Publications

International publications

Published

[16] Pohl, A., Donnadieu, Y., Godderis, Y., Lanteaume, C., Hairabian, A., Frau, C., Michel, J., Laugié, M., Reijmer, J. J. G., Scotese, C. R. and Jean, B.: Carbonate platform production during the Cretaceous, , 1–21, doi:10.1130/B35680.1/4980955/b35680.pdf, 2020. Pdf: Pohl2020_GSAB

[15] Frau, C., Tendil, A.J.B., Pohl, A., Lanteaume, C., 2020. Revising the timing and causes of the Urgonian rudistid-platform demise in the Mediterranean Tethys. Global and Planetary Change 187, 103124. Pdf: Frau2020_Globacha

[14] Saupe, E., Qiao, H., Donnadieu, Y., Farnsworth, A., Kennedy-Asser, A., Ladant, J.-B., Lunt, D., Pohl, A., Valdes, P., Finnegan, S., 2019. Extinction intensity during Ordovician and Cenozoic glaciations explained by cooling and palaeogeography. Nature Geoscience 12, 65–70. Pdf: Saupe2019_NatGeo

[13] Laugié, M., Michel, J., Pohl, A., Poli, E., Borgomano, J., 2019. Global distribution of modern shallow-water marine carbonate factories: a spatial model based on environmental parameters. Scientific Reports. doi:10.1038/s41598-019-52821-2. Pdf: Laugie2019_SciRep

[12] Michel, J., Laugié, M., Pohl, A., Lanteaume, C., Masse, J-.P., Frau, C., Donnadieu, Y., Borgomano, J., 2019. Marine carbonate factories: a global model of carbonate platform distribution. International journal of Earth Sciences. doi:10.1007/s00531-019-01742-6. Pdf:  Michel2019_IntJEarthSciences

[11] Pohl, A., Laugié, M., Borgomano, J., Michel, J., Lanteaume, C., Scotese, C.R., Frau, C., Poli, E., Donnadieu, Y., 2019. Quantifying the paleogeographic driver of Cretaceous carbonate platform development using paleoecological niche modeling. Paleoceanography and Paleoclimatology. doi:10.1016/j.palaeo.2018.10.017. Pdf: Pohl2018_PaleoceanographyPaleoclimatology

[10] Ruvalcaba Baroni, I., Pohl, A., van Helmond, N.A.G.M., Papadomanolaki, N.M., Coe, A.L., Cohen, A.S., van de Shootbrugge, B., Donnadieu, Y., Slomp, C.P., 2018. Ocean circulation in the Toarcian (Early Jurassic): a key control on deoxygenation and carbon burial on the European Shelf. Paleoceanography and Paleoclimatology. doi:10.1029/2018PA003394. Pdf: RuvalcabaBaroni2018_PaleoceanographyPaleoclimatology

[9] Pohl., A., Austermann, J., 2018. A sea-level fingerprint of the Late Ordovician ice-sheet collapse. Geology. doi:10.1130/G40189.1. Pdf: Pohl2018_Geology

[8] Hearing, T. W., Harvey, T.H.P., Williams, M., Leng, M.J., Lamb, A.L., Wilby, P.R., Gabbott, S.R., Pohl, A., Donnadieu, Y., 2018. An early Cambrian greenhouse climate. Science Advances 4(5). doi:10.1126/sciadv.aar5690. Pdf: Hearting2018_ScienceAdvances

[7] Pohl, A., Harper, D.A.T., Donnadieu, Y., Le Hir, G., Nardin, E., Servais, T. Possible patterns of marine primary productivity during the Great Ordovician Biodiversification Event. Lethaia. doi:10.1111/let.12247 (in press, available online). Pdf: Pohl2017_Lethaia

[6] Pohl, A., Donnadieu Y., Le Hir G., Ferreira D., 2017. The climatic significance of Late Ordovician–early Silurian black shales. Paleoceanography 32(4), 397-423. doi:10.1002/2016PA003064. Pdf: Pohl2017_Paleoceanography

[5] Pohl, A., Donnadieu, Y., Le Hir, G., Ladant, J.B., Dumas, C., Alvarez-Solas, J., Vandenbroucke, T.R.A., 2016. Glacial onset predated Late Ordovician climate cooling. Paleoceanography 31, 800–821. doi:10.1002/(ISSN)1944-9186. Pdf: Pohl2016_Paleoceanography

[4] Porada, P., Lenton, T.M., Pohl, A., Weber, B., Mander, L., Donnadieu, Y., Beer, C., Pöschl, U., Kleidon, A., 2016. High potential for weathering and climate effects of non-vascular vegetation in the Late Ordovician. Nature Communications 7, 12113. doi:10.1038/ncomms12113. Pdf: Porada2016_NatCom

[3] Pohl, A., Nardin, E., Vandenbroucke, T., Donnadieu, Y., 2016. High dependence of Ordovician ocean surface circulation on atmospheric CO2 levels. Palaeogeography, Palaeoclimatology, Palaeoecology 458, 39–51. doi:10.1016/j.palaeo.2015.09.036. Pdf: Pohl2015_Paleo3

[2] Pohl, A., Donnadieu, Y., Le Hir, G., Buoncristiani, J.F., Vennin, E., 2014. Effect of the Ordovician paleogeography on the (in)stability of the climate. Climate of the Past 10, 2053–2066. doi:10.5194/cp-10-2053-2014. Pdf: Pohl2014_ClimPast

[1] Godon, C., Mugnier, J.-L., Fallourd, R., Paquette, J.-L., Pohl, A., Buoncristiani, J.-F., 2013. The Bossons glacier protects Europe’s summit from erosion. Earth and Planetary Science Letters 375, 135–147. doi:10.1016/j.epsl.2013.05.018. Pdf: Godon2013_EPSL

Scientific popularization

[1] Pohl, A., Donnadieu, Y., Le Hir, G. La modélisation peut-elle aider à comprendre le climat d’il y a 450 millions d’années? La Météorologie 105, 29–37. Pdf: Pohl2019_LaMeteorologie.