METAL CONCENTRATIONS OF RESIDENT AND TRANSPLANTED FRESH-WATER MUSSELSHYRIDELLA MENZIESI (UNIONACEA, HYRIIDAE) AND SEDIMENTS IN THE WAIKATORIVER, NEW-ZEALAND
Cw. Hickey et al., METAL CONCENTRATIONS OF RESIDENT AND TRANSPLANTED FRESH-WATER MUSSELSHYRIDELLA MENZIESI (UNIONACEA, HYRIIDAE) AND SEDIMENTS IN THE WAIKATORIVER, NEW-ZEALAND, Science of the total environment, 175(3), 1995, pp. 163-177
Heavy metals and metalloids were measured in freshwater mussels (Hyrid
ella menziesi) and sediments in the upper Waikato River, New Zealand.
Mercury (Hg) concentrations ranged 35-fold in sediments (0.025-0.87 mg
kg(-1) dry wt) and 144-fold in mussels (0.091-13.1 mg kg(-1) dry wt).
Arsenic (As) concentrations ranged 190-fold in sediments (7.9-1520 mg
kg(-1) dry wt) and only 10-fold in mussels (15.0-153 mg kg(-1) dry wt
). There was no significant correlation between sediment total concent
rations of either Hg or As and mussel tissue levels. Sediment quality
guidelines were exceeded for Hg and As at most sites and for copper, c
hromium, iron and manganese at a few sites. Tissue concentrations exce
eded levels considered to be safe for human consumption for Hg at Lake
Aratiatia and As at several sites. Transplant experiments with caged
mussels were used to measure uptake and depuration rates of Hg and As.
Half-lives for mussel uptake and depuration of Hg were 6-12 months. A
rsenic uptake rates could not be determined but the depuration showed
a half-life of about 2.5 months. Physiological measurements were consi
stent with increased food availability at some sites rather than conta
minant effects. These results highlight the need to understand biochem
ical changes induced by factors that are independent of environmental
concentrations of contaminants, such as the influence of food levels a
nd the potential for metabolic adaptation in biomonitoring organisms.