{"id":24,"date":"2025-03-18T14:49:31","date_gmt":"2025-03-18T13:49:31","guid":{"rendered":"https:\/\/personal.unizar.es\/alegret2\/?page_id=24"},"modified":"2026-04-14T14:45:24","modified_gmt":"2026-04-14T12:45:24","slug":"publicaciones-cientificas","status":"publish","type":"page","link":"https:\/\/personal.unizar.es\/alegret2\/publicaciones-cientificas\/","title":{"rendered":"Publicaciones cient\u00edficas"},"content":{"rendered":"

[et_pb_section fb_built=\u00bb1″ disabled_on=\u00bbon|off|off\u00bb _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||0px|||\u00bb sticky_position=\u00bbtop\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb27px||7px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb sticky_position=\u00bbtop\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2026 <\/a>– <\/span>2025\u00a0<\/a>2024<\/a>\u00a0– 2023<\/a> – 2022<\/a> – 2021<\/a> – 2020<\/a> – 2019<\/a> – 2018<\/a> – 2017<\/a> – 2016<\/a> – 2015<\/a> – 2014<\/a> – 2013<\/a> – 2012<\/a> – 2011<\/a>–
2010<\/a> –2009<\/a> – 2008<\/a> – 2007<\/a> – 2006<\/a> – 2005<\/a> – 2004<\/a> – 2003<\/a> – 2002<\/a> – 2001<\/a> – 2000<\/a> – 1999<\/a> – 1998<\/a><\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ disabled_on=\u00bboff|on|on\u00bb _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||0px|||\u00bb sticky_position=\u00bbtop\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb27px||7px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2026<\/a>\u00a0– <\/span>2025\u00a0<\/a>2024<\/a>\u00a0– 2023<\/a> – 2022<\/a> – 2021<\/a> – 2020<\/a> –
2019 <\/a>– 2018<\/a> – 2017<\/a> – 2016<\/a> – 2015<\/a> – 2014<\/a> – 2013<\/a> –
<\/span>2012<\/a>– 2011<\/a>– 2010<\/a> –\u00a02009<\/a> – 2008<\/a> – 2007<\/a> – 2006<\/a> –
2005<\/a> – 2004<\/a> – 2003<\/a> – 2002<\/a> – 2001<\/a> – 2000<\/a> – 1999<\/a>
1998<\/a><\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||0px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb46px||7px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

Selecci\u00f3n de publicaciones cient\u00edficas<\/span><\/h3>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb||0px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text module_id=\u00bb2026″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2026<\/b><\/p>\n

– <\/span>Lu, Z., Xue, K., Deng, Y., Fan, J., MacLeod, N., Fang, P., Wade, B.S., Alegret, L., Benton, M.J., Wu, Y., Qian, C., Hou, X., Shi, Y., Sadler, P., Xu, H., Zhou, Z.H., Shen, S. (2025). Complex marine ecological response during the Eocene-Oligocene revealed by global foraminiferal record. Nature Communications<\/em>, https:\/\/doi.org\/10.1038\/s41467-026-70541-w<\/a><\/p>\n

– Caratelli, M., Citton, P., Archuby, F.M., Alegret, L. (2026). Benthic foraminiferal assemblages across the K\/Pg transition in northern Patagonia, Argentina: palaeoenvironmental constraints. Papers in Palaeontology<\/em>, en prensa.<\/p>\n

[\/et_pb_text][et_pb_text module_id=\u00bb2025″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2025<\/b><\/p>\n

-Lu, Z., Fan, J., Wade, B.S., Ogg, J., Alegret, L., Sadler, P.M., Stephenson, M.H., Shi, Y., Qian, C., Xue, K. (2025). Improving the temporal resolution of middle Eocene-early Miocene biomagneto-chronology: Insights from CONOP and chronologic significance of biotic events. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 669, 112929, doi: https:\/\/doi.org\/10.1016\/j.palaeo.2025.112929.<\/span><\/p>\n

–<\/span>Patarroyo, G., Kochmann, K.G.D., Alegret, L., Bom., M.H.H., Esswein, A., Meirelles, V. (2025). Sedimentary mercury concentrations as a proxy for volcanic activity in the Maastrichtian tropical ocean. Evolving Earth<\/em>, 3, 100090: 1-11. https:\/\/doi.org\/10.1016\/j.eve.2025.100090<\/a><\/p>\n

-Pe\u00f1alver-Clavel, I., Batenburg, S.J., Sutherland, R., Dallanave, E., Dickens, G.R., Westerhold, T., Agnini, C., Alegret, L.(2025). Intensified bottom water formation in the southwest Pacific during the early Eocene greenhouse \u2013 insights from neodymium isotopes. <\/span>Geology<\/span><\/i>, <\/span>https:\/\/doi.org\/10.1130\/G52974.1<\/span><\/a>.<\/span><\/p>\n

-Sigismondi, S., Luciani, V., Alegret, L., Westerhold, T. (2025). Evaluating planktic foraminiferal resilience during the Middle Eocene Climatic Optimum (MECO) in the Atlantic Ocean. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 667, 112867, doi: 10.1016\/j.palaeo.2025.112867.<\/span><\/p>\n

– Pe\u00f1alver-Clavel, I., Westerhold, T., Alegret, L. (2025). Deep-sea benthic foraminiferal response to the Late Lutetian Thermal Maximum at Demerara Rise (ODP Site 1260, equatorial western Atlantic). Journal of Micropaleontology<\/em>, 44: 713-731. https:\/\/jm.copernicus.org\/articles\/44\/713\/2025\/<\/a><\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2024″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2024<\/b><\/p>\n

-Alegret L. (2024). <\/span>La especie de cambi\u00f3 el clima del futuro, y se asust\u00f3 leyendo el pasado.<\/span><\/i> Prensas de la Universidad de Zaragoza, 1\u00aa edici\u00f3n, Zaragoza. ISBN: 978-84-1340-806-4. <\/span>https:\/\/puz.unizar.es\/2962-la-especie-que-cambio-el-clima-del-futuro-y-se-asusto-leyendo-el-pasado.html<\/span><\/a><\/p>\n

-Alegret L. (2024). <\/span>Cambio clim\u00e1tico y f\u00f3siles: una mirada al pasado para entender el futuro.<\/span><\/i> Fundaci\u00f3n Duques de Soria para la Ciencia y la Cultura Hisp\u00e1nica, 1\u00aa edici\u00f3n, Convento de la Merced, Soria, 46 pp. ISBN: 978-84-09-6734-7<\/span><\/p>\n

-Alegret, L. (2024). Contestaci\u00f3n de la Excma. Sra. D\u00aa. Laia Alegret Badiola al discurso de entrada en la Real Academia de Ciencias Exactas, F\u00edsicas y Naturales de Espa\u00f1a del Excmo. Sr. D. Jes\u00fas Mart\u00ednez Fr\u00edas. Geolog\u00eda planetaria: la importancia de los an\u00e1logos terrestres en la investigaci\u00f3n paleoambiental y astrobiol\u00f3gica de Marte. Madrid, ISBN 978-84-87125-86-7, pp. 79-87. <\/span>https:\/\/rac.es\/ficheros\/doc\/7307eed29599d9e8.pdf<\/span><\/a><\/p>\n

-Burkett, A., Huber, B.T., Young, J.R., Katz, M.E., Borrelli, C., Fung, M.K., De Mello, R., Kochann, K.G.D., Dameron, S.N., Thomas, E., Alegret, L. 2024. BForams@Mikrotax: an online database for deep-sea benthic foraminiferal taxonomy. <\/span>Journal of Foraminiferal Research<\/span><\/i>, 54 (4): 394-403.<\/span><\/p>\n

-De Entrambasaguas, J., Westerhold, T., Jones, H.L., Alegret, L. (2024). Transient micropaleontological turnover across a late Eocene (Priabonian) carbon and oxygen isotope shift on Blake Nose (NW Atlantic).<\/span>
<\/span>Journal of Micropaleontology<\/span><\/i>, 43: 303\u2013322. <\/span>https:\/\/doi.org\/10.5194\/jm-43-303-2024<\/span><\/a><\/p>\n

-Gastaldello, M.E., Agnini, C., Alegret, L. (2024). Late Miocene-Early Pliocene benthic foraminifera from the Tasman Sea (IODP Site U1506). <\/span>Journal of Micropaleontology<\/span><\/i>, 43: 1-35, doi: 10.5194\/jm-43-1-2024. <\/span>https:\/\/doi.org\/10.5194\/jm-43-1-2024<\/span><\/a><\/p>\n

-Gastaldello, M.E., Agnini, C., Westerhold, T., Drury, A.J., Alegret, L. (2024). A benthic foraminifera perspective of the Late Miocene-Early Pliocene Biogenic Bloom at ODP Site 1085 (Southeast Atlantic Ocean).<\/span>
<\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 638, 112040, doi: 0.1016\/j.palaeo.2024.112040, <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2024.112040<\/span><\/a><\/p>\n

