Are Elemental Salinity Proxies Worth Their Salt?

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Are Elemental Salinity Proxies Worth Their Salt?

Thomas J. Algeo , Wei Wei , Zhanhong Liu , Yi Song , Huyue Song

Journal of Earth Science ›› 2025, Vol. 36 ›› Issue (4) : 1848 -1852.

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Journal of Earth Science ›› 2025, Vol. 36 ›› Issue (4) : 1848 -1852. DOI: 10.1007/s12583-025-0197-2

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Are Elemental Salinity Proxies Worth Their Salt?

Thomas J. Algeo ¹^,²^,³^,⁴^,^a
, Wei Wei ¹^,²
, Zhanhong Liu ⁵
, Yi Song ⁶
, Huyue Song ¹

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Thomas J. Algeo, Wei Wei, Zhanhong Liu, Yi Song, Huyue Song. Are Elemental Salinity Proxies Worth Their Salt?. Journal of Earth Science, 2025, 36(4): 1848-1852 DOI:10.1007/s12583-025-0197-2

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References

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[1]	AlgeoT J, WeiW, SweetD E. Salinity Variation in Carboniferous Cyclothemic Successions. Chemical Geology, 2025, 683122760

[2]	AlgeoT J, WeiW, RemírezM N, et al.. Influence of Clay-Mineral Assemblages on the B/Ga Salinity Proxy. Chemical Geology, 2025, 688122837

[3]	ChengM, ZhangZ H, AlgeoT J, et al.. Hydrological Controls on Marine Chemistry in the Cryogenian Nanhua Basin (South China). Earth-Science Reviews, 2021, 218103678

[4]	GilleaudeauG J, WeiW, RemírezM N, et al.. Geochemical and Hydrographic Evolution of the Late Devonian Appalachian Seaway: Linking Sedimentation, Redox, and Salinity across Time and Space. Geochemistry, Geophysics, Geosystems, 2023, 248e2023GC010973

[5]	LiuZ H, AlgeoT J, ArefifardS, et al.. Testing the Salinity of Cambrian to Silurian Epicratonic Seas. Journal of the Geological Society, 2024, 181(3): jgs2023-jgs2217

[6]	LiuZ H, AlgeoT J, BrocksJ J, et al.. Salinity Reconstruction in Proterozoic Depositional Systems. Geological Society of America Bulletin, 2025, 137(1/2): 447-464

[7]	RemírezM N, AlgeoT J. Paleosalinity Determination in Ancient Epicontinental Seas: A Case Study of the T-OAE in the Cleveland Basin (UK). Earth-Science Reviews, 2020, 201103072

[8]	RemírezM N, AlgeoT J, ShenJ, et al.. Low-Salinity Conditions in the “Marine” Late Triassic-Early Jurassic Neuquén Basin of Argentina: Challenges in Paleosalinity Interpretation. Palaeogeography, Palaeoclimatology, Palaeoecology, 2024, 646112216

[9]	RemírezM N, SchwarzE, GilleaudeauG J, et al.. Seas to Lakes and Vice-versa: A Test of Facies versus Elemental Salinity Proxies. Chemical Geology, 2025, 678122663

[10]	RemírezM N, GilleaudeauG J, McBrideR, et al.. Calibrating Elemental Salinity Proxies in Holocene Sedimentary Environments. Chemical Geology, 2025, 678122664

[11]	Remírez, M. N., Gilleaudeau, G. J., Sahoo, S. K., et al., 2025c. Beyond Evaporites: Assessing Hypersalinity Using Boron-Based Sedimentary Proxies. Chemical Geology. In press

[12]	SongY, GilleaudeauG J, AlgeoT J, et al.. Biomarker Evidence of Algal-Microbial Community Changes Linked to Redox and Salinity Variation, Upper Devonian Chattanooga Shale (Tennessee, USA). GSA Bulletin, 2021, 133(1/2): 409-424

[13]	WeiW, AlgeoT J. Elemental Proxies for Paleosalinity Analysis of Ancient Shales and Mudrocks. Geochimica et Cosmochimica Acta, 2020, 287: 341-366

[14]	WeiW, YuW C, AlgeoT J, et al.. Boron Proxies Record Paleosalinity Variation in the North American Midcontinent Sea in Response to Carboniferous Glacio-Eustasy. Geology, 2022, 50(5): 537-541

[15]	WeiW, AlgeoT J, MeyerD, et al.. Utility of the B/Ga Salinity Proxy in Carbonate and Marly Sediments. Chemical Geology, 2025, 682122751

[16]	WeiW, AlgeoT J, ChenL, et al.. Evaluation of Sample Pretreatment Methods for Boron Concentration Analysis. Chemical Geology, 2025, 687122838

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China University of Geosciences (Wuhan) and Springer-Verlag GmbH Germany, Part of Springer Nature

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