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Chapman & Hall, LondonDOI:10.1007/978-94-009-4109-0; Asselman NEM (2000) Fitting and interpretation of sediment rating curves. J Hydrol 234:113–266; Belmont P, Gran KB, Schottler SP, Wilcock PR, Day SS, Jennings C, Lauer JW, Viparelli E, Willenbring JK, Engstrom DR, Parker G (2011) Large shirt in source of fine sediment in the Upper Mississippi river. Environ Sci Technol 45:8804–8810DOI:10.1021/es2019109; Benson NU, Asuquo FE, Williams AB, Essien JP, Ekong CI, Akpabio O, Olajire AA (2016) Source evaluation and trace metal contamination in benthic sediments from equatorial ecosystems using multivariate statistical techniques. PLoS One 11:e0156485DOI:10.1371/journal.pone.0156485; Berner ZA, Bleeck-Schmidt S, Stüben D, Neumann T, Fuchs M, Lehmann M (2012) Floodplain deposits: a geochemical archive of flood history—a case study on the River Rhine, Germany. Appl Geochem 27:543–561DOI:10.1016/j.apgeochem.2011.12.007; Carling (1983) Particulate dynamics, dissolved and total load, in two small basins, northern Pennines, UK. Hydrol Sci J 28:355–375DOI:10.1080/02626668309491976; Colby BR (1956) Relationship of sediment discharge to streamflow. U.S. Dept. of the Interior, Geological Survey, Water Resources Division, Open-File Report 56-27, Washington, DC, USADOI:10.3133/ofr5627; Collins AL, Walling DE, Leeks GJL (1997) Fingerprinting the origin of fluvial suspended sediment in larger river basins: combining assessment of spatial provenance and source type. Geogr Ann 79A:239–254DOI:10.1111/1468-0459.00020; Collins AL, Pulley S, Foster IDL, Gellis A, Porto P, Horowitz AJ (2017) Sediment source fingerprinting as an aid to catchment management: a review of the current state of knowledge and a methodological decision-tree for end-users. J Environ Manag 194:86–108DOI:10.1016/j.jenvman.2016.09.075; Coynel A, Schäfer J, Blanc G, Bossy C (2007) Scenario of particulate trace metal and metalloid transport during a major flood event inferred from transient geochemical signals. Appl Geochem 22:821–836DOI:10.1016/j.apgeochem.2006.10.004; Droppo IG, Jaskot C (1995) Impact of river transport characteristics on contaminant sampling error and design. Environ Sci Technol 29:161–170DOI:10.1021/es00001a021; Eisma D (1993) Suspended matter in the aquatic environment. Springer, Berlin GermanyDOI:10.1007/978-3-642-77722-6; Epema OJ, Zemmelink H (2017) Ananlyseboek milieu (in Dutch). Rijkswaterstaat CIV IGA-Laboratorium, Delft, The Netherlands https://www.helpdeskwater.nl/onderwerpen/monitoring/gegevensinwinning/@176316/analyseboek-milieu/; Ferguson RI (1986) River loads underestimated by rating curves. Water Resour Res 22:74–76DOI:10.1029/WR022i001p00074; Förstner U, Salomons W (1980) Trace metal analysis on polluted sediments. Part I: assessment of sources and intensities. Environ Technol 1:494–505; Frings RM, Döring R, Beckhausen C, Schüttrumpf H, Vollmer S (2014a) Fluvial budget of a modern, restrained river: the lower reach of the Rhine in Germany. Catena 122:91–102DOI:10.1016/j.catena.2014.06.007; Frings RM, Gehres N, Promny M, Middelkoop H, Schüttrumpf H, Vollmer S (2014b) Today’s sediment budget of the Rhine River channel, focusing on the Upper Rhine Graben and Rhenish Massif. Geomorphology 204:573–587DOI:10.1016/j.geomorph.2013.08.035; Görgen K, Beersma J, Brahmer G, Buiteveld H, Carambia M, de Keizer O, Krahe P, Nilson E, Lammersen R, Perrin C, Volken D (2010) Assessment of climate change impacts on discharge in the Rhine River basin: results of the RheinBlick2050 Project. CHR report, I-23, Lelystad, The Netherlands; Haddadchi