-Gastaldello, M.E., Agnini, C., Westerhold, T., Drury, A.J., Alegret, L. (2024). Unravelling changes in the productivity regime during the Late Miocene-Early Pliocene Biogenic Bloom: Insights from the western equatorial Pacific (IODP Site U1488). <\/span>Marine Micropaleontology<\/span><\/i> 191 (2024) 102395, doi: 0.1016\/j.marmicro.2024.102395. <\/span>https:\/\/doi.org\/10.1016\/j.marmicro.2024.102395<\/span><\/a><\/p>\n

-Gastaldello, M., Agnini, C., Alegret, L. (2024). Ocean bottom-water oxygenation across the Late Miocene-Early Pliocene Biogenic Bloom. <\/span>Spanish Journal of Palaeontology<\/span><\/i> 39 (1), 1\u201314, doi: 10.7203\/sjp.28131.\u00a0 <\/span>https:\/\/doi.org\/10.7203\/sjp.28131<\/span><\/a><\/p>\n

-Kaminski, M.A., Korin, A., Hikmahtiar, S., Alegret, L., Waskowska, A. (2024). Paleocene and Eocene deep-water benthic foraminifera at IODP Site U1511, Tasman Sea: Part 2. <\/span>Micropaleontology<\/span><\/i>, 70 (3): 271-285, <\/span>doi: 10.47894\/mpal.70.3.06<\/span><\/a>, <\/span>https:\/\/zaguan.unizar.es\/record\/144746<\/span><\/a><\/p>\n

-Kaminski, M.A., Korin, A., Hikmahtiar, S., Alegret, L., Waskowska, A. (2024). The global extent of Paleocene to Eocene deep-water agglutinated foraminiferal acmes. <\/span>Stratigraphy<\/span><\/i>, 21 (4): 279-286.<\/span><\/p>\n

-Pe\u00f1alver-Clavel, I., Agnini, C., Westerhold, T., Cramwinckel, M.J., Dallanave, E., Bhattacharya, J., Sutherland, R., Alegret, L. (2024). Integrated record of the Late Lutetian Thermal Maximum at IODP Site U1508, Tasman Sea: The deep-sea response.<\/span>Marine Micropaleontology<\/span><\/i> 191 (2024) 102390, doi: 0.1016\/j.marmicro.2024.102390. <\/span>https:\/\/doi.org\/10.1016\/j.marmicro.2024.102390<\/span><\/a><\/p>\n

-Vigan\u00f2, A., Dallanave, E., Alegret, L., Westerhold, T., Sutherland, R., Dickens,\u00a0 G.R., Agnini, C. (2024). Calcareous nannofossils and paleoclimatic evolution across the Eocene-Oligocene Transition at IODP Site U1509, Tasman Sea, Southwest Pacific Ocean. <\/span>Paleoceanography and Paleoclimatology<\/span><\/i>, 39, e2023PA004738. doi: 10.1029\/2023PA004738, <\/span>https:\/\/zaguan.unizar.es\/record\/132859<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2023″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2023<\/b><\/p>\n

-Alegret L. (2023). <\/span>Los foramin\u00edferos bent\u00f3nicos en el estudio de fen\u00f3menos globales: del cambio clim\u00e1tico a la exploraci\u00f3n de un continente sumergido. <\/span><\/i>Discurso le\u00eddo en el acto de su recepci\u00f3n como Acad\u00e9mica de N\u00famero por la Excma. Sra. D\u00aa. Laia Alegret Badiola y contestaci\u00f3n del Excmo. Sr. D. Antonio Cendrero Uceda. Madrid, ISBN 978-84-87125-80-5, 80 pp. <\/span>https:\/\/rac.es\/ficheros\/doc\/0c97be383ac25da3.pdf<\/span><\/a><\/p>\n

-Alegret, L. (2023). Micropaleontolog\u00eda en evoluci\u00f3n: los foramin\u00edferos en el estudio del cambio clim\u00e1tico y otros eventos globales. En: <\/span>Memoria de las XIV Jornadas Aragonesas de Paleontolog\u00eda \u201cPaleontolog\u00eda en Evoluci\u00f3n\u201d<\/span><\/i>. Publicaci\u00f3n n\u00ba 3936 de la Instituci\u00f3n \u201cFernando el Cat\u00f3lico\u201d, Zaragoza, p. 145-164. ISBN 978-84-9911-695-2<\/span><\/p>\n

-Gastaldello, M.E., Agnini, C., Westerhold, T., Drury, A.J., Drake, M.K., Lam, A.R., Burns, S., Dallanave, E., Dickens, G.R., Sutherland, R., Alegret, L. (2022). The Late Miocene-Early Pliocene biogenic Bloom: an integrated study in the Tasman Sea. <\/span>Paleoceanography and Paleoclimatology<\/span><\/i>, 38, e2022PA004565. <\/span>https:\/\/doi.org\/10.1029\/2022PA004565<\/span><\/a><\/p>\n

-Jones, H., Westerhold, T., Birch, H., Hull, P., Negra, M.H., R\u00f6hl, U., Sep\u00falveda, J., Vellekoop, J., Whiteside, J., Alegret, L., Henehan, M., Robinson L., van Dijk, J., Bralower, T. (2023). Stratigraphy of the Cretaceous\/Paleogene (K\/Pg) boundary at the Global Stratotype Section and Point (GSSP) in El Kef, Tunisia: New insights from the El Kef Coring Program. <\/span>GSA Bulletin<\/span><\/i> 2023, <\/span>https:\/\/doi.org\/10.1130\/B36487.1<\/span>
<\/span>
<\/span><\/a>-Patarroyo, G., Kochmann, K.G.D., Guerra, R., Alegret, L., Ceolin, D., Torres, J.M. (2022). Maastrichtian microfossils of the shallow marine Umir Formation, NE Colombia. <\/span>Ameghiniana<\/span><\/i>, 60 (4): 297-311, doi: 10.5710\/AMGH.02.03.2023.3525, <\/span>https:\/\/zaguan.unizar.es\/record\/129388<\/span><\/a><\/p>\n

-Vigan\u00f2, A., Dallanave, E., Alegret, L., Westerhold, T., Sutherland, R., Dickens, G.R., Newsam, C., Agnini, C. (2023). Calcareous nannofossil biostratigraphy and biochronology across the Eocene-Oligocene transition: the record at IODP Site U1509 (Tasman Sea) and a global overview. <\/span>Newsletters on Stratigraphy<\/span><\/i>, 57 (1): 1-23, doi.10.1127\/nos\/2023\/0751, <\/span>https:\/\/zaguan.unizar.es\/record\/132146<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2022″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2022<\/b><\/p>\n

-Alegret, L., Arregu\u00edn-Rodr\u00edguez, G. J., Thomas, E. (2022). Oceanic productivity after the Cretaceous\/Paleogene impact: where do we stand? The view from the deep. In: Koeberl, C., Claeys, P., Montanari, A., eds., <\/span>From the Guajira desert to the Apennines, and from Mediterranean microplates to the Mexican killer asteroid: Honoring the career of Walter Alvarez<\/span><\/i>. Geological Society of America Special Paper 557<\/span>, <\/span><\/i>chapter 21, <\/span>https:\/\/doi.org\/10.1130\/2022.2557(21)<\/span><\/a>, open access.\u00a0<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Thomas, E., Alegret, L. (2022). Some like it cool: Benthic foraminiferal response to Paleogene warming events. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, \u00a0593, 110925, doi: <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2022.110925<\/span><\/p>\n

-Crouch, E.M., Clower, C.D., Raine, J.I., Alegret, L., Cramwinckel, M.J., Sutherland, R. (2022). Latest Cretaceous and Paleocene biostratigraphy and paleogeography of northern Zealandia, IODP Site U1509, New Caledonia Trough, southwest Pacific. <\/span>New Zealand Journal of Geology and Geophysics<\/span><\/i>\u00a0doi.org\/10.1080\/00288306.2022.2090386. <\/span>e-print<\/span><\/p>\n

<\/span><\/a><\/p>\n

-Dallanave, E., Sutherland, R., Dickens, G.R., Chang, L., Tema, E., Alegret, L., Agnini, C., Westerhold, T., Newsam, C., Lam, A.R., Stratford, W., Collot, J., Etienne, S., von Dobeneck, T. (2022). Middle Eocene.early Miocene absolute paleolatitude of northern Zealandia. <\/span>Journal of Geophysical Research \u2013 Solid Earth<\/span><\/i>, 127 (9), e2022JB024736. <\/span>https:\/\/doi.org\/10.1029\/2022JB024736<\/span><\/a><\/p>\n

-Kim, J-E., \u00a0Westerhold, T., Alegret, L., Drury, A.J., R\u00f6hl, U., Griffith, E.M. (2022). Precessional pacing of tropical ocean carbon export during the Late Cretaceous. <\/span>Climate of the Past<\/span><\/i>, <\/span>Dicussions<\/span><\/i>: <\/span>https:\/\/doi.org\/10.5194\/cp-2022-42<\/span><\/a> Published manuscript<\/span><\/i>: <\/span>Climate of the Past<\/span><\/i>, 18 (12) , pp. 2631-2641, <\/span>https:\/\/doi.org\/10.5194\/cp-18-2631-2022<\/span><\/a><\/p>\n

