Tracing Water Sources and Fluxes in a Dynamic Tropical Environment: From Observations to Modeling

Sánchez‐Murillo, Ricardo; Esquivel‐Hernández, Germain; Birkel, Christian; Correa, Alicia; Welsh, Kristen; Durán-Quesada, Ana María; Sánchez-Gutiérrez, Rolando; Poca, María

doi:10.3389/feart.2020.571477

Cited by 18 publications

(32 citation statements)

References 212 publications

(236 reference statements)

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“…1 B). Purified, Spring, and Not Specified bottled waters exhibited depleted δ 18 O values, confirming the strong bias and industry preference towards Pacific-type water sources [9] . Deuterium excess values ranged from + 4.2‰ up to + 17.0‰, with a mean value of + 11.0‰, which are in the range of rainfall across Costa Rica [7] , [8] , [9] , [10] , [11] .…”

Section: Data Descriptionmentioning

confidence: 67%

“…Overall, all samples exhibited a strong meteoric origin [7 , 8] . Based on available isoscapes of Costa Rica and recent monitoring efforts [7] , [8] , [9] , only 4 bottled waters were in the range of typically enriched Caribbean-type water -2‰ to -4‰ in δ 18 O; Fig 1 A), while 41 samples revealed Pacific-type δ 18 O compositions (ranging from -6 up to -11‰; Fig. 1 B).…”

Section: Data Descriptionmentioning

confidence: 99%

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Isotopic composition and major ion concentrations of national and international bottled waters in Costa Rica

et al. 2021

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Global bottled water consumption has largely increased (14.35 billion gallons in 2020) [1] , [2] , [3] , [4] , [5] during the last decade since consumers are demanding healthier and safer forms of rehydration. Bottled water sources are normally labeled as mountainous and pristine mineral springs (fed by rainfall and snow/glacier melting processes), deep groundwater wells or industrial purified water. The advent of numerous international and national-based bottled water brands has simultaneously raised a worldwide awareness related to the water source and chemical content traceability [6] . Here, we present the first database of stable isotope compositions and reported chemical concentrations from imported and national-based bottled waters in Costa Rica. In total, 45 bottled waters produced in Costa Rica and 31 imported from USA, Europe, Oceania, and other countries of Central America were analyzed for δ 18 O, δ 2 H, and d -excess. Chemical compositions were obtained from available bottle labels. National-based bottle waters ranged from -2.47‰ to -10.65‰ in δ 18 O and from -10.4‰ to -78.0‰ in δ 2 H, while d -excess varied from +4.2‰ up to +17.0‰. International bottle waters ranged between -2.21‰ and -11.03‰ in δ 18 O and from -11.3‰ up to -76.0‰ in δ 2 H, while d -excess varied from +5.0‰ up to +19.1‰. In Costa Rica, only 19% of the brands reported chemical parameters such as Na + , K + , Ca +2 , Mg +2 , F − , Cl − , NO 3 − , SO 4 −2 , CO 3 −2 , SiO 2 , dry residue, and pH; whereas 27% of the international products reported similar parameters. The absence of specific geographic coordinates or water source origin limited a spatial analysis to validate bottled water isotope compositions versus available isoscapes in Costa Rica [7] . This database highlights the potential and relevance of the use of water stable isotope compositions to improve the traceability of bottled water sources and the urgent need of more robust legislation in order to provide detailed information (i.e., water source, chemical composition, purification processes) to the final consumers.

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Section: Data Descriptionmentioning

confidence: 67%

Section: Data Descriptionmentioning

confidence: 99%

Isotopic composition and major ion concentrations of national and international bottled waters in Costa Rica

et al. 2021

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“…The unique geographic location of Costa Rica within this mountainous region, with moisture inputs from the Caribbean Sea (windward) and the Pacific Ocean (complex leeward topography), offers an ideal scenario for the use water stable isotopes to develop hydrological research (S anchez -Murillo, Esquivel-Hern andez, Birkel, et al, 2020b). The first isotopic characterization of the surface water system of CHRS indicated that the evaporation conditions in the glacial lakes are highly influenced by input from precipitation that is in isotopic equilibrium with local water vapour, yielding low evaporation to inflow ratios (<20%, Esquivel-Hern andez et al, 2018).…”

Section: Research Findings and Applicationsmentioning

confidence: 99%

Chirripó hydrological research site: Advancing stable isotope hydrology in the Central American Páramo

Esquivel‐Hernández

Sánchez‐Murillo

Vargas-Salazar

2021

Hydrological Processes

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The Chirrip o hydrological research site (CHRS) is located within the Chirrip o National Park, Costa Rica (between 3100 and 3820 m asl) whereby $100 km 2 are covered by P aramo, a high-elevation tropical grassland ecosystem. A lake district with approximately 30 lakes of glacial origin is also protected in this area. The CHRS has been monitored since April 2015 with the aim of establishing the first water isotope baseline for the Central American P aramo. At a regional scale, the water isotope ratios (δ 2 H and δ 18 O) in precipitation and surface water at CHRS are useful for describing the governing moisture transport from the Caribbean Sea and Pacific Ocean and the complex rainfall producing systems across the N-S mountain range of Central America. These data are also providing unique information about the evaporation and water balance conditions of tropical glacial lakes and the formation of orographic and convective precipitation in high-elevation tropical ecosystems. Current data sets from CHRS include continuous lake water temperature and meteorological conditions (i.e., precipitation amount, air temperature and relative humidity), as well as water stable isotopes in precipitation, stream water, and lake water (daily to biweekly sampling frequency). Stream water is collected at several locations across the topographic gradient whereas lake water is sampled in the three main lake systems of CHRS. CHRS serves as a reference site for conducting pilot isotopic research in highelevation ecosystems to advance the atmospheric, hydrogeological and ecohydrological studies in these understudied biomes. All data from April 2015 to November 2020 are publicly available.

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“…The Central American region is transected by a NW-SE mountain range that divides the region into the Caribbean and Pacific slopes with similar precipitation regimes (Sanchez-Murillo et al, 2020a). The unique geographic location of Costa Rica within this mountainous region, with moisture inputs from the Caribbean Sea (windward) and the Pacific Ocean (complex leeward topography), offers an ideal scenario for the use water stable isotopes to develop hydrological research (Sanchez-Murillo et al, 2020b).…”

Section: Research Findings and Applicationsmentioning

confidence: 99%

Chirripó Hydrological Research Site: advancing stable isotope hydrology in the Central American Páramo

Esquivel‐Hernández

Sánchez‐Murillo

Vargas-Salazar³

2021

Preprint

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Tracing Water Sources and Fluxes in a Dynamic Tropical Environment: From Observations to Modeling

Cited by 18 publications

References 212 publications

Isotopic composition and major ion concentrations of national and international bottled waters in Costa Rica

Isotopic composition and major ion concentrations of national and international bottled waters in Costa Rica

Chirripó hydrological research site: Advancing stable isotope hydrology in the Central American Páramo

Chirripó Hydrological Research Site: advancing stable isotope hydrology in the Central American Páramo

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