Mercury biomagnification in three geothermally-influenced lakes differing in chemistry and algal biomass.

Verburg, Piet; Hickey, Christopher W; Phillips, Ngaire

Verburg, Piet; Hickey, Christopher W; Phillips, Ngaire.

Afiliación

Verburg P; National Institute of Water and Atmospheric Research, Hamilton, PO Box 11115, Hamilton 3251, New Zealand. Electronic address: piet.verburg@niwa.co.nz.
Hickey CW; National Institute of Water and Atmospheric Research, Hamilton, PO Box 11115, Hamilton 3251, New Zealand.
Phillips N; National Institute of Water and Atmospheric Research, Hamilton, PO Box 11115, Hamilton 3251, New Zealand.

Sci Total Environ ; 493: 342-54, 2014 Sep 15.

Article en En | MEDLINE | ID: mdl-24951892

RESUMEN

Accumulation of Hg in aquatic organisms is influenced not only by the contaminant load but also by various environmental variables. We compared biomagnification of Hg in aquatic organisms, i.e., the rate at which Hg accumulates with increasing trophic position, in three lakes differing in trophic state. Total Hg (THg) concentrations in food webs were compared in an oligotrophic, a mesotrophic and a eutrophic lake with naturally elevated levels of Hg associated with geothermal water inputs. We explored relationships of physico-chemistry attributes of lakes with Hg concentrations in fish and biomagnification in the food web. Trophic positions of biota and food chain length were distinguished by stable isotope (15)N. As expected, THg in phytoplankton decreased with increasing eutrophication, suggesting the effect of biomass dilution. In contrast, THg biomagnification and THg concentrations in trout were controlled by environmental physico-chemistry and were highest in the eutrophic lake. In the more eutrophic lake frequent anoxia occurred, resulting in favorable conditions for Hg transfer into and up the food chain. The average concentration of THg in the top predator (rainbow trout) exceeded the maximum recommended level for consumption by up to 440%. While there were differences between lakes in food chain length between plankton and trout, THg concentration in trout did not increase with food chain length, suggesting other factors were more important. Differences between the lakes in biomagnification and THg concentration in trout correlated as expected from previous studies with eight physicochemical variables, resulting in enhanced biomagnification of THg in the eutrophic lake.

Asunto(s)

Cadena Alimentaria; Lagos/química; Mercurio/análisis; Animales; Organismos Acuáticos/metabolismo; Biomasa; Monitoreo del Ambiente; Peces/metabolismo; Plancton/metabolismo; Contaminantes Químicos del Agua/análisis

Palabras clave

Geothermal; Hg biomagnification; Lake trophic state; Rainbow trout; Stable isotopes of nitrogen and carbon; Trophic position

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Texto completo: 1 Colección: 01-internacional Base de datos: MEDLINE Asunto principal: Lagos / Cadena Alimentaria / Mercurio Límite: Animals Idioma: En Revista: Sci Total Environ Año: 2014 Tipo del documento: Article Pais de publicación: Países Bajos

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