Cu Isotopic Composition in Surface Environments and in Biological Systems: A Critical Review

Wang, Zhuhong; Chen, Jiubin; Zhang, Ting

doi:10.3390/ijerph14050538

Cited by 20 publications

(17 citation statements)

References 108 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Variation of Cu isotopic composition (~ 1.05‰) was greater than Zn isotopic composition (~ 0.37‰) in this study. In case of Cu isotopes, there were large variations in low temperature environments (~ 5.86‰) and various natural materials (~ 36.53‰) (Wang et al 2017). Redox reaction, adsorption, complexation with organic matters/ minerals, and biological process can affect the Cu isotopic composition, and heavy Cu isotope was readily oxidized and preferentially released into solution (Rodríguez et al 2015;Lv et al 2016;Wang et al 2017).…”

Section: Cu Isotopic Compositions Of Different Rds Size Fractionsmentioning

confidence: 99%

“…In case of Cu isotopes, there were large variations in low temperature environments (~ 5.86‰) and various natural materials (~ 36.53‰) (Wang et al 2017). Redox reaction, adsorption, complexation with organic matters/ minerals, and biological process can affect the Cu isotopic composition, and heavy Cu isotope was readily oxidized and preferentially released into solution (Rodríguez et al 2015;Lv et al 2016;Wang et al 2017). The difference in the Cu isotopic composition (δ 65 Cu max -δ 65 Cu min ) was ~ 0.80‰ for 125-250 µm and ~ 0.16‰ for 63-125 µm particles, with the fine particles having a narrow range of isotopic variation among the sampling sites.…”

Section: Cu Isotopic Compositions Of Different Rds Size Fractionsmentioning

confidence: 99%

See 1 more Smart Citation

Multi-isotope signatures (Cu, Zn, Pb) of different particle sizes in road-deposited sediments: a case study from industrial area

Jeong

2021

J Anal Sci Technol

View full text Add to dashboard Cite

Road-deposited sediments (RDS) are major sources of heavy metal contamination in urban areas and adversely affect surrounding environments and human health. Multi-isotope combinations (Cu, Zn, and Pb), which serve as environmental tracers, enable the identification and management of metal contaminants in RDS. Here, we present Cu, Zn, and Pb isotopic data for the first time in size-fractionated RDS samples collected from industrial areas to describe the relationship between the RDS and total suspended solids (TSS) in runoff, and to explore the feasibility of using multi-isotopes to identify sources of metal contamination. RDS in the industrial study areas had high concentrations of Cu, Zn, and Pb, and their δ65CuAE647, δ66ZnIRMM3702, and 206Pb/207Pb values ranged from − 0.33 to + 0.73‰, − 0.36 to + 0.01‰, and 1.1418 to 1.1616, respectively. The variation in δ65CuAE647 (δ65Cumax-min) was larger than that of δ66ZnIRMM3702 (i.e., δ66Znmax-min), and the isotope values of Zn and Pb (206Pb/207Pb) tended to increase with the concentrations of these elements. Meanwhile, the fine RDS particles (< 63 µm) had similar Cu, Zn, and Pb isotopic compositions to those of TSS. Hierarchical cluster analyses revealed that the < 63 µm RDS fractions were associated with the TSS. Our results also showed that a combination of Pb and either Cu or Zn could be used to distinguish between RDS and non-exhaust emissions (e.g., brake pads, tires, etc.). Multi-isotope approaches utilizing Cu, Zn, and Pb and more robust isotopic data on individual sources of metal contamination could be useful for identifying pollution sources and understanding their environmental impacts.

show abstract

Section: Cu Isotopic Compositions Of Different Rds Size Fractionsmentioning

confidence: 99%

Section: Cu Isotopic Compositions Of Different Rds Size Fractionsmentioning

confidence: 99%

Multi-isotope signatures (Cu, Zn, Pb) of different particle sizes in road-deposited sediments: a case study from industrial area

Jeong

2021

J Anal Sci Technol

View full text Add to dashboard Cite

show abstract

“…17,[54][55][56][57][58][59][60] Overall, Cu (II) displays low coordination, and tends to favor heavy isotopes, in contrast to the reduced form Cu(I) with high coordination numbers which is enriched in the light isotope. 61,62 Ab initio calculations show that the heavy Cu isotope is preferentially bound to O-donor ligands, followed by N-and S-donor ligands. 6,55,63 By analogy to other organisms, particular isotope range for mussels and oysters can be related to species-specific physiological features on the fractionation of Cu isotopes at the cellular and tissue levels.…”

