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W2054208453 abstract "Abstract This study reports changes in coal-mine drainage constituent concentrations through a passive treatment wetland and over diel cycles. The purpose of the study was to determine what physiochemical mechanisms control attenuation of metals and if they varied by location and through time. The source water was slightly acidic (average pH 5.43); downstream degassing of CO2 contributed to an increase in pH prior to discharge from the site (average pH 7.05). Aluminum, Fe, rare earth elements (REE) and Y were removed to a greater extent than were Mn, Co and Ni. At acidic pH, the REE and Y were generally complexed by SO4. At higher pH, carbonate complexes became more important. The REE and Y concentrations were normalized to the North American Shale Composite standard; the normalized patterns were coherent near the source but anomalies of Ce and Y were present further downstream indicating oxidation and sorption processes. Four sets of diel-based samples were collected, one from a shallow, surface-flow wetland and three from a deeper, newly constructed wetland. Well-defined diel cycles were observed for concentrations of Si, Mn, Fe, Co, Ni, As, REE and Y in the shallow wetland. In all cases, the concentrations increased (up to 863%) during night and decreased during the day. These cycles had an inverse relationship with the temperature cycle (pH had no discernable cycle). The consistency of concentration cycles suggests a common mechanism, most likely associated with the formation of Fe oxyhydroxides. The increased rate of Fe2+ oxidation in warm water can account for the cycles in Fe; scavenging of the other elements by the Fe precipitate can account for the consistency of the cycles even though the elements include cations, anions ( H 2 AsO 4 - or HAsO 4 - 2 ), and neutral species ( H 4 SiO 4 0 ). While REE and Y had clear cycles in the constructed wetland, the other elements did not. This is partially due to the lower elemental concentrations (including Fe) but the cycles may also be damped by the deeper, slower-moving water. This study illustrates the dynamic nature of metal removal in passive treatment systems. Furthermore, it suggests that grab samples collected during daytime hours may underestimate the concentrations and flux of metals in these systems." @default.
W2054208453 created "2016-06-24" @default.
W2054208453 creator A5033684080 @default.
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W2054208453 date "2010-06-01" @default.
W2054208453 modified "2023-10-01" @default.
W2054208453 title "Attenuation and diel cycling of coal-mine drainage constituents in a passive treatment wetland: A case study from Lambert Run, West Virginia, USA" @default.
W2054208453 cites W1480161294 @default.
W2054208453 cites W1499617875 @default.
W2054208453 cites W1558506703 @default.
W2054208453 cites W1559827623 @default.
W2054208453 cites W15777726 @default.
W2054208453 cites W1675281636 @default.
W2054208453 cites W1856219842 @default.
W2054208453 cites W1964797065 @default.
W2054208453 cites W1967924727 @default.
W2054208453 cites W1971545042 @default.
W2054208453 cites W1973109332 @default.
W2054208453 cites W1976598272 @default.
W2054208453 cites W1982403158 @default.
W2054208453 cites W1984631611 @default.
W2054208453 cites W1986829858 @default.
W2054208453 cites W1989050946 @default.
W2054208453 cites W1994014058 @default.
W2054208453 cites W1994890184 @default.
W2054208453 cites W1994930702 @default.
W2054208453 cites W1999609918 @default.
W2054208453 cites W2007305840 @default.
W2054208453 cites W2007315252 @default.
W2054208453 cites W2009230151 @default.
W2054208453 cites W2010519139 @default.
W2054208453 cites W2011367341 @default.
W2054208453 cites W2024143550 @default.
W2054208453 cites W2028346556 @default.
W2054208453 cites W2028686619 @default.
W2054208453 cites W2032136888 @default.
W2054208453 cites W2041216131 @default.
W2054208453 cites W2042995369 @default.
W2054208453 cites W2044809096 @default.
W2054208453 cites W2047859402 @default.
W2054208453 cites W2052496215 @default.
W2054208453 cites W2059094469 @default.
W2054208453 cites W2060051055 @default.
W2054208453 cites W2067134437 @default.
W2054208453 cites W2071172756 @default.
W2054208453 cites W2073931305 @default.
W2054208453 cites W2074227494 @default.
W2054208453 cites W2074751239 @default.
W2054208453 cites W2077438177 @default.
W2054208453 cites W2080104972 @default.
W2054208453 cites W2082972472 @default.
W2054208453 cites W2094677922 @default.
W2054208453 cites W2121536019 @default.
W2054208453 cites W2127882684 @default.
W2054208453 cites W2132046873 @default.
W2054208453 cites W2170788620 @default.
W2054208453 cites W2401248416 @default.
W2054208453 cites W2477723294 @default.
W2054208453 cites W270411322 @default.
W2054208453 cites W2802710908 @default.
W2054208453 cites W328885748 @default.
W2054208453 cites W51113138 @default.
W2054208453 cites W580695631 @default.
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W2054208453 doi "https://doi.org/10.1016/j.apgeochem.2010.02.010" @default.
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