Pyrochlore composition and Sm–Nd isotope signature as indicators of magmatic-hydrothermal processes: The case of Ririwai complex, north-Central Nigeria

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  • China University of Geosciences (CUG)
  • University of Saskatchewan
  • State Key Laboratory of Continental Dynamics
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OriginalspracheEnglisch
Aufsatznummer122021
Seitenumfang19
FachzeitschriftChemical geology
Jahrgang652
Frühes Online-Datum6 März 2024
PublikationsstatusVeröffentlicht - 5 Mai 2024

Abstract

This study presents a geochemical and Sm–Nd isotopic study on pyrochlore from the Ririwai alkaline complex in north-central Nigeria, aiming to reconstruct the magmatic-hydrothermal history and provide insights into the formation of niobium deposit hosted in alkaline igneous rocks. Three texturally and compositionally distinct types of pyrochlore (Pcl I, II, and III) are identified. Primary Pcl I grains are enriched in Nb2O5 (mean of 60.5 wt%) and other high field strength elements (HFSE), rare earth elements (mean of 17.2 wt% REE2O3), Ca, Na, and F, suggesting that they crystallized in a Nb-rich peralkaline magma. The occurrence of patchy zoning as well as the development of microfractures and pores within these pyrochlore grains indicate two stages of hydrothermal alteration responsible for the formation of Pcl II and Pcl III. The first stage of alteration from Pcl I to Pcl II was induced by high-temperature, alkali-rich, and F-moderate fluids, leading to the removal of Na, Ca, and F while filling the vacant A- and Y-sites with K, Rb, Y, and Zn. The Nb and REE contents in Pcl III (mean of 41.3 wt% and 9.4 wt%, respectively) are lower than those in Pcl I and Pcl II (mean of 58.1 wt% and 17.3 wt%, respectively). Thereby, the second stage of alteration from Pcl II to Pcl III was related to low-temperature, Si- and Al-rich alkaline fluids, which resulted in the leaching of Nb, Ti, Th, U, and REE (mainly LREE) from the A- and B-sites, compensated by the incorporation of Si, Pb, K, Al, Fe, and Mn. The leached elements either precipitated into Nb-bearing minerals such as rutile, thorite, and zircon in alteration assemblages as an in-situ replacement of Pcl II or remobilized locally to form hydrothermal veins of Si, Al, Nb, and CO2-bearing oxides. The comparable εNd(t) values between hydrothermal Pcl II and III (−1.9 to −2.8 and − 1.5 to −3.2, respectively) and magmatic Pcl I (−2.0 to −2.6) indicate that there was only a minimal external contribution to Nd (and by analogy Nb as well) from fluids. Two-stage hydrothermal fluids in the Ririwai alkaline complex have limited effects on Nb mobilization, without significantly enhancing or reducing the Nb grade.

