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Making sense of variation in sclerochronological stable isotope profiles of mollusks and fish otoliths from the early Eocene southern North Sea Basin. <i>Palaeogeogr. Palaeoclimatol. Palaeoecol. 659</i>: 112627. <a href=\"https://dx.doi.org/10.1016/j.palaeo.2024.112627\" target=\"_blank\">https://dx.doi.org/10.1016/j.palaeo.2024.112627</a>","AutID":153998,"MonDate":null,"AnaDate":2025,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":350470,"RR":"<b>Babila, T.L.; Penman, D.E.; Standish, C.D.; Doubrawa, M.; Bralower, T.J.; Robinson, M.M.; Self-Trail, J.M.; Speijer, R.P.; Stassen, P.; Foster, G.L.; Zachos, J.C.</b> (2022). Surface ocean warming and acidification driven by rapid carbon release precedes Paleocene-Eocene Thermal Maximum. <i>Science Advances 8(11)</i>: eabg1025. <a href=\"https://dx.doi.org/10.1126/sciadv.abg1025\" target=\"_blank\">https://dx.doi.org/10.1126/sciadv.abg1025</a>","AutID":153998,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":352565,"RR":"<b>Clark, A.J.; Vellekoop, J.; Speijer, R.P.</b> (2022). Hydrological differences between the Lutetian Paris and Hampshire basins revealed by stable isotopes of conid gastropods. <i>Bull. Soc. Géol. Fr. 193</i>: 3. <a href=\"https://dx.doi.org/10.1051/bsgf/2022002\" target=\"_blank\">https://dx.doi.org/10.1051/bsgf/2022002</a>","AutID":154198,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":361519,"RR":"<b>De Clercq, W.; Taelman, D.; Antonelli, F.; Briguglio, A.; de Ruijsscher, D.; Dreesen, R.; Dumolyn, J.; Fieremans, N.; Speijer, R.P.; Trachet, J.; Vermeersch, J.</b> (2022). Two odd ones out: Mediterranean ballast stones and Italian maritime connections in the Medieval Bruges' harbor system. <i>J. Marit. Archaeol. 17(4)</i>: 579-602. <a href=\"https://dx.doi.org/10.1007/s11457-022-09344-1\" target=\"_blank\">https://dx.doi.org/10.1007/s11457-022-09344-1</a>","AutID":154198,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":361553,"RR":"<b>Doubrawa, M.; Stassen, P.; Robinson, M.M.; Babila, T.L.; Zachos, J.C.; Speijer, R.P.</b> (2022). Shelf ecosystems along the US Atlantic Coastal Plain prior to and during the Paleocene-Eocene Thermal Maximum: insights into the stratigraphic architecture. <i>Paleoceanography and Paleoclimatology 37(10)</i>: e2022PA004475. <a href=\"https://dx.doi.org/10.1029/2022PA004475\" target=\"_blank\">https://dx.doi.org/10.1029/2022PA004475</a>","AutID":154198,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":352558,"RR":"<b>Martens, L.; Stassen, P.; Steurbaut, E.; Speijer, R.P.</b> (2022). Assessing <i>Nummulites</i> geochemistry as a proxy for early Eocene palaeotemperature evolution in the North Sea Basin. <i>J. Geol. Soc. Lond. 179(4)</i>: jgs2021-102. <a href=\"https://dx.doi.org/10.1144/jgs2021-102\" target=\"_blank\">https://dx.doi.org/10.1144/jgs2021-102</a>","AutID":154198,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":355254,"RR":"<b>Vancoppenolle, I.; Vellekoop, J.; Doubrawa, M.; Kaskes, P.; Sinnesael, M.; Jagt, J.W.M.; Claeys, P.; Speijer, R.P.</b> (2022). The benthic foraminiferal response to the mid-Maastrichtian event in the NW-European chalk sea of the Maastrichtian type area. <i>Geol. Mijnb. 101</i>: e12. <a href=\"https://dx.doi.org/10.1017/njg.2022.10\" target=\"_blank\">https://dx.doi.org/10.1017/njg.2022.10</a>","AutID":502139,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":352559,"RR":"<b>Vellekoop, J.; Kaskes, P.; Sinnesael, M.; Huygh, J.; Déhais, T.; Jagt, J.W.M.; Speijer, R.P.; Claeys, P.