Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths

Massimo Coltorti; Costanza Bonadiman; Federico Casetta; Barbara Faccini; Pier Paolo Giacomoni; Beatrice Pelorosso; Cristina Perinelli

doi:10.1144/M56-2020-11

Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths

Massimo Coltorti
, Costanza Bonadiman
, Federico Casetta
, Barbara Faccini
, Pier Paolo Giacomoni
, Beatrice Pelorosso
, Cristina Perinelli

Department of Lithospheric Research

Publications: Contribution to book › Chapter › Peer Reviewed

Abstract

A review of northern Victoria Land ultramafic xenoliths, collected and studied over more than 30 years, was carried out. More than 200 samples were gathered and characterized in a coherent and comparative manner, both for mantle-derived and cumulate xenoliths. Almost 2000 analyses of major elements and more than 300 analyses of trace elements of in situ and separated olivine, pyroxenes, amphibole, spinel and glass were taken into consideration. Particular attention was devoted to mantle lithologies in order to emphasize the composition and the evolution of this portion of the subcontinental lithosphere. The three main localities in northern Victoria Land where mantle xenoliths were found (i.e. Mount Melbourne (Baker Rocks), Greene Point and Handler Ridge), over a >200 km distance, were described and compared with ultramafic xenoliths in three other localities (Harrow Peaks, Browning Pass and Mount Overlord) that are mainly cumulate in nature. Altogether, these data enabled us to reconstruct a long evolutionary history, from old depletion to most recent refertilization and metasomatic events, for this large sector of the northern Victoria Land subcontinental lithospheric mantle.

Original language	English
Title of host publication	The Geochemistry and Geophysics of the Antarctic Mantle
Editors	A.P. Martin, W. van der Wal
Place of Publication	London
Publisher	The Geological Society of London
Pages	57-82
Number of pages	26
ISBN (Print)	9781786204677
DOIs	https://doi.org/10.1144/M56-2020-11
Publication status	Published - 6 Feb 2023

Publication series

Series	Geological Society Memoir
Volume	56
ISSN	0435-4052

Funding

Funding This work was funded by the Italian National Research Programme with grant PRIN_2017 Project 20178LPCPW to M. Coltorti.

Austrian Fields of Science 2012

105120 Petrology
105119 Petrography
105106 Geodynamics
105105 Geochemistry

Access to Document

10.1144/M56-2020-11

Cite this

Coltorti, M., Bonadiman, C., Casetta, F., Faccini, B., Giacomoni, P. P., Pelorosso, B., & Perinelli, C. (2023). Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths. In A. P. Martin, & W. V. D. Wal (Eds.), The Geochemistry and Geophysics of the Antarctic Mantle (pp. 57-82). The Geological Society of London. https://doi.org/10.1144/M56-2020-11

Coltorti, Massimo ; Bonadiman, Costanza ; Casetta, Federico et al. / Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths. The Geochemistry and Geophysics of the Antarctic Mantle. editor / A.P. Martin ; W. van der Wal. London : The Geological Society of London, 2023. pp. 57-82 (Geological Society Memoir, Vol. 56).

@inbook{8812c67dbde848d9b751e4118a58696c,

title = "Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths",

abstract = "A review of northern Victoria Land ultramafic xenoliths, collected and studied over more than 30 years, was carried out. More than 200 samples were gathered and characterized in a coherent and comparative manner, both for mantle-derived and cumulate xenoliths. Almost 2000 analyses of major elements and more than 300 analyses of trace elements of in situ and separated olivine, pyroxenes, amphibole, spinel and glass were taken into consideration. Particular attention was devoted to mantle lithologies in order to emphasize the composition and the evolution of this portion of the subcontinental lithosphere. The three main localities in northern Victoria Land where mantle xenoliths were found (i.e. Mount Melbourne (Baker Rocks), Greene Point and Handler Ridge), over a >200 km distance, were described and compared with ultramafic xenoliths in three other localities (Harrow Peaks, Browning Pass and Mount Overlord) that are mainly cumulate in nature. Altogether, these data enabled us to reconstruct a long evolutionary history, from old depletion to most recent refertilization and metasomatic events, for this large sector of the northern Victoria Land subcontinental lithospheric mantle.",

author = "Massimo Coltorti and Costanza Bonadiman and Federico Casetta and Barbara Faccini and Giacomoni, \{Pier Paolo\} and Beatrice Pelorosso and Cristina Perinelli",

note = "Funding Information: Funding This work was funded by the Italian National Research Programme with grant PRIN\_2017 Project 20178LPCPW to M. Coltorti. Publisher Copyright: {\textcopyright} 2021 The Author(s).",