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Pyrochlore composition and Sm–Nd isotope signature as indicators of magmatic-hydrothermal processes: The case of Ririwai complex, north-Central Nigeria. / Zhu, Yuxiang; Wang, Lianxun; Pan, Yuanming et al.
in: Chemical geology, Jahrgang 652, 122021, 05.05.2024.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Zhu Y, Wang L, Pan Y, Zhang C, Almeev RR, She Z et al. Pyrochlore composition and Sm–Nd isotope signature as indicators of magmatic-hydrothermal processes: The case of Ririwai complex, north-Central Nigeria. Chemical geology. 2024 Mai 5;652:122021. Epub 2024 Mär 6. doi: 10.1016/j.chemgeo.2024.122021
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@article{638dd5d48b554701bf3e7b67c2671678,
title = "Pyrochlore composition and Sm–Nd isotope signature as indicators of magmatic-hydrothermal processes: The case of Ririwai complex, north-Central Nigeria",
abstract = "This study presents a geochemical and Sm–Nd isotopic study on pyrochlore from the Ririwai alkaline complex in north-central Nigeria, aiming to reconstruct the magmatic-hydrothermal history and provide insights into the formation of niobium deposit hosted in alkaline igneous rocks. Three texturally and compositionally distinct types of pyrochlore (Pcl I, II, and III) are identified. Primary Pcl I grains are enriched in Nb2O5 (mean of 60.5 wt%) and other high field strength elements (HFSE), rare earth elements (mean of 17.2 wt% REE2O3), Ca, Na, and F, suggesting that they crystallized in a Nb-rich peralkaline magma. The occurrence of patchy zoning as well as the development of microfractures and pores within these pyrochlore grains indicate two stages of hydrothermal alteration responsible for the formation of Pcl II and Pcl III. The first stage of alteration from Pcl I to Pcl II was induced by high-temperature, alkali-rich, and F-moderate fluids, leading to the removal of Na, Ca, and F while filling the vacant A- and Y-sites with K, Rb, Y, and Zn. The Nb and REE contents in Pcl III (mean of 41.3 wt% and 9.4 wt%, respectively) are lower than those in Pcl I and Pcl II (mean of 58.1 wt% and 17.3 wt%, respectively). Thereby, the second stage of alteration from Pcl II to Pcl III was related to low-temperature, Si- and Al-rich alkaline fluids, which resulted in the leaching of Nb, Ti, Th, U, and REE (mainly LREE) from the A- and B-sites, compensated by the incorporation of Si, Pb, K, Al, Fe, and Mn. The leached elements either precipitated into Nb-bearing minerals such as rutile, thorite, and zircon in alteration assemblages as an in-situ replacement of Pcl II or remobilized locally to form hydrothermal veins of Si, Al, Nb, and CO2-bearing oxides. The comparable εNd(t) values between hydrothermal Pcl II and III (−1.9 to −2.8 and − 1.5 to −3.2, respectively) and magmatic Pcl I (−2.0 to −2.6) indicate that there was only a minimal external contribution to Nd (and by analogy Nb as well) from fluids. Two-stage hydrothermal fluids in the Ririwai alkaline complex have limited effects on Nb mobilization, without significantly enhancing or reducing the Nb grade.",
keywords = "Hydrothermal alteration, Nb mineralization, Peralkaline granite, Pyrochlore, Ririwai complex",
author = "Yuxiang Zhu and Lianxun Wang and Yuanming Pan and Chao Zhang and Almeev, {Renat R.} and Zhenbing She and Fran{\c c}ois Holtz",
note = "Funding Information: This study was financially supported by the National Natural Science Foundation of China (No. 42072082) and the Hubei Province Natural Science Foundation of China (2022CFB116). The authors are grateful to Dr. Dachuan Wang, Victor Ikechukwu Vincent, Hafizullah Abba Ahmed, and Minbo Yang for their help in the field and lab works. Yu-Xiang Zhu wish to thank the supports from the State Scholarship Fund of China Scholarship Council (202206415002) and the Fundamental Research Funds for National Universities, China University of Geosciences (Wuhan). F. Holtz acknowledges financial support from German Science Foundation (DFG, project HO 1337-50). We greatly appreciate the valuable comments provided by Dr. Carl Spandler and another anonymous reviewer, as well as the editorial handling by Dr. Marco Fiorentini, all of which have enhanced this manuscript. ",
year = "2024",
month = may,
day = "5",
doi = "10.1016/j.chemgeo.2024.122021",
language = "English",
volume = "652",
journal = "Chemical geology",
issn = "0009-2541",
publisher = "Elsevier",

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TY - JOUR

T1 - Pyrochlore composition and Sm–Nd isotope signature as indicators of magmatic-hydrothermal processes

T2 - The case of Ririwai complex, north-Central Nigeria

AU - Zhu, Yuxiang

AU - Wang, Lianxun

AU - Pan, Yuanming

AU - Zhang, Chao

AU - Almeev, Renat R.

AU - She, Zhenbing

AU - Holtz, François

N1 - Funding Information: This study was financially supported by the National Natural Science Foundation of China (No. 42072082) and the Hubei Province Natural Science Foundation of China (2022CFB116). The authors are grateful to Dr. Dachuan Wang, Victor Ikechukwu Vincent, Hafizullah Abba Ahmed, and Minbo Yang for their help in the field and lab works. Yu-Xiang Zhu wish to thank the supports from the State Scholarship Fund of China Scholarship Council (202206415002) and the Fundamental Research Funds for National Universities, China University of Geosciences (Wuhan). F. Holtz acknowledges financial support from German Science Foundation (DFG, project HO 1337-50). We greatly appreciate the valuable comments provided by Dr. Carl Spandler and another anonymous reviewer, as well as the editorial handling by Dr. Marco Fiorentini, all of which have enhanced this manuscript.

