Abstract
Purpose
This study aimed to relate the altitudinal and vertical distributions and occurrences of major heavy metals (HMs) to soil physicochemical properties in the riparian soils subject to periodic and intense wet–dry cycles
Materials and methods
Cadmium (Cd), copper (Cu), and lead (Pb) and their chemical fractions were investigated in the riparian soil (0–40 cm) of the upland and within the water-level-fluctuation zone (WLFZ) at two tributary backwaters of the Three Gorges Reservoir (TGR) in China. Selected soil basic properties and pore structures determining the distribution of HMs and their fractions were identified using correlation and redundancy analysis
Results and discussions
Cd showed moderate–strong contamination and prevailed in non-residual fraction (>73.2%) in the riparian soil of the tributary backwaters in the TGR. In contrast, Cu and Pb exhibited slight contamination and prevailing in residual fraction (>50.3%). Enrichment of HMs in the lower end relatively flat WLFZ where flow rate decreased abruptly and dramatically was observed. Cd exhibited the largest coefficient of variation (CV, up to 0.263) across soil profiles while Cu showed a relatively homogeneous profile distribution in the riparian soil. Soil organic matter (SOM), cation exchange capacity (CEC), and pH were identified to be the primary factors determining the distributions of Cd, Cu, Pb, and their chemical fractions, respectively, in the riparian soil with a high macroporosity. Nevertheless, soil porosity was the dominant factor (>65.0%) determining the distributions of all the three HMs and their fractions in the non-drainable micropore-dominated riparian soil
Conclusions
Soil basic property and pore structure variations due to periodic hydrodynamic disturbances from reservoir operation are closely related to the redistribution of HMs in the riparian soil. The coupling of these two variations is strongly suggested to assist reliable evaluation of various contaminants, including but not limited to HMs, regarding their spatial redistributions and mobilization potentials in the vadose zone at larger scales in response to climate change.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bai J, Xiao R, Zhao Q, Lu Q, Wang J, Reddy KR (2014) Seasonal dynamics of trace elements in tidal salt marsh soils as affected by the flow-sediment regulation regime. Plos One 9:e107738. https://doi.org/10.1371/journal.pone.0107738
Bao Y, Gao P, He X (2015) The water-level fluctuation zone of Three Gorges Reservoir – a unique geomorphological unit. Earth-Sci Rev 150:14–24
Bartoli G, Papa S, Sagnella E, Fioretto A (2012) Heavy metal content in sediments along the Calore river: relationships with physical–chemical characteristics. J Environ Manage 95:S9–S14. https://doi.org/10.1016/j.jenvman.2011.02.013
Bing H, Wu Y, Zhou J, Sun H, Wang X, Zhu H (2019) Spatial variation of heavy metal contamination in the riparian sediments after two-year flow regulation in the Three Gorges Reservoir, China. Sci Total Environ 649:1004–1016
Camobreco VJ, Richards BK, Steenhuis TS, Peverly JH, McBride MB (1996) Movement of heavy metals through undisturbed and homogenized soil columns. Soil Sci 161:740–750
Chen HY, Teng YG, Lu SJ, Wang YY, Wang JS (2015) Contamination features and health risk of soil heavy metals in China. Sci Total Environ 512:143–153
Cui JF, Tang XY, Zhang W, Liu CD (2018) The effects of timing of inundation on soil physical quality in the water-level fluctuation zone of the Three Gorges Reservoir region. China. Vadose Zone J 17. https://doi.org/10.2136/vzj2018.03.0043
Daviescolley RJ, Nelson PO, Williamson KJ (1985) Sulfide control of cadmium and copper concentrations in anaerobic estuarine sediments. Mar Chem 16:173–186
Dexter A, Richard G, Arrouays D, Czyż E, Jolivet C, Duval O (2008) Complexed organic matter controls soil physical properties. Geoderma 144:620–627
Diagboya PN, Olu-Owolabi BI, Adebowale KO (2015) Effects of time, soil organic matter, and iron oxides on the relative retention and redistribution of lead, cadmium, and copper on soils. Environ Sci Poll Res 22:10331–10339
Elzinga EJ, Sparks DL (2002) X-ray absorption spectroscopy study of the effects of pH and ionic strength on Pb (II) sorption to amorphous silica. Environ Sci Technol 36:4352–4357
Fan TT, Wang YJ, Li CB, Zhou DM, Friedman SP (2015) Effects of soil organic matter on sorption of metal ions on soil clay particles. Soil Sci Soc Am J 79:794–802
