Trace element composition of size-fractionated suspended particulate matter samples from the Qatari Exclusive Economic Zone of the Arabian Gulf: the role of atmospheric dust
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Date
2020-01-27Author
Yigiterhan, OguzMohd Al-Ansari, Ebrahim
Nelson, Alex
Alaa Abdel-Moati, Mohamed
Turner, Jesse
Abdulla Alsaadi, Hamood
Paul, Barbara
Abdullatif Al-Maslamani, Ibrahim
Abdulla Al-Ansi Al-Yafei, Mehsin
W. Murray, James
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We analyzed net-tow samples of natural assemblages
of plankton, and associated particulate matter, from
the Exclusive Economic Zone (EEZ) of Qatar in the Arabian
Gulf. Size-fractionated suspended particles were collected
using net tows with mesh sizes of 50 and 200 μm to
examine the composition of small- and large-size plankton
populations. Samples were collected in two different years
(11 offshore sites in October 2012 and 6 nearshore sites in
April 2014) to examine temporal and spatial variabilities.We
calculated the excess metal concentrations by correcting the
bulk composition for inputs from atmospheric dust using aluminum
(Al) as a lithogenic tracer and the metal=Al ratios for
average Qatari dust. Atmospheric dust in Qatar is depleted in
Al and enriched in calcium (Ca), in the form of calcium carbonate
(CaCO3), relative to the global average Upper Continental
Crust (UCC). To evaluate the fate of this carbonate
fraction when dust particles enter seawater, we leached a subset
of dust samples using an acetic acid–hydroxylamine hydrochloride
(HAc–HyHCl) procedure that should solubilize
CaCO3 minerals and associated elements. As expected, we
found that Ca was removed in Qatari dust; however, the concentrations
(ppm) for most elements actually increased after
leaching because the reduction in sample mass resulting
from the removal of CaCO3 by the leach was more important
than the loss of metals solubilized by the leach. Because
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