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!!Irina M. Artemieva - Selected papers
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A complete list and pdf files can be downloaded from: [http://www.lithosphere.info/publications.html]

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__Scientific Monograph__
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__Artemieva I.M.__, 2011.''The lithosphere: An interdisciplinary approach''. Cambridge University Press Monograph, 794 pages, https://doi.org/10.1017/CBO9780511975417. ISBN 9780521843966.

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__Selected professional articles__
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__Artemieva I.M.__, 2022. Antarctica ice sheet basal melting enhanced by high mantle heat. ''Earth-Science Reviews'', 226, Art. No. 103954, 1-11, doi 10.1016/j.earscirev.2022.103954
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__Artemieva I.M.__, Yang H., and Thybo H., 2022. Incipient Ocean Spreading beneath the Arabian Shield. ''Earth-Science Reviews'', 226, Art. No. 103955, 1-15, doi 10.1016/j.earscirev.2022.103955.
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Buntin S., __Artemieva I.M.__, Malehmir A., Thybo H. et al., 2021. Long-lived Paleoproterozoic eclogitic lower crust. ''Nature Communications'', 12, Art. No. 6553, 1-13, doi: 0.1038/s41467-021-26878-5
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Wang G., Thybo H., and __Artemieva I.M.__, 2021. No mafic layer in 80 km thick Tibetan crust. ''Nature Communications'', 12, Art. No. 1069, 1-9, doi: 10.1038/s41467-021-21420-z
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Fuchs, S., Norden, B., __Artemieva I.M.__ et al., 2021. ''The Global Heat Flow Database: Release 2021''. GFZ Data Services, Potsdam. https://doi.org/10.5880/fidgeo.2021.014
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__Artemieva I.M.__and Thybo H., 2020. Continent size revisited: Geophysical evidence for West Antarctica as a back-arc system. ''Earth-Science Rev''., 202, Art. No. 103106, doi: 10.1016/j.earscirev.2020.103106 
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Xia B., Thybo H., __Artemieva I.M.__, 2020. Lithosphere mantle density of the North China Craton. ''J. Geophysical Research: Solid Earth'', 125(9), e2020JB020296, doi: 10.1029/2020JB020296 2009. 
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__Artemieva I.M.__and Shulgin A., 2019. Geodynamics of Anatolia: Lithosphere thermal structure and thickness. ''Tectonics'', 38(12), 4465-4487, doi: 10.1029/2019TC005594
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Thybo H., Youssof M., __Artemieva I.M.__, 2019. Southern Africa crustal anisotropy reveals coupled crust-mantle evolution for over 2 billion years. ''Nature Communications'', 10(5445), 1-10, doi: 10.1038/s41467-019-13267-2
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__Artemieva I.M.__and Shulgin A., 2019. Making and altering the crust: A global perspective on crustal structure and evolution. ''Earth Planet. Sci. Lett''. 512, 8-16; doi:  10.1016/j.epsl.2019.01.033 
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Shulgin A. and __Artemieva I.M.__, 2019. Thermochemical heterogeneity and density of continental and oceanic upper mantle in the European‐North Atlantic region. ''J. Geophysical Research: Solid Earth'', 124(8), 9280-9312, doi: 10.1029/ 2018JB017025
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__Artemieva I.M.__, Thybo H., Cherepanova Y., 2019. Isopycnicity of cratonic mantle restricted to kimberlite provinces. ''Earth Planet. Sci. Lett''., 505, 13-19.  DOI 10.1016/j.epsl.2018.09.034 
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__Artemieva I.M.__, 2019. The lithosphere structure of the European continent from thermal isostasy. ''Earth Science Rev.'', 188, 454-468. DOI 10.1016/ j.earscirev. 2018.11.004 
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__Artemieva I.M.__, 2019. Lithosphere thermal thickness and geothermal heat flux in Greenland from a new thermal isostasy method. ''Earth Science Rev.'', 188, 469-481. DOI 10.1016/j.earscirev.2018.10.015    
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Yang H., Chemia Z., __Artemieva I.M.__, and Thybo H., 2018. Control on off-rift magmatism - A case study of Baikal Rift System. ''Earth Planet. Sci. Lett.'', 482, 501-509
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__Artemieva I.M.__, Thybo H., Jakobsen K., Sørensen N.K., Nielsen L.S.K., 2017. Heat production in granitic rocks: Global analysis based on a new data compilation GRANITE2017. ''Earth Science Reviews'', 172, 1-26. 
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Xia B., Thybo H., and __Artemieva I.M.__, 2017. Seismic crustal structure of the North China Craton and surrounding area: synthesis and analysis. ''J. Geophysical Research: Solid Earth'', 122(7), 5181-5207
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__Artemieva I.M.__ and Vinnik L.P., 2016.Density structure of the cratonic mantle in southern Africa: 1. Implications for dynamic topography. ''Gondwana Res''., 39, 204-216
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__Artemieva I.M.__ and Vinnik L.P., 2016. Density structure of the cratonic mantle in southern Africa: 2. Correlations with kimberlite distribution, seismic velocities and Moho sharpness. ''Gondwana Res.'', 36, 14-27.
