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Apatite as a pathfinder to tin mineralisation: prospects and caveats

Apatite as a pathfinder to tin mineralisation: prospects and caveats
Apatite as a pathfinder to tin mineralisation: prospects and caveats
Granite-related mineral deposits are major primary sources of the critical metals tin (Sn) and lithium (Li). The utility of accessory minerals such as zircon and apatite as pathfinders to these ore deposits has been a subject of great interest in recent years, with a number of geochemical discriminants having been developed to distinguish barren from metal-fertile and mineralised intrusions. Here, we study the potential of apatite as an indicator mineral for tin and lithium mineralisation using a compilation of published apatite trace element data as well as new data for the mineralised Cornubian batholith and barren Bhutanese leucogranites. Critical examination of common geochemical discriminants tracing magma fractionation and redox conditions (Mn, Eu/Eu*, La/YbN and Sr/Y) reveals large and overlapping data scatter for both barren and Sn-fertile intrusions. This calls into question the utility of these petrogenetic indicators to pinpoint tin metallogeny. Instead, prima facie metal concentrations directly related to tin mineralisation (i.e., Sn and Li) are consistently elevated in apatite from fertile and mineralised intrusions. Based on our data compilation, Li and Sn concentrations in apatite are the most robust indicators for Sn (and Li) mineralisation, and we encourage the community to include Li and Sn in their analytical routines to further test these observations and explore their implications for tin metallogeny.
Apatite, Exploration, LA-ICP-MS, Tin mineralisation, Trace elements
0026-4598
Mangler, Martin F.
189cd602-9908-4684-ac4b-94e8344eec11
Gardiner, Nicholas J.
ec2dbcad-9438-41dc-8abe-25cfc07e3d1f
Skeat, Dominic
bb475623-e3d1-40e5-b106-1f25957c745c
Roberts, Nick M.W.
45a61c82-339a-4b5d-b8c2-b156954f4946
Tapster, Simon
e452030a-530c-4c2c-8709-22c03caf1c97
Mangler, Martin F.
189cd602-9908-4684-ac4b-94e8344eec11
Gardiner, Nicholas J.
ec2dbcad-9438-41dc-8abe-25cfc07e3d1f
Skeat, Dominic
bb475623-e3d1-40e5-b106-1f25957c745c
Roberts, Nick M.W.
45a61c82-339a-4b5d-b8c2-b156954f4946
Tapster, Simon
e452030a-530c-4c2c-8709-22c03caf1c97

Mangler, Martin F., Gardiner, Nicholas J., Skeat, Dominic, Roberts, Nick M.W. and Tapster, Simon (2025) Apatite as a pathfinder to tin mineralisation: prospects and caveats. Mineralium Deposita. (doi:10.1007/s00126-025-01350-2).

Record type: Article

Abstract

Granite-related mineral deposits are major primary sources of the critical metals tin (Sn) and lithium (Li). The utility of accessory minerals such as zircon and apatite as pathfinders to these ore deposits has been a subject of great interest in recent years, with a number of geochemical discriminants having been developed to distinguish barren from metal-fertile and mineralised intrusions. Here, we study the potential of apatite as an indicator mineral for tin and lithium mineralisation using a compilation of published apatite trace element data as well as new data for the mineralised Cornubian batholith and barren Bhutanese leucogranites. Critical examination of common geochemical discriminants tracing magma fractionation and redox conditions (Mn, Eu/Eu*, La/YbN and Sr/Y) reveals large and overlapping data scatter for both barren and Sn-fertile intrusions. This calls into question the utility of these petrogenetic indicators to pinpoint tin metallogeny. Instead, prima facie metal concentrations directly related to tin mineralisation (i.e., Sn and Li) are consistently elevated in apatite from fertile and mineralised intrusions. Based on our data compilation, Li and Sn concentrations in apatite are the most robust indicators for Sn (and Li) mineralisation, and we encourage the community to include Li and Sn in their analytical routines to further test these observations and explore their implications for tin metallogeny.

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Mangler et al. 2025 - Version of Record
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Accepted/In Press date: 28 January 2025
e-pub ahead of print date: 13 February 2025
Keywords: Apatite, Exploration, LA-ICP-MS, Tin mineralisation, Trace elements

Identifiers

Local EPrints ID: 499465
URI: http://eprints.soton.ac.uk/id/eprint/499465
DOI: doi:10.1007/s00126-025-01350-2
ISSN: 0026-4598
PURE UUID: 3518af3a-4add-468d-947a-73c0f37d0286
ORCID for Martin F. Mangler: ORCID iD orcid.org/0000-0001-8205-9038

Catalogue record

Date deposited: 20 Mar 2025 18:06
Last modified: 22 Aug 2025 02:46

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Contributors

Author: Martin F. Mangler ORCID iD
Author: Nicholas J. Gardiner
Author: Dominic Skeat
Author: Nick M.W. Roberts
Author: Simon Tapster

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