Abstract
This overview focuses on geochemical and geochronological investigations on dated sediment profiles, used for the evaluation of the inventory and fate of persistent pollutants within the aquatic environment over time and space. It includes a short description of the spectrum of sediment contaminants such as heavy metals, polychlorinated biphenyls (PCB), polycyclic aromatic hydrocarbons (PAH), pesticides, pharmaceuticals or personal care products, of the contamination sources and pathways, the prerequisites of the analytical approach as well as numerous case studies worldwide. The aim of the review was to summarise the current knowledge related to the historical input of organic and inorganic sediment contaminants into marine, limnic and fluvial sediment archives, their general contamination trends referring to the increase in sediment contamination during the nineteenth and the beginning of the twentieth century as well as source-specific trends of modern or present-day contaminants since the last four decades. Based on the available literature, it demonstrates the benefit of using correlated chronological and geochemical investigations as a tool for the evaluation of the chemical status and risk assessment of pollutants in aquatic sediment archives over long time intervals, for instance since urbanisation and industrialisation started.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alderton DHM (1985) Sediments. In: Historical Monitoring, MARC: Monitoring and Assessment Research Centre, No. 31, ISBN 0-905918-28-2, Technical Report, University of London
Allen JRL, Rae JE, Longworth G, Hasler SE, Ivanovich M (1993) A comparison of the 210Pb dating technique with three other independent dating methods in an oxic estuarine salt-marsh sequence. Estuarines 16/3B:670–677
Appleby PG, Oldfield F (1978) The calculation of lead-210 dates assuming a constant rate of supply of unsupported 210Pb to the sediment. Catena 5:1–8
Appleby PG, Oldfield F, Thompson R, Huttunen P (1979) 210Pb dating of annually laminated lake sediments from Finland. Nature 280:53–55
Appleby PG, Nolan PJ, Oldfield F, Richardson N, Higgitt SR (1988) 210Pb dating of lake sediments and ombrotrophic peats by gammy essay. Sci Total Environ 69:157–177
Arzayus KM, Dickhut RM, Canuel EA (2002) Effects of physical mixing on the attenuation of polycyclic aromatic hydrocarbons in estuarine sediments. Org Geochem 33:1759–1769
Audry S, Schäfer J, Blanc G, Jouanneau J-M (2004) Fifty-year sedimentary record of heavy metal pollution (Cd, Zn, Cu, Pb) in Lot River reservoir (France). Environ Pollut 132:413–426
Barra R, Cisternas M, Suarez C, Araneda A, Pinones O, Popp P (2004) PCBs and HCHs in a salt-marsh sediment record from South-Central Chile: use of tsunami signatures and 137Cs fallout as temporal markers. Chemosphere 55:965–972
Benninger LK, Suayah IB, Stanley DJ (1998) Manzala lagoon, Nile delta, Egypt: modern sediment accumulation based on radioactive tracers. Environ Geol 34:183–193
Bilalia LE, Rasmussen PE, Hall GEM, Fortin D (2002) Role of sediment composition in trace metal distribution in lake sediments. Appl Geochem 17:1171–1181
Bollhöfer A, Mangini A, Lenhard A, Wessels M, Giovanoli F, Schwarz B (1994) High-resolution 210Pb dating of Lake Constance sediments: stable lead in Lake Constance. Environ Geol 24:267–274
Bopp RF, Simpson HJ, Olsen CR, Trier RM, Kostyk N (1982) Chlorinated hydrocarbons and radionuclide chronologies in sediments of the Hudson River and Estuary, New York. Environ Sci Technol 16(10):666–676
Brandenberger JM, Crecelius EA, Louchouarn P (2008) Historical inputs and natural recovery rates for heavy metals and organic biomarkers in Puget Sound during the 20th century. Envirion Sci Technol 42:6786–6790
Breivik K, Alcock R, Li YF, Bailey RE, Fiedler H, Pacyna JM (2004) Primary sources of selected POPs: regional and global scale emission inventories. Environ Poll 128:3–16