</b> (2022). A new age model and chemostratigraphic framework for the Maastrichtian type area (southeastern Netherlands, northeastern Belgium). <i>Newsl. Stratigr. preprint</i>. <a href=\"https://dx.doi.org/10.1127/nos/2022/0703\" target=\"_blank\">https://dx.doi.org/10.1127/nos/2022/0703</a>","AutID":488590,"MonDate":null,"AnaDate":2022,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337315,"RR":"<b>Bornemann, A.; Jehle, S.; Lägel, F.; Deprez, A.; Petrizzo, M.R.; Speijer, R.P.</b> (2021). Planktic foraminiferal response to an early Paleocene transient warming event and biostratigraphic implications. <i>Int. J. Earth Sci. 110(2)</i>: 583-594. <a href=\"https://hdl.handle.net/10.1007/s00531-020-01972-z\" target=\"_blank\">https://hdl.handle.net/10.1007/s00531-020-01972-z</a>","AutID":154198,"MonDate":null,"AnaDate":2021,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":337917,"RR":"<b>de Winter, N.J.; Vellekoop, J.; Clark, A.J.; Stassen, P.; Speijer, R.P.; Claeys, P.</b> (2020). The giant marine gastropod <i>Campanile giganteum</i> (Lamarck, 1804) as a high-resolution archive of seasonality in the Eocene greenhouse world. <i>Geochem. Geophys. Geosyst. 21(4)</i>: e2019GC008794. <a href=\"https://hdl.handle.net/10.1029/2019GC008794\" target=\"_blank\">https://hdl.handle.net/10.1029/2019GC008794</a>","AutID":155175,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":337973,"RR":"<b>Stassen, P.; Steurbaut, E.; Speijer, R.P.</b> (2020). Comments on \"Paleoecology and paleobiogeography of Paleocene ostracods in Dineigil area, south western Desert, Egypt.\" by Youssef et al., Journal of African Earth Sciences, 131 (2017) 62-70. <i>J. Afr. Earth Sci. 163</i>: 103461. <a href=\"https://hdl.handle.net/10.1016/j.jafrearsci.2019.03.013\" target=\"_blank\">https://hdl.handle.net/10.1016/j.jafrearsci.2019.03.013</a>","AutID":154198,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":322818,"RR":"<b>Vellekoop, J.; Van Tilborgh, K.H.; Van Knippenberg, P.; Jagt, J.W.M.; Stassen, P.; Goolaerts, S.; Speijer, R.P.</b> (2020). Type-Maastrichtian gastropod faunas show rapid ecosystem recovery following the Cretaceous-Palaeogene boundary catastrophe. <i>Palaeontology 63(2)</i>: 349-367. <a href=\"https://dx.doi.org/10.1111/pala.12462\" target=\"_blank\">https://dx.doi.org/10.1111/pala.12462</a>","AutID":407126,"MonDate":null,"AnaDate":2020,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":314270,"RR":"<b>Hollis, C.J.; Dunkley Jones, T.; Anagnostou, E.; Bijl, P.K.; Cramwinckel, M.J.; Cui, Y.; Dickens, G.R.; Edgar, K.M.; Eley, Y.; Evans, D.; Foster, G.L.; Frieling, J.; Inglis, G.N.; Kennedy, E.M.; Kozdon, R.; Lauretano, V.; Lear, C.H.; Littler, K.; Lourens, L.; Meckler, A.N.; Naafs, B.D.A.; Pälike, H.; Pancost, R.D.; Pearson, P.N.; Röhl, U.; Royer, D.L.; Salzmann, U.; Schubert, B.A.; Seebeck, H.; Sluijs, A.; Speijer, R.P.; Stassen, P.; Tierney, J.E.; Tripati, A.K.; Wade, B.S.; Westerhold, T.; Witkowski, C.R.; Zachos, J.C.; Zhang, Y.G.; Huber, M.; Lunt, D.J.</b> (2019). The DeepMIP contribution to PMIP4: methodologies for selection, compilation and analysis of latest Paleocene and early Eocene climate proxy data, incorporating version 0.1 of the DeepMIP database. <i>Geosci. Model Dev. 12(7)</i>: 3149-3206. <a href=\"https://dx.doi.org/10.5194/gmd-12-3149-2019\" target=\"_blank\">https://dx.doi.org/10.5194/gmd-12-3149-2019</a>","AutID":154198,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":323113,"RR":"<b>Jehle, S.; Bornemann, A.; Lägel, A.F.; Deprez, A.; Speijer, R.P.</b> (2019). Paleoceanographic changes across the Latest Danian Event in the South Atlantic Ocean and planktic foraminiferal response. <i>Palaeogeogr. Palaeoclimatol. Palaeoecol. 