A, Ryder DS, Evrard O, Olley J (2013) Sediment fingerprinting in fluvial systems: review of tracers, sediment sources and mixing models. J Sediment Res 28:560–578DOI:10.1016/S1001-6279(14)60013-5; Hamers T, Kamstra JH, van Gils J, Kotte MC, van Hattum AGM (2015) The influence of extreme discharge conditions on the quality of suspended particulate matter in Rivers Meuse and Rhine (The Netherlands). Environ Res 143:241–255DOI:10.1016/j.envres.2015.10.019; Hartmann J, Jansen N, Kempe S, Dürr HH (2007) Geochemistry of the river Rhine and the Upper Danube: recent trends and lithological influence on baselines. J Environ Sci Sustain Soc 1:39–46DOI:10.3107/jesss.1.39; Hegnauer M, Beersma JJ, van den Boogaard HFP, Buishand TA, Passchier RH (2014) Generator of rainfall and discharge extremes (GRADE) for the Rhine and Meuse basins; final report of GRADE 2.0. Deltares Report 1209424-004, Delft, The Netherlands, http://publications.deltares.nl/1209424_004_0018.pdf; Klaver G, Verheul M, Bakker I, Petelet-Giraud E, Négrel P (2014) Anthropogenic rare earth element in rivers: gadolinium and lanthanum. Partitioning between the dissolved and particulate phases in the Rhine River and spatial propagation through the Rhine-Meuse Delta (the Netherlands). Appl Geochem 47:186–197DOI:10.1016/j.apgeochem.2014.05.020; Koelmans AA (1998) Geochemistry of suspended and settling solids in two freshwater lakes. Hydrobiologia 364:15–29DOI:10.1023/A:1003119621326; Koiter AJ, Owens PN, Petticrew EL, Lobb DA (2013) The behavioural characteristics of sediment properties and their implications for sediment fingerprinting as an approach for identifying sediment sources in river basins. Earth-Sci Rev 125:24–42DOI:10.1016/j.earscirev.2013.05.009; Kulaksız S, Bau M (2011) Rare earth elements in the Rhine River, Germany: first case of anthropogenic lanthanum as a dissolved microcontaminant in the hydrosphere. Environ Int 37:973–979DOI:10.1016/j.envint.2011.02.018; Laceby JP, Evrard O, Smith HG, Blake WH, Olley JM, Minella JPG, Owens PN (2017) The challenges and opportunities of addressing particle size effects in sediment source fingerprinting: a review. Earth-Sci Rev 169:85–103DOI:10.1016/j.earscirev.2017.04.009; Le Meur M, Montargès-Pelletier E, Bauer A, Gley R, Migot S, Barres O, Delus C, Villiéras F (2016) Characterisation of suspended particulate matter in the Moselle River (Lorraine, France): evolution along the course of the river and in different hydrologic regimes. J Soils Sediments 16:1625–1642DOI:10.1007/s11368-015-1335-8; Luoma SN, Rainbow PS (2008) Metal contamination in aquatic environments – science and lateral management. Cambridge University Press, Cambridge; Ma Y, Qin Y, Zheng B, Zhang L, Zha Y (2015) Seasonal variation of enrichment, accumulation and sources of heavy metals in suspended particulate matter and surface sediments in the Daliao river and Daliao river estuary, Northeast China. Environ Earth Sci 73:5107–5117DOI:10.1007/s12665-015-4325-7; Martin J-M, Meybeck M (1979) Elemental mass-balance of material carried by major world rivers. Mar Chem 7:178–206; Middelkoop H (2000) Heavy-metal pollution of the river Rhine and Meuse floodplains in the Netherlands. Neth J Geosci 79:411–428; Moatar F, Abbott BW, Minaudo C, Curie F, Pinay G (2017) Elemental properties, hydrology, and biology interact to shape concentration-discharge curves for carbon, nutrients, sediment, and major ions. Water Resour Res 53:1270–1287DOI:10.1002/2016WR019635; Nasrabadi T, Ruegner H, Schwientek M, Bennett J, Valipour SF, Grathwohl P (2018) Bulk metal concentrations versus total suspended