Cantwell MG, Wilson BA, Zhu J, Wallace GT, King JW, Olsen CR, Burgess RM, Smith JP (2010) Temporal trends of triclosan contamination in dated sediment cores from four urbanized estuaries: evidence of preservation and accumulation. Chemosphere 78:347–352
Catallo WJ, Schlenker M, Gambrell RP, Shane BS (1995) Toxic chemicals and trace metals from urban and rural Louisiana lakes: recent historical profiles and toxicological significance. Environ Sci Technol 29:1436–1445
Cundy AB, Croudace IW, Cearreta A, Irabien M (2003) Reconstructing historical trends in metal input in heavily-disturbed, contamined estuaries: studies from Bilbao, Southampton Water and Sicily. Appl Geochem 18:311–325
Eades LJ, Farmer JG, MacKenzie AB, Kirika A, Bailey-Watts AE (2002) Stable lead isotopic characterisation of the historical record of environmental lead contamination in dated freshwater lake sediment cores from northern and central Scotland. Sci Total Environ 292:55–67
Edgington DN, Robbins JA (1976) Records of lead deposition in Lake Michigan sediments since 1800. Environ Sci Technol 10:266–274
Edgington DN, Klump JV, Robbins JA, Kusner YS, Pampura VD, Sandimirov IV (1991) Sedimentation rates, residence times and radionuclide inventories in Lake Baikal from 137Cs and 210Pb in sediment cores. Letter to Nature 350:601–604
Eganhouse R (1997) Molecular markers and environmental organic geochemistry: an overview. ACS Symposium Series; American Chemical Society, Washington, DC
Eisenreich SJ, Capel PD, Robbins JA, Bourbonniere R (1989) Accumulation and diagenesis of chlorinated hydrocarbons in lacustrine sediments. Environ Sci Technol 23:1116–1126
Evans JE, Johnson TC, Alexander EC Jr, Lively RS, Eisenreich SJ (1981) Sedimentation rates and depositional processes in Lake Superior from 201Pb geochronology. J Great Lakes Res 7(3):299–310
Evans HE, Dillon PJ, Scholer PJ, Evans RD (1986) The use of Pb/210Pb ratios in lake sediments for estimating atmospheric fallout of stable lead in south-central Ontario, Canada. Sci Total Environ 54:77–93
Foster IDL, Boardman J, Keay-Bright J (2007) Sediment tracing and environmental history for two small catchments, Karoo Uplands, South Africa. Geomorphol 90:126–143
Gocht T, Moldenhauer KM, Püttmann W (2001) Historical record of polycyclic aromatic hydrocarbons (PAH) and heavy metals in floodplain sediments from the Rhine River (Hessisches Ried, Germany). Appl Geochem 16:1707–1721
Götz R, Bauer O-H, Friesel P, Herrmann T, Jantzen E, Kutzke M, Lauer R, Paepke O, Roch K, Rohweder U, Schwartz R, Sievers S, Stachel B (2007) Vertical profile of PCDD/Fs, dioxin-like PCBs, other PCBs, PAHs, chlorobenzenes, DDX, HCHs, oganotin compounds and chlorinated ethers in dated sediment/soil cores from flood-plains of the river Elbe, Germany. Chemosphere 67:592–603
Graney JR, Halliday AN, Keeler GJ, Nriagu JO, Robbins JA, Norton SA (1995) Isotopic record of lead pollution in lake sediments from the northeastern United States. Geochim Cosmochim Acta 59(9):1715–1728
Gschwend PM, Hites RA (1981) Fluxes of polycyclic aromatic hydrocarbons to marine and lacustrine sediments in the northeastern United States. Geochim Cosmochim Acta 45:2359–2367
Halden RU, Paull DH (2005) Co-occurrence of triclocarban and triclosan in U.S. water resources. Environ Sci Technol 39:1420–1426
Hart BT (1982) Uptake of trace metals by sediments and suspended particulates: a review. Hydrobiology 91:299–313
Heim S, Schwarzbauer J, Kronimus A, Littke R, Hembrock-Heger A (2003) Organic pollutants in riparian wetlands of the Lippe river (Germany). Environ Chem Lett 1:169–173
Heim S, Schwarzbauer J, Littke R, Woda C, Mangini A (2004) Geochronology of anthropogenic pollutants in riparian wetland sediments of the Lippe River (Germany). Org Geochem 35(11–12):1409–1425
