Abstract
The study of benthic foraminifera in sediment cores provides the opportunity to recognize environmental changes, including those due to the anthropogenic impact. The integration of these data with chemical-physical parameters provides a comprehensive quality assessment. This research was applied to a sediment core collected in the Augusta bay, where a very large commercial and military harbor and one of the largest petrochemical poles in Europe are present. Inside the petrochemical area also operated, from 1958 to 2003, a chlor-alkali plant with mercury cell technology which caused anthropic contamination of surrounding land and marine areas. The sediment core was collected in front of this plant and characterized for grain size and pollutants directly associated to chlor-alkali activity, such as mercury (Hg), barium (Ba), polychlorobiphenyls (PCBs), and polycyclic aromatic hydrocarbons (PAHs). Composition of foraminiferal assemblages and faunal parameters such as specific diversity, faunal density, abundance of abnormal specimens, and foraminiferal size were investigated as potential indicators of environmental status. Statistical analysis indicated a main common origin for Hg, Ba, and PCBs and the influence of pollutants on species distribution and faunal diversity and density. Exceptionally high Hg concentrations (63–680 mg/kg d.w.) were recorded in the whole core, where the geochronological study attributed the most contaminated levels to the period of maximum activity of the chlor-alkali plant, while a decrease of contamination was recorded after the stop of the activity. Distinct foraminiferal assemblages identified different ecozones along the core, which suggested decreasing anthropogenic impact from the bottom to the top.
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Acknowledgments
The authors are grateful to many people who gave their support for the sediment analysis: Giancarlo Pierfranceschi and Francesco Venti for grain size, Giulio Sesta and Anna Lauria for PAHs and PCBs, and Chiara Maggi and Maria Teresa Berducci for heavy metals.
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ESM 1
Results of quantitative analysis of benthic foraminifera. Relative abundance of commonly occurring species (i.e., >5 % in at least one sample) is reported. These data were used as a matrix for HCA (Fig. 4) and PCA (Fig. 8). In the following full species names are reported. A_park: Ammonia parkinsoniana; A_tepi: Ammonia tepida; A_mami: Asterigerinata mamilla; B_aena: Bolivina aenariensis; B_semi: Bolivina seminuda; B_marg: Bulimina marginata; C_invo: Cornuspira involvens; E_vitr: Epistominella vitrea; H_depr: Haynesina depressula; L_loba: Lobatula lobatula; M_subr: Miliolinella subrotunda; P_corr: Patellina corrugata; Q_lata: Quinqueloculina lata; Q_stel: Quinqueloculina stelligera; Ros_spp.; Rosalina spp.; S_cost: Sigmoilinita costata; S_vivi: Spirillina vivipara. (XLSX 14 kb)
ESM 2
Analytical results for grain size, Ba, Hg, PAHs and PCB used, after standardization by means of z-score method, as a matrix Principal Component Analysis (Fig. 7). (XLSX 10 kb)
ESM 3
Abiotic parameters (grain size, Ba, Hg, PAHs and PCBs), Faunal parameters (FN, FSI, a-index, H-index) and relative abundance of commonly occurring species. These data were used, standardized by means of z-score method, as a matrix for the CCA (Fig. 8). In the following full species names are reported. A_park: Ammonia parkinsoniana; A_tepi: Ammonia tepida; A_mami: Asterigerinata mamilla; B_aena: Bolivina aenariensis; B_semi: Bolivina seminuda; B_marg: Bulimina marginata; C_invo: Cornuspira involvens; E_vitr: Epistominella vitrea; H_depr: Haynesina depressula; L_loba: Lobatula lobatula; M_subr: Miliolinella subrotunda; P_corr: Patellina corrugata; Q_lata: Quinqueloculina lata; Q_stel: Quinqueloculina stelligera; Ros_spp.; Rosalina spp.; S_cost: Sigmoilinita costata; S_vivi: Spirillina vivipara. (XLSX 13 kb)
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Romano, E., Bergamin, L., Ausili, A. et al. Evolution of the anthropogenic impact in the Augusta Harbor (Eastern Sicily, Italy) in the last decades: benthic foraminifera as indicators of environmental status. Environ Sci Pollut Res 23, 10514–10528 (2016). https://doi.org/10.1007/s11356-015-5783-x
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DOI: https://doi.org/10.1007/s11356-015-5783-x