PY - 2024/5/5

Y1 - 2024/5/5

N2 - This study presents a geochemical and Sm–Nd isotopic study on pyrochlore from the Ririwai alkaline complex in north-central Nigeria, aiming to reconstruct the magmatic-hydrothermal history and provide insights into the formation of niobium deposit hosted in alkaline igneous rocks. Three texturally and compositionally distinct types of pyrochlore (Pcl I, II, and III) are identified. Primary Pcl I grains are enriched in Nb2O5 (mean of 60.5 wt%) and other high field strength elements (HFSE), rare earth elements (mean of 17.2 wt% REE2O3), Ca, Na, and F, suggesting that they crystallized in a Nb-rich peralkaline magma. The occurrence of patchy zoning as well as the development of microfractures and pores within these pyrochlore grains indicate two stages of hydrothermal alteration responsible for the formation of Pcl II and Pcl III. The first stage of alteration from Pcl I to Pcl II was induced by high-temperature, alkali-rich, and F-moderate fluids, leading to the removal of Na, Ca, and F while filling the vacant A- and Y-sites with K, Rb, Y, and Zn. The Nb and REE contents in Pcl III (mean of 41.3 wt% and 9.4 wt%, respectively) are lower than those in Pcl I and Pcl II (mean of 58.1 wt% and 17.3 wt%, respectively). Thereby, the second stage of alteration from Pcl II to Pcl III was related to low-temperature, Si- and Al-rich alkaline fluids, which resulted in the leaching of Nb, Ti, Th, U, and REE (mainly LREE) from the A- and B-sites, compensated by the incorporation of Si, Pb, K, Al, Fe, and Mn. The leached elements either precipitated into Nb-bearing minerals such as rutile, thorite, and zircon in alteration assemblages as an in-situ replacement of Pcl II or remobilized locally to form hydrothermal veins of Si, Al, Nb, and CO2-bearing oxides. The comparable εNd(t) values between hydrothermal Pcl II and III (−1.9 to −2.8 and − 1.5 to −3.2, respectively) and magmatic Pcl I (−2.0 to −2.6) indicate that there was only a minimal external contribution to Nd (and by analogy Nb as well) from fluids. Two-stage hydrothermal fluids in the Ririwai alkaline complex have limited effects on Nb mobilization, without significantly enhancing or reducing the Nb grade.

AB - This study presents a geochemical and Sm–Nd isotopic study on pyrochlore from the Ririwai alkaline complex in north-central Nigeria, aiming to reconstruct the magmatic-hydrothermal history and provide insights into the formation of niobium deposit hosted in alkaline igneous rocks. Three texturally and compositionally distinct types of pyrochlore (Pcl I, II, and III) are identified. Primary Pcl I grains are enriched in Nb2O5 (mean of 60.5 wt%) and other high field strength elements (HFSE), rare earth elements (mean of 17.2 wt% REE2O3), Ca, Na, and F, suggesting that they crystallized in a Nb-rich peralkaline magma. The occurrence of patchy zoning as well as the development of microfractures and pores within these pyrochlore grains indicate two stages of hydrothermal alteration responsible for the formation of Pcl II and Pcl III. The first stage of alteration from Pcl I to Pcl II was induced by high-temperature, alkali-rich, and F-moderate fluids, leading to the removal of Na, Ca, and F while filling the vacant A- and Y-sites with K, Rb, Y, and Zn. The Nb and REE contents in Pcl III (mean of 41.3 wt% and 9.4 wt%, respectively) are lower than those in Pcl I and Pcl II (mean of 58.1 wt% and 17.3 wt%, respectively). Thereby, the second stage of alteration from Pcl II to Pcl III was related to low-temperature, Si- and Al-rich alkaline fluids, which resulted in the leaching of Nb, Ti, Th, U, and REE (mainly LREE) from the A- and B-sites, compensated by the incorporation of Si, Pb, K, Al, Fe, and Mn. The leached elements either precipitated into Nb-bearing minerals such as rutile, thorite, and zircon in alteration assemblages as an in-situ replacement of Pcl II or remobilized locally to form hydrothermal veins of Si, Al, Nb, and CO2-bearing oxides. The comparable εNd(t) values between hydrothermal Pcl II and III (−1.9 to −2.8 and − 1.5 to −3.2, respectively) and magmatic Pcl I (−2.0 to −2.6) indicate that there was only a minimal external contribution to Nd (and by analogy Nb as well) from fluids. Two-stage hydrothermal fluids in the Ririwai alkaline complex have limited effects on Nb mobilization, without significantly enhancing or reducing the Nb grade.

KW - Hydrothermal alteration

KW - Nb mineralization

KW - Peralkaline granite

KW - Pyrochlore

KW - Ririwai complex

UR - http://www.scopus.com/inward/record.url?scp=85187208879&partnerID=8YFLogxK

U2 - 10.1016/j.chemgeo.2024.122021

DO - 10.1016/j.chemgeo.2024.122021

M3 - Article

AN - SCOPUS:85187208879

VL - 652

JO - Chemical geology

JF - Chemical geology

SN - 0009-2541

M1 - 122021

ER -

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