-Patarroyo, G., Kochmann, K.G.D., Ceolin, D., Guerra, R., Alegret, L., Bom, M.H.H. (2022). Paleoenvironmental changes recorded at a late Maastrichtian marine succession of northern South America. <\/span>Journal of South American Earth Sciences<\/span><\/i>, 119, 104015, doi: 0.1016\/j.jsames.2022.104015.<\/span><\/p>\n

-Pujalte, V., Alegret, L., Hilario, A. (2022). Cretaceous-Paleogene stratigraphic section of Zumaia. En: Hilario et al., eds., <\/span>The First 100 IUGS Geological Heritage Sites<\/span><\/i>, ISBN 978-1-7923-9975-6, International Union of Geological Sciences, p. 70-71.<\/span><\/p>\n

-Stratford, W.R., Sutherland, R., Dickens, G.R., Blum, P., Collot, J., Gurnis, M., Saito, S., Agnini, C., Alegret, L., Bordenave, A., Asatryan, G., Bhattacharya, J., Chang, L., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Westerhold, T., Zhou, X. (2022). Timing of Eocene compressional plate failure during subduction initiation, northern Zealandia, southwestern Pacific. <\/span>Geophysical Journal International<\/span><\/i>, 229 (3): 1567-1585. doi:<\/span> 10.1093\/gji\/ggac016<\/span><\/a>, <\/span>https:\/\/academic.oup.com\/gji\/article\/229\/3\/1567\/6516329<\/span><\/a><\/p>\n

-Sutherland, R., Dos Santos, Z., Agnini, C., Alegret, L., Lam, A.R., Drake, M.K., Harper, D.T., Dallanave, E., Newsam, C., Cramwinkel, M.J., Dickens, G.R., Collot, J., Etienne, S., Bordenave, A., Stratford, W.R., Zhou, X., Asatryan, G. (2022). Neogene mass accumulation rate of carbonate sediment in the Tasman Sea, southwest Pacific. <\/span>Paleoceanography and Paleoclimatology<\/span><\/i> 37, e2021PA004294. Doi: <\/span>10.1029\/2021PA004294<\/span><\/a>, open access.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2021″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2021<\/b><\/p>\n

-Alegret, L., Arregu\u00edn-Rodr\u00edguez, G. J., Trasvi\u00f1a-Moreno, C.A.,<\/span> Thomas, E. 2021 (published online 2020). Turnover and stability in the deep sea: benthic foraminifera as tracers of Paleogene global change. <\/span>Global and Planetary Change<\/span><\/i>, 196 (2021), 103372, doi: 10.1016\/j.gloplacha.2020.103372. <\/span>https:\/\/www.sciencedirect.com\/science\/article\/pii\/S0921818120302630<\/span><\/a><\/p>\n

-Alegret, L., Harper, D.T., Agnini, C., Newsham, C., Westerhold, T., Cramwinckel, M. J., Dallanave, E., Dickens, G. R., Sutherland, R. 2021. Biotic Response to early Eocene Warming Events: Integrated Record from Offshore Zealandia, north Tasman Sea. <\/span>Paleoceanography and Paleoclimatology<\/span><\/i>, 36, e2020PA004179. <\/span>https:\/\/doi.org\/10.1029\/2020PA004179<\/span><\/a><\/p>\n

-Alegret, L., Hayward, B.W., Leckie, R.M., Pearson, P.N. 2021. The 2020 Joseph A. Cushman award to Ellen Thomas. <\/span>Journal of Foraminiferal Research<\/span><\/i>, (2021) 51 (1): 1\u20133. doi: <\/span>10.2113\/gsjfr.51.1.1<\/span><\/a>, <\/span>https:\/\/www.researchgate.net\/publication\/349985285_2020_Joseph_A_Cushman_Award_to_Ellen_Thomas<\/span><\/a><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Trasvi\u00f1a-Moreno, C. A., Thomas, E., Alegret, L. 2021. Updating a Paleogene magnetobiochronological time scale through graphical integration<\/span>. MethodsX<\/span><\/i>, Volume 8, 2021, 101291, doi: <\/span>https:\/\/doi.org\/10.1016\/j.mex.2021.101291<\/span><\/a>, open access.<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Barnet, J., Leng, M., Littler, K., Kroon, D., Schmidt, D., Thomas, E., Alegret, L. 2021. Benthic foraminiferal turnover across the Dan-C2 event in the eastern South Atlantic Ocean (ODP Site 1262). <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 572, 110410, doi: 10.1016\/j.palaeo.2021.110410. <\/span>Access<\/span>
<\/span>
<\/span><\/a>-DeMiguel, D., Brilha, J., Alegret, L., Arenillas, I., Arz, J.A., Gilabert, V., Strani, F., Valenciano, A., Villas, E., Azanza, B. 2021. Linking geological heritage and geoethics with a particular emphasis on palaeontological heritage: the new concept of ‘palaeontoethics’. <\/span>Geoheritage<\/span><\/i>, 13:69, doi: <\/span>10.1007\/s12371-021-00595-3<\/span><\/a> open access.<\/span>
<\/span>
<\/span>-Kaminski, M.A., Alegret, L., Hikmahtiar, S., Waskowska, A. 2021. The Paleocene of IODP Site U1511, Tasman Sea: A lagerst\u00e4tte deposit for deep-water agglutinated foraminifera. <\/span>Micropaleontology<\/span><\/i>, 67 (4): 341-364, http:\/\/doi.org\/10.47894\/mpal.67.4.02. <\/span>Link<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2020″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2020<\/b><\/p>\n

-Hull, P., Bornemann, A., Penman, D., Henehan, M.J., Norris, R.D., Wilson, P.A., Blum, P., Alegret, L., Batenburg, S., Bown, P., Bralower, T.J., Cournede, C., Deutsh, A., Donner, B., Friedrich, O., Jehle, S., Kim, H., Kroon, D., Lippert, P., Loroch, D., Moebius, I., Moriya, K., Peppe, D.J., Ravizza, G., R\u00f6hl, U., Schueth, J.D., Sepulveda, J., Sexton, P., Sibert, E., Sliwinska, K., Summons, R., Thomas, E., Westerhold, T., Whiteside, J., Yamaguchi, T., Zachos, J.C. 2020. On Impact and Volcanism across the Cretaceous-Paleogene Boundary. <\/span>Science<\/span><\/i> 367, 266-272. <\/span>https:\/\/doi.org\/10.1126\/science.aay5055<\/span><\/a><\/p>\n

-Cotton, L., Rivero Cuesta, L., Franceschetti, G., Iakovleva, A., Alegret, L., Dinar\u00e8s-Turell, J., Hooker, J.J., King, C., Fluegeman, R.H., Yager, S.L., Monechi, S. 2021 (online 2020). Reassessing the Bartonian unit stratotype at Alum Bay (Isle of Wight, UK): an integrated approach. <\/span>Newsletters\u00a0on\u00a0Stratigraphy<\/span><\/i>, 54 (1): 17-42. Published online June 2020, doi: <\/span>10.1127\/nos\/2020\/0563<\/span><\/a>.<\/span><\/p>\n

-Rivero-Cuesta, L., Westerhold, T., Alegret, L. 2020. The Late Lutetian Thermal Maximum (middle Eocene): first record of deep-sea benthic foraminiferal response. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 545, <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2020.109637<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., Zhou, X. 2020. Continental-scale geographic change across Zealandia during Paleogene subduction initiation. <\/span>Geology<\/span><\/i>, 48, <\/span>https:\/\/doi.org\/10.1130\/G47008.1<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2019″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2019<\/b><\/p>\n

-Alegret, L. 2019. Memorial to Eustoquio Molina (1950-2018). <\/span>Journal of Foraminiferal Research<\/span><\/i>, 49 (2): 105-106. <\/span>doi.org\/10.2113\/gsjfr.49.2.105<\/span><\/a>, <\/span>https:\/\/zaguan.unizar.es\/record\/153194<\/span><\/p>\n

-Henehan, M., Ridgwell, A., Thomas, E., Zhang, S., Alegret, L., Schmidt, D.N., Rae, J.W.B., Witts, J.D., Landman, N.H., Greene, S., Huber, B.T., Super, J., Planavsky, N.J., Hull, P.M. 2019. Rapid ocean acidification and phased biogeochemical recovery following the end-Cretaceous Chicxulub impact. PNAS, 21 oct 2019, 116 (45) 22500-22504 <\/span>https:\/\/www.pnas.org\/content\/early\/2019\/10\/15\/1905989116<\/span><\/a><\/p>\n

-Rivero-Cuesta, L., Westerhold, T., Agnini, C., Dallanave, E., Wilkens, R.H., Alegret, L. 2019. Paleoecological changes at ODP Site 702 (South Atlantic): anatomy of the Middle Eocene Climatic Optimum. <\/span>Paleoceanography and Paleoclimatology, 34<\/span><\/i> https:\/\/doi.org\/ 10.1029\/2019PA003806<\/span><\/a>.\u00a0<\/span><\/p>\n