solids in rivers: time-invariant & catchment-specific relationships. PLoS One 13:e0191314DOI:10.1371/journal.pone.0191314; Owens PN, Batalla RJ, Collins AJ, Gomez B, Hicks DM, Horowitz AJ, Kondolf GM, Marden M, Page MJ, Peacock DH, Petticrew EL, Salomons W, Trustrum NA (2005) Fine-grained sediment in river systems: environmental significance and management issues. River Res Appl 21:693–717DOI:10.1002/rra.878; Pawlowsky-Glahn V, Egozcue JJ, Tolosana-Delgado J (2007) Lecture notes on compositional data analysis. http://diobma.udg.edu/handle/10256/297/; Preusser F (2008) Characterisation and evolution of the River Rhine system. Neth J Geosci 87:7–19; Pulley S, Foster I, Antunes P (2016) The dynamics of sediment-associated contaminants over a transition from drought to multiple flood events in a lowland UK catchment. Hydrol Process 30:704–719DOI:10.1002/hyp.10616; Quinton JN, Catt JA (2007) Enrichment of heavy metals in sediment resulting from soil erosion on agricultural fields. Environ Sci Technol 41:3495–3500DOI:10.1021/es062147h; R Core Team (2017) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna https://www.R-project.org/; Rijkswaterstaat (2019) WaterInfo. https://waterinfo.rws.nl/; Rondeau B, Cossa D, Gagnon P, Pham TT, Surette C (2005) Hydrological and biogeochemical dynamics of the minor and trace elements in the St. Lawrence River. Appl Geochem 20:1391–1408DOI:10.1016/j.apgeochem.2005.02.011; Rose LA, Karwan DL, Godsey SE (2018) Concentration–discharge relationships describe solute and sediment mobilization, reaction, and transport at event and longer timescales. Hydrol Process 32:2829–2844DOI:10.1002/hyp.13235; Rügner H, Schientek M, Milačič R, Zuliani T, Vidmar J, Paunović M, Laschou S, Kalogianni E, Skoulikidis NT, Diamantini E, Majone B, Bellin A, Chiogna G, Martinex E, López de Alda M, Díaz-Cruz MS, Grathwohl P (2019) Particle bound pollutants in rivers: results from suspended sediment sampling in Globaqua River Basins. Sci Total Environ 647:645–652DOI:10.1016/j.scitotenv.2018.08.027; Salminen R, Batista MJ, Bidovec M, Demetriades A, De Vivo B, De Vos W, Duris M, Gilucis A, Gregorauskiene V, Halamic J, Heitzmann P, Lima A, Jordan G, Klaver G, Klein P, Lis J, Locutura J, Marsina K, Mazreku A, O’Connor PJ, Olsson SÅ, Ottesen R-T, Petersell V, Plant JA, Reeder S, Salpeteur I, Sandström H, Siewers U, Steenfelt A, Tarvainen T (2005) Geochemical Atlas of Europe. Part 1 - background information, methodology and maps. Geological Survey of Finland, Otamedia Oy, Espoo; Savenko VS (2007) Chemical composition of sediment load carried by rivers. Geochem Int 45:816–824DOI:10.1134/S0016702907080071; Schleichert U, Keller M (1997) Schadstoffgehalte in Schwebstoffen der Hochwasserwelle de Rheins vom April 1994. Bericht 82, Internationale Kommission zum Schutz des Rheins, Koblenz, Germany; Schulz M, Bischoff M (2008) Variation in riverine phosphorus between 1994 and 2003 as affected by land-use and loading reductions in six medium-sized to large German rivers. Limnologica 38:126–138DOI:10.1016/j.limno.2007.10.002; Smith HG, Blake WH (2016) Sediment fingerprinting in agricultural catchments: a critical re-examination of source discrimination and data corrections. Geomorphology 204:177–191DOI:10.1016/j.geomorph.2013.08.003; Smith HG, Karam Lennard AT (2018) Evaluating tracer selection for catchment sediment fingerprinting. J Soils Sediments 18:3005–3019DOI:10.1007/s11368-018-1990-7; Syvitski JPM, Vörösmarty C, Kettner AJ, Green P (2005) Impact of humans on the flux of terrestrial sediment to the global coastal ocean. Science 