Fu BJ, Wu BF, Lü YH, Xu ZH, Cao JH, Niu D (2010) Three Gorges Project: efforts and challenges for the environment. Prog Phys Geog 34:741–754
Gao Q, Li Y, Cheng Q, Yu M, Hu B, Wang Z (2016) Analysis and assessment of the nutrients, biochemical indexes and heavy metals in the Three Gorges Reservoir, China, from 2008 to 2013. Water Res 92:262–274
Gürel A (2006) Adsorption characteristics of heavy metals in soil zones developed on spilite. Environ Geol 51:333–340
Harter RD (1983) Effect of soil pH on adsorption of lead, copper, zinc, and nickel. Soil Sci Soc Am J 47:47–51
Hindersmann I, Mansfeldt T (2014) Trace element solubility in a multimetal-contaminated soil as affected by redox conditions. Water Air Soil Poll 225. https://doi.org/10.1007/s11270-014-2158-8
Hirmas DR, Giménez D, Nemes A, Kerry R, Brunsell NA, Wilson CJ (2018) Climate-induced changes in continental-scale soil macroporosity may intensify water cycle. Nature 561:100–103
Holbach A, Bi Y, Yuan Y, Wang L, Zheng B, Norra S (2015) Environmental water body characteristics in a major tributary backwater of the unique and strongly seasonal Three Gorges Reservoir, China. Environ Sci-Proc Imp 17:1641–1653
Jacob DL, Yellick AH, La Toya TK, Asgary A, Wijeyaratne DN, Saini-Eidukat B (2013) Cadmium and associated metals in soils and sediments of wetlands across the Northern Plains, USA. Environ Poll 178:211–219
Karlsson T, Persson P, Skyllberg U (2005) Extended X-ray absorption fine structure spectroscopy evidence for the complexation of cadmium by reduced sulfur groups in natural organic matter. Environ Sci Technol 39:3048–3055
Kim YJ, Steenhuis TS, Nam K (2008) Movement of heavy metals in soil through preferential flow paths under different rainfall intensities. Clean–Soil, Air, Water 36:984–989
Kubier A, Wilkin RT, Pichler T (2019) Cadmium in soils and groundwater: a review. Appl Geochem 108:104388. https://doi.org/10.1016/j.apgeochem.2019.104388
Li W, Zhang S, Jiang W, Shan XQ (2006) Effect of phosphate on the adsorption of Cu and Cd on natural hematite. Chemosphere 63:1235–1241
Lin J, Fu C, Zhang X, Xie K, Yu Z (2012) Heavy metal contamination in the water-level fluctuating zone of the Yangtze River within Wanzhou Section, China. Biol Trace Elem Res 145:268–272
Liu H, Xiong Z, Jiang X, Liu G, Liu W (2016) Heavy metal concentrations in riparian soils along the Han River, China: the importance of soil properties, topography and upland land use. Ecol Eng 97:545–552
Löv Å, Cornelis G, Larsbo M, Persson I, Sjöstedt C, Gustafsson JP (2018) Particle- and colloid-facilitated Pb transport in four historically contaminated soils—speciation and effect of irrigation intensity. Appl Geochem 96:327–338
Ma L, Xu R, Jiang J (2010) Adsorption and desorption of Cu (II) and Pb (II) in paddy soils cultivated for various years in the subtropical China. J Environ Sci 22:689–695
Nilsson C, Reidy CA, Dynesius M, Revenga C (2005) Fragmentation and flow regulation of the world's large river systems. Science 308:405–408
Pei S, Jian Z, Guo Q, Ma F, Qin A, Zhao Y (2018) Temporal and spatial variation and risk assessment of soil heavy metal concentrations for water-level-fluctuating zones of the Three Gorges Reservoir. J Soil Sediment 18:2924–2934
Qiu S, Bing H, Zhong Z, Wu Y (2020) Altitudinal-modulated sediment inputs rather than the land-uses determine the distribution of lead in the riparian soils of the Three Gorges Reservoir. Environ Geochem Hlth. https://doi.org/10.1007/s10653-020-00579-2
Sang C, Zheng Y, Zhou Q, Li D, Liang G, Gao Y (2019) Effects of water impoundment and water-level manipulation on the bioaccumulation pattern, trophic transfer and health risk of heavy metals in the food web of Three Gorges Reservoir (China). Chemosphere 232:403–414
Sipos P, Németh T, Kis VK, Mohai I (2009) Association of individual soil mineral constituents and heavy metals as studied by sorption experiments and analytical electron microscopy analysis. J Hazard Mater 168:1512–1520
Song JY, Duan XW, Han X, Li YW, Li YX, He DM (2019) The accumulation and redistribution of heavy metals in the water-level fluctuation zone of the Nuozhadu Reservoir, Upper Mekong. Catena 172:335–344
Sukreeyapongse O, Holm PE, Strobel BW, Panichsakpatana S, Magid J, Hansen HCB (2002) pH-dependent release of cadmium, copper, and lead from natural and sludge-amended soils. J Environ Quality 31:1901–1909
Tang Q, Bao Y, He X, Zhou H, Cao Z, Gao P (2014) Sedimentation and associated trace metal enrichment in the riparian zone of the Three Gorges Reservoir, China. Sci Total Environ 479:258–266