-Sep\u00falveda, J., Alegret, L., Haddad, E., Cao, C., Thomas, E., Summons, R. 2019. Stable isotope constraints on marine productivity across the Cretaceous\/Paleogene mass extinction. <\/span>Paleoceanography and Paleoclimatology<\/span><\/i>, 34: 1195-1049. <\/span>https:\/\/doi.org\/10.1029\/2018PA003442<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, 2019. Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program).<\/span> https:\/\/doi.org\/10.14379\/iodp.proc.371.2019<\/span><\/a><\/p>\n

Expedition reports:<\/span>
<\/span>-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Expedition 371 summary. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.101.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Expedition 371 methods. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.102.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1506. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.103.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1507. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.104.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Asatryan, G., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1508. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.105.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1509. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.106.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1510. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.107.2019<\/span><\/a><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Agnini, C., Alegret, L., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X., 2019. Site U1511. In Sutherland, R., Dickens, G.R., Blum, P., and the Expedition 371 Scientists, Tasman Frontier Subduction Initiation and Paleogene Climate. Proceedings of the International Ocean Discovery Program, 371: College Station, TX (International Ocean Discovery Program). <\/span>https:\/\/doi.org\/10.14379\/iodp.proc.371.108.2019<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2018″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2018<\/b><\/p>\n

-Alegret L., Reolid, M., Vega P\u00e9rez, M. Environmental instability during the latest Paleocene at Zumaia (Basque-Cantabric Basin): the herald of the Paleocene Eocene Thermal Maximum. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 497: 186-200. <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2018.02.018<\/span><\/a><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., \u00a0Thomas, E., D\u2019haenens, S., Speijer R.P., Alegret, L. 2018. Early Eocene deep-sea benthic faunas: Recovery in globally warm oceans. PloS ONE, 13(2): e0193167. <\/span>https:\/\/doi.org\/10.1371\/journal.pone.0193167<\/span><\/a><\/p>\n

-Dunkley Jones, T., Manners, H. R., Hoggett, M., Kirtland Turner, S., Westerhold, T., Leng, M. J., Pancost, R. D., Ridgwell, A., Alegret, L., Duller, R., Grimes, S. T. 2018. Dynamics of sediment flux to a bathyal continental margin section through the Paleocene\u2013Eocene Thermal Maximum. <\/span>Climate of the Past<\/span><\/i>, 14, 1035-1049, <\/span>https:\/\/www.clim-past.net\/14\/1035\/2018\/<\/span><\/a><\/p>\n

-Rivero-Cuesta, L., Molina, E., Alegret, L. 2018. Eocene (Bartonian) benthic foraminifera and paleoenvironmental turnover in the Western Tethys. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 503: 102-111. doi: 10.1016\/j.palaeo.2018.05.003<\/span><\/p>\n

-Sutherland, R., Dickens, G.R., Blum, P., Asatryan, G., Agnini, C., Alegret, L., Bhattacharya, J., Bordenave, A., Chang, L., Collot, J., Cramwinckel, M.J., Dallanave, E., Drake, M.K., Etienne, S.J.G., Giorgioni, M., Gurnis, M., Harper, D.T., Huang, H.-H.M., Keller, A.L., Lam, A.R., Li, H., Matsui, H., Morgans, H.E.G., Newsam, C., Park, Y.-H., Pascher, K.M., Pekar, S.F., Penman, D.E., Saito, S., Stratford, W.R., Westerhold, T., and Zhou, X. 2018. International Ocean Discovery Program Expedition 371 Preliminary Report,\u00a0Tasman Frontier Subduction Initiation and Paleogene Climate. <\/span>http:\/\/publications.iodp.org\/preliminary_report\/371\/<\/span><\/a>. doi:10.14379\/iodp.pr.371.2018<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2017″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2017<\/b><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J. & Alegret, L. 2017. Eocene agglutinated foraminifera at NE Atlantic DSDP Site 550: assemblage turnover across hyperthermal events. In: <\/span>Proceedings of the 9th International Workshop on Agglutinated Foraminifera<\/span><\/i> (M. Kaminski and L. Alegret, eds.), <\/span>Grzybowski Foundation Special Publication<\/span><\/i><\/a>, 22: 1-8.<\/span><\/p>\n

-Dunkley Jones, T., Manners, H., Hoggett, M., Kirkland Turner, S., Westerhold, T., Leng, M.J., Pancost, R.D., Ridgwell, A., Alegret, L., Duller, R., Grimes, S.T. 2017. Orbital forcing of terrestrial hydrology, weathering and carbon sequestration during the Palaeocene-Eocene Thermal Maximum. <\/span>Climate of the Past Discussions<\/span><\/i>, <\/span>https:\/\/www.clim-past-discuss.net\/cp-2017-131\/<\/span><\/a><\/p>\n

-Monechi, S., Vandenberghe, N., Alegret, L. 2017. Advances in Paleogene research <\/span>Newsletters on Stratigraphy<\/span><\/i>, 50 (3): 227-229.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2016″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2016<\/b><\/p>\n

-Alegret L., Ortiz S., Arregu\u00edn-Rodr\u00edguez, G. J.,, Monechi, S., Mill\u00e1n, I., Molina, E. 2016. The Latest Danian Event at Caravaca, Spain (western Tethys): biostratigraphy and paleoenvironmental inferences based on microfossils and stable isotopes. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 463: 45-59. DOI <\/span>10.1016\/j.palaeo.2016.09.013<\/span><\/a>.<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Alegret, L. 2016. Deep-sea benthic foraminiferal turnover across early Eocene hyperthermal events at Northeast Atlantic DSDP Site 550. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology,<\/span><\/i> 451: 62-72. <\/span>http:\/\/dx.doi.org\/10.1016\/j.palaeo.2016.03.010<\/span><\/a><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Alegret, L., Thomas, E. 2016. Late Paleocene \u2013 middle Eocene benthic foraminifera on a Pacific Seamount (Allison Guyot, ODP Site 865): Greenhouse Climate and superimposed hyperthermal events. <\/span>Paleoceanography<\/span><\/i>, doi 10.1002\/2015PA002837, <\/span>https:\/\/doi.org\/10.1002\/2015PA002837<\/span><\/a><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J. and Alegret, L. (2016). Eocene agglutinated foraminifera at NE Atlantic DSDP Site 550: assemblage turnover across hyperthermal events. In: (M. Kaminski & L. Alegret, eds.), <\/span>Grzybowski Foundation Special Publication<\/span><\/i><\/a>, 22, p. 1-8. ISBN 978-83-941956-1-8<\/span><\/p>\n

-Kaminski, M. A. and Alegret L. (Eds.) (2016). Proceedings of the Ninth International Workshop on Agglutinated Foraminifera.<\/span> Grzybowski Foundation Special Publication<\/span><\/i>, 22, 410 pp. ISBN 978-83-941956-1-8<\/span><\/p>\n

-Reolid, M., S\u00e1nchez-Qui\u00f1\u00f3nez, C.A., Alegret, L. & Molina, E. 2016. Foraminiferal assemblages and geochemical proxies for interpreting the impact of the Oceanic Anoxic Event 2 (Cenomanian-Turonian transition) in the South Iberian Palaeomargin. <\/span>Cretaceous Research<\/span><\/i>, 60: 1-27. <\/span>https:\/\/zaguan.unizar.es\/record\/61854<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2015″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2015<\/b><\/p>\n

-Alegret, L., Rodr\u00edguez-Tovar, F.J. & Uchman, A. 2015. How bioturbation obscured the Cretaceous-Paleogene boundary record. <\/span>Terra Nova<\/span><\/i>, 27: 225-230. DOI: 10.1111\/ter.12151<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J. & Alegret, L. 2015. Experimentos de disoluci\u00f3n de CaCO3 en foramin\u00edferos bent\u00f3nicos aglutinados del Paleoceno-Eoceno. <\/span>Estudios Geol\u00f3gicos<\/span><\/i>, 71(1): e023. http:\/\/dx.doi.org\/10.3989\/egeol.41758.330.<\/span><\/p>\n

-Reolid, M., S\u00e1nchez-Qui\u00f1\u00f3nez, C.A., Alegret, L. & Molina, E. 2015. Paleoenvironmental turnover across the Cenomanian-Turonian transition in Oued Bahloul, Tunisia: Foraminifera and geochemical proxies. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 417: 491-510<\/span>. <\/span><\/i>doi:10.1016\/j.palaeo.2014.10.011<\/span> https:\/\/zaguan.unizar.es\/record\/48106<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2014″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2014<\/b><\/p>\n

-Alegret, L. & Kaminski, M.A. 2014. Advances in agglutinated foraminiferal research: The Ninth International Workshop on Agglutinated Foraminifera, IWAF-9. <\/span>Micropaleontology<\/span><\/i>, 60 (1): 1-4.<\/span><\/p>\n

