The total concentrations of particulate trace metals (Al. Cd, Co, Cu, Fe. Mn, Na. Ni. Pb, Zn) with
analytical quality assurance, have been determined in atmospheric aerosols at two coastal sites, and
during cruises in the Celtic Sea. Sampling at a site on the western English Channel covered 19
months and represents one of the most comprehensive time series of trace metals in atmospheric
aerosols. Aerosol concentrations of Cd. Cu, Pb and Zn for the English Channel were lower than
previously reported and Al. Co and Mn concentrations were similar to literature values. The elements
were grouped according to behaviour such that Group 1 elements (Cd, Fe. Mn, Pb and Zn) displayed
enhanced concentrations in autumn/winter 1994 and 1995. whereas Group 2 elements (Al, Co, Cu, Na
and Ni) had enhanced concentrations during winter 1995 only. This was ascribed to source functions
being dependant on wind direction with Group 1 elements being carried mainly by north easterly air
masses, whereas Group 2 elements originated mainly with air masses from the south west. Dissolved
trace metal (Al, Co, Cu, Ni, Pb) analyses were carried out on rain waters collected at the English
Channel site. The rain water analyses showed that the soluble trace metal fraction was in the order Co
= Cu > Ni >Pb > Na ยป Al and wet and dry depositional fluxes accounted for the differential behaviour
and the solubility of aerosol trace metals on contact with sea water. Aerosol concentrations are also
reported for the north western Mediterranean and the Celtic Sea. In the former location, the aerosol
trace metal concentrations were lower than those reported in literature and in the Celtic Sea there was
a gradient in the trace metal composition of the aerosol from land to open sea. The solid state
speciation of Cd and Pb gave an increasingly matrix-bound fraction in the order north western
Mediterranean < western English Channel < Celtic Sea and the Celtic Sea aerosols had the greatest
sea water solubilities of all elements, except Ni. Concentrations of Cu, Ni and Pb in English Channel
aerosols, rain waters and the fraction partitioning from aerosols on contact with sea water, together
with sea water concentrations from the literature, were used to devise a trace metal flux model for the
English Channel. The model showed that of the total trace metal fluxes into the English Channel, the
atmospheric fluxes were in the order of importance Pb > Cu > Ni. The overall budgets revealed
discrepancies in the mass balances, which were identified as sediment-water exchange for Ni and Pb
and adsorption onto particles for Cu. These budget calculations provide a basis for the development of
more advanced modelling concepts involving coupled atmosphere-ocean interactions.
Date of Award | 1999 |
---|
Original language | English |
---|
Awarding Institution | |
---|
ATMOSPHERIC TRACE METAL BIOGEOCHEMISTRY AND FLUXES TO SHELF SEAS
WELLS, C. L. (Author). 1999
Student thesis: PhD