308:376–380DOI:10.1126/science.1109454; Syvitski JPM, Kettner AJ, Overeem I, Hutton EWH, Hannon MT, Brakenridge GR, Day J, Vörösmarty C, Saito Y, Giosan L, Nicholls RJ (2009) Sinking deltas due to human activities. Nat Geosci 2:681–686DOI:10.1038/ngeo629; Syvitsky JP, Morehead MD, Bahr DB, Mulder T (2000) Estimating fluvial sediment transport: the rating parameters. Water Resour Res 36:2747–2760DOI:10.1029/2000WR900133; Uehlinger U, Wantzen KM, Leuven RSEW, Arndt H (2009) The Rhine river basin. In: Tockner K, Uehlinger U, Robinson CT (eds) Rivers of Europe. Elsevier, London, pp 199–246DOI:10.1016/B978-0-12-369449-2.00006-0; Vale C (1990) temporal variations of particulate metals in the Tagus River estuary. Sci Total Environ 97(98):137–154DOI:10.1016/0048-9697(90)90236-N; Van de Meent D, de Leeuw JW, Schenck PA, Salomons W (1985) Geochemistry of suspended particulate matter in two natural sedimentation basins of the river Rhine. Water Res 19:1333–1340DOI:10.1016/0043-1354(85)90297-0; Van der Perk M (2013) Soil and water contamination, second edn. CRC Press, Boca Raton; Van der Weijden CH, Middelburg JJ (1989) Hydrochemistry of the River Rhine: long term and seasonal variability, elemental budgets, base levels and pollution. Water Res 23:1247–1266DOI:10.1016/0043-1354(89)90187-5; Van Dijk PM (2001) Soil erosion and associated sediment supply to rivers: Seasonal dynamics, soil conservations measures, and impacts of climate change. UvA IBED FG, Amsterdam, the Netherlands. http://hdl.handle.net/11245/1.187089; Viers J, Dupré B, Gaillardet J (2009) Chemical composition of suspended sediment in World Rivers: New insights from a new database. Sci Total Environ 407:853–868DOI:10.1016/j.scitotenv.2008.09.053; Vijver MG, Spijker J, Vink JPM, Posthuma L (2008) Determining metal origins and availability in fluvial deposits by analysis of geochemical baselines and solid–solution partitioning measurements and modelling. Environ Pollut 156:832–839DOI:10.1016/j.envpol.2008.05.028; Vink R, Behrendt H (2002) Heavy metal transport in large river systems: heavy metal emissions and loads in the Rhine and Elbe river basins. Hydrol Process 16:3227–3244DOI:10.1002/hyp.1099; Walling DE (1977) Assessing the accuracy of suspended sediment rating curves for a small basin. Water Resour Res 13:531–538DOI:10.1029/WR013i003p00531; Walling DE (2006) Human impact on land–ocean sediment transfer by the world’s rivers. Geomorphology 79:192–216DOI:10.1016/j.geomorph.2006.06.019; Winkels HJ, Blom G, Kroonenberg SB, Lijklema L (1998) Dilution of riverine heavy metal input concentrations by suspension of sediments and algal growth in the IJsselmeer. Water Res 32:2931–2940DOI:10.1016/S0043-1354(98)00092-X; Zhao G, Ye S, Yuan H, Ding X, Wang J (2017) Surface sediment properties and heavy metal pollution assessment in the Pearl River Estuary, China. Environ Sci Pollut Res 24:2966–2979DOI:10.1007/s11356-016-8003-4; Zwolsman JJG, van Eck GTM (1999) Geochemistry of major elements and trace metals in suspended matter of the Scheldt estuary, southwest Netherlands. Mar Chem 66:91–111DOI:10.1016/S0304-4203(99)00026-2;", "hasCitationDuplums" : false, "userChangeableUntil" : "2020-06-08T14:56:51.637+0000", "directInstitutesForSort" : "", "ownerAuthorCount" : 1, "ownerInstituteCount" : 32, "directInstituteCount" : 0, "authorCount" : 2, "contributorCount" : 0, "hasQualityFactor" : true, "link" : "/api/publication/31237123", "label" : "van der Perk Marcel et al. Compositional dynamics of suspended sediment in the Rhine River: sources and controls. (2020) JOURNAL OF SOILS AND SEDIMENTS 1439-0108 20 3 1754-1770", "template" : "