Abstract
Dissolved selenium in the Changjiang (Yangtze) Estuary and its adjacent waters was determined by hydride generation atomic fluorescence spectrometry to elucidate the source, behavior in estuary, adsorption-desorption process and biological role. In surface water, Se(IV) concentration ranged 0.05–1.14 nmol/L and Se(VI) concentration varied 0.01–1.20 nmol/L, with the means of 0.76 and 0.49 nmol/L, respectively. In bottom water, Se(IV) content varied 0.03–0.27 nmol/L and Se(VI) content ranged 0.04–0.85 nmol/L, with the averages of 0.10 and 0.40 nmol/L, respectively. High level of Se(IV) was observed near the shore with a significant decrease towards the open sea, suggesting the continental input from the adjacent rivers. Large value of Se(VI) was found in bottom water, reflecting the release from suspended sediment. Besides, high value appeared in the same latitude of the Changjiang Estuary and Hangzhou Bay illustrated the effect of lateral mixing and the long-distance transport of selenium. Se(VI), more soluble, occupied higher percentage in aqueous environment. The presence of Se(IV) resulted from the degradation of residue and the reduction of Se(VI) under anaerobic condition. The positive relationship to suspended particulate material (SPM) and negative correlation to depth indicated that Se(IV) tended to be released from the high density particulate matter. Instead, Se(VI) content did not significantly relate to SPM since it generally formed inner-sphere complex to iron hydroxide. Se(IV) content negatively varied to salinity and largely depended on the freshwater dilution and physical mixing. While, Se(VI) level deviated from the dilution line due to the in situ biogeochemical process such as removal via phytoplankton uptake and inputs via organic matter regeneration. As the essential element, Se(IV) was confirmed more bioavailable to phytoplankton growth than Se(VI), and moreover, seemed to be more related to phosphorus than to nitrogen.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
Reference
Abdel-Moati M A R. 1998. Speciation of selenium in a Nile Delta lagoon and SE Mediterranean sea mixing zone. Estuarine Coastal and Shelf Science, 46(5): 621–628
Abdullah M I, Shiyu Z, Mosgren K. 1995. Arsenic and selenium species in the oxic and anoxic waters of the Oslofjord, Norway. Marine Pollution Bulletin, 31(1–3): 116–126
Amelin V G, Koroleva O V. 2009. Fabrics and papers modified with analytical reagents for the test determination of selenium(IV) and tellurium(IV). Journal of Analytical Chemistry, 64(12): 1275–1278
An Qiang, Wu Yanqing, Wang Jinhui, et al. 2010. Assessment of dissolved heavy metal in the Yangtze River estuary and its adjacent sea, China. Environmental Monitoring and Assessment, 164(1–4): 173–187
Aono T, Nakaguchi Y, Hiraki K. 1991. Vertical profiles of dissolved selenium in the North Pacific. Geochemical Journal, 25(1): 45–55
Balistrieri L S, Chao T T. 1990. Adsorption of selenium by amorphous iron oxyhydroxide and manganese dioxide. Geochimica Et Cosmochimica Acta, 54(3): 739–751
Beardsley R C, Limeburner R, Yu H, et al. 1985. Discharge of the Changjiang (Yangtze River) into the East China Sea. Continental Shelf Research, 4(1–2): 57–76
Besser J M, Canfield T J, La Point T W. 1993. Bioaccumulation of organic and inorganic selenium in a laboratory food chain. Environmental Toxicology and Chemistry, 12(1): 57–72
Bidari A, Jahromi E Z, Assadi Y, et al. 2007. Monitoring of selenium in water samples using dispersive liquid-liquid microextraction followed by iridium-modified tube graphite furnace atomic absorption spectrometry. Microchemical Journal, 87(1): 6–12
Boisson F, Romeo M. 1996. Selenium in plankton from the northwestern Mediterranean Sea. Water Research, 30(11): 2593–2600
Bowie G L, Sanders J G, Riedel G F, et al. 1996. Assessing selenium cycling and accumulation in aquatic ecosystems. Water Air and Soil Pollution, 90(1–2): 93–104
Bruland K W. 1983. Trace Elements in Seawater. San Diego, CA: Academic Press, 157–220
Cabon J Y, Erler W. 1998. Determination of selenium species in seawater by flow injection hydride generation in situ trapping followed by electrothermal atomic absorption spectrometry. Analyst, 123(7): 1565–1569