Tang Q, Bao Y, He X, Wen A (2015) Heavy metal enrichment in the riparian sediments and soils of the Three Gorges Reservoir, China. P. Int Assoc Hydrolog Sci 367:244–250
Tchounwou PB, Yedjou CG, Patlolla AK, Sutton DJ (2012) Heavy metal toxicity and the environment. Experientia Supplementum 101:133–164
Tessier A, Campbell PGC, Bisson M (1979) Sequential extraction procedure for the speciation of particulate trace metals. Anal Chem 51:844–851
Uddin MK (2017) A review on the adsorption of heavy metals by clay minerals, with special focus on the past decade. Chem Eng J 308:438–462
Ulrich AE (2019) Cadmium governance in Europe’s phosphate fertilizers: not so fast? Sci Total Environ 650:541–545
Wang T, Pan J, Liu X (2017a) Characterization of heavy metal contamination in the soil and sediment of the Three Gorges Reservoir, China. J Environ Sci Heal A 52:201–209
Wang YY, Wen AB, Guo J, Shi ZL, Yan DC (2017b) Spatial distribution, sources and ecological risk assessment of heavy metals in Shenjia River watershed of the Three Gorges Reservoir Area. J MT Sci 14:325–335
Wen J, Li Z, Luo N, Huang M, Ding X, Bu X (2019) Binding characteristics of cadmium and zinc onto soil organic matter in different water managements and rhizosphere environments. Ecotox Environ Safe 184:109633. https://doi.org/10.1016/j.ecoenv.2019.109633
Xu Y, Tang H, Liu T, Li Y, Huang X, Pi J (2018) Effects of long-term fertilization practices on heavy metal cadmium accumulation in the surface soil and rice plants of double-cropping rice system in Southern China. Environ Sci Pollu R 25:19836–19844
Ye C, Li S, Zhang Y, Zhang Q (2011) Assessing soil heavy metal pollution in the water-level-fluctuation zone of the Three Gorges Reservoir, China. J Hazard Mater 191:366–372
Ye C, Zhang K, Deng Q, Zhang Q (2013) Plant communities in relation to flooding and soil characteristics in the water level fluctuation zone of the Three Gorges Reservoir, China. Environ Sci Pollu R 20:1794–1802
Ye C, Butler OM, Du M, Liu W, Zhang Q (2019a) Spatio-temporal dynamics, drivers and potential sources of heavy metal pollution in riparian soils along a 600 kilometre stream gradient in Central China. Sci Total Environ 651:1935–1945
Ye F, Ma MH, Wu SJ, Jiang Y, Zhu GB, Zhang H (2019b) Soil properties and distribution in the riparian zone: the effects of fluctuations in water and anthropogenic disturbances. Eur J of Soil Sci 70:664–673
Zhang YM, Liu H, Wei SQ, Jiang T, Liu LQ, Qian L (2011) Investigation and assessment of heavy metal pollution from various vertical heights in water flooding fluctuation zone of Three Gorges Reservoir areas. Chin Agr Sci Bull 27:317–322 (in Chinese with an English abstract)
Zhang W, Tang XY, Xian QS, Weisbrod N, Yang JE, Wang HL (2016) A field study of colloid transport in surface and subsurface flows. J Hydrol 542:101–114
Zhang A, Cornwell W, Li Z, Xiong G, Yang D, Xie Z (2019) Dam effect on soil nutrients and potentially toxic metals in a reservoir riparian zone. Clean–Soil, Air, Water 47:1700497Zhang A, Cornwell W, Li Z, Xiong G, Yang D, Xie Z (2019) Dam effect on soil nutrients and potentially toxic metals in a reservoir riparian zone. Clean–Soil, Air, Water 47:1700497. https://doi.org/10.1002/clen.201700497
Acknowledgments
This work was supported by the National Natural Science Foundation of China (Grant No. 41601539), Major Science and Technology Program of Sichuan Province (2018SZDZX0029), the 135 Strategic Program of the CAS Institute of Mountain Hazards and Environment (Grant No. SDS-135-1702), and the Research Foundation for Talented Scholars of Chongqing Technology and Business University (2016-56-06).
Author information
Authors and Affiliations
Corresponding author
Ethics declarations
Conflict of interest
The authors declare that they have no competing interests. No human participants and/or animals were involved in this study.
Additional information
Responsible editor: Claudio Bini
Publisher’s note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.
Supplementary Information
ESM 1
(DOC 434 kb)
Rights and permissions
About this article
Cite this article
Zhang, W., Sun, H., Liang, Y. et al. Reservoir operation-induced hydrodynamic disturbances affect the distributions of Cd, Cu, and Pb in the riparian soil of the water-level-fluctuation zone. J Soils Sediments 21, 2343–2356 (2021). https://doi.org/10.1007/s11368-021-02927-w
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11368-021-02927-w