A new tektite strewn field in Australia ejected from a volcanic arc impact crater 11 Myr agoOPEN ACCESS 

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Anna Musolino, Pierre Rochette, Jean-Alix Barrat, Fred Jourdan, Bruno Reynard, Bertrand Devouard, Valerie Andrieu, Jérôme Gattacceca, Vladimir Vidal

Earth and Planetary Science Letters
Volume 670, 15 November 2025, 119600

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“Highlights

  • Former HNa/K australites are classified as a new tektite strewn field: ananguites.
  • Six new samples share properties similar to the eight previously described.
  • Ananguites are 11 Ma old and originated from an andesitic magmatic arc target lithology.
  • They show an important chondritic contamination.”

“This study re-evaluates the anomalous subgroup of australites known as high Na/K (HNa/K) tektites (Chapman and Scheiber, 1969). Although previous compositional and isotopic analyses suggested a distinct origin, the group has never been formally recognized as a separate tektite strewn field. We present new data from six HNa/K tektites, complementing the eight specimens already described. We conducted a comprehensive investigation, including petrographic (optical and electron microscopy, and micro-X-ray tomography), geochemical (major and trace element compositions, Sr-Nd isotopic composition, 40Ar/39Ar dating), and spectroscopic (for the identification of inclusions) analyses. We concluded that the HNa/K tektites originated from a separate impact event compared to Australasian tektites; they have an andesitic to dacitic composition and arc-related trace element signatures. Lechatelierite (and phosphate) inclusions as well as high levels of chondritic contamination support an impact origin, for which we provide a more precise 40Ar/39Ar age: 10.76 ± 0.05 Ma. For now, Sr-Nd isotopic data and trace elements composition point to three possible sources associated with active volcanic arcs: Luzon (Philippines), Sulawesi (Indonesia), and the Bismarck region (Papua New Guinea). Systematic petrographic and geochemical differences observed between tektites from the western and eastern parts of the ∼900-km-wide hypothesized strewn field (located in Southern Australia) may help to constrain the location of the source crater, but they need to be confirmed by the study of more specimens. We propose the name “Ananguite” for this new group of tektites.”

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