-Alegret, L. (2014). Extinci\u00f3n y no extinci\u00f3n. En: Fundaci\u00f3n Conjunto Paleontol\u00f3gico de Teruel \u2013 Din\u00f3polis (Ed.), Royo-Torres et al., coord., <\/span>Fundamental!,<\/span><\/i> 24: 7-10. 978-84-938173-7-4<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J., Alegret, L., Sep\u00falveda, J., Newman, S., Summons, R. E. 2014. Enhanced terrestrial input supporting the Glomospira acme across the Paleocene-Eocene boundary in Southern Spain. <\/span>Micropaleontology<\/span><\/i>, 60 (1): 43-51.<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G. J. and Alegret, L. (2014). Experimentos de disoluci\u00f3n de CaCO3 en foramin\u00edferos bent\u00f3nicos aglutinados del Paleoceno-Eoceno. In: <\/span>New Insights on Ancient Life<\/span><\/i> (G. Arregu\u00edn-Rodr\u00edguez, J. Colmenar, E. D\u00edaz-Berenguer, J. Gal\u00e1n, A. Legarda-Lisarri, J. Parrilla, E. Pu\u00e9rtolas-Pascual & R. Silva-Casal, Eds.), Prensas Universitarias de Zaragoza, p. 105-108<\/span>. <\/b>ISBN 978-84-925222-78-1. Bolta\u00f1a. Huesca.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2013″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2013<\/b><\/p>\n

-Alegret L. & Thomas E. 2013. Benthic foraminifera across the Cretaceous\/Paleogene boundary in the Southern Ocean (ODP Site 690): diversity, food and carbonate saturation. <\/span>Marine Micropaleontology<\/span><\/i>, 105: 40-51. <\/span>https:\/\/doi.org\/10.1016\/j.marmicro.2013.10.003<\/span><\/a><\/p>\n

-Alegret L. & Ortiz S. 2013. Uppermost Cretaceous to lowermost Eocene benthic foraminifera of the Dababiya Corehole, Upper Nile Valley, Egypt. <\/span>Stratigraphy<\/span><\/i>, 9 (3-4).<\/span><\/p>\n

-Arregu\u00edn-Rodr\u00edguez, G.J., Alegret L., Ortiz S. 2013. Glomospira Acme during the Paleocene-Eocene Thermal Maximum: response to CaCO3 dissolution or to ecological forces? <\/span>Journal of Foraminiferal Research<\/span><\/i>, 43 (1): 40-54.<\/span><\/p>\n

–<\/span> Monechi, S., Vandenberghe, N., Alegret, L. (2013). Paleogene events, evolution and stratigraphy. <\/span>Ci\u00eancias da Terra<\/span><\/i> (UNL, Universidade Nova de Lisboa), 18: 23-28.\u00a0 ISSN: 0254-055X<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2012″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2012<\/b><\/p>\n

-Alegret, L., Thomas, E., Lohmann, K. C. 2012. End-Cretaceous marine mass extinction not caused by productivity collapse. PNAS (<\/span>Proceedings of the National Academy of Sciences<\/span><\/i>), vol. 109, no. 3: 728-732, <\/span>doi: 10.1073\/pnas.1110601109<\/span><\/a>, <\/span>https:\/\/www.pnas.org\/doi\/10.1073\/pnas.1110601109<\/span><\/a><\/p>\n

-Alegret L., Ortiz, S., Kaminski, M. A. (Eds.) (2012). Ninth International Workshop on Agglutinated Foraminifera, <\/span>Abstract Volume.<\/span><\/i> Grzybowski Foundation Special Publication<\/span><\/i>, 18, 108 pp. ISBN: 978-84-92522-54-5<\/span><\/p>\n

-Berggren, W.A., Alegret, L., Aubry, M. P., Cramer, B. S., Dupuis, C., Goolaerts, S., Kent, D.V., King, C., Knox, R. W. O\u00b4B., Obaidalla, N., Ortiz, S., Ouda, Kh. A. K., Sabour, A. A., Salem, R., Senosy, M.M., Soliman, M.F., Soliman, A. 2012. The Dababiya Corehole, Upper Nile Valley, Egypt: Preliminary Results. <\/span>Austrian Journal of Earth Sciences<\/span><\/i>, v. 105 (1): 161-168. <\/span>https:\/\/nora.nerc.ac.uk\/id\/eprint\/517581\/1\/170815144750_0001.pdf<\/span><\/a><\/p>\n

-Fenero, R., Thomas, E., Alegret, L., Molina, E. 2012. Oligocene benthic foraminifera from the Fuente Caldera section (Spain, Western Tethys): taxonomy and paleoenvironmental inferences. <\/span>Journal of Foraminiferal Research<\/span><\/i>, October 2012, vol. 42: 286-304. <\/span>https:\/\/www.researchgate.net\/publication\/235637922_Oligocene_Benthic_Foraminifera_From_the_Fuente_Caldera_Section_Spain_Western_Tethys_Taxonomy_and_Paleoenvironmental_Inferences<\/span><\/a><\/p>\n

-Ortiz, S., Alegret, L., Baceta, J.I., Kaminski, M.A., Payros, A. (2012). <\/span>Cretaceous to Paleogene hemipelagic and flysch successions in Western Pyrenees, Northern Spain<\/span><\/i>. 9th International Workshop on Agglutinated Foraminifera Field trip guide. Servicio de Publicaciones de Zaragoza, 82 pp. ISBN: 978-84-92522-55-2<\/span><\/p>\n

-Payros A., Ortiz S., Alegret L., Orue-Etxebarria X., Apellaniz E., Molina E. 2012. An early Lutetian carbon-cycle perturbation: insights from the Gorrondatxe section (western Pyrenees, Bay of Biscay). <\/span>Paleoceanography<\/span><\/i>, vol. 27, PA2213, <\/span>doi: 10.1029\/2012PA002300<\/span><\/a>, 2012.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2011″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2011<\/b><\/p>\n

-Molina, E., Alegret, L., Apellaniz, E., Bernaola, G., Caballero, F., Dinar\u00e8s, J., Hardenbol, J., Heilmann-Clausen, C., Larrasoa\u00f1a, J., Luterbacher, H., Monechi, S., Ortiz, S., Orue-Etxebarria, X., Payros, A., Pujalte, V., Rodr\u00edguez-Tovar, F., Tori, F., Tosquella, J., Uchman, A. (2011). The Global Stratotype Section and Point (GSSP) for the base of the Lutetian Stage at the Gorrondatxe section, Spain. <\/span>Episodes<\/span><\/i>, 34 (2): 86-108. <\/span>https:\/\/doi.org\/10.18814\/epiiugs\/2009\/v32i2\/002<\/span><\/a><\/p>\n

-Ortiz S., Alegret L., Payros A., Orue-Etxebarria X., Apellaniz E., Molina E. (2011). Distribution patterns of benthic foraminifera across the Ypresian-Lutetian Gorrondatxe section, northern Spain: response to sedimentary disturbance. <\/span>Marine Micropaleontology<\/span><\/i><\/a>, 78: 1-13, doi:<\/span>10.1016\/j.marmicro.2010.09.004<\/span><\/a><\/p>\n

-Rodr\u00edguez-Tovar, F.J., Uchman, A., Alegret, L., Molina, E. 2011. Impact of the Paleocene-Eocene thermal maximum on the macrobenthic community: ichnological record from the Zumaia section, northern Spain. <\/span>Marine Geology<\/span><\/i>, 282: 178-187. doi:10.1016\/j.margeo.2011.02.009.<\/span><\/p>\n

-Schmitz, B., Pujalte V., Molina E., Monechi S., Orue-Etxebarria X., Alegret L., Apellaniz E., Arenillas I., Aubry M.P., Baceta J.I., Berggren W., Bernaola G., Caballero F., Clemmensen A., Dinar\u00e8s-Turell J., Dupuis Ch., Heilmann-Clausen C., Hilario, A., Knox R., Mart\u00edn-Rubio M., Ortiz S., Payros A., Petrizzio M.R., von Salis, K., Speijer R., Sprong R., Steurbaut E., Thomsen E. 2011. The global boundary stratotype sections and points for the bases of the Selandian (Middle Paleocene) and Thanetian (Upper Paleocene) stages at Zumaia, Spain. <\/span>Episodes<\/span><\/i>, 34 (4): 220-243. <\/span>https:\/\/doi.org\/10.18814\/epiiugs\/2011\/v34i4\/002<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2010″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2010<\/b><\/p>\n

-Alegret, L., Ortiz, S., Arenillas, I. and Molina, E. (2010). What happens when the ocean is overheated? The foraminiferal response across the Paleocene-Eocene Thermal Maximum at the Alamedilla section (Spain). <\/span>Geological Society of America Bulletin<\/span><\/i><\/a>, 122 (9\/10): 1616-1624.<\/span><\/p>\n

-Alegret, L. & Ortiz, S. 2010. El corte de Zumaya (Espa\u00f1a): registro de los foramin\u00edferos bent\u00f3nicos del Pale\u00f3geno inferior. <\/span>Revista Mexicana de Ciencias Geol\u00f3gicas<\/span><\/i>, 27 (3): 477-489, <\/span>https:\/\/www.scielo.org.mx\/pdf\/rmcg\/v27n3\/v27n3a6.pdf<\/span><\/a><\/p>\n