Casiot C, Alonso M C B, Boisson J, et al. 1998. Simultaneous speciation of arsenic, selenium, antimony and tellurium species in FT waters and soil extracts by capillary electrophoresis and UV detection. Analyst, 123(12): 2887–2893
Chen C C, Gong G C, Shiah F K. 2007. Hypoxia in the East China Sea: One of the largest coastal low-oxygen areas in the world. Marine Environmental Research, 64(4): 399–408
Conde J E, Alaejos M S. 1997. Selenium concentrations in natural and environmental waters. Chemical Reviews, 97(6): 1979–2003
Cutter G A. 1982. Selenium in reducing waters. Science, 217(4562): 829–831
Cutter G A. 1983. Elimination of nitrite interference in the determination of selenium by hydride generation. Analytica Chimica Acta, 149(5): 391–394
Cutter G A. 1992. Kinetic controls on metalloid speciation in seawater. Marine Chemistry, 40(1–2): 65–80
Cutter G A, Church T M. 1986. Selenium in western Atlantic precipitation. Nature, 322(6081): 720–722
Cutter G A, Cutter L S. 1995. Behavior of dissolved antimony, arsenic, and selenium in the Atlantic Ocean. Marine Chemistry, 49(4): 295–306
Cutter G A, Cutter L S. 1998. Metalloids in the high latitude north Atlantic Ocean: Sources and internal cycling. Marine Chemistry, 61(1–2): 25–36
Cutter G A, Cutter L S. 2001. Sources and cycling of selenium in the western and equatorial Atlantic Ocean. Deep-Sea Research Part II-Topical Studies in Oceanography, 48(13): 2917–2931
Cutter G A, Cutter L S. 2004. Selenium biogeochemistry in the San Francisco Bay estuary: changes in water column behavior. Estuarine Coastal and Shelf Science, 61(3): 463–476
Daniels L A. 1996. Selenium metabolism and bioavailability. Biological Trace Element Research, 54(3): 185–199
Fan Haifeng, Wen Hanjie, Hu Ruizhong, et al. 2011. Selenium speciation in Lower Cambrian Se-enriched strata in South China and its geological implications. Geochimica Et Cosmochimica Acta, 75(23): 7725–7740
Fujita M, Ike M, Hashimoto R, et al. 2005. Characterizing kinetics of transport and transformation of selenium in water-sediment microcosm free from selenium contamination using a simple mathematical model. Chemosphere, 58(6): 705–714
Gao S, Tanji K K, Dahlgren R A, et al. 2007. Chemical status of selenium in evaporation basins for disposal of agricultural drainage. Chemosphere, 69(4): 585–594
Gao S, Tanji K K, Lin Z Q, et al. 2003. Selenium removal and mass balance in a constructed flow-through wetland system. Journal of Environmental Quality, 32(4): 1557–1570
Gates T K, Cody B M, Donnelly J P, et al. 2009. Assessing selenium contamination in the irrigated stream-aquifer system of the Arkansas River, Colorado. Journal of Environmental Quality, 38(6): 2344–2356
Guan Daoming, Martin J M. 1991. Selenium distribution in the Rhone delta and the Gulf of Lions. Marine Chemistry, 36(1–4): 303–316
Hamilton S J. 2004. Review of selenium toxicity in the aquatic food chain. Science of the Total Environment, 326(1–3): 1–31
Harada T, Takahashi Y. 2008. Origin of the difference in the distribution behavior of tellurium and selenium in a soil-water system. Geochimica Et Cosmochimica Acta, 72(5): 1281–1294
Hattori H, Nakaguchi Y, Kimura M, et al. 2001. Distributions of dissolved selenium species in the Eastern Indian Ocean. Bulletin of the Society of Sea Water Science, Japan, 55(3): 175–182
Huh C A, Chen H Y. 1999. History of lead pollution recorded in East China Sea sediments. Marine Pollution Bulletin, 38(7): 545–549
Hung J J, Shy C P. 1995. Speciation of dissolved selenium in the Kaoping and Erhjen rivers and estuaries, Southwestern Taiwan. Estuaries, 18(1B): 234–240
Ip C C M, Li X D, Zhang G, et al. 2007. Trace metal distribution in sediments of the Pearl River Estuary and the surrounding coastal area, South China. Environmental Pollution, 147(2): 311–323
Johnson C C, Fordyce F M, Rayman M P. 2010. Factors controlling the distribution of selenium in the environment and their impact on health and nutrition. Proceedings of the Nutrition Society, 69(1): 119–132
Lemly A D. 1999. Selenium transport and bioaccumulation in aquatic ecosystems: A proposal for water quality criteria based on hydrological units. Ecotoxicology and Environmental Safety, 42(2): 150–156