Heim S, Schwarzbauer J, Littke R, Mangini A (2006) Geochronology of anthropogenic contaminants in a dated sediment core of the Rhine River (Germany): emission sources and risk assessment. Acta Hydrochim Hydrobiol 34(1):34–52
Heim S, Schwarzbauer J (2012) Geochronology of anthropogenic contaminants in aquatic sediment archives. In: Lichtfouse E et al. (eds) Environmental chemistry for a sustainable world: vol. 1 nanotechnology and health risk. Springer
Hites RA (2006) Persistent organic pollutants in the Great Lakes: an overview. In: Handbook of Environmental Chemistry Vol. 5 Part N, 1–12, Springer, Berlin
Hornberger MI, Luoma SN, van Geen A, Fuller C, Anima R (1999) Historical trends of metals in the sediments of San Francisco Bay, California. Mar Chem 64:39–55
Hornbuckle KC, Carlson DL, Swackhamer DL, Baker JE, Eisenreich SJ (2006) PCBs in the Great Lakes. In: Hites RA (ed) Persistent organic pollutants in the Great Lakes. Springer, Heidelberg, pp 33–95
Hudson-Edwards KA, Taylor KG (2003) The geochemistry of sediment-borne contaminants in fluvial, urban and estuarine environments. Appl Geochem 18:155–157
Kemp ALW, Williams JDH, Thomas RL, Gregory ML (1978) Impact of man′s activities on the chemical composition of the sediments of Lakes Superior and Huron. Water Air Soil Pollut 10:381–402
Klös H, Schoch C (1993a) Historical trends of sediment loads: memory of an industrial region. Acta Hydrochim Hydrobiol 21(1):32–37
Klös H, Schoch C (1993b) Einfache Methoden zur Radiodatierung limnischer Sedimente. Z für Umweltchemie und Ökotoxikologie 5(1):2–6 (in German)
Kober B, Wessels M, Bollhöfer A, Mangini A (1999) Pb isotopes in sediments of Lake Constance, Central Europe constrain the heavy metal pathways and the pollution of the catchment, the lake and the regional atmosphere. Geochim Cosmochim Acta 63(9):1293–1303
Kolak JJ, Long DT, Beals TM, Eisenreich SJ, Swackhammer DL (1998) Anthropogenic inventories and historical and present accumulation rates of copper in Great Lake Sediments. Appl Geochem 13:59–75
Kolpin DW, Furlong ET, Meyer MT, Thurman EM, Zaugg SD, Barber LB, Buxton HT (2002) Pharmaceuticals, hormones, and other organic wastewater contaminants in U.S. streams, 1999–2000: a national reconnaissance. Environ Sci Technol 36:1202–1211
Krishnaswami D, Lal JM, Martin JM, Meybeck M (1978) Geochronology of lake sediments. Earth Planet Sci Lett 11:407–414
Laflamme RE, Hites RA (1978) The global distribution of polycyclic aromatic hydrocarbons in recent sediments. Geochim Cosmochim Acta 42:289–303
Lima ALC, Eglinton TI, Reddy CM (2003) High-resolution record of pyrogenic polycyclic aromatic hydrocarbon deposition during the 20th century. Environ Sci Technol 37:53–61
Liu GQ, Zhang G, Li XD, Li J, Peng XZ, Qi SH (2005) Sedimentary record of polycyclic aromatic hydrocarbons in a sediment core from the Pearl River Estuary, South China. Mar Pollut Bul 51(8–12):912–921
Macklin MG, Brewer PA, Balteanu D, Coulthard TJ, Driga B, Howard AJ, Zaharia S (2003) The long term fate and environmental significance of contaminant metals released by the January and March 2000 mining tailings dam failures in Maramures¸ County, upper Tisa Basin, Romania. Appl Geochem 18:241–257
MacLeod M, Mackay D (2004) Modeling transport and deposition of contaminants to ecosystems of concern: a case study for the Laurentian Great Lakes. Environ Poll 128:241–250
Marvin C, Painter S, Rossmann R (2004a) Spatial and temporal patterns in mercury contamination in sediments of the Laurentian Great Lakes. Environ Res 95:351–362
Marvin C, Painter S, Williams D, Richardson V, Rossmann R, Van Hoof P (2004b) Spatial and temporal trends in surface water and sediment contamination in the Laurentian Great Lakes. Environ Poll 129:131–144
Mayer T, Johnson MG (1994) History of anthropogenic activities in Hamilton harbour as determined from the sedimentary record. Environ Poll 86:341–347
