Samples of suspended particulate matter (SPM) and sediment were collected from the
Humber coastal zone during six seasonal and inter-annual surveys (November 1993 - July
1995) on board RRS Challenger as part of the NERC Land Ocean Interaction Study
(LOIS) initiative. Concentrations of Ni, Zn, Fe and Mn, extracted using a 1M HCl digest,
were determined by atomic absorption spectrometry techniques. Particulate Ni and Zn
both exhibited a pronounced seasonal distribution in the Humber coastal zone. Significant
metal-salinity relationships were obtained for both metals indicating the Humber Estuary
to be a significant source of Nip and Znp to the region. Metal distributions in the coastal
zone were influenced by residual flow and tidal range at the mouth of the estuary, as well
as wind speed and direction. Estimated fluxes of dissolved and particulate Ni and Zn from
the Humber mouth to the North Sea indicated significant seasonal variation for both metals
(17-290 kg dayˉ¹ Ni; 34-1737 kg dayˉ¹ Zn) and identified transport in the particulate phase
dominant in autumn/winter (61-82 % Ni; 68-92 % Zn) but less significant in
spring/summer (2-41 % Ni; 15-72 % Zn). Comparison to estuarine inputs suggested
retainment of Ni and Zn within the Estuary. In the Humber mouth and throughout the
Plume Nip and Znp concentrations significantly correlated to Fep suggesting uptake onto
Fe-oxyhydroxide phases was important. Trace metal settling velocities indicated a
significant seasonal variation in the settling of Ni (<1-163 µm sˉ¹) and Zn (2-218 µm sˉ¹)
with these metals generally settling slower than the average SPM in winter but at the same
rate in spring. Particle-solute interactions of Ni and Zn, investigated using the
radioisotopes ⁶³Ni and ⁶⁵zn, indicated significant variation in metal partitioning (Kd) for
the SPM end-members of the Humber coastal zone with Ni Kd's varying from 6.7 x 10²
for Holderness Cliff material, to 13.0 x 10² for estuarine SPM and up to a maximum of 22
x 10² during spring/summer phytoplankton blooms. These results provide the basis of a
consistent seasonal data base of trace metal distributions within the Humber coastal Zone
which will substantially contribute to the development and parameterization of a fine
sediment transport model for trace metal contaminants in coastal zones.
Date of Award | 1997 |
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Original language | English |
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Awarding Institution | |
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Particle-Water Interactions of Ni and Zn in Coastal Waters
Sands, T. K. (Author). 1997
Student thesis: PhD