525</i>: 1-13. <a href=\"https://dx.doi.org/10.1016/j.palaeo.2019.03.024\" target=\"_blank\">https://dx.doi.org/10.1016/j.palaeo.2019.03.024</a>","AutID":154198,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":322860,"RR":"<b>Vellekoop, J.; Woelders, L.; Sluijs, A.; Miller, K.G.; Speijer, R.P.</b> (2019). Phytoplankton community disruption caused by latest Cretaceous global warming. <i>Biogeosciences 16(21)</i>: 4201-4210. <a href=\"https://dx.doi.org/10.5194/bg-16-4201-2019\" target=\"_blank\">https://dx.doi.org/10.5194/bg-16-4201-2019</a>","AutID":407434,"MonDate":null,"AnaDate":2019,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":295474,"RR":"<b>Arreguin-Rodriguez, G.J.; Thomas, E.; D'haenens, S.; Speijer, R.P.; Alegret, L.</b> (2018). Early Eocene deep-sea benthic foraminiferal faunas: recovery from the Paleocene Eocene Thermal Maximum extinction in a greenhouse world. <i>PLoS One 13(2)</i>: e0193167. <a href=\"https://dx.doi.org/10.1371/journal.pone.0193167\" target=\"_blank\">https://dx.doi.org/10.1371/journal.pone.0193167</a>","AutID":154198,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":307966,"RR":"<b>de Winter, N.J.; Vellekoop, J.; Vorsselmans, R.; Golreihan, A.; Soete, J.; Petersen, S.V.; Meyer, K.W.; Casadio, S.; Speijer, R.P.; Claeys, P.</b> (2018). An assessment of latest Cretaceous <i>Pycnodonte vesicularis</i> (Lamarck, 1806) shells as records for palaeoseasonality: a multi-proxy investigation. <i>Clim. Past 14(6)</i>: 725-749. <a href=\"https://dx.doi.org/10.5194/cp-14-725-2018\" target=\"_blank\">https://dx.doi.org/10.5194/cp-14-725-2018</a>","AutID":154198,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":294250,"RR":"<b>Donders, T.H.; van Helmond, N.A.G.M.; Verreussel, R.; Munsterman, D.; ten Veen, J.; Speijer, R.P.; Weijers, J.W.H.; Sangiorgi, F.; Peterse, F.; Reichart, G.-J.; Sinninghe Damsté, J.S.; Lourens, L.; Kuhlmann, G.; Brinkhuis, H.</b> (2018). Land–sea coupling of early Pleistocene glacial cycles  in the southern North Sea exhibit dominant Northern Hemisphere forcing. <i>Clim. Past 14(3)</i>: 397-411. <a href=\"https://doi.org/10.5194/cp-14-397-2018\" target=\"_blank\">https://doi.org/10.5194/cp-14-397-2018</a>","AutID":154198,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":307995,"RR":"<b>Giraldo-Gomez, V.M.; Mutterlose, J.; Podlaha, O.G.; Speijer, R.P.; Stassen, P.</b> (2018). Benthic Foraminifera and geochemistry acroos the Paleocene-Eocene thermal maximum interval in Jordan. <i>J. Foramin. Res. 48(2)</i>: 100-120","AutID":154198,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":311533,"RR":"<b>Vellekoop, J.; Woelders, L.; van Helmond, N.A.G.M.; Galeotti, S.; Smit, J.; Slomp, C.P.; Brinkhuis, H.; Claeys, P.; Speijer, R.P.</b> (2018). Shelf hypoxia in response to global warming after the Cretaceous-Paleogene boundary impact. <i>Geology (Boulder Colo.) 46(8)</i>: 683-686. <a href=\"https://dx.doi.org/10.1130/G45000.1\" target=\"_blank\">https://dx.doi.org/10.1130/G45000.1</a>","AutID":154198,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":301985,"RR":"<b>Woelders, L.; Vellekoop, J.; Weltje, G.J.; de Nooijer, L.; Reichart, G.-J.; Peterse, F.; Claeys, P.; Speijer, R.P.</b> (2018). Robust multi-proxy data integration, using late Cretaceous paleotemperature records as a case study. <i>Earth Planet. Sci. Lett. 500</i>: 215-224. <a href=\"https://doi.org/10.1016/j.epsl.2018.08.010\" target=\"_blank\">https://doi.org/10.1016/j.epsl.2018.08.010</a>","AutID":252522,"MonDate":null,"AnaDate":2018,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":293602,"RR":"<b>Deprez, A.; Jehle, S.; Bornemann, A.; Speijer, R.P.