effect on the Suquía River be extended to all possible compartments along the river.
water, sediments, and riparian soil; b) heavy metal content of water and sediments, and c) semi-volatile organic
compounds in air. Besides, pollutant bioindicators such as