Abstract
Sediments were collected from the upper, middle and lower reaches of both urban and rural rivers in a typical urbanization zone of the Pearl River delta. Six heavy metals (Cd, Cr, Cu, Ni, Pb and Zn) were analyzed in all sediment samples, and their spatial distribution, pollution levels, toxicity and ecological risk levels were evaluated to compare the characteristics of heavy metal pollution between the two rivers. Our results indicated that the total contents of the six metals in all samples exceeded the soil background value in Guangdong province. Based on the soil quality thresholds of the China SEPA, Cd levels at all sites exceeded class III criteria, and other metals exhibited pollution levels exceeding class II or III criteria at both river sites. According to the sediment quality guidelines of the US EPA, all samples were moderately to heavily polluted by Cr, Cu, Ni, Pb and Zn. Compared to rural river sites, urban river sites exhibited heavier pollution. Almost all sediment samples from both rivers exhibited moderate to serious toxicity to the environment, with higher contributions from Cr and Ni. A “hot area” of heavy metal pollution being observed in the upper and middle reaches of the urban river area, whereas a “hot spot” was identified at a specific site in the middle reach of the rural river. Contrary metal distribution patterns were also observed along typical sediment profiles from urban and rural rivers. However, the potential ecological risk indices of rural river sediments in this study were equal to those of urban river sediments, implying that the ecological health issues of the rivers in the undeveloped rural area should also be addressed. Sediment organic matter and grain size might be important factors influencing the distribution profiles of these heavy metals.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Acosta JA, Jansena B, Kalbitz K, Faz A, Martínez-Martínez S (2011) Salinity increases mobility of heavy metals in soils. Chemosphere 85(8):1318–1324
Arini A, Feurtet-Mazel A, Morin S, Maury-Brachet R, Coste M, Delmas F (2012) Remediation of a watershed contaminated by heavy metals: a 2-year field biomonitoring of periphytic biofilms. Sci Total Environ 425:242–253
Bai JH, Cui BS, Xu XF, Ding QY, Gao HF (2009) Heavy metal contamination in riverine soils upstream and downstream of a hydroelectric dam on the Lancang River China. Environ Eng Sci 26:941–946
Bai JH, Yang ZF, Cui BS, Gao HF, Ding QY (2010) Some heavy metals distribution in wetland soils under different land use types along a typical plateau lake China. Soil Till Res 106(2):344–348
Bai JH, Xiao R, Cui BS, Zhang KJ, Wang QG, Liu XH, Gao HF, Huang LB (2011) Assessment of heavy metal pollution in wetland soils from the young and old reclaimed regions in the Pear River Estuary South China. Environ Pollut 159:817–824
Bai JH, Xiao R, Zhang KJ, Gao HF (2012) Arsenic and heavy metal pollution in wetland soils from tidal freshwater and salt marshes before and after the flow-sediment regulation regime in the Yellow River Delta China. J Hydrol 450–451:244–253
Beesley L, Jiménez EM, Clemente R, Lepp N, Dickinson N (2010) Mobility of arsenic, cadmium and zinc in a multi-element contaminated soil profile assessed by in situ soil pore water sampling, column leaching and sequential extraction. Environ Pollut 158:155–160
Cabrera F, Clemente L, Barrientos ED, López R, Murillo JM (1999) Heavy metal pollution of soils affected by the Guadiamar toxic flood. Sci Total Environ 242:117–129
Caeiro S, Costa MH, Ramos TB, Fernandes F, Silveira N, Coimbra A, Medeiros G, Painho M (2005) Assessing heavy metal contamination in Sado estuary sediment: an index analysis approach. Ecol Indic 5:151–169
Campana O, Blasco J, Simpson SL (2013) Demonstrating the appropriateness of developing sediment quality guidelines based on sediment geochemical properties. Environ Sci Technol 47(13):7483–7489
Chen Z, Kostaschuk R, Yang M (2001) Heavy metals on tidal flats in the Yangtze Estuary,China. Environ Geol 40:479–742
