The distribution of trace metals (Fe, Mn, Cu, Cd and Pb) has been determined in
dissolved and particulate phases, along with relevant hydrographic parameters, from the
nearshore coastal zone of the western North Sea (between 52ON and 56ON) during four
Land Ocean Interaction Study (LOIS) surveys covering the seasonal cycle (autumn 1994
to summer 1995) The behaviour of the redox-sensitive metals, Fep and Mnp in the
western North Sea were strongly correlated (r>0 44 for all seasons, P<0 05) in all
surveys and exhibited maximum concentrations in winter (16 mg g -1 and 700 ug g-1
respectively) which progressively decreased throughout the year Distinct seasonal
variations were also observed for particulate Cu, Cd and Pb For example, enhanced
concentrations of Cup (36 ± 39 ug g-1) and Cdp (0.36 ± 0.42 ug g -1) in the Humber
coastal zone during summer were attributed to preferential particulate organic/biogenic-metal
interactions. In contrast enhanced, though diffuse, atmospheric inputs of Pb from
continental winds were considered to have contributed to the elevated Pbp
concentrations (82 ± 27 ug g -1) observed offshore during winter Results from radiotracer
incubation experiments suggest that biological activity makes a significant
contribution to the removal of dissolved Mn and Cd to the particulate phase. However,
a phase lag of two to three months between maximum primary productivity and
maximum particulate metal adsorption (KD=2 X 104 & 5 x 102 for Mn and Cd
respectively) indicates a decoupling from the spring plankton bloom In general metal
distributions in the Humber coastal zone were significantly influenced by freshwater
discharge, tidal regime at the mouth of the estuary and prevailing wind conditions Total
trace metal fluxes across the mouth of the Humber Estuary were highest during spring
(311, 8 96 & 1045 kg day-1, for Cu, Cd and Pb respectively) and lowest during summer
(25 7, 1 .12 & 33 4 kg day-1, for Cu, Cd and Pb respectively) They were dominated by
variations in freshwater outflow and the tidal range during sampling On an annual basis
comparison to estuarine inputs (rivers, industry and sewage sources) suggested retention
of Cu (25%) and Cd (56%) Estimates of partitioning (KD) were derived from the
dissolved and particulate data for Cu, Cd and Pb over the seasonal cycle Copper was
dominated by the particulate phase (73-80%) in all seasons but summer, whilst Cd
showed particulate phase dominance (54-70%) in autumn and winter only The Pb
distributions were dominated by the particulate phase (94-99%) independent of season
Trace metal settling velocities implied that the Humber Plume was acting as a sink for
Cu, Cd and Pb in winter and spring However settling velocities calculated for Cd and
Pb (flood tide) in summer were similar to background suspended particulate matter
(SPM) suggesting long range transport with the residual circulation. Modelling of Pb
isotopic ratios in the Humber Plume suggested that on average 32-39% of the extracted
Pbp originated from anthropogenic sources The data from this study has given unique
information concerning the concurrent seasonal distributions of particulate trace metals
in the western North Sea and have yielded new insights into mechanisms affecting trace
metal cycling and transport, essential in the development and refinement of coupled
hydrodynamic-geochemical models.
Date of Award | 1998 |
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Original language | English |
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Awarding Institution | |
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Trace Metal-Particle Water Interactions in the Western North Sea
Dixon, J. (Author). 1998
Student thesis: PhD