-Schulte P., Alegret L., Arenillas I., Arz J.A., Barton P., Bralower T., Bown P.R., Christeson G.L., Claeys P., Cockell C.S., Collins G.S., Deutsch A., Goldin T., Johnson K.D., Goto K., Grajales J.M., Grieve R., Gulick S., Kiessling W., Koeberl C., Kring D.A., MacLeod K.G., Matsui T., Melosh J., Montanari A., Morgan J.V., Neal C.R., Norris R.D., Pierazzo E., Ravizza G., Rebolledo M., Reimold U., Robin E., Salge T., Speijer R.P., Sweet A.R., Urrutia J., Vajda V., Whalen M.T., Willumsen P. (2010). Response-Cretaceous extinctions. <\/span>Science<\/span><\/i>, 328: 975-976.<\/span><\/p>\n

-Schulte P., Alegret L., Arenillas I., Arz J.A., Barton P., Bralower T., Bown P.R., Christeson G.L., Claeys P., Cockell C.S., Collins G.S., Deutsch A., Goldin T., Johnson K.D., Goto K., Grajales J.M., Grieve R., Gulick S., Kiessling W., Koeberl C., Kring D.A., MacLeod K.G., Matsui T., Melosh J., Montanari A., Morgan J.V., Neal C.R., Nichols, D.J., Norris R.D., Pierazzo E., Ravizza G., Rebolledo M., Reimold U., Robin E., Salge T., Speijer R.P., Sweet A.R., Urrutia J., Vajda V., Whalen M.T., Willumsen P. (2010). The Chicxulub Impact and the Mass Extinction at the Cretaceous-Paleogene Boundary.<\/span> Science<\/span><\/i><\/a>, 327: 1214-1218.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2009″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2009<\/b><\/p>\n

-Alegret, L., Ortiz, S. and Molina, E. (2009). Extinction and recovery of benthic foraminifera across the Paleocene-Eocene Thermal Maximum at the Alamedilla section (Southern Spain). <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 279: 186-200. <\/span>https:\/\/www.sciencedirect.com\/science\/article\/pii\/S003101820900193X<\/span><\/a><\/p>\n

-Alegret L. and Thomas E. (2009b). Food supply to the seafloor in the Pacific Ocean after the Cretaceous\/Paleogene boundary event. <\/span>Marine Micropaleontology<\/span><\/i>, 73: 105-116.<\/span><\/p>\n

-Alegret L. and Thomas E. (2009a). Cretaceous evolution of the genus Adercotryma (Foraminifera) in the deep Pacific. <\/span>Micropaleontology<\/span><\/i><\/a>, 55 (1): 49-60.<\/span><\/p>\n

-Alegret, L. and Thomas, E. (2009c). The Pacific Ocean: no Strangelove Ocean after the Cretaceous-Paleogene impact. <\/span>Institute of Geological and Nuclear Sciences, GNS Science Miscellaneous Series<\/span><\/i> 18: 14-17.<\/span><\/p>\n

-Alegret, L.<\/span> and Ortiz, S. (2009). Turnover at the seafloor during the Paleocene-Eocene Thermal Maximum: evidence from the Western Tethys. <\/span>Institute of Geological and Nuclear Sciences, GNS Science Miscellaneous Series<\/span><\/i> 18: 9-13.<\/span><\/p>\n

-Alegret L., Ortiz S., Orue-Etxebarria X., Bernaola G., Baceta J.I., Monechi S., Apellaniz E. and Pujalte V. (2009). The Paleocene-Eocene Thermal Maximum: new data from the microfossil turnover at the Zumaia section, Spain. <\/span>Palaios<\/span><\/i><\/a>, 24: 318-328.<\/span><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A., Gallala N., Grajales M., Murillo-Mu\u00f1et\u00f3n, G. and Zaghbib D. (2009). The Global Boundary Stratotype Section and Point for the base of the Danian Stage (Paleocene, Paleogene, \u201cTertiary\u201d, Cenozoic): auxiliary sections and correlation. <\/span>Episodes<\/span><\/i>, 32 (2): 84-95. <\/span>https:\/\/doi.org\/10.18814\/epiiugs\/2009\/v32i2\/002<\/span><\/a><\/p>\n

-Thomas, E., Ridgwell, A., Alegret, L.<\/span> y Schmidt, D. (2009). The Cretaceous-Paleogene (K-Pg) Carbon Cycle. <\/span>Institute of Geological and Nuclear Sciences, GNS Science Miscellaneous Series<\/span><\/i> 18: 145-148.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2008″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2008<\/b><\/p>\n

-Alegret L. (2008). Evoluci\u00f3n paleoambiental durante el tr\u00e1nsito Cret\u00e1cico\/Pale\u00f3geno basada en foramin\u00edferos bent\u00f3nicos. <\/span>Revista Espa\u00f1ola de Paleontolog\u00eda, <\/span><\/i>23 (1): 15-30. <\/span>https:\/\/turia.uv.es\/index.php\/sjpalaeontology\/article\/view\/20396\/18179<\/span><\/a><\/p>\n

-Alegret L., Cruz L. E., Fenero R., Molina E. and Ortiz S. (2008). Effects of the Oligocene climatic events on the foraminiferal record from Fuente Caldera section (Spain, western Pyrenees). <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 269: 94-102. doi:10.1016\/j.palaeo.2008.08.006, <\/span>https:\/\/people.earth.yale.edu\/sites\/default\/files\/files\/Thomas\/Alegretetal2008_FuenteCaldera.pdf<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2007″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2007<\/b><\/p>\n

-Alegret L. (2007). Recovery of the deep-sea floor after the Cretaceous\/Paleogene boundary event: the benthic foraminiferal record in the Basque-Cantabrian basin and in South-eastern Spain. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 255: 181-194. doi:10.1016\/j.palaeo.2007.02.047<\/span><\/p>\n

-Alegret L. and Thomas E. (2007). Deep-Sea environments across the Cretaceous\/Paleogene boundary in the eastern South Atlantic Ocean (ODP Leg 208, Walvis Ridge). <\/span>Marine Micropaleontology<\/span><\/i>, 64: 1-17. <\/span>https:\/\/people.earth.yale.edu\/sites\/default\/files\/files\/Thomas\/AlegretThomas2007_208.pdf<\/span><\/a><\/p>\n

-Bernaola G., Baceta J.I., Orue-Etxebarria X., Alegret L., Martin M., Arostegui J. and Dinar\u00e8s J. (2007). Evidences of an abrupt environmental disruption during the Mid Paleocene Biotic Event (Zumaia section, W. Pyrenees). <\/span>Geological Society of America Bulletin<\/span><\/i><\/a>, 119 (7): 785-795. <\/span>https:\/\/doi.org\/10.1130\/B26132.1<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2006″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2006<\/b><\/p>\n

-Alegret L. and Ortiz S. (2006). Global extinction event in benthic foraminifera across the Paleocene\/Eocene boundary at the Dababiya Stratotype section. <\/span>Micropaleontology<\/span><\/i><\/a>, 52 (5): 48-63.<\/span><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A., Gallala N., Hardenbol J., von Salis K., Steutbaurt E., Vandenberghe N. and Zaghbib D. (2006). The Global Boundary Stratotype Section and Point for the base of the Danian Stage (Paleocene, Paleogene,\u201cTertiary\u201d, Cenozoic) at El Kef, Tunisia: original definition and revision. <\/span>Episodes<\/span><\/i>, 29 (4): 263-273. <\/span>https:\/\/www.episodes.org\/journal\/view.html?doi=10.18814\/epiiugs\/2006\/v29i4\/004<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2005″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2005<\/b><\/p>\n

-Alegret L., Ortiz S., Arenillas I. and Molina E. (2005). Paleoenvironmental turnover across the Paleocene\/Eocene Boundary at the Stratotype section in Dababiya (Egypt) based on benthic foraminifera. <\/span>Terra Nova<\/span><\/i><\/a>, 17: 526-536.\u00a0<\/span><\/p>\n

-Alegret L., Arenillas I., Arz J.A. D\u00edaz C., Grajales M., Mel\u00e9ndez A., Molina E., Rojas R. and Soria A. (2005). Cretaceous\/Paleogene boundary deposits at Loma Capiro, central Cuba: Evidence for the Chicxulub impact. <\/span>Geology<\/span><\/i>, 33(9): 721-724. <\/span>https:\/\/doi.org\/10.1130\/G21573.1<\/span><\/a><\/p>\n

-Alegret L. and Thomas E. (2005). Cretaceous\/Paleogene boundary bathyal paleo-environments in the central North Pacific (DSDP Site 465), the Northwestern Atlantic (ODP Site 1049), the Gulf of Mexico and the Tethys: The benthic foraminiferal record. <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 224: 53-82. <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2005.03.031<\/span><\/a><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A. (2005). The Cretaceous\/Paleogene boundary at the Agost section revisited: paleoenvironmental reconstruction and mass extinction pattern. <\/span>Journal of Iberian Geology<\/span><\/i>, 31 (1): 135-148. <\/span>file:\/\/\/Users\/user\/Downloads\/_ecob,+JIGE0505120135A.PDF.pdf<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2004″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2004<\/b><\/p>\n

