Geogenic lanthanoid signature in coastal and marine waters from the southern Gulf of California

Lanthanoids in the southern Gulf of California (GC) seawater are reported for the first time. Lanthanoids showed differences between peninsular and continental coastline, coastal or marine ecosystems, and dry or rainy season. The chondrite-normalized values showed high variability but followed a sam...

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Veröffentlicht in:	Marine pollution bulletin 2021-12, Vol.173 (Pt A), p.112942-112942, Article 112942
Hauptverfasser:	Martinez-Salcido, A.I., Morton-Bermea, O., Ochoa-Izaguirre, M.J., Soto-Jiménez, M.F.
Format:	Artikel
Sprache:	eng
Schlagworte:	Coastal waters Coasts Dry season Ecosystem Ecosystems Geogenic fingerprint Human activities Lanthanides Lanthanoid Series Elements Lithology Marine ecosystems Oxidation Perturbation Rain Rainy season Rare earth elements Scavenging Seasons Seawater Watersheds Wet season
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container_end_page	112942
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container_title	Marine pollution bulletin
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creator	Martinez-Salcido, A.I. Morton-Bermea, O. Ochoa-Izaguirre, M.J. Soto-Jiménez, M.F.
description	Lanthanoids in the southern Gulf of California (GC) seawater are reported for the first time. Lanthanoids showed differences between peninsular and continental coastline, coastal or marine ecosystems, and dry or rainy season. The chondrite-normalized values showed high variability but followed a same pattern. Light lanthanoids were more enriched than heavy ones. Values of ∑Ln and La/Lu were higher in continental than peninsular coastlines, coastal than adjacent marine ecosystems, and rainy than dry season. Differences were related to the lithology and perturbation degree of the ecosystem watersheds. The chondrite-normalized patterns are typical of geological origin. Slightly negative Ce anomaly was related to the low levels of oxygen in water for the oxidation of Ce (III) to Ce (IV) and its posterior scavenging. Negative δEu anomaly is explained by an influx of fluvial and eolian materials from the upper continental, while a positive Eu anomaly related to hydrothermal vent inputs was non-evidenced. [Display omitted] •Non-homogenous distribution of lanthanoid levels occurs in Gulf of California.•Chondrite-normalized lanthanoids have a well-defined pattern in seawaters.•The chondrite-normalized lanthanoid pattern is typical of geological origin.•The geogenic signature helps identify future anthropogenic inputs of lanthanoids.
doi_str_mv	10.1016/j.marpolbul.2021.112942
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Lanthanoids showed differences between peninsular and continental coastline, coastal or marine ecosystems, and dry or rainy season. The chondrite-normalized values showed high variability but followed a same pattern. Light lanthanoids were more enriched than heavy ones. Values of ∑Ln and La/Lu were higher in continental than peninsular coastlines, coastal than adjacent marine ecosystems, and rainy than dry season. Differences were related to the lithology and perturbation degree of the ecosystem watersheds. The chondrite-normalized patterns are typical of geological origin. Slightly negative Ce anomaly was related to the low levels of oxygen in water for the oxidation of Ce (III) to Ce (IV) and its posterior scavenging. Negative δEu anomaly is explained by an influx of fluvial and eolian materials from the upper continental, while a positive Eu anomaly related to hydrothermal vent inputs was non-evidenced. [Display omitted] •Non-homogenous distribution of lanthanoid levels occurs in Gulf of California.•Chondrite-normalized lanthanoids have a well-defined pattern in seawaters.•The chondrite-normalized lanthanoid pattern is typical of geological origin.•The geogenic signature helps identify future anthropogenic inputs of lanthanoids.</description><identifier>ISSN: 0025-326X</identifier><identifier>EISSN: 1879-3363</identifier><identifier>DOI: 10.1016/j.marpolbul.2021.112942</identifier><identifier>PMID: 34534936</identifier><language>eng</language><publisher>England: Elsevier Ltd</publisher><subject>Coastal waters ; Coasts ; Dry season ; Ecosystem ; Ecosystems ; Geogenic fingerprint ; Human activities ; Lanthanides ; Lanthanoid Series Elements ; Lithology ; Marine ecosystems ; Oxidation ; Perturbation ; Rain ; Rainy season ; Rare earth elements ; Scavenging ; Seasons ; Seawater ; Watersheds ; Wet season</subject><ispartof>Marine pollution bulletin, 2021-12, Vol.173 (Pt A), p.112942-112942, Article 112942</ispartof><rights>2021 Elsevier Ltd</rights><rights>Copyright © 2021 Elsevier Ltd. 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Lanthanoids showed differences between peninsular and continental coastline, coastal or marine ecosystems, and dry or rainy season. The chondrite-normalized values showed high variability but followed a same pattern. Light lanthanoids were more enriched than heavy ones. Values of ∑Ln and La/Lu were higher in continental than peninsular coastlines, coastal than adjacent marine ecosystems, and rainy than dry season. Differences were related to the lithology and perturbation degree of the ecosystem watersheds. The chondrite-normalized patterns are typical of geological origin. Slightly negative Ce anomaly was related to the low levels of oxygen in water for the oxidation of Ce (III) to Ce (IV) and its posterior scavenging. Negative δEu anomaly is explained by an influx of fluvial and eolian materials from the upper continental, while a positive Eu anomaly related to hydrothermal vent inputs was non-evidenced. 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subjects	Coastal waters Coasts Dry season Ecosystem Ecosystems Geogenic fingerprint Human activities Lanthanides Lanthanoid Series Elements Lithology Marine ecosystems Oxidation Perturbation Rain Rainy season Rare earth elements Scavenging Seasons Seawater Watersheds Wet season
title	Geogenic lanthanoid signature in coastal and marine waters from the southern Gulf of California
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