mars 2008 — Exposure age chronology of the last glaciation in the eastern Pyrenees. Quaternary Research vol. 69, n° 2, p. 231-241 ISBN: 0033-5894
Publisher: Elsevier
Type: 10.1016/j.yqres.2007.11.004
,
2009 — Variability of Quaternary Glacial Erosion Rates \textendash A Global Perspective with Special Reference to the Eastern Pyrenees. Quaternary Science Reviews vol. 28, 5-6, p. 484-498 ISBN: 0277-3791
Publisher: Elsevier
Type: 10.1016/j.quascirev.2008.11.006
,
août 2018 — Terrestrial 10Be and electron spin resonance dating of fluvial terraces quantifies quaternary tectonic uplift gradients in the eastern Pyrenees. The 120 km -longTet River flows out of the Pyrenees to the Mediterranean.
By displaying a mappable sequence of Quaternary… Quaternary Science Reviews vol. 193, , p. 188-211 00017
, ISSN
02773791
octobre 2010 — Small, isolated glacial catchments as priority targets for cosmogenic surface exposure dating of Pleistocene climate fluctuations, southeastern Pyrenees. Geology vol. 38, n° 10, p. 891-894 Publisher: Geological Society of America
,
2011 — Palaeogeography and 10Be exposure-age chronology of Middle and Late Pleistocene glacier systems in the northern Pyrenees: implications for reconstructing regional palaeoclimates. Palaeogeography, Palaeoclimatology, Palaeoecology vol. 305, 1-4, p. 109-122 Publisher: Elsevier
,
2022 — « The Pyrenees: glacial landforms prior to the Last Glacial Maximum » in European Glacial Landscapes.. , , dir. Elsevier p. 295-307
,
2022 — « Glacial landscape of the Pyrenees » in European Glacial Landscapes. Maximum Extent of Glaciations.. , , dir. Elsevier p. 123-128
,
2022 — « The Pyrenees: glacial landforms from the Last Glacial Maximum » in European Glacial Landscapes.. , , dir. Elsevier p. 461-472
,
2023 — « The Pyrenees: environments and landforms in the aftermath of the LGM (18.9–14.6 ka) » in European Glacial Landscapes.. , , dir. Elsevier p. 185-200
,
2022 — Geology and Landscapes of the Eastern Pyrenees. , , dir. Springer International Publishing
,
mai 2021 — Climatic conditions between 19 and 12 ka in the eastern Pyrenees, and wider implications for atmospheric circulation patterns in Europe. Quaternary Science Reviews vol. 260, , p. 106923 Publisher: Elsevier
,
2023 — « The Pyrenees: glacial landforms from the Younger Dryas (12.9–11.7 ka) » in European Glacial Landscapes.. , , dir. Elsevier p. 541-552
,
2023 — « The Pyrenees: glacial landforms from the Bølling–Allerød Interstadial (14.6–12.9 ka) » in European Glacial Landscapes.. , , dir. Elsevier p. 361-368
,
juin 2017 — Of ice and water: Quaternary fluvial response to glacial forcing. Quaternary Science Reviews , , Publisher: Elsevier
,
juillet 2018 — Rapid age assessment of glacial landforms in the Pyrenees using Schmidt hammer exposure dating (SHED). Quaternary Research vol. 90, n° 1, p. 26-37 Publisher: Elsevier
,
2015 — Cave levels as proxies for measuring post-orogenic uplift: Evidence fromcosmogenic dating of alluvium-filled caves in the French Pyrenees. Geomorphology vol. 246, , p. 617-633 Publisher: Elsevier
,
2011 — « Chapitre 11: Recent Advances in Research on Quaternary Glaciations in the Pyrenees » in Quaternary Glaciations - Extent and ChronologyA Closer Look.. vol. 15, , dir. Elsevier p. 127-139
,
2008 — « Géomorphogenèse des Pyrénées » in Pyrénées d’hier et d’aujourd’hui.. , , dir. Atlantica Eds p. 129-143
,
2006 — Datations cosmogéniques dans le bassin glaciaire de la Têt (massif du Carlit, Pyrénées orientales). Aspects méthodologiques.. Environnements périglaciaires vol. 13, , p. 13-24
,
février 2014 — Environmental controls on alpine cirque size. Geomorphology vol. 206, , p. 318–329 Publisher: Elsevier
,