-Alegret L. and Thomas E. (2004). Benthic foraminifera and environmental turnover across the Cretaceous\/Paleogene boundary at Blake Nose (ODP Hole 1049C, Northwestern Atlantic). <\/span>Palaeogeography, Palaeoclimatology, Palaeoecology<\/span><\/i>, 208 (1-2): 59-83, <\/span>https:\/\/doi.org\/10.1016\/j.palaeo.2004.02.028<\/span><\/a><\/p>\n

-Alegret L., Kaminski M.A. and Molina E. (2004). Paleoenvironmental recovery after the Cretaceous\/Paleogene boundary crisis: evidence from the marine Bidart section (SW France). <\/span>Palaios<\/span><\/i><\/a>,<\/span><\/i> 19: 574-586.\u00a0<\/span><\/p>\n

-Alegret L., Arenillas I., Arz J.A. and Molina E. (2004). Foraminiferal event-stratigraphy across the Cretaceous\/Paleogene boundary. <\/span>Neues Jahrbuch fur Geologie und Pal\u00e4ontologie<\/span><\/i><\/a>, Abhandlungen, 234: 25-50.\u00a0<\/span><\/p>\n

-Alegret L., Arenillas I., Arz J.A., Molina E. (2004). Bioestratigraf\u00eda y reconstrucci\u00f3n paleoambiental del tr\u00e1nsito Cret\u00e1cico-Pale\u00f3geno en El Mimbral (M\u00e9xico). <\/span>Geotemas<\/span><\/i>, 6 (4), 357-360. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geo_temas_6_4sge.pdf<\/span><\/a><\/p>\n

-Arz J. A., Alegret L. and Arenillas I. (2004). Foraminiferal biostratigraphy and paleoenvironmental reconstruction at Yaxcopoil-1 drill hole (Chicxulub crater, Yucatan Peninsula). <\/span>Meteoritics & Planetary Science<\/span><\/i>, 39 (7): 1099-1111.<\/span><\/p>\n

-Ortiz S., Alegret L., Arenillas I., Molina E. (2004). Evoluci\u00f3n de las asociaciones de foramin\u00edferos durante el tr\u00e1nsito Paleoceno-Eoceno en el corte estratot\u00edpico de Dababiya (Egipto). <\/span>Geotemas<\/span><\/i>, 6 (2), 295-297. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geo_temas_6_2sge.pdf<\/span><\/a><\/p>\n

-Peryt D., Alegret L., Molina E. (2004). Agglutinated foraminifers and their response to the Cretaceous\/Paleogene boundary event at A\u00efn Settara, Tunisia. In: (M. Bubik y M. Kaminski, eds.), <\/span>Grzybowski Foundation Spec.Publ.<\/span><\/i> 8: 393-412. ISBN: 83-912385-4-7<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2003″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2003<\/b><\/p>\n

-Alegret L., Molina E. and Thomas E. (2003).Benthic foraminiferal turnover across the Cretaceous\/Paleogene boundary at Agost (southeastern Spain): paleoenvironmental inferences. <\/span>Marine Micropaleontology<\/span><\/i>, 48: 251-279.\u00a0<\/span><\/p>\n

-Alegret L. (2003). <\/span>Sedimentolog\u00eda y Micropaleontolog\u00eda (foramin\u00edferos bent\u00f3nicos) del tr\u00e1nsito Cret\u00e1cico-Terciario: correlaci\u00f3n entre las \u00e1reas del Golfo de M\u00e9xico y del Tethys.<\/span><\/i>\u00a0 Prensas Universitarias de Zaragoza, N\u00ba publicaci\u00f3n 3073947, 476 pp. ISBN: 84-95480-87-5. DL: Z-199-2003.<\/span><\/p>\n

-Alegret L., Arenillas I., Arz J.A., Molina E. (2003). Recuperaci\u00f3n de la productividad primaria en el \u00e1rea del Tethys tras el evento del l\u00edmite Cret\u00e1cico\/Terciario. <\/span>Geotemas<\/span><\/i>, 5, 27-30. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas5.pdf<\/span><\/a><\/p>\n

-Peryt D., Alegret L., Molina E. (2003). Restructuring of benthic foraminiferal assemblages across the Cretaceous\/Paleogene (K\/P) boundary at A\u00efn Settara, Tunisia (Otwornice bentosowe a granica kreda\/paleogen (K\/P) w profilu A\u00efn Settara, Tunezja). Przeglad Geologiczny, 51 (12): 1069-1074.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2002″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2002<\/b><\/p>\n

-Alegret L., Arenillas I., Arz J.A., Liesa C., Mel\u00e9ndez A., Molina E., Soria A.R. and Thomas E. (2002). The Cretaceous\/Tertiary boundary impact event: sedimentology and micropaleontology at El Mulato section, NE Mexico.<\/span> Terra Nova<\/span><\/i><\/a>,14 (5): 330-336.\u00a0<\/span><\/p>\n

-Alegret L. and Aurell M. (2002). Facies analysis and sequence stratigraphy of an Upper Cretaceous carbonate platform (western South-Pyrenean basin, Spain). <\/span>Neues Jahrbuch f\u00fcr Geologie und Pal\u00e4ontologie, Abhanlugen<\/span><\/i> 226 (1): 25-41.<\/span><\/p>\n

-Alegret L., Arenillas I., Arz J.A. and Molina E. (2002). Environmental changes triggered by the K\/T impact event at Coxquihui (Mexico) based on foraminifera. <\/span>Neues Jahrbuch fur Geologie und Pal\u00e4ontologie<\/span><\/i><\/a>, Monatshefte<\/span><\/i>, 2002 (5): 295-309.\u00a0<\/span><\/p>\n

-Alegret L., Arenillas I, Arz J.A., Molina E. (2002). Eventoestratigraf\u00eda del l\u00edmite Cret\u00e1cico\/Terciario en A\u00efn Settara (Tunicia): \u00bfdisminuci\u00f3n de la productividad y oxigenaci\u00f3n oce\u00e1nicas?. <\/span>Revista Mexicana de Ciencias Geol\u00f3gicas, <\/span><\/i>19 (2), 121-136. ISSN 1026-8774 <\/span>https:\/\/www.rmcg.unam.mx\/index.php\/rmcg\/article\/view\/979\/809<\/span><\/a><\/p>\n

-Arenillas I., Alegret L., Arz J.A., Liesa C., Mel\u00e9ndez A., Molina E., Soria A.R., Cedillo E., Grajales J.M. and Rosales C. (2002). Cretaceous-Tertiary boundary planktic foraminiferal mass extinction and biochronology at La Ceiba and Bochil, Mexico, and El Kef, Tunisia. In: Koeberl C. and MacLeod, K.G. eds., Catastrophic events and mass extinctions: impacts and beyond. <\/span>Geological Society of America<\/span><\/i><\/a>, Special Paper, 356: 253-264.\u00a0<\/span><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A. (2002). Taphonomy in analysis of the pattern of extinction at the Cretaceous\/Tertiary boundary. In: De Renzi, M. et al. eds., <\/span>Current topics on taphonomy and fossilization.<\/span><\/i> Coll. Encontres, 5: 89-95. ISBN: 84-8484-036-0.<\/span><\/p>\n

-Peryt D., Alegret L. and Molina E. (2002). The Cretaceous\/Paleogene (K\/P) boundary at A\u00efn Settara, Tunisia: restructuring of benthic foraminiferal assemblages. <\/span>Terra Nova<\/span><\/i><\/a>, 14: 101-107.\u00a0<\/span><\/p>\n

-Soria A.R., Liesa C.L., Mata M.P., Arz J.A., Alegret L., Arenillas I. and Mel\u00e9ndez A. (2002). Reply: Slumping and a sandbar deposit at the Cretaceous\/Tertiary in the El Tecolote sector (northeastern Mexico): An impact induced sediment gravity flow. (Comment: Keller, G., Stinnesbeck, W and Adatte, T., 30 (4): 382). <\/span>Geology<\/span><\/i><\/a>, 30 (4): 383.<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2001″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2001<\/b><\/p>\n

-Alegret L. and Thomas E. (2001). Upper Cretaceous and lower Paleogene benthic foraminifera from northeastern Mexico. <\/span>Micropaleontology<\/span><\/i><\/a>, 47 (4): 269-316.<\/span><\/p>\n

-Alegret L., Molina E. and Thomas E. (2001). Benthic foraminifera at the Cretaceous\/Tertiary boundary around the Gulf of Mexico. <\/span>Geology<\/span><\/i>, 29 (10): 891-894.<\/span><\/p>\n

-Alegret L. (2001). <\/span>Estratigraf\u00eda y Sedimentolog\u00eda del Cret\u00e1cico Superior en el Prepirineo aragon\u00e9s. <\/span><\/i>Zaragoza, Febrero 2001, 72 pp.<\/span> ISBN: 84-699-4337-5. Dep\u00f3sito legal: Z-394-2001.<\/span><\/p>\n