Lenz M, Lens P N L. 2009. The essential toxin: The changing perception of selenium in environmental sciences. Science of the Total Environment, 407(12): 3620–3633
Li Jiufa, Zhang Chen. 1998. Sediment resuspension and implications for turbidity maximum in the Changjiang Estuary. Marine Geology, 148(3–4): 117–124
Masscheleyn P H, Delaune R D, Patrick W H. 1991. Arsenic and selenium chemistry as affected by sediment redox potential and pH. Journal of Environmental Quality, 20(3): 522–527
Measures C I, Burton J D. 1980. The vertical distribution and oxidation states of dissolved selenium in the northeast Atlantic Ocean and their relationship to biological processes. Earth and Planetary Science Letters, 46(3): 385–396
Miller L L, Rasmussen J B, Palace V P, et al. 2009. Physiological stress response in white suckers from agricultural drain waters containing pesticides and selenium. Ecotoxicology and Environmental Safety, 72(4): 1249–1256
Milliman J D, Beardsley R C, Yang Z S, et al. 1985. Modern Huanghederived muds on the outer shelf of the East China Sea-identification and potential transport mechanisms. Continental Shelf Research, 4(1–2): 175–188
Müller B, Berg M, Yao Z P, et al. 2008. How polluted is the Yangtze River?. Water quality downstream from the Three Gorges Dam. Science of the Total Environment, 402(2–3): 232–247
Nakaguchi Y, Takei M, Hattori H, et al. 2004. Dissolved selenium species in the Sulu Sea, the South China Sea and the Celebes Sea. Geochemical Journal, 38(6): 571–580
Neal R H, Sposito G, Holtzclaw K M, et al. 1987. Selenite adsorption on alluvial soils: 1. Soil composition and pH effects. Soil Science Society of America Journal, 51(5): 1161–1165
Papoff P, Bocci F, Lanza F. 1998. Speciation of selenium in natural waters and snow by DPCSV at the hanging mercury drop electrode. Microchemical Journal, 59(1): 50–76
Pu Jiabin. 1990. The determination of selenium at ocean environmental sample. Marine Environmental Science (in Chinese), 9: 48–53
Rathgeber C, Yurkova N, Stackebrandt E, et al. 2002. Isolation of tellurite- and selenite-resistant bacteria from hydrothermal vents of the Juan de Fuca Ridge in the Pacific Ocean. Applied and Environmental Microbiology, 68(9): 4613–4622
Reunova Y A, Aizdaicher N A, Khristoforova N K, et al. 2007. Effects of selenium on growth and ultrastructure of the marine unicellular alga Dunaliella salina (Chlorophyta). Russian Journal of Marine Biology, 33(2): 125–132
Riedel G F, Sanders J G, Gilmour C C. 1996. Uptake, transformation, and impact of selenium in freshwater phytoplankton and bacterioplankton communities. Aquatic Microbial Ecology, 11(1): 43–51
Robberecht H, Vangrieken R. 1982. Selenium in environmental watersdetermination, speciation and concentration levels. Talanta, 29(10): 823–844
Song Jinming. 2009. Biogeochemical Processes of Biogenic Elements in China Marginal Seas. Hangzhou: Zhejiang University Press, 1–662
Sugimura Y, Suzuki Y, Miyake Y. 1976. The content of selenium and its chemical form in sea water. Journal of the Oceanographical Society of Japan, 32: 235–241
Takayanagi K, Cossa D. 1985. Speciation of dissolved selenium in the upper St. Lawrence Estuary. In: Sigleo A C, Hattori A A, eds. Marine and Estuarine Geochemistry. Michigan: Lewis Publishers, 275–284
Takayanagi K, Wong G T F. 1983. Organic and colloidal selenium in southern Chesapeake Bay and adjacent waters. Marine Chemistry, 14(2): 141–148
Takayanagi K, Wong G T F. 1984. Total selenium and selenium(IV) in the James River estuary and southern Chesapeake Bay. Estuarine Coastal and Shelf Science, 18(1): 113–119
Takayanagi K, Wong G T F. 1985. Dissolved inorganic and organic selenium in the Orca Basin. Geochimica Et Cosmochimica Acta, 49(2): 539–546
Takeda K, Fujiwara K. 1993. Determination of nitrate in natural waters with the photo-induced conversion of nitrate to nitrite. Analytica Chimica Acta, 276(1): 25–32
Telesh I V, Khlebovich V V. 2010. Principal processes within the estuarine salinity gradient: a review. Marine Pollution Bulletin, 61(4–6): 149–155
