Isotopes of nitrate and gadolinium fingerprints to assay human inputs in Guarani Aquifer System

Camila M C Leite; Jaqueline V Coutinho; Alice K M Morita; Natália S Pelinson; Mitsuyo Saito; Jacinta Enzweiler; Edson Wendland

doi:10.1007/s10661-022-10869-0

Isotopes of nitrate and gadolinium fingerprints to assay human inputs in Guarani Aquifer System

Environ Monit Assess. 2023 Jan 26;195(2):329. doi: 10.1007/s10661-022-10869-0.

Authors

Camila M C Leite¹, Jaqueline V Coutinho^{2

3}, Alice K M Morita^{2

4}, Natália S Pelinson^{2

5}, Mitsuyo Saito⁶, Jacinta Enzweiler⁷, Edson Wendland²

Affiliations

¹ São Carlos School of Engineering (EESC-USP), University of Sao Paulo (Universidade de São Paulo), São Carlos, Brazil. camilamcleite@gmail.com.
² São Carlos School of Engineering (EESC-USP), University of Sao Paulo (Universidade de São Paulo), São Carlos, Brazil.
³ Federal University of Cariri, Juazeiro do Norte, Brazil.
⁴ Technological University of Uruguay (UTEC), ITR CS, Durazno, Uruguay.
⁵ Faculty of Engineering, Architecture and Urbanism and Geography (FAENG), Federal University of Mato Grosso do Sul (UFMS), Campo Grande, Brazil.
⁶ Graduate School of Advanced Science and Engineering, Hiroshima University, Hiroshima, Japan.
⁷ Institute of Geosciences, University of Campinas (Unicamp), Campinas, Brazil.

PMID: 36697880
DOI: 10.1007/s10661-022-10869-0

Abstract

The use of environmental tracers brings comprehensive benefits to the management of water resources since it helps to prevent their pollution, minimize public health risks, and thus reduce the impact of urbanization. In Brazil, the Guarani Aquifer System (GAS) has strategic and environmental importance, making its preservation and sustainable exploitation mandatory. The present study aimed at evaluating sources of contamination in the GAS using the combination of geochemical data and two environmental tracers: nitrate isotopes (¹⁵N_NO3 and ¹⁸O_NO3) and one rare earth element (Gadolinium-Gd). For that, five wells-four exploiting the GAS and one the Bauru Aquifer System (BAS)-were selected to discuss the human inputs in groundwater used for public supply in an urban area. Traditional physicochemical analyses were conducted for six campaign samplings and nitrate monitoring for this period was evaluated on a time scale, also considering the accumulated rainfall. Besides that, the double isotopic method (DIM), e.g., δ¹⁸O_NO3 e δ¹⁵N_NO3, was applied to identify the fractionation and enable the distinction of the nitrate contamination source. In addition, the determination of anomalies of Gd, a wastewater-derived contaminant, was also performed to verify recent human inputs in groundwater. The results show that the local existence of nitrate in the GAS and BAS-even at low concentrations (values from 0.26 to 6.68 mg L^-1)-originated from anthropogenic inputs (septic waste), as indicates the typical isotopic signals ratio in the isotopic approach. Associated with that, the evaluation of Gd permitted the separation of groundwater samples into older or more recent leakages. The use of environmental tracers to assess anthropogenic inputs in groundwater reiterates the importance of adopting more effective protection strategies for water resources management systems, in order to prevent contamination.

Keywords: Environmental tracers; Isotopes; Rare earth elements; Wastewater-contaminated groundwater.

MeSH terms

Environmental Monitoring / methods
Gadolinium / analysis
Groundwater* / analysis
Humans
Isotopes / analysis
Nitrates / analysis
Nitrogen Isotopes / analysis
Water Pollutants, Chemical* / analysis

Substances

Nitrates
Gadolinium
Water Pollutants, Chemical
Isotopes
Nitrogen Isotopes

Abstract

MeSH terms

Substances

Grants and funding