D-Index & Metrics Best Publications

D-Index & Metrics

Discipline name D-index D-index (Discipline H-index) only includes papers and citation values for an examined discipline in contrast to General H-index which accounts for publications across all disciplines. Citations Publications World Ranking National Ranking
Earth Science D-index 30 Citations 2,828 117 World Ranking 5840 National Ranking 124

Overview

What is she best known for?

The fields of study she is best known for:

  • Igneous rock
  • Basalt
  • Geochemistry

Her scientific interests lie mostly in Geochemistry, Kimberlite, Phlogopite, Olivine and Xenolith. Mantle, Metasomatism, Breccia, Chromite and Peridotite are among the areas of Geochemistry where the researcher is concentrating her efforts. Her Chromite research includes elements of Petrogenesis and Radiogenic nuclide.

Her Kimberlite study frequently draws connections to adjacent fields such as Melt inclusions. Her research in Phlogopite tackles topics such as Mineralogy which are related to areas like Mafic and Phenocryst. The Xenolith study which covers Carbonate minerals that intersects with Wall rock.

Her most cited work include:

  • Subduction zone fluxes of halogens and noble gases in seafloor and forearc serpentinites (87 citations)
  • Towards a new model for kimberlite petrogenesis: Evidence from unaltered kimberlites and mantle minerals (86 citations)
  • Constraints on kimberlite ascent mechanisms revealed by phlogopite compositions in kimberlites and mantle xenoliths (72 citations)

What are the main themes of her work throughout her whole career to date?

The scientist’s investigation covers issues in Geochemistry, Kimberlite, Mantle, Olivine and Metasomatism. Her Kimberlite study integrates concerns from other disciplines, such as Phlogopite, Xenolith, Petrography, Petrology and Petrogenesis. Her Phlogopite study combines topics from a wide range of disciplines, such as Ilmenite, Melt inclusions and Oceanic crust.

Her research in Xenolith focuses on subjects like Mineralogy, which are connected to Mafic. The study incorporates disciplines such as Basalt and Crust in addition to Mantle. Her study on Monticellite is often connected to Isotope analysis as part of broader study in Olivine.

She most often published in these fields:

  • Geochemistry (185.04%)
  • Kimberlite (156.69%)
  • Mantle (111.81%)

What were the highlights of her more recent work (between 2019-2021)?

  • Geochemistry (185.04%)
  • Kimberlite (156.69%)
  • Mantle (111.81%)

In recent papers she was focusing on the following fields of study:

Andrea Giuliani mainly investigates Geochemistry, Kimberlite, Mantle, Olivine and Metasomatism. Her study in the field of Carbonatite, Phlogopite, Petrogenesis and Ultramafic rock also crosses realms of Proterozoic. Andrea Giuliani studied Kimberlite and Petrography that intersect with Calcite.

Mantle connects with themes related to Crust in her study. Her Olivine study combines topics in areas such as Chromite and Igneous rock. Her Metasomatism research is multidisciplinary, relying on both Peridotite and Partial melting.

Between 2019 and 2021, her most popular works were:

  • Kimberlite genesis from a common carbonate-rich primary melt modified by lithospheric mantle assimilation. (18 citations)
  • Kimberlite genesis from a common carbonate-rich primary melt modified by lithospheric mantle assimilation. (18 citations)
  • Kimberlite genesis from a common carbonate-rich primary melt modified by lithospheric mantle assimilation. (18 citations)

In her most recent research, the most cited papers focused on:

  • Igneous rock
  • Basalt
  • Geochemistry

Andrea Giuliani focuses on Geochemistry, Kimberlite, Mantle, Olivine and Metasomatism. Her work in Petrogenesis, Phlogopite, Partial melting, Crust and Carbonatite is related to Geochemistry. Her Crust study combines topics from a wide range of disciplines, such as Isotopes of oxygen and Igneous rock.

The Carbonatite study combines topics in areas such as Archean and Ultramafic rock. Andrea Giuliani performs multidisciplinary study in Mantle and Nickel in her work. Her Metasomatism research includes themes of Trace element, Lithophile, Peridotite and Radiogenic nuclide.

This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.

