From cave geomorphology to Palaeolithic human behaviour: speleogenesis, palaeoenvironmental changes and archaeological insight in the Atxurra‐Armiña cave (northern Iberian Peninsula) /
Martin Arriolabengoa, Inaki Intxaurbe, Mª Ángeles Medina‐Alcaide, Olivia Rivero, Joseba Rios‐Garaizar, Iñaki Líbano, Peru Bilbao, Arantza Aranburu, Hai Cheng, Richard Lawrence Edwards, Diego Garate.
-- [S.l.]: Wiley Online Library, 2020
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A detailed geomorphological study was performed in the Atxurra‐Armiña cave system (northern Iberian Peninsula) to decode landscape evolution, palaeoenvironmental changes and human use of a cave within an Inner Archaeological Context. The results show an average incision rate of the river of <0.083 mm a–1 for at least the last 419 ka, with interruptions due to sedimentary inputs. Moreover, allostratigraphic units comprising fluviokarstic deposits at the base and flowstone formation at the top have been shown to be climatically controlled, formed either during glacial–interglacial cycles or during interstadial cycles. Finally, when the cave was used by humans in the Late Magdalenian, the lower entrance was closed, and they must therefore have entered the cave through the upper entrance. To reach the sectors selected to decorate the panels, they probably travelled from the upper cave level, as the current crawlway was wider than today, according to our U/Th dating. Once these visitors reached the panels, the floor in the main gallery would have been around 15 cm lower than at present. However, the morphology of the conduit was similar; this has significant implications for understanding and interpreting the human use of the cave during the Palaeolithic.
Arriolabengoa, M., Intxaurbe, I., Medina-Alcaide, M.A., Rivero, O., Rios-Garaizar, J., Libano, I., Bilbao, P., Aranburu, A., Cheng, H., Edwards, R.L., Garate, D., 2020. From cave geomorphology to Palaeolithic human behaviour: speleogenesis, palaeoenvironmental changes and archaeological insight in the
Atxurra-Armiña cave (northern Iberian Peninsula). Journal of Quaternary Science 35, 841-853. https://doi.org/10.1002/jqs.3225