Metal Release from Contaminated Estuarine Sediment Under pH Changes in the Marine Environment

Martín-Torre, M. Camino; Payán, M. Cruz; Verbinnen, Bram; Coz, Alberto; Ruiz, G.; Vandecasteele, Carlo; Viguri, Javier R.

doi:10.1007/s00244-015-0133-z

Cited by 18 publications

(6 citation statements)

References 60 publications

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“…The low alkaline and acidic neutralization capacity observed for the sludge deposits sample studied here was attributed to their high organic content (62.0 %, Table 1). Similar observations were reported by other authors for organic sediments or soil (Fang et al, 2016;Martin-Torre et al, 2015).…”

Section: Sludge Deposits Buffering Capacitysupporting

confidence: 93%

Leaching behavior of major and trace elements from sludge deposits of a French vertical flow constructed wetland

Kania

Gautier

Blanc

et al. 2019

Science of The Total Environment

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Surface sludge deposits were collected from a French Vertical Flow Constructed Wetland (French VFCW) sewage treatment plant. The objectives were to characterize the retention of major elements and trace metals within the sludge deposits particles under regular operating conditions, and the influence of extreme pH conditions on their potential release which may occur in situations when the plant malfunctions or after land application of the dredged sludge. A sequential extraction protocol was first used to assess the distribution of the elements within the sludge deposits. Results showed that most of Cu and Pb were associated to organic matter within the oxidizable fraction. Zn, Ni and Cd were distributed in several fractions, notably bound to Fe-Mn oxides and associated to organic matter. Cr was analyzed mostly in the residual fraction. Aliquot fractions of sludge deposits were also submitted to Acid and Base Neutralization Capacity tests (ANC-BNC) where the samples were suspended into acidic or alkaline aqueous solutions, and the solutions analyzed after 48 h contact time. Results showed a pH-dependent leaching profile for all monitored elements. The role of organic matter was observed for almost all metals. It was particularly dominant for Cu which was leached more extensively under alkaline than acidic conditions. Since Cu is not an amphoteric element, this leaching pattern was attributed to the leaching of organic matter which followed a similar pH-dependent profile than Cu. Spectrometric indices were used to characterize soluble organic compounds. Results showed that complex and humified dissolved organic compounds were mostly released under alkaline conditions.

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Section: Sludge Deposits Buffering Capacitysupporting

confidence: 93%

Leaching behavior of major and trace elements from sludge deposits of a French vertical flow constructed wetland

Kania

Gautier

Blanc

et al. 2019

Science of The Total Environment

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“…Increased TOC concentrations during flood periods was also observed in studies conducted for other rivers located in tropical forests, as well as in temperate regions and more northerly latitudes. [23][24][25] In these studies, alongside increased dissolved organic carbon (DOC) concentrations, higher concentrations were observed for lignin (Σ8), indicating that a direct relationship exists with the hydrological cycle. Indeed, during periods of flood, organic material leached from the surface layers of the soil due to the decomposition of leaf litter is incorporated.…”

Section: Surface Water Samples: Characterization and Seasonalitymentioning

confidence: 76%

“…More than 80% of the Pb concentration identified was in particulate form, which may be related to pH because Pb ions tend to form precipitates at pH 5-9. 25 In the rainy season, the concentrations were all lower than the quantification limit of the method employed (< 5.66 μg L -1 ) due to the high volume of the water. This finding reinforces the fact that the source of this element is punctual pertinent to the localities in question.…”

Section: Surface Water Samples: Characterization and Seasonalitymentioning

confidence: 91%

Distribution of Metals in the Waters and Sediments of Rivers in Central Amazon Region, Brazil

Constantino¹,

Teodoro²,

Moreira³

et al. 2019

J. Braz. Chem. Soc.

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Seasonal concentrations of total, particulate and dissolved Al, Cu, Cd, Cr, Fe, Pb and Ni were analyzed in surface water and total metals in sediment samples from black and whitewater rivers within the Itacoatiara City, Central Amazon. Metals concentrations in water and sediment samples demonstrated that even though urbanization and agricultural practices are common in this region. Metal concentrations in sediments samples are acceptable regarding the recommended levels for protection of aquatic life. From this work, which is the first trace elements study in the main tributaries from Itacoatiara region, we conclude that metals are present in a particulate form, being easier to be transported to other aquatic bodies. During flooding periods an increase of Al, Fe and total organic compound (TOC) in almost water sampling points was observed.

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“…Diluted nitric or hydrochloric acid has been widely used to desorb Pb from the particles in precipitation. We believe that the leaching method could overestimate the atmospheric depositional flux of seawaterdissolvable Pb since the much lower pH in this process than the actual pH of seawater can affect the solubility of Pb (Chester et al, 2000;Martín-Torre et al, 2015). Our results suggest that the application of 210 Pb provides a useful tool to estimate the flux of actual seawater-dissolvable Pb in the ocean.…”

Section: Atmospheric Input Of Seawater-dissolvable Pbmentioning

confidence: 89%

Tracing the Atmospheric Input of Seawater-Dissolvable Pb Based on the Budget of 210Pb in the East Sea (Japan Sea)

Seo

Kim

et al. 2021

Front. Mar. Sci.

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In order to determine the atmospheric input of 210Pb and seawater-dissolvable Pb in the East Sea (Japan Sea), we measured the concentrations of total 210Pb and dissolved Pb (<0.2 μm) in seawater and 210Pb and 226Ra in sinking particles. The East Sea is deep (∼3700 m) and enclosed by surrounding continents except for the shallow sills (<150 m). Since the East Sea is located off the East Asian continent under the westerlies, the concentrations of 210Pb and dissolved Pb in this sea are significantly affected by terrestrial sources through the atmosphere. The vertical profiles of total 210Pb and dissolved Pb generally showed a surface maximum and then decreased with depth. The concentrations of dissolved Pb in the surface water were 2 and 3 times higher than those in the North Pacific and North Atlantic Oceans, respectively. Using an independent box model (upper 1000 m or 2000 m), we estimate the atmospheric input of 210Pb to be 1.46 ± 0.25 dpm cm−2 y −1, which is within the range of published results from the land-based sites (0.44–4.40 dpm cm−2 y −1) in South Korea, China, and Japan. Based on this flux, the residence time of total 210Pb in the East Sea is calculated to be approximately 7.1 ± 1.6 years, which is twice lower than the previous estimation. Combining the residence time of 210Pb and the inventory of dissolved Pb, the atmospheric input of seawater-dissolvable Pb is estimated to be 0.98 ± 0.28 nmol cm−2 y −1. This flux is approximately 25% of the Pb flux through the wet deposition (acid-leachable fraction). Thus, our results suggest that the flux and fate of atmospheric Pb in the ocean can be successfully determined using an accurate mass balance model of naturally occurring 210Pb.

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Metal Release from Contaminated Estuarine Sediment Under pH Changes in the Marine Environment

Cited by 18 publications

References 60 publications

Leaching behavior of major and trace elements from sludge deposits of a French vertical flow constructed wetland

Leaching behavior of major and trace elements from sludge deposits of a French vertical flow constructed wetland

Distribution of Metals in the Waters and Sediments of Rivers in Central Amazon Region, Brazil

Tracing the Atmospheric Input of Seawater-Dissolvable Pb Based on the Budget of 210Pb in the East Sea (Japan Sea)

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