Chen SS, Fang LG, Zhang LX, Huang WR (2009) Remote sensing of turbidity in seawater intrusion reaches of Pearl River Estuary––a case study in Modaomen water way, China. Estuar, Coast Shelf Sci 82:119–127
Duc TA, Loi VD, Thao TT (2013) Partition of heavy metals in a tropical river system impacted by municipal waste. Environ Monit Assess 185:1907–1925
Facchinelli A, Sacchi E, Mallen L (2001) Multivariate statistical and GIS-based approach to identify heavy metal sources in soils. Environ Pollut 114:313–324
Forstner U, Muller G (1973) Heavy metal accumulation in river sediments, a response to environmental pollution. Geoforum 14:53–62
Frouz J, Elhottova D, Pizl V, Tajousky K, Sourkova M, Picek T, Maly S (2007) The effect of litter quality and soil faunal composition on organic matter dynamics in post-mining soil: a laboratory study. Appl Soil Ecol 37:72–80
Grossman GM, Krueger AB (1995) Economic growth and the environment. Quart J Econ 110:353–377
Gupta SK, Vollmer MK, Krebs R (1996) The importance of mobile, mobilisable and pseudo total heavy metal fractions in soil for three-level risk assessment and risk management. Sci Total Environ 178:11–20
Håkanson L (1980) An ecological risk index for aquatic pollution control: a sedimentological approach. Water Res 14:975–1001
Håkanson L, Janson M (1983) Principles of lake sedimentology. Springer, Berlin, p 316
Karimi R, Ayoubi S, Jalalian A, Sheikh-Hosseini AR, Afyuni M (2011) Relationships between magnetic susceptibility and heavy metals in urban top soils in the arid region of Isfahan, central Iran. J Appl Geophy 74(1):1–7
Kong GT, Meng HY, Li GH, Xiong T, Liu YX (2008) Fractionations of topsoil Cd and Pb and interrelationships among their own fractions in some rural/peri-urban vegetable fields in Pearl River Delta. Chin J Soil Sci 3:38–40 (in Chinese with English abstract)
Kumar RN, Solanki R, Kumar JIN (2013) Seasonal variation in heavy metal contamination in water and sediments of river Sabarmati and Kharicut canal at Ahmedabad,Gujarat. Environ Monit Assess 185(1):359–368
Lai DS, Lin JB, Liu WS, Pan LK, Chu KH, Chen CY, Lin DB (2010) Metal concentrations in sediments of the Tamsui River, flows through central metropolitan Taipei. Bull Environ Contamination Toxicol 84:628–634
Li ZB, Shuman LM (1996) Heavy metal movement in metal-contaminated soil profiles. Soil Sci 161:656–666
Li XD, Coles BJ, Ramsey MH, Thornton I (1995) Sequential extraction of soils for multi-element analysis by ICP-AES. Chem Geol 124:109–123
Li QS, Wu Z, Chu B, Zhang N, Cai S, Fang J (2007) Heavy metals in coastal wetland sediments of the Pearl River Estuary, China. Environ Pollut 149:158–164
Li QS, Liu YN, Du YF, Cui ZH, Shi L, Wang LL, Li HJ (2011) The behavior of heavy metals in tidal flat sediments during fresh water leaching. Chemosphere 82(6):834–838
Lin SW, Hsieh IJ, Huang KM, Wang CH (2002) Influence of the Yangtze River and grain size on the spatial variations of heavy metals and organic carbon in the East China Sea continental shelf sediments. Chem Geol 182:377–394
Liu Y (2008) Taking government as the main body of water pollution decreasing system. Ecol Economy 1:68–79 (in Chinese with English abstract)
Liu L, Li FS, Xiong DQ, Song CY (2006) Heavy metal contamination and their distribution in different size fractions of the surficial sediment of Haihe River, China. Environ Geol 50:431–438
Liu JL, Li YL, Zhang B, Cao JL, Cao ZG, Domagalski J (2009) Ecological risk of heavy metals in sediments of the Luan River source water. Ecotoxicol 18:748–758
Loar JM, Stewart AJ, Smith JG (2011) Twenty-Five years of ecological recovery of east Fork Poplar Creek: review of environmental problems and remedial actions. Environ Manage 47(6):1010–1020
Ma ZW, Chen K, Yuan ZW, Bi J, Huang L (2013) Ecological risk assessment of heavy metals in surface sediments of six major Chinese freshwater lakes. J Environ Qual 42(2):341–350
MacDonald DD, Ingersoll CG, Berger TA (2000) Development and evaluation of consensus-based sediment quality guidelines for freshwater ecosystems. Arch Environ Contam Toxicol 39:20–31