Best Publications

Towards a new model for kimberlite petrogenesis: Evidence from unaltered kimberlites and mantle minerals

Vadim S. Kamenetsky;Alexander V. Golovin;Alexander V. Golovin;Roland Maas;Andrea Giuliani.
Earth-Science Reviews (2014)

108 Citations

Subduction zone fluxes of halogens and noble gases in seafloor and forearc serpentinites

Mark A. Kendrick;Masahiko Honda;Thomas Pettke;Marco Scambelluri.
Earth and Planetary Science Letters (2013)

105 Citations

Constraints on kimberlite ascent mechanisms revealed by phlogopite compositions in kimberlites and mantle xenoliths

Andrea Giuliani;Andrea Giuliani;David Phillips;Vadim S. Kamenetsky;Karsten Goemann.
Lithos (2016)

98 Citations

Nature of alkali-carbonate fluids in the sub-continental lithospheric mantle

Andrea Giuliani;Vadim S Kamenetsky;David Phillips;Mark Kendrick.
Geology (2012)

91 Citations

Did diamond-bearing orangeites originate from MARID-veined peridotites in the lithospheric mantle?

Andrea Giuliani;David Phillips;Jon D. Woodhead;Vadim S. Kamenetsky.
Nature Communications (2015)

76 Citations

Petrogenesis of Mantle Polymict Breccias: Insights into Mantle Processes Coeval with Kimberlite Magmatism

Andrea Giuliani;David Phillips;Vadim S. Kamenetsky;Mark A. Kendrick.
Journal of Petrology (2014)

74 Citations

Stable isotope (C, O, S) compositions of volatile-rich minerals in kimberlites: A review

Andrea Giuliani;David Phillips;Vadim S. Kamenetsky;Marco L. Fiorentini.
Chemical Geology (2014)

73 Citations

Oxide, sulphide and carbonate minerals in a mantle polymict breccia: Metasomatism by proto-kimberlite magmas, and relationship to the kimberlite megacrystic suite

A. Giuliani;V.S. Kamenetsky;M.A. Kendrick;D. Phillips.
Chemical Geology (2013)

69 Citations

The final stages of kimberlite petrogenesis: petrography, mineral chemistry, melt inclusions and Sr-C-O isotope geochemistry of the Bultfontein kimberlite (Kimberley, South Africa)

Andrea Giuliani;Andrea Giuliani;Andrea Giuliani;Ashton Soltys;David Phillips;Vadim S. Kamenetsky.
Chemical Geology (2017)

66 Citations

Insights into kimberlite petrogenesis and mantle metasomatism from a review of the compositional zoning of olivine in kimberlites worldwide

Andrea Giuliani;Andrea Giuliani.
Lithos (2018)

57 Citations

If you think any of the details on this page are incorrect, let us know.

Contact us

Best Scientists Citing Andrea Giuliani

Alexander V. Golovin

Alexander V. Golovin

Russian Academy of Sciences

Publications: 43

Konstantin D. Litasov

Konstantin D. Litasov

Dagestan Scientific Center of the Russian Academy of Sciences

Publications: 31

Vadim S. Kamenetsky

Vadim S. Kamenetsky

University of Tasmania

Publications: 26

Mark A. Kendrick

Mark A. Kendrick

Australian National University

Publications: 16

Eiji Ohtani

Eiji Ohtani

Tohoku University

Publications: 11

William L. Griffin

William L. Griffin

Macquarie University

Publications: 10

Stephen F. Foley

Stephen F. Foley

Macquarie University

Publications: 10

Chris J. Ballentine

Chris J. Ballentine

University of Oxford

Publications: 10

Ray Burgess

Ray Burgess

University of Manchester

Publications: 10

Andreas Stracke

Andreas Stracke

University of Münster

Publications: 9

Suzanne Y. O'Reilly

Suzanne Y. O'Reilly

Macquarie University

Publications: 9

Matthew G. Jackson

Matthew G. Jackson

University of California, Santa Barbara

Publications: 8

Marco L. Fiorentini

Marco L. Fiorentini

University of Western Australia

Publications: 8

Axel Gerdes

Axel Gerdes

Goethe University Frankfurt

Publications: 8

Michael A.W. Marks

Michael A.W. Marks

University of Tübingen

Publications: 8

M. Santosh

M. Santosh

China University of Geosciences

Publications: 8

Something went wrong. Please try again later.