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Papers
New archeointensity data from South Brazil and the influence of the South Atlantic Anomaly in South America. Earth and Planetary Science Letters. 512:124-133.
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2019.
Speleothem record of geomagnetic South Atlantic Anomaly recurrence. Proceedings of the National Academy of Sciences. 1156481677410676452424451452441513014569535311912112226637116122276(52):13198-13203.
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2018.
AMS fabrics and emplacement model of Butiá Granite, an Ediacaran syntectonic peraluminous granite from southernmost Brazil. Journal of South American Earth Sciences. 87:25-41.
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2018.
Continuous millennial decrease of the Earth’s magnetic axial dipole. Physics of the Earth and Planetary Interiors. 274:72-86.
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2018.
Quantitative interpretation of the magnetic susceptibility frequency dependence. Geophysical Journal International. 213(2):805-814.
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2018.
Turmoil before the boring billion: Paleomagnetism of the 1880–1860 Ma Uatumã event in the Amazonian craton. Gondwana Research. 49:106-129.
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2017.
Relating the South Atlantic Anomaly and geomagnetic flux patches. Physics of the Earth and Planetary Interiors. 266:39-53.
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2017.
Linking speleothem and soil magnetism in the Pau d'Alho cave (central South America). Journal of Geophysical Research: Solid Earth. 121(10):7024-7039.
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2016.
The cooling-rate effect on microwave archeointensity estimates. Geophysical Research Letters. :n/a-n/a.
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2013.
In situ U/Pb dating of impact-produced zircons from the Vargeão Dome (Southern Brazil). Meteoritics & Planetary Science. 48(3):420-431.
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2013.
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2012.
G'day Gondwana — the final accretion of a supercontinent: U–Pb ages from the post-orogenic São Vicente Granite, northern Paraguay Belt, Brazil. Gondwana Research. 21(2-3):316-322.
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2012.
Tectonic implications of the 1419Ma Nova Guarita mafic intrusives paleomagnetic pole (Amazonian Craton) on the longevity of Nuna. Precambrian Research. 196-197:1-22.
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2012.
Tectonic implications of the 1419Ma Nova Guarita mafic intrusives paleomagnetic pole (Amazonian Craton) on the longevity of Nuna. Precambrian Research. 196-197:1-22.
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2012.
The 1420Ma Indiavaí Mafic Intrusion (SW Amazonian Craton): Paleomagnetic results and implications for the Columbia supercontinent. Gondwana Research. 22(3-4):956-973.
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2012.
New historical archeointensity data from Brazil: Evidence for a large regional non-dipole field contribution over the past few centuries. Earth and Planetary Science Letters. 306(1-2):66-76.
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2011.
Paleomagnetism and 40Ar/39Ar geochronology of the high-grade metamorphic rocks of the Jequié block, São Francisco Craton: Atlantica, Ur and beyond. Precambrian Research. 185(3-4):183-201.
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2011.
Rock magnetism of hematitic “bombs” from the Araguainha impact structure, Brazil. Geochemistry Geophysics Geosystems. 12
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2011.
Magnetic anisotropy of the Redenção granite, eastern Amazonian craton (Brazil): Implications for the emplacement of A-type plutons. Tectonophysics. 493(1-2):27-41.
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2010.
Archeointensity in Northeast Brazil over the past five centuries. Earth and Planetary Science Letters. 296(3-4):340-352.
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2010.
A late Neoproterozoic paleomagnetic pole for the Congo craton: Tectonic setting, paleomagnetism and geochronology of the Nola dike swarm (Central African Republic). Precambrian Research. 164(3-4):214-226.
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2008.
LTD-Thellier paleointensity of 1.2 Ga Nova Floresta mafic rocks (Amazon craton). Geophysical Research Letters. 34(12)
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2007.
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2007.
A red algal bloom in the aftermath of the Marinoan Snowball Earth. Terra Nova. 19(5):303-308.
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2007.
Paleomagnetic record of Africa and South America for the 1200–500Ma interval, and evaluation of Rodinia and Gondwana assemblies. Precambrian Research. 147(3-4):193-222.
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2006.