Massas I, Ehaliotis C, Gerontidis S, Sarris E (2009) Elevated heavy metal concentrations in top soils of an Aegean island town (Greece): total and available forms, origin and distribution. Environ Monit Assess 151:105–116
Modlingerova V, Szakova J, Sysalova J, Tlustos P (2012) The effect of intensive traffic on soil and vegetation risk element contents as affected by the distance from a highway. Plant, Soil Environ 58(8):379–384
Mohiuddin KM, Zakir HM, Otomo K, Sharmin S, Shikazono N (2010) Geochemical distribution of trace metal pollutants in water and sediments of downstream of an urban river. Int J Environ Sci Technol 7(1):17–28
Moore A, Goff J, McAdoo BG, Fritz HM, Gusman A, Kalligeris N, Kalsum K, Susanto A, Suteja D, Synolakis CE (2011) Sedimentary deposits from the 17 July 2006 western Java Tsunami, Indonesia: use of grain size analyses to assess Tsunami flow depth, speed, and traction carpet characteristics. Pure appl geophy 168(11):1951–1961
Nelson DW, Sommers LE (1982) Total carbon, organic carbon, and organic matter. In: Page AL, Miller RH, Keeney DR (eds) Methods of soil analysis. American society of agronomy, Wisconsin, pp 539–579
Pedersen F, Bjurnestad E, Andersen HV, Kjholt J, Poll C (1998) Characterization of sediments from Copenhagen Harbour by use of biotests. Water Sci Technol 37:233–240
Pekey H, Karaka D, Ayberk S, Tolun L, Lu MB (2004) Ecological risk assessment using trace elements from surface sediments of Izmit Bay (Northeastern Marmara Sea) Turkey. Mar Pollut Bull 48:946–953
Perkins WS, Benefield L, Hill EW, Walsh WK (1993) Source reduction of pollutants from textile processing waste water. Natl Text Cent Quart Rep 31:13
Roca N, Pazos MS, Bech J (2012) Background levels of potentially toxic elements in soils: a case study in Catamarca (a semiarid region in Argentina). Catena 92:55–66
Roline RA (1988) The effects of heavy metal pollution of the upper Arkansas River on the distribution of aquatic macroinvertebrates. Hydrobiologia 160:3–8
Soares HMVM, Boaventura RAR, Machado AASC, da Esteves Silva JGG (1999) Sediments as monitors of heavy metal contamination in the Ave river basin (Portugal): multivariate analysis of data. Environ Pollut 105:311–323
Song YX, Ji JF, Yang ZF, Yuan XY, Mao CP, Frost RL, Ayoko GA (2011) Geochemical behavior assessment and apportionment of heavy metal contaminants in the bottom sediments of lower reach of Changjiang River. Catena 85:73–81
State Environmental Protection Administration (SEPA) (1995) Environmental Quality Standard for Soils. State Environmental Protection Administration, China.GB15618-1995 (in Chinese)
Sun YJ, Wang SG, Hu YC, Zhang C, Fang HY (2009) Discussions on the comprehensive improvement of heavily polluted municipal rivers and the emission reduction methods:a case study of the Shiqiao River in Panyu district of Guangzhou. Tropical Geography 29:207–212 (in Chinese with English abstract)
Suthar S, Nema AK, Chabukdhara M, Gupta SK (2009) Assessment of metals in water and sediments of Hindon River, India: impact of industrial and urban discharges. J Hazard Mater 171:1088–1095
Tessier A, Carignan R, Dubreuil B, Rapin F (1989) Partitioning of zinc between the water column and the oxic sediments in lakes. Geochim Cosmochim Acta 53(7):1511–1522
Thompson M, Walsh JN (1989) Handbook of inductively coupled plasma spectrophotometry. Blackie, Glasgow, p 273
Wang GP, Liu JS, Tang J (2004) Assessment of heavy metal pollution of wetlands at downstream of an inland river. Rural Eco-Environ 20:50–54 (in Chinese)
Wang SL, Lin CY, Cao XZ (2011) Heavy metals content and distribution in the surface sediments of the Guangzhou section of the Pearl River, Southern China. Environ Earth Sci 64:1593–1605
Wei XG, He JH, Wang SY, Chen JJ, Du YQ, He WB, Yang XQ (2002) Concentration and evaluation on pollution of Cd in vegetable farm soils and vegetables of Guangzhou. Soil Environ Sci 11:129–132 (in Chinese)
Weng LP, Temminghoff JM, Riemsdijk HV (2001) Contribution of individual sorbents to the control of heavy metal activity in sandy soil. Environ Sci Technol 35(22):4436–4443
