Abstract
The Grenland fjords in Norway have a long history of contamination by large emissions of dioxins and mercury. As a possible sediment remediation method in situ, thin-layer capping with powdered activated carbon (AC) mixed with clay was applied at two test sites at 30m and 95m depth in the Grenland fjords. This study presents long-term effects of the AC treatment on the benthic community structure, i.e. nine years after capping. Capping with AC significantly reduced the number of species, their abundance and biomass at the two test sites, compared to uncapped reference sites. At the more shallow site, the dominant brittle star species Amphiura filiformis disappeared shortly after capping and did not re-establish nine years after capping. At the deeper site, the AC treatment also caused long-lasting negative effects on the benthic community, but some recovery was observed after nine years. Ecological indices used to assess environmental status did not capture the impaired benthic communities caused by the capping. The present study is the first documentation of negative effects of powdered AC on marine benthic communities on a decadal scale. Our results show that the benefits of reduced contaminant bioavailability from capping with AC should be carefully weighed against the cost of long-term detrimental effects on the benthic community. More research is needed to develop a thin-layer capping material that is efficient at sequestering contaminants without being harmful to benthic species.
Highlights
The Grenland fjords in Norway have a long history of contamination by large emissions of dioxins and mercury
We evaluate the performance of biodiversity indices currently used in benthic ecological status assessment in Norway, Sweden and the EU to assess the effects of capping with powdered activated carbon (AC)
The amount of total organic carbon (TOC) was higher in the Eidangerfjord (23.8 mg/g TOC) compared to the Ormerfjord (9.1 mg/g TOC), which is in agreement with the Eidangerfjord being a deep (95 m) accumulation bottom type compared to the more shallow (30 m) Ormerfjord being more of a transport bottom type
Summary
The Grenland fjords in Norway have a long history of contamination by large emissions of dioxins and mercury. As a possible sediment remediation method in situ, thin-layer capping with powdered activated carbon (AC) mixed with clay was applied at two test sites at 30 m and 95 m depth in the Grenland fjords. This study presents long-term effects of the AC treatment on the benthic community structure, i.e. nine years after capping. The AC treatment caused long-lasting negative effects on the benthic community, but some recovery was observed after nine years. Thin-layer capping has been considered less harmful to the benthic fauna than dredging and isolation capping (Ghosh et al, 2011), several studies have reported negative short-term effects of AC such as reduced growth, lower survival and reproduction (Kupryianchyk et al, 2011; Nybom et al, 2012, 2015). We evaluate the performance of biodiversity indices currently used in benthic ecological status assessment in Norway, Sweden and the EU to assess the effects of capping with powdered AC
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