Alegret L., Soria A.R. and Mel\u00e9ndez A. (2001). Los sedimentos del l\u00edmite Cret\u00e1cico\/Terciario en El Tecolote (M\u00e9xico): evidencias de alocton\u00eda. <\/span>Geogaceta<\/span><\/i>, 30: 15-18. <\/span>https:\/\/sge.usal.es\/archivos\/geogacetas\/Geo30\/Art04.pdf<\/span><\/a><\/p>\n

-Alegret L., Arenillas I., Arz J.A., Molina E. (2001). Reconstrucci\u00f3n paleoambiental del tr\u00e1nsito Cret\u00e1cico-Terciario en La Lajilla (M\u00e9xico) con foramin\u00edferos. <\/span>Geogaceta<\/span><\/i>, 30: 19-21. <\/span>https:\/\/rabida.uhu.es\/dspace\/bitstream\/handle\/10272\/9719\/Reconstruccion.pdf?sequence=2<\/a><\/a><\/span><\/p>\n

<\/span>-Alegret L., Arenillas I., Arz J.A., Molina E. (2001). Evento-Estratigraf\u00eda con foramin\u00edferos en el tr\u00e1nsito Cret\u00e1cico-Terciario de A\u00efn Settara (T\u00fanez) y Coxquihui (M\u00e9xico). <\/span>Geotemas<\/span><\/i>, 3 (2): 135-138. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas3_2.pdf<\/span><\/a><\/p>\n

-Alegret L., Arenillas I., Arz J.A., Liesa C., Mel\u00e9ndez A., Soria A.R. (2001). Estratigraf\u00eda y Sedimentolog\u00eda del tr\u00e1nsito Cret\u00e1cico-Terciario en el corte de El Mulato (M\u00e9xico). <\/span>Geotemas<\/span><\/i>, 3 (2): 131-134. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas3_2.pdf<\/span><\/a><\/p>\n

-Alegret L., Mel\u00e9ndez A., Soria A. R. (2001). La controversia sedimentol\u00f3gica del l\u00edmite Cret\u00e1cico\/Terciario en el NE del Golfo de M\u00e9xico. \u00bfCay\u00f3 un meteorito en Yucat\u00e1n?. En: A. Comas, ed., <\/span>Ciencia y Tecnolog\u00eda<\/span><\/i>, Vol. I \u00abGeolog\u00eda\/Paleontolog\u00eda\u00bb: Tibidabo Ediciones, S.A. Barcelona, p. 197-200.<\/span><\/p>\n

-Arz J.A., Arenillas I., Soria A.R., Alegret L., Grajales J.M., Liesa C.L., Mel\u00e9ndez A. Molina E. and Rosales M.C. (2001). Micropaleontology and Sedimentology of the Cretaceous\/Paleogene boundary at La Ceiba (Mexico): impact-generated sediment gravity flows. <\/span>Journal of South American Earth Sciences<\/span><\/i><\/a>, 14 (5): 505-519.\u00a0<\/span><\/p>\n

-Arz J.A., Alegret L., Arenillas N., Liesa C.L., Molina E. y Soria A.R. (2001). Extinci\u00f3n de foramin\u00edferos en el l\u00edmite Cret\u00e1cico\/Terciario de Coxquihui (M\u00e9xico) y su relaci\u00f3n con las evidencias de impacto. <\/span>Revista Espa\u00f1ola de Micropaleontolog\u00eda,<\/span><\/i> 33 (2): 221-236. ISSN: 0556-605X <\/span>https:\/\/sge.usal.es\/archivos\/geogacetas\/Geo30\/Art04.pdf<\/span><\/a><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A., Gonzalvo C., Mart\u00ednez F., Ortega M., Palomo I., Rodr\u00edguez F. (2001). <\/span>Field-trip guide to the Agost and Caravaca sections (Betic Cordillera, Spain).<\/span><\/i> 6<\/span>th<\/span> Workshop ESF-Impact, Granada, 72 pp. ISBN: 84-607-2362-3. <\/span>https:\/\/www.academia.edu\/9388842\/Field_trip_guide_to_the_Agost_and_Caravaca_sections_Betic_Cordillera_Spain_<\/span><\/a><\/p>\n

-Soria A.R., Liesa C.L., Mata M.P., Arz J.A., Alegret L., Arenillas I. and Mel\u00e9ndez A. (2001). Slumping and a sandbar deposit at the Cretaceous\/Tertiary in the El Tecolote sector (northeastern Mexico): An impact induced sediment gravity flow. <\/span>Geology<\/span><\/i>, 29 (3): 231-234.\u00a0<\/span><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb2000″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

2000<\/b><\/p>\n

-Alegret L. and Molina E. (2000). Evoluci\u00f3n paleoecol\u00f3gica de las asociaciones de foramin\u00edferos bent\u00f3nicos durante el tr\u00e1nsito Cret\u00e1cico-Terciario en La Ceiba, M\u00e9xico. <\/span>Geotemas<\/span><\/i>, 1 (2): 327-330. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas1_2sge.pdf<\/span><\/a><\/p>\n

-Alegret L. and Aurell M. (2000). Estratigraf\u00eda secuencial del Campaniense en el Prepirineo aragon\u00e9s. <\/span>Geotemas<\/span><\/i> 1 (2):135-138. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas1_2sge.pdf<\/span><\/a><\/p>\n

-Arenillas I., Alegret L., Arz J.A., Molina E. (2000). Foramin\u00edferos planct\u00f3nicos y bent\u00f3nicos del l\u00edmite Cret\u00e1cico\/Terciario de A\u00efn Settara, Tunicia: dos patrones de extinci\u00f3n diferentes y una misma causa. <\/span>Geotemas<\/span><\/i>, 1 (2): 331-334. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas1_2sge.pdf<\/span><\/a><\/p>\n

-Molina E., Alegret L., Arenillas I., Arz J.A., Gonzalvo C. (2000). Evidencias,<\/span>
<\/span>causas y patrones de los eventos de extinci\u00f3n en el Cret\u00e1cico Superior y Terciario<\/span>
<\/span>Inferior con foramin\u00edferos. <\/span>Geotemas<\/span><\/i>, 1 (2): 351-354. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas1_2sge.pdf<\/span><\/a><\/p>\n

-Arenillas I., Alegret L., Arz J.A., Liesa C., Mel\u00e9ndez A., Molina E., Soria A.R. (2000). Secuencia estratigr\u00e1fica y eventos evolutivos de foramin\u00edferos en el tr\u00e1nsito Cret\u00e1cico-Terciario. <\/span>Geotemas<\/span><\/i>, 2 (1): 25-28. <\/span>https:\/\/sge.usal.es\/archivos\/GEO_TEMAS\/Geotemas2.pdf<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb1999″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

1999<\/b><\/p>\n

-Alegret L., Molina E., Peryt D. (1999). Evoluci\u00f3n de las asociaciones de microforamin\u00edferos bent\u00f3nicos en el l\u00edmite Cret\u00e1cico\/Terciario de A\u00efn Settara, Tunicia. <\/span>Temas Geol\u00f3gico-Mineros<\/span><\/i>, ITGE (I. R\u00e1bano, ed.), 26: p. 142-146.<\/span><\/p>\n

-Alegret L. and Aurell M. (1999). An\u00e1lisis de las comunidades de rudistas del Cret\u00e1cico Superior en el Prepirineo aragon\u00e9s. <\/span>Temas Geol\u00f3gico-Mineros<\/span><\/i>, ITGE (I. R\u00e1bano, ed.), 26: p. 137-141.<\/span><\/p>\n

-Alegret L. and Aurell M. (1999). La sedimentaci\u00f3n carbonatada en el Prepirineo aragon\u00e9s durante el Cret\u00e1cico Superior. <\/span>Estudios Geol\u00f3gicos<\/span><\/i>, 55: 237-246. ISSN 0367-0449 <\/span>https:\/\/estudiosgeol.revistas.csic.es\/index.php\/estudiosgeol\/article\/view\/163\/163<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section][et_pb_section fb_built=\u00bb1″ module_id=\u00bb1998″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb custom_padding=\u00bb0px||28px|||\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_row _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_column type=\u00bb4_4″ _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb][et_pb_text _builder_version=\u00bb4.27.4″ _module_preset=\u00bbdefault\u00bb global_colors_info=\u00bb{}\u00bb]<\/p>\n

1998<\/b><\/p>\n

-Alegret L. and Aurell M. (1998). Contribuci\u00f3n a la taxonom\u00eda y bioestratigraf\u00eda de los rudistas del Cret\u00e1cico Superior en el Prepirineo aragon\u00e9s. <\/span>Lucas Mallada Revista de Ciencias<\/span><\/i>, 10: 29-43. ISSN: 2445-060X. <\/span>https:\/\/dialnet.unirioja.es\/servlet\/articulo?codigo=1090570<\/span><\/a><\/p>\n

[\/et_pb_text][\/et_pb_column][\/et_pb_row][\/et_pb_section]<\/p>\n","protected":false},"excerpt":{"rendered":"

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