Miller TR, Heidler J, Chillrud SN, Delaquil A, Ritchie JC, Mihalic JN, Bopp R, Halden R (2008) Fate of triclosan and evidence for reductive dechlorination of triclocarban in estuarine sediments. Environ Sci Technol 42:4570–4576
Müller G, Grimmer G, Böhnke H (1977) Sedimentary record of heavy metals and polycyclic aromatic hydrocarbons in Lake Constance. Naturwissenschaften 64:427–431
O′Dwyer B, Taylor D (2009) Paleolimnological evidence of variations in deposition of atmosphere-borne Polycyclic Aromatic Hydrocarbons (PAHs) in Ireland. Chemos. 77:1374–1380
Oldfield F, Appleby PG (1984) A Combined radiometric and mineral magnetic approach to recent geochronology in lakes affected by catchment disturbance and sediment redistribution. Chem Geol 44:67–83
Outridge PM, Stern GA, Hamilton PB, Percival JB, McNeely R, Lockhart WL (2005) Trace metal profiles in the varved sediment of an Arctic lake. Geochim Cosmochim Acta 69(20):4881–4894
Pazou EYA, Boko M, van Gestel CAM, Ahissou H, Lalèyè P, Akpona S, van Hattum B, Swart K, van Straalen NM (2006) Organochlorine and organophosphorous pesticide residues in the Ouémé River catchment in the Republic of Bénin. Environ Int 32:616–623
Pearson RF, Swackhamer DL, Eisenreich SJ, Long DT (1997) Concentrations, accumulations and inventories of polychlorinated dibenzo-p-dioxins and dibenzofurans in sediments of the Great Lakes. Environ Sci Technol 31:2903–2909
Peck AM, Linegaugh EK, Hornbuckle KC (2006) Synthetic musk fragrances in Lake Erie and Lake Ontario sediment cores. Environ Sci Technol 40:5629–5635
Peng X, Wang Z, Yu Y, Tang C, Lu H, Xu S, Chen F, Mai B, Chen S, Li K, Yang C (2008) Temporal trends of hydrocarbons in sediment cores from the Pearl River Estuary and the northern South China Sea. Environ Poll 156:442–448
Pirrone N, Allegrini I, Keeler GJ, Nriagu JO, Rossmann R, Robbins JA (1998) Historical atmospheric mercury emissions and depositions in North America compared to mercury accumulations in sedimentary records. Atmos Environ 32:929–940
Plater AJ, Appleby PG (2004) Tidal sedimentation in the Tees estuary during the 20th century: radionuclide and magnetic evidence of pollution and sedimentary response. Estuar Coast Shelf Sci 60:179–192
Poppe A, Alberti J, Bachhausen P (1991) Entwicklung der Belastung nordrhein-westfaelischer Flusssedimente mit Tetrachlorbenzyltoluolen und polychlorierten Biphenylen. Vom Wasser 76:191–198 (in German)
Renberg I (1979) Environmental monitoring by chemical, physical and biological analyses of annually-laminated lake sediments: the possibilities of the method. In: Hytteborn H (ed) The use of ecological variables in environmental monitoring, National Swedish Environment Protection Board, Report, PM, 1151, pp 318–324
Ricking M, Schwarzbauer J, Franke S (2003) Molecular markers of anthropogenic activity in sediments of the Havel and Spree-Rivers (Germany). Water Res 37:2607–2617
Robbins JA (1978) Geochemical and geophysical applications of radioactive lead isotopes. In: Nriagu JO (ed) The biochemistry of lead in the environment (Part A). Elsevier, Amsterdam, pp 285–393
Roychoudhury AN (2007) Spatial and seasonal variations in depth profile of trace metals in saltmarsh sediments from Sapelo Island, Georgia. Estuar Coast Shelf Sci 72(4):675–689
Ruiz-Fernández AC, Hillaire-Marcel C, Páez-Osuna F, Ghaleb B, Caballero M (2007) 210Pb chronology and trace metal geochemistry at Los Tuxtlas, Mexico, as evidenced by a sedimentary record from the Lago Verde crater lake. Quat Res 67:181–192
Schneider AR, Stapleton HM, Cornwell J, Baker JE (2001) Recent declines in PAH, PCB and toxaphene levels in the northern Great Lakes as determined from high resolution sediment cores. Environ Sci Technol 35:3809–3815
Schwarzbauer J (2010) Organic matter in the hydrosphere. In: Timmis KN (ed) Chapter 20, Handbook of Hydrocarbon and Liquid Microbiology. Springer, Berlin, pp 298–317
