Synoptic transects on the distribution of trace elements (Hg,Pb, Cd,Cu, Ni,Zn, Co,Mn, Fe,and Al) in surface waters of the Northern- and Southern East Atlantic

Surface seawater samples were taken in the framework of the GEOTRACES program on “POLARSTERN” expedition ANT XXIII/1 in the Eastern Atlantic in 2005 to study the distribution of the trace elements Hg (mercury), Pb (lead), Cd (cadmium), Cu (copper), Ni (nickel), Zn (zinc), Co (cobalt), Mn (manganese), Fe (iron), and Al (aluminium). With the exception of Hg, results were compared to earlier datasets from 1989 to 1990. The particulate fraction averaged over the transect was calculated to be 49% for Cd, 23% for Mn and 50% for Fe indicating a release of these TEI's (trace elements and their isotopes) from a leachable SPM fraction in the stored and acidified samples.Total Pb concentrations ranged between 5 and 20 pmol kg^? 1 in 2005 with highest values in the ITCZ (intertropical convergence zone). In 1989 Pb concentrations were twice as high in the region of the ITCZ, while by a factor of 10–15 higher values were obtained in the North Atlantic.Total Cd and Co are dominated, by different seasonal upwelling regimes (Equatorial upwelling, Guinea Dome, Angola Dome).Total Cu, Ni, Fe, Mn and Al show nearly identical concentrations in 1990 and 2005. For total manganese and aluminium strong maxima (3–4 nmol kg^? 1 and 55 nmol kg^? 1 respectively) are observed between 23°N and 0°, while the Fe maximum (6–9 nmol kg^? 1) is located at 7°N. Total Hg concentrations ranged between 0.5 and 4.5 pmol kg^? 1.     

A trace metal (Pb, Cd, Zn, Cu) balance for surface waters in the eastern Gotland Basin, Baltic Sea

Trace metal inventories and transboundary fluxes were estimated for the surface waters of the eastern Gotland Basin, and a mass balance for this water body was derived.The study area was delineated by a box which bordered vertically by the sea surface and the halocline and horizontally by the coast of Gotland and the coast of Latvia/Lithuania. For the calculation of the trace metal inventories in the box, a high-resolution sampling was carried out during different seasons. Additional sediment trap studies were performed to calculate the vertical particulate trace metal fluxes through the halocline.The following transboundary fluxes have been estimated: (a) atmospheric input of trace metals; (b) lateral transport from adjacent bodies of surface water; (c) diapycnal fluxes of dissolved trace metals at the halocline; (d) sinking of trace metals, associated with particles, through the halocline, (e) vertical advection through the halocline.The lateral transport into and out of the surface box is important for the metals (Cd, Cu, Zn) with “nutrient-like” behaviour. For particle reactive elements like lead, vertical sedimentation and lateral transport out of the box as much as atmospheric input and lateral input into the box are in the same order of magnitude. Turbulent diapycnal mixing plays a minor role compared to the advective fluxes.The estimated range for the residence times for the region under investigation are  0.5–1.3 years for Pb;  2–11 years for Zn,  7–36 years for Cd and 42–89 years for Cu. This demonstrates that the system reacts very fast for particle reactive elements like Pb, while for copper sedimentation processes are not the preferential sink and can be neglected.     

Seasonal variability of dissolved major and trace elements in the Gaoping (Kaoping) River Estuary, Southwestern Taiwan

To gain a better understanding of the geochemical behavior of trace elements in estuary and to examine seasonal variations in associated chemical fluxes, more than 50 water samples were collected near the mouth of the Gaoping (formerly spelled Kaoping) River, a major river in southwestern Taiwan. These samples, collected in typical dry and wet tropical monsoon seasons during 1999–2004, were analyzed for dissolved major and trace elements and Sr isotopes. Our results show that dissolved Na, Mg, Ca and Cl behave conservatively along the salinity gradient and display significantly larger fluxes in the wet seasons. Vertical profiles of the major elements reveal mainly two end-member mixing between the riverine freshwater and the seawater. Trace elements of B, Sr and U also display conservative distribution in the vertical profiles. In contrast, dissolved Ba and Mn were affected by uptake/release processes involving groundwater, benthic flux and water/sediment interactions. ⁸⁷Sr/⁸⁶Sr ratios also support a scenario of mixing between a more radiogenic continental source and the seawater. It appears that the wet season samples have higher trace element concentrations due to inputs from topsoils and atmospheric dusts. This implies that chemical compositions in river waters respond sensitively to regional climatic changes. The observed high fluxes of B and Sr in the Gaoping (Kaoping) River emphasize the potential impact of mountainous rivers on the global oceanic mass balance of these constituents.     

Intra-annual variability of distribution patterns and fluxes of dissolved trace metals in a subtropical estuary (Danshuei River,Taiwan)

Water samples were collected along salinity gradients and dissolved trace metal (Cd, Cu, Ni, Pb, and Zn) concentrations were determined in a macro-tidal, mountainous estuary (Danshuei River Estuary) in northern Taiwan. Bi-monthly surveys were conducted between March 2001 and June 2002, during both wet and dry seasons. This study investigated intra-annual variability, fluxes, and the extent of addition or removal of dissolved trace metals in the estuary, which is characterized by the fluctuation of redox interface according to river flow conditions. In sub-oxic and anoxic waters, the presence of reduced sulfur species led to the formation of metal-sulfide minerals that sequester metals out of the water column. Therefore, trace metal fluxes and removal/addition rates are seasonally variable, largely by the extent of estuarine hypoxia. In the 9 sampling expeditions over the 16-month period, fluxes of dissolved trace metals out of the Danshuei River Estuary were estimated as follows: Cd, ? 0.33–4.46 mol/day; Cu, ? 48–1112 mol/day; Ni, 1836–6586 mol/day; Pb, 2.47–11.59 mol/day; and Zn, 361–2656 mol/day. For elements such as Cd and Cu, the removal in the Danshuei River Estuary during dry seasons was so dramatic that there were net fluxes from the coast to the estuary (negative fluxes). Ni behaved near conservatively in this estuary, thus its river endmember concentrations directly determined Ni fluxes out of the estuary. Removal of Pb was effectively enhanced by the presence of higher suspended particulate matter concentrations in the upper estuary and the formation of Fe- and Mn-oxides and oxyhydroxides that precipitate out of the water column in mid-estuary, which generally leaves low effective river endmember Pb concentrations, thus low fluxes out of the estuary.