Templeton A S, Trainor T P, Spormann A M, et al. 2003. Selenium speciation and partitioning within Burkholderia cepacia biofilms formed on α-Al2O3 surfaces. Geochimica Et Cosmochimica Acta, 67(19): 3547–3557
Vickerman D B, Trumble J T, George G N, et al. 2004. Selenium biotransformations in an insect ecosystem: Effects of insects on phytoremediation. Environmental Science & Technology, 38(13): 3581–3586
Viñas P, Lopez-Garcia I, Merino-Merono B, et al. 2005. Ion chromatography-hydride generation-atomic fluorescence spectrometry speciation of tellurium. Applied Organometallic Chemistry, 19(8): 930–934
Vodyanitskii Y N. 2010. Status and behavior of natural and technogenic forms of As, Sb, Se, and Te in ore tailings and contaminated soils: A review. Eurasian Soil Science, 43(1): 30–38
Wen Hanjie, Carignan J. 2007. Reviews on atmospheric selenium: emissions, speciation and fate. Atmospheric Environment, 41(34): 7151–7165
Wilson N, Webster-Brown J. 2009. The fate of antimony in a major lowland river system, the Waikato River, New Zealand. Applied Geochemistry, 24(12): 2283–2292
Wong D, Oliveira L. 1991. Effects of selenite and selenate toxicity on the ultrastructure and physiology of three species of marine microalgae. Canadian Journal of Fisheries and Aquatic Sciences, 48(7): 1201–1211
Wrench J J, Measures C I. 1982. Temporvariations in dissolved selenium in a coastal ecosystem. Nature, 299(5882): 431–433
Wu Jianguo, Huang Jianhui, Han Xingguo, et al. 2004. The Three Gorges Dam: an ecological perspective. Frontiers in Ecology and the Environment, 2(5): 241–248
Wu Xiaodan, Song Jinming, Li Xuegang, et al. 2011. Behaviors of dissolved antimony in the Yangtze River Estuary and its adjacent waters. Journal of Environmental Monitoring, 13(8): 2292–2303
Yao Qingzhen, Zhang Jing. 2005. The behavior of dissolved inorganic selenium in the Bohai Sea. Estuarine Coastal and Shelf Science, 63(1–2): 333–347
Yao Qingzhen, Zhang Jing, Qin Xiaoguang, et al. 2006. The behavior of selenium and arsenic in the Zhujiang (Pearl River) Estuary, South China Sea. Estuarine Coastal and Shelf Science, 67(1–2): 170–180.
Yao Qingzhen, Zhang Jing, Wu Ying, et al. 2007. Hydrochemical processes controlling arsenic and selenium in the Changjiang River (Yangtze River) system. Science of the Total Environment, 377(1): 93–104
Yoon B M, Shim S C, Pyun H C, et al. 1990. Hydride generation atomic absorption determination of tellurium species in environmental samples with in situ concentration in a graphite furnace. Analytical Sciences, 6(4): 561–566
Yuan Chungang, Shi Jianbo, He Bin, et al. 2004. Speciation of heavy metals in marine sediments from the East China Sea by ICP-MS with sequential extraction. Environment International, 30(6): 769–783
Zawislanski P T, Benson S M, Terberg R, et al. 2003. Selenium speciation, solubility, and mobility in land-disposed dredged sediments. Environmental Science & Technology, 37(11): 2415–2420
Zhang Jing. 1995. Geochemistry of trace metals from Chinese river/estuary systems-an overview. Estuarine Coastal and Shelf Science, 41(6): 631–658
Zhang W, Yu L, Hutchinson S M, et al. 2001. China’s Yangtze Estuary: I. Geomorphic influence on heavy metal accumulation in intertidal sediments. Geomorphology, 41(2–3): 195–205
Zhang Y Q, Zahir Z A, Frankenberger W T. 2004. Fate of colloidal-particulate elemental selenium in aquatic systems. Journal of Environmental Quality, 33(2): 559–564
Author information
Authors and Affiliations
Corresponding author
Additional information
Foundation item: The National Natural Science Foundation of China for Creative Research Groups under contract No. 41121064; the Strategic Priority Research Program of the Chinese Academy of Sciences under contract No. XDA05030402; the National Basic Research Program of China (973 Program) under contract No. 2011CB403602; the National Natural Science Foundation of China under contract No. 41306055.
Rights and permissions
About this article
Cite this article
Wu, X., Song, J., Wu, B. et al. Geochemical processes controlling dissolved selenium in the Changjiang (Yangtze) Estuary and its adjacent waters. Acta Oceanol. Sin. 33, 19–29 (2014). https://doi.org/10.1007/s13131-014-0537-z
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s13131-014-0537-z