• Title of article

    Reactive iron and manganese distributions in seabed sediments near small mountainous rivers off Oregon and California (USA)

  • Author/Authors

    Roy، نويسنده , , Moutusi and McManus، نويسنده , , James and Goٌi، نويسنده , , Miguel A. and Chase، نويسنده , , Zanna and Borgeld، نويسنده , , Jeffry C. and Wheatcroft، نويسنده , , Robert A. and Muratli، نويسنده , , Jesse M. and Megowan، نويسنده , , Meghan R. and Mix، نويسنده , , Alan، نويسنده ,

  • Issue Information
    روزنامه با شماره پیاپی سال 2013
  • Pages
    13
  • From page
    67
  • To page
    79
  • Abstract
    We examined the spatial distribution of sedimentary reactive iron (FeR) and manganese (MnR) along the continental shelf near the mouth of the Umpqua River, Oregon (USA). A well-defined muddy (silt+clay) depocenter of fluvial origin characterizes this part of the Oregon margin. Reactive Fe and Mn contents are elevated within the silt-rich landward edge of the depocenter. Away from this depocenter, sediments are predominantly sandy both along the inner-shelf (<∼100 m depth) and mid-shelf (∼100–150 m depth) and have lower concentrations of reactive metals compared to the depocenter. Sediments are also muddy along the slope (>∼150 m depth) and have elevated FeR and MnR. Based on their correlation with sediment grain size, it appears that FeR and to a lesser extent MnR, are associated with mud size sediments. Reactive metal concentration is also positively correlated with organic carbon (OC) content, indicating a potentially common source. Seabed sediments from five other small, mountainous river systems (Klamath, Eel, Navarro, Russian, and Salinas) located south of Umpqua show the same general relationship between FeR and OC. Although both FeR and MnR exhibit similar relationships to grain size and OC, the relationships with MnR exhibit considerable scatter. Comparison of Umpqua River suspended sediment data with the seabed data suggests that MnR is more prone to loss from sediment particles during transit to the seabed as compared to FeR, and this difference explains why FeR maintains a reasonably tight relationship with organic carbon and particle size along the seafloor relative to MnR.
  • Keywords
    Continental Shelf , Oregon , California , Iron , Manganese
  • Journal title
    Continental Shelf Research
  • Serial Year
    2013
  • Journal title
    Continental Shelf Research
  • Record number

    2297727