This study provides strong evidence for biotic accumulation of two metals i
n a contaminated watershed and diminution of both metals from lower trophic
levels to fish. Bioaccumulation of As and Pb in water and four food web co
mponents (particulates, two size fractions of zooplankton, and six species
of fish) were measured on three dates in Upper Mystic Lake (UML), MA, which
is located in the As-contaminated Aberjona Watershed. Arsenic and Pb level
s in small and large plankton and fish biodiminished with increasing trophi
c level, but only As was elevated in lower trophic levels relative to uncon
taminated food webs. Metal levels in water and biota differed by date and w
ere lowest in the spring and, in most cases, highest in summer samples. Var
iation in metal accumulation in zooplankton across dates may be due to chan
ges in metal concentrations in the aqueous and particulate phase over time.
Metal burdens in fish with different feeding strategies were also compared
. We found the highest As in planktivorous species that feed directly on th
e metal-enriched zooplankton, but no differences were observed for Pb conce
ntrations between fish groups. Finally, we compared the levels of As and ph
in food web components in UML relative to 20 uncontaminated lakes in New E
ngland and found that As levels but not Pb in particulates and zooplankton
were higher in UML. This provides the first evidence that As contamination
in the Aberjona Watershed is being transferred to the biota at lower trophi
c levels. Nevertheless, despite elevated As in zooplankton, pronounced dimi
nution between zooplankton and fish in UML appears to result in concentrati
ons of As in fish that do not differ from uncontaminated systems.