Sensitivity of source sediment fingerprinting to tracer selection methods

Chalaux-Clergue, Thomas; Bizeul, Rémi; Batista, Pedro V. G.; Martínez-Carreras, Núria; Laceby, J. Patrick; Evrard, Olivier

doi:10.5194/soil-10-109-2024

SOIL

2024

DOI: 10.5194/soil-10-109-2024

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Sensitivity of source sediment fingerprinting to tracer selection methods

Thomas Chalaux-Clergue,

Rémi Bizeul,

Pedro V. G. Batista

et al.

Abstract: Abstract. In a context of accelerated soil erosion and sediment supply to water bodies, sediment fingerprinting techniques have received an increasing interest in the last 2 decades. The selection of tracers is a particularly critical step for the subsequent accurate prediction of sediment source contributions. To select tracers, the most conventional approach is the three-step method, although, more recently, the consensus method has also been proposed as an alternative. The outputs of these two approaches we… Show more

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Cited by 4 publications

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Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

Bizeul,

Cerdan,

Pak

et al. 2024

J Soils Sediments

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Purpose Over the last 60 years, intensification of soil cultivation led to an acceleration of soil erosion and sediment delivery to river systems. In Martinique, this acceleration has led to the remobilization of a toxic insecticide (i.e. chlordecone) used in the 1970s-1990s to control banana weevil. A previous study attributed this accelerated remobilization to the application of glyphosate in plantations from the 1990s onwards. To further unambiguously confirm this link, the identification of soil erosion sources supplied to coastal sediment is essential. Methods Accordingly, sediment fingerprinting tools were adapted and applied to a coastal sediment core collected in the Galion Bay. Potential source samples (n=37) were collected across the drainage area. Along with the coastal sediment core layers, these samples were analysed for potential tracing properties. The optimal suite of tracers was then selected and introduced into an un-mixing model to quantify their contributions to coastal sediment. Results Results showed that subsoil (i.e. soil layer $$< 30$$ < 30 cm depth) and banana plantation soil surface supply the major sources of sediment (49-78% and 12-36%, respectively) to the Galion Bay and that their contributions increased since 2000, in line with chlordecone and glyphosate fluxes. Conclusion This evolution may be attributed to the higher sensitivity of banana plantations to erosion that may have been enhanced by the glyphosate application leaving the soil uncovered with vegetation and to the contamination of both topsoil and deep soil layers ($$< 30$$ < 30 cm) layers with chlordecone due to its vertical transfer along the soil profile and its redistribution across hillslopes.

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Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

Bizeul,

Cerdan,

Pak

et al. 2024

J Soils Sediments

View full text Add to dashboard Cite

show abstract

Quantification of the provenance contribution and sedimentary mixing effect of sediments in the Yellow River Basin, China

Li,

Qian,

Chen

et al. 2024

Science of The Total Environment

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Impacts of farmland decontamination on 137Cs transfers in rivers after Fukushima nuclear accident: Evidence from a retrospective sediment core study

Chalaux-Clergue,

Foucher,

Chaboche

et al. 2024

Science of The Total Environment

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Sensitivity of source sediment fingerprinting to tracer selection methods

Cited by 4 publications

References 115 publications

Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

Quantifying pesticide-contaminated sediment sources in tropical coastal environments (Galion Bay, French West Indies)

Quantification of the provenance contribution and sedimentary mixing effect of sediments in the Yellow River Basin, China

Impacts of farmland decontamination on 137Cs transfers in rivers after Fukushima nuclear accident: Evidence from a retrospective sediment core study

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