Wu G, Wu JY, Shao HB (2012) Hazardous heavy metal distribution in Dahuofang catchment Fushun, Liaoning, an important industry city in China: a case study. CLEAN- Soil, Air, Water 40(12):1372–1375
Xiao R, Bai JH, Zhang HG, Gao HF, Liu XH, Wilkes A (2011) Changes of P, Ca, Al and Fe contents in fringe marshes along a pedogenic chronosequence in the Pearl River estuary, South China. Cont Shelf Res 31:739–747
Xiao R, Bai JH, Gao HF, Wang JJ, Huang LB, Liu PP (2012) Distribution and contamination assessment of heavy metals in water and soils from the college town in the Pearl River Delta, China. CLEAN-Soil, Air, Water 40(10):1167–1173
Xu G, Sun JN, Xu RF, Lv YC, Shao HB, Yan K, Zhang LH, Blackwell MSA (2011) Effects of air-drying and freezing on phosphorus fractions in soils with different organic matter contents. Plant, Soil Environ 57(5):228–234
Yang ZF, Wang Y, Shen ZY, Niu JF, Tang ZW (2009) Distribution and speciation of heavy metals in sediments from the mainstream, tributaries, and lakes of the Yangtze River catchment of Wuhan, China. J Hazard Mater 166:1186–1194
Yu X, Ng C (2006) An integrated evaluation of landscape change using remote sensing and landscape metrics: a case study of Panyu, Guangzhou. International J Remote Sens 27:1075–1092
Yu ZH, Lin Q, Li CH, Huang HH, Yang ML, Han JL, Ca WG (2004) Variation features and ecological assessment of heavy metals from Pearl River estuary. J Fishery Sci China 11(3):214–219 (in Chinese with English abstract)
Yu T, Fang HY, Zeng FT (2009) An assessment of water quality in the shiqiao river basin in Panyu, Guangzhou. China Rural Water Hydropower 12:23–30 (in Chinese with English abstract)
Yu D, Jiang Y, Kang M, Tian Y, Duan J (2011) Integrated urban land-use planning based on improving ecosystem service: panyu case, in a typical developed area of China. J Urban Plan Development 137(4):448–458
Zhang LW, Shao HB (2013) Heavy Metal Pollution in Sediments from Aquatic Ecosystems in China. CLEAN-Soil, Air, Water, doi:10.1002/clen.201200565
Zhang XY, Xue XZ (2013) Analysis of marine environmental problems in a rapidly urbanising coastal area using the DPSIR framework: a case study in Xiamen, China. J Environ Plan Manag 56(5):720–742
Zhang DW, Zhang X, Tian L, Ye F, Huang XP, Zeng YY, Fan ML (2013) Seasonal and spatial dynamics of trace elements in water and sediment from Pearl River Estuary, South China. Environ Earth Sci 68(4):1053–1063
Zhao HT, Li XY (2013) Risk assessment of metals in road-deposited sediment along an urban–rural gradient. Environ Pollut 174:297–304
Zhao S, Feng C, Wang D, Liu Y, Shen Z (2013) Salinity increases the mobility of Cd, Cu, Mn, and Pb in the sediments of Yangtze Estuary: relative role of sediments’ properties and metal speciation. Chemosphere 91(7):977–984
Zheng N, Wang QC, Liang ZZ, Zheng DM (2008) Characterization of heavy metal concentrations in the sediments of three freshwater rivers in Huludao City Northeast China. Environ Pollut 154:135–142
Zhou X, Xia BC (2010) Defining and modeling the soil geochemical background of heavy metals from the Hengshi River watershed (southern China): integrating EDA, stochastic simulation and magnetic parameters. J Hazard Mater 180:542–551
Acknowledgments
This work was financially supported by the National Basic Research Program (No. 2013CB430406), the National Natural Science Foundation (No. 51379012), the Program for New Century Excellent Talents in University (NCET-10-0235), the Fok Ying Tung Education Foundation (132009), and the Fundamental Research Funds for the Central Universities (No.2013351).
Conflict of interest
The authors declare that they have no conflict of interest.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Xiao, R., Bai, J., Huang, L. et al. Distribution and pollution, toxicity and risk assessment of heavy metals in sediments from urban and rural rivers of the Pearl River delta in southern China. Ecotoxicology 22, 1564–1575 (2013). https://doi.org/10.1007/s10646-013-1142-1
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10646-013-1142-1