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Petrov O., A. Morozov, S. Shokalsky, S. Kashubin, __Artemieva I.M.__ et al., 2016. Crustal structure and tectonic model of the Arctic region. ''Earth Science Reviews'', 154, 29-71  
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__Artemieva I.M.__, Thybo H., Shulgin A., 2016. Geophysical constraints on geodynamical processes at convergent margins: a global perspective. ''Gondwana Research'', 33, 4-23 
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__Artemieva I.M.__ and Shulgin A., 2015. Is the Proterozoic Ladoga Rift (SE Baltic Shield) a rift?  ''Precambrian Research'', 259, 34-42
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Cherepanova Y. and __Artemieva I.M.__, 2015. Density heterogeneity of cratonic lithospheric mantle: A case study of the Siberian craton. ''Gondwana Research'', 28, 1344-1360
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Youssof M., Thybo H., Levander A., and __Artemieva I.M.__, 2015. Upper mantle structure beneath southern African cratons from seismic finite-frequency P- and S- body wave tomography. ''Earth Planet. Sci. Lett.'', 420, 174-186.
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__Artemieva I.M.__, 2015. Lithosphere dynamics and human society. HORIZON 2020 PROJECTS: PORTAL, Issue 8, 190-191.
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__Artemieva I.M.__ and Thybo H., 2013. EUNAseis: a seismic model for Moho and crustal structure in Europe, Greenland, and the North Atlantic region. ''Tectonophysics'', 609, 97-153
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Thybo H., __Artemieva I.M.__, Kennett B. (Eds.), 2013. Moho: 100 years after Andrija Mohorovičić. ''Tectonophysics'' (Elsevier), v. 609, 724 pages. 
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Cherepanova Yu., __Artemieva I.M.__ , Thybo H., Chemia Z., 2013. Crustal structure of the Siberian Craton and the West Siberian Basin: An appraisal of existing seismic data. ''Tectonophysics'', 609, 154-183.
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Thybo H. and __Artemieva I.M.__, 2013. Moho and magmatic underplating in continental lithosphere. ''Tectonophysics'', 609, 605-619
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Foulger G.R., Panza G.F., __Artemieva I.M.__ et al., 2013. Caveats on tomographic images. ''Terra Nova'', 25(4), 259-281   
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__Artemieva I.M.__ and Meissner R., 2012. Crustal thickness controlled by plate tectonics: a review of crust-mantle interaction processes illustrated by European examples. ''Tectonophysics'', v. 530-531, 18–49. 
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__Artemieva I.M.__, 2009. The continental lithosphere: Reconciling thermal, seismic, and petrologic data. ''Lithos'', 109, 23-46. 
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__Artemieva I.M.__, 2007. Dynamic topography of the East European Craton: Shedding light upon the lithospheric structure, composition and mantle dynamics. ''Global Planet''. Change, v. 58, 411-434.
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__Artemieva I.M.__, 2006. Global 1°x1° thermal model TC1 for the continental lithosphere: implications for lithosphere secular evolution. ''Tectonophys''., 416, 245-277. 
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__Artemieva I.M.__, Thybo H., and Kaban M.K., 2006. Deep Europe today: Geophysical synthesis of the upper mantle structure and lithospheric processes. In: D. Gee and R. Stephenson (Eds.), European Lithosphere Dynamics. ''Geol. Soc. London. Mem''. 32, 11-41. 
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__Artemieva I.M.__, Billien M., Leveque J.-J., and Mooney W.D., 2004. Shear-wave velocity, seismic attenuation, and thermal structure of the continental upper mantle. ''Geophys. J. Int''., 157, 607-628. 
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__Artemieva I.M.__, 2003. Lithospheric structure, composition, and thermal regime of the East European craton: Implications for the subsidence of the Russian Platform. ''Earth Planet. Sci. Lett''., 213, 429-444. 
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Kaban M.K., Schwintzer P., __Artemieva I.M.__, and Mooney W.D., 2003. Density of continental roots: compositional and thermal effects. ''Earth Planet. Sci. Lett''., 209, 53-69. 
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__Artemieva I.M.__ and Mooney W.D., 2002. On the relation between cratonic lithosphere thickness, plate motions, and basal drag. ''Tectonophysics'', 358, 211-231. 
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Meissner R., Mooney W.D., and __Artemieva I.M.__, 2002. Mantle escape inferred from seismic anisotropy in young continental orogens. ''Geophys. J. Int''., 149, 1-14. 
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__Artemieva I.M.__ and Mooney W.D., 2001. Thermal structure and evolution of Precambrian lithosphere: A global study. ''J. Geophys. Res''., 106, 16387-16414.
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