Section: Comparing Temporal Isotope Behavior Of Hyperaccumulator Oysters and Regulator Musselsmentioning

confidence: 99%

“…Some δ 65 CuSRM-976 values reported for anthropogenic materials in literature, such as cement (+0.30 to +0.61‰), 10 road dust (+0.08 to +0.25‰), 10 vehicular traffic (+0.46 to +0.59‰), 10 and antifouling paint (+0.54 ±0.03) 70 are characterized by isotope compositions that are heavier than natural average of the Upper Continental Crust (+0.07± 0.10‰), 71,72 than the uncontaminated sedimentary materials from estuaries (−0.04 ± 0.18‰) 73 , and rivers worldwide (−1.02 to +0.09‰). 62 Extending the current Cu isotope bank data for anthropogenic materials and additional investigations on the Cu isotope fractionation in post-depositional processes will help track Cu pollutant sources and bioaccumulation routes in bivalves.…”

Section: Comparing Temporal Isotope Behavior Of Hyperaccumulator Oysters and Regulator Musselsmentioning

confidence: 99%

Differences in Copper Isotope Fractionation Between Mussels (Regulators) and Oysters (Hyperaccumulators): Insights from a Ten-Year Biomonitoring Study

Araújo

Ponzevera

Briant

et al. 2020

Environ. Sci. Technol.

View full text Add to dashboard Cite

Copper (Cu) isotope compositions in bivalve mollusks used in marine-monitoring networks is a promising tool to monitor anthropogenic Cu contamination in coastal and marine ecosystems. To test this new biomonitoring tool, we investigated Cu isotope variations of two bivalves-the oyster Crassostrea gigas and the mussel Mytilus edulis-over 10 years (2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016)(2017)(2018) in a French coastal site contaminated by diffuse Cu anthropogenic sources. Each species displayed temporal concentration profiles consistent with their bioaccumulation mechanisms, that is, the Cu-regulating mussels with almost constant Cu concentrations and the Cu-hyperaccumulating oysters with variable concentrations that track Cu bioavailability trends at the sampling site. The temporal isotope profiles were analogous for both bivalve species, and an overall shift toward positive δ65Cu values with the increase of Cu bioavailabilities was associated with anthropogenic Cu inputs. Interestingly, mussels showed wider amplitudes in the isotope variations than oysters, suggesting that each species incorporates Cu isotopes in their tissues at different rates, depending on their bioaccumulation mechanisms and physiological features. This study is the first to demonstrate the potential of Cu isotopes in bivalves to infer Cu bioavailability changes related to anthropogenic inputs of this metal into the marine environment.Please note that this is an author-produced PDF of an article accepted for publication following peer review. The definitive publisher-authenticated version is available on the publisher Web site.

show abstract

“…Variability in Δ 33 S-Δ 36 S dynamics have been forwarded as novel proxies that are capable of resolving subtle changes in the chemical composition of the atmosphere (e.g., Claire et al, 2014;Endo et al, 2016). Of relevance here, the broad correlations between low Δ 36 S/Δ 33 S values and extremely negative organic carbon isotope values (𝛿 13 Corg), termed C-S anomalies, have formed the primary evidence for the development of PHEs during the Neoarchaean (Zerkle et al, 2012;Izon et al, 2015;2017).…”

Section: Introductionmentioning

confidence: 99%

A copper isotope investigation of methane cycling in Late Archaean sediments

Zavina-James

Zerkle

Steele

et al. 2021

Precambrian Research

View full text Add to dashboard Cite

Cu Isotopic Composition in Surface Environments and in Biological Systems: A Critical Review

Cited by 20 publications

References 108 publications

Multi-isotope signatures (Cu, Zn, Pb) of different particle sizes in road-deposited sediments: a case study from industrial area

Multi-isotope signatures (Cu, Zn, Pb) of different particle sizes in road-deposited sediments: a case study from industrial area

Differences in Copper Isotope Fractionation Between Mussels (Regulators) and Oysters (Hyperaccumulators): Insights from a Ten-Year Biomonitoring Study

A copper isotope investigation of methane cycling in Late Archaean sediments

Contact Info

Product

Resources

About