• Title of article

    Diel changes in metal concentrations in a geogenically acidic river: Rio Agrio, Argentina

  • Author/Authors

    Parker، نويسنده , , Stephen R. and Gammons، نويسنده , , Christopher H. and Pedrozo، نويسنده , , Fernando L. and Wood، نويسنده , , Scott A.، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2008
  • Pages
    11
  • From page
    213
  • To page
    223
  • Abstract
    Rio Agrio in Patagonia, Argentina is a geogenically acidic stream that derives its low-pH waters from condensation of acidic gases near its headwaters on the flanks of the active Copahue Volcano. This study reports the results of three diel (24-h) water samplings in three different pH regimes (3.2, 4.4 and 6.3) along the river. Changes in the concentration and speciation of Fe dominated the diel chemical changes at all three sites, although the timing and intensity of these cycles were different in each reach. At the two acidic sampling sites, total dissolved Fe and dissolved Fe(III) concentrations decreased during the day and increased at night, whereas dissolved Fe(II) showed the reverse pattern. These cycles are explained by Fe(III) photoreduction, as well as enhanced rates of precipitation of hydrous ferric oxide (HFO) during the warm afternoon hours. A strong correlation was observed between Fe(III) and As at the furthest upstream (pH 3.2) site, most likely due to co-precipitation of As with HFO. At the downstream (pH 6.3) location, Fe(II) concentrations increased at night, as did concentrations of rare earth elements and dissolved Al. Photoreduction does not appear to be an important process at pH 6.3, although it may be indirectly responsible for the observed diel cycle of Fe(II) due to advection of photochemically produced Fe(II) from acidic upstream waters. sults of this study of a naturally-acidic river are very similar to diel trends recently obtained from mining-impacted streams receiving acid rock drainage. The results are also used to explore the link between geochemistry and microbiology in acidic eco-systems. For example, Fe(III) photoreduction produces chemical potential energy (in the form of metastable Fe2+) that helps support the bacterial community in this unique extreme environment.
  • Keywords
    Arsenic , Iron , diel , Photoreduction , Geothermal , rare earth elements
  • Journal title
    Journal of Volcanology and Geothermal Research
  • Serial Year
    2008
  • Journal title
    Journal of Volcanology and Geothermal Research
  • Record number

    2248684