Secco T, Pellizzato F, Sfriso A, Pavoni B (2005) The changing state of contamination in the Lagoon of Venice. Part 1: organic pollutants. Chemosphere 58(3):279–290
Singer H, Muller S, Tixier C, Pillonel L (2002) Triclosan: occurrence and fate of a widely used biocide in the aquatic environment: field measurements in wastewater treatment plants, surface waters, and lake sediments. Environ Sci Technol 36(23):4998–5004
Smith JN (2001) Why should we believe 210Pb sediment geochronologies? J Environ Radioact 55:121–123
Smith JN, Levy EM (1990) Geochronology for polycyclic aromatic hydrocarbon contamination in sediments of the Saguenay Fjord. Environ Sci Technol 24:874–879
Smith JN, Walton A (1980) Sediment accumulation rates and geochronologies measured in the Saguenay Fjord, using the Pb-210 dating method. Geochim Cosmochim Acta 44:225–240
Strachan WMJ, Eisenreich SJ (1990) Mass balance accounting of chemicals in the Great Lakes. In: Kurtz DA (ed) Long range transport of pesticides. Lewis Publisher, Chelsea, MI, pp 291–301 (chapter 19)
Takada H, Eganhouse PR (1998) Molecular markers of anthropogenic waste. In: Meyers RA (ed) Encyclopaedia of environmental analysis and remediation. Wiley, New York, pp 2883–2940
Valette-Silver NJ (1993) The use of sediment cores to reconstruct historical trends in contamination of estuarine and coastal sediments. Estuar Coast 16/3B:577–588
Venkatesan MI, Brenner S, Ruth E, Bonilla J, Kaplan IR (1980) Hydrocarbons in age-dated sediment cores from two basins in the Southern California Bight. Geochim Cosmochim Acta 44:789–802
Venkatesan MI, de Leon RP, van Geen A, Luoma SN (1999) Chlorinated hydrocarbon pesticides and polychlorinated biphenyls in sediment cores from San Francisco Bay. Mar Chem 64:85–97
Vink R, Behrendt H, Salomons W (1999) Development of the heavy metal pollution trends in several European rivers: analysis of point and diffuse sources. Water Sci Tech 39/12:215–223
Wang X, Yang H, Gong P, Zhao X, Wu G, Turner S, Yao T (2010) One century sedimentary records of polycyclic aromatic hydrocarbons, mercury and trace elements in the Qinghai Lake, Tibetan Plateau. Environ Pollut 158:3065–3070
Warren N, Allan IJ, Carter JE, House WA, Parker A (2003) Pesticides and other micro-organic contaminants in freshwater sedimentary environments: a review. Appl Geochem 18:159–194
Wessels M, Lenhard A, Giovanoli F, Bollhöfer A (1995) High resolution time series of lead and zinc in sediments of Lake Constance. Aquat Sci 57(4):291–304
Westrich B, Förstner U (2007) Sediment dynamics and pollutant mobility in rivers. Springer, Heidelberg 430 pp
Winkels HJ, Vink JPM, Beurskens JEM, Kroonenberg SB (1993) Distribution and geochronology of priority pollutants in a large sedimentation area, River Rhine, The Netherlands. Appl Geochem 2:95–101
Wong CS, Sanders G, Engstrom DR, Long DT, Swackhamer DL, Eisenreich SJ (1995) Accumulation, inventory and diagenesis of chlorinated hydrocarbons in Lake Ontario sediments. Environ Sci Technol 29:2661–2672
Zhang G, Min YS, Min BX, Sheng GY, Fu JM, Wang ZS (1999) Time trend of BHCs and DDTs in a sedimentary core in Macao estuary, Southern China. Mar Pollut Bull 39:326–330
Zhou JL, Fileman TW, Evans S, Donkin P, Readman JW, Mantoura RFC, Rowland S (1999) The partition of fluoranthene and pyrene between suspended particles and dissolved phase in the Humber estuary: a study of the controlling factors. Sci Total Environ 243(244):305–321
Zourarah B, Maanan M, Carruesco C, Aajjane A, Mehdi K, Conceicao Freitas M (2007) Fifty-year sedimentary record of heavy metal pollution in the lagoon of Oualidia (Moroccan Atlantic coast). Estuar Coast Shelf Sci 72:359–369
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Heim, S., Schwarzbauer, J. Pollution history revealed by sedimentary records: a review. Environ Chem Lett 11, 255–270 (2013). https://doi.org/10.1007/s10311-013-0409-3
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10311-013-0409-3