year = "2023",

month = feb,

day = "6",

doi = "10.1144/M56-2020-11",

language = "English",

isbn = "9781786204677",

series = "Geological Society Memoir",

pages = "57--82",

editor = "A.P. Martin and Wal, \{W. van der\}",

booktitle = "The Geochemistry and Geophysics of the Antarctic Mantle",

publisher = "The Geological Society of London",

}

Coltorti, M, Bonadiman, C, Casetta, F, Faccini, B, Giacomoni, PP, Pelorosso, B & Perinelli, C 2023, Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths. in AP Martin & WVD Wal (eds), The Geochemistry and Geophysics of the Antarctic Mantle. The Geological Society of London, London, Geological Society Memoir, vol. 56, pp. 57-82. https://doi.org/10.1144/M56-2020-11

Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths. / Coltorti, Massimo; Bonadiman, Costanza; Casetta, Federico et al.
The Geochemistry and Geophysics of the Antarctic Mantle. ed. / A.P. Martin; W. van der Wal. London: The Geological Society of London, 2023. p. 57-82 (Geological Society Memoir, Vol. 56).

Publications: Contribution to book › Chapter › Peer Reviewed

TY - CHAP

T1 - Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths

AU - Coltorti, Massimo

AU - Bonadiman, Costanza

AU - Casetta, Federico

AU - Faccini, Barbara

AU - Giacomoni, Pier Paolo

AU - Pelorosso, Beatrice

AU - Perinelli, Cristina

PY - 2023/2/6

Y1 - 2023/2/6

N2 - A review of northern Victoria Land ultramafic xenoliths, collected and studied over more than 30 years, was carried out. More than 200 samples were gathered and characterized in a coherent and comparative manner, both for mantle-derived and cumulate xenoliths. Almost 2000 analyses of major elements and more than 300 analyses of trace elements of in situ and separated olivine, pyroxenes, amphibole, spinel and glass were taken into consideration. Particular attention was devoted to mantle lithologies in order to emphasize the composition and the evolution of this portion of the subcontinental lithosphere. The three main localities in northern Victoria Land where mantle xenoliths were found (i.e. Mount Melbourne (Baker Rocks), Greene Point and Handler Ridge), over a >200 km distance, were described and compared with ultramafic xenoliths in three other localities (Harrow Peaks, Browning Pass and Mount Overlord) that are mainly cumulate in nature. Altogether, these data enabled us to reconstruct a long evolutionary history, from old depletion to most recent refertilization and metasomatic events, for this large sector of the northern Victoria Land subcontinental lithospheric mantle.

AB - A review of northern Victoria Land ultramafic xenoliths, collected and studied over more than 30 years, was carried out. More than 200 samples were gathered and characterized in a coherent and comparative manner, both for mantle-derived and cumulate xenoliths. Almost 2000 analyses of major elements and more than 300 analyses of trace elements of in situ and separated olivine, pyroxenes, amphibole, spinel and glass were taken into consideration. Particular attention was devoted to mantle lithologies in order to emphasize the composition and the evolution of this portion of the subcontinental lithosphere. The three main localities in northern Victoria Land where mantle xenoliths were found (i.e. Mount Melbourne (Baker Rocks), Greene Point and Handler Ridge), over a >200 km distance, were described and compared with ultramafic xenoliths in three other localities (Harrow Peaks, Browning Pass and Mount Overlord) that are mainly cumulate in nature. Altogether, these data enabled us to reconstruct a long evolutionary history, from old depletion to most recent refertilization and metasomatic events, for this large sector of the northern Victoria Land subcontinental lithospheric mantle.

UR - https://www.scopus.com/pages/publications/85108293840

U2 - 10.1144/M56-2020-11

DO - 10.1144/M56-2020-11

M3 - Chapter

AN - SCOPUS:85108293840

SN - 9781786204677

T3 - Geological Society Memoir

SP - 57

EP - 82

BT - The Geochemistry and Geophysics of the Antarctic Mantle

A2 - Martin, A.P.

A2 - Wal, W. van der

PB - The Geological Society of London

CY - London

ER -

Coltorti M, Bonadiman C, Casetta F, Faccini B, Giacomoni PP, Pelorosso B et al. Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths. In Martin AP, Wal WVD, editors, The Geochemistry and Geophysics of the Antarctic Mantle. London: The Geological Society of London. 2023. p. 57-82. (Geological Society Memoir, Vol. 56). doi: 10.1144/M56-2020-11

Nature and evolution of the northern Victoria Land lithospheric mantle (Antarctica) as revealed by ultramafic xenoliths

Abstract

Publication series

Funding

Austrian Fields of Science 2012

Access to Document

Other files and links

Fingerprint

Cite this