posted on 2007-06-15, 00:00authored byCharlotte B. Braungardt, Eric P. Achterberg, Martha Gledhill, Malcolm Nimmo, Francoise Elbaz-Poulichet, Antonio Cruzado, Zoila Velasquez
Four surveys of the Huelva Estuary in southwest Spain
and its sources, the Tinto and the Odiel Rivers, were carried
out between 1996 and 1998. The surveys investigated the
impact of metalliferous mining of sulfide-rich ores in
the catchment area on metal speciation, metal concentrations
in a macrophyte, and phytoplankton diversity and
abundance. Chemical speciation measurements in the
lower Tinto Estuary showed that metals were predominantly
electrochemically labile (>99% of total dissolved Cu, Co,
and Ni at 10 μM Cu, 424 nM Co, and 500 nM Ni, S = 28).
Concentrations of Cu complexing ligands and free cupric
ions [Cu2+] in the Gulf of Cádiz ranged between 5.3 and 38
nM and 0.2−7.9 pM, respectively, with conditional
stability constants of the ligands of log K‘CuL = 11.7−12.6.
At enhanced dissolved Cu concentrations in the lower
Huelva Estuary, Cu complexing ligands were saturated with
Cu, resulting in nanomolar [Cu2+], which increased
upstream. Metal tissue concentrations of the macrophyte
Blindingia marginata were high, and a clear relationship
between dissolved labile Cu and macrophyte tissue Cu
concentrations was observed. A low biodiversity was
observed in the Huelva system (Shannon−Wiener indices
(H) typically <0.2). Nevertheless, the maximum biomass
was observed in the lower Tinto Estuary, which showed high
labile metal and nutrient concentrations and a low
biodiversity (H < 0.02), thereby suggesting adaptation
through evolutionary processes of the phytoplankton
community to the harsh conditions.