</b> (2017). Pronounced biotic and environmental change across the latest Danian warming event (LDE) at Shatsky Rise, Pacific Ocean (ODP Site 1210). <i>Mar. Micropaleontol. 137</i>: 31-45. <a href=\"https://dx.doi.org/10.1016/j.marmicro.2017.10.001\" target=\"_blank\">https://dx.doi.org/10.1016/j.marmicro.2017.10.001</a>","AutID":154198,"MonDate":null,"AnaDate":2017,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":285289,"RR":"<b>Deprez, A.; Jehle, S.; Bornemann, A.; Speijer, R.P.</b> (2017). Differential response at the seafloor during Palaeocene and Eocene ocean warming events at Walvis Ridge, Atlantic Ocean (ODP Site 1262). <i>Terra nova (Print) 29(1)</i>: 71-76. <a href=\"https://dx.doi.org/10.1111/ter.12250\" target=\"_blank\">https://dx.doi.org/10.1111/ter.12250</a>","AutID":155175,"MonDate":null,"AnaDate":2017,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":284162,"RR":"<b>Vellekoop, J.; Woelders, L.; Açikalin, S.; Smit, J.; van de Schootbrugge, B.; Yilmaz, I.Ö.; Brinkhuis, H.; Speijer, R.P.</b> (2017). Ecological response to collapse of the biological pump following the mass extinction at the Cretaceous–Paleogene boundary. <i>Biogeosciences 14(4)</i>: 885-900. <a href=\"https://dx.doi.org/10.5194/bg-14-885-2017\" target=\"_blank\">https://dx.doi.org/10.5194/bg-14-885-2017</a>","AutID":252522,"MonDate":null,"AnaDate":2017,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":295672,"RR":"<b>Woelders, L.; Vellekoop, J.; Kroon, D.; Smit, J.; Casadio, S.; Pramparo, M.B.; Dinares-Turell, J.; Peterse, F.; Sluijs, A.; Lenaerts, J.T.M.; Speijer, R.P.</b> (2017). Latest Cretaceous climatic and environmental change in the South Atlantic region. <i>Paleoceanography 32(5)</i>: 466-483. <a href=\"https://dx.doi.org/10.1002/2016PA003007\" target=\"_blank\">https://dx.doi.org/10.1002/2016PA003007</a>","AutID":154198,"MonDate":null,"AnaDate":2017,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":285445,"RR":"<b>Bornemann, A.; D'haenens, S.; Norris, R.D.; Speijer, R.P.</b> (2016). The demise of the early Eocene greenhouse - Decoupled deep and surface water cooling in the eastern North Atlantic. <i>Global Planet. Change 145</i>: 130-140. <a href=\"https://dx.doi.org/10.1016/j.gloplacha.2016.08.010\" target=\"_blank\">https://dx.doi.org/10.1016/j.gloplacha.2016.08.010</a>","AutID":154198,"MonDate":null,"AnaDate":2016,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":256703,"RR":"<b>Meilijson, A.; Ashckenazi-Polivoda, S.; Illner, P.; Alsenz, H.; Speijer, R.P.; Almogi-Labin, A.; Feinstein, S.; Puttmann, W.; Abramovich, S.</b> (2016). Evidence for specific adaptations of fossil benthic foraminifera to anoxic-dysoxic environments. <i>Paleobiology 42(1)</i>: 77-97. <a href=\"https://dx.doi.org/10.1017/pab.2015.31\" target=\"_blank\">https://dx.doi.org/10.1017/pab.2015.31</a>","AutID":154198,"MonDate":null,"AnaDate":2016,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":285550,"RR":"<b>Van Bael, R.; Deprez, A.; Stassen, P.; Bornemann, A.; Speijer, R.P.</b> (2016). Taphonomic impact of ultrasonic treatment on foraminifera from a deep-sea carbonate ooze. <i>J. Micropalaeontol. 35</i>: 229-231. <a href=\"https://dx.doi.org/10.1144/jmpaleo2015-046\" target=\"_blank\">https://dx.doi.org/10.1144/jmpaleo2015-046</a>","AutID":178344,"MonDate":null,"AnaDate":2016,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":246804,"RR":"<b>Acikalin, S; Vellekoop, J,; Ocakoglu, F; Yilmaz, O; Smit, J; Altiner, O; Goderis, S.; Vonhof, H; Speijer, R.P.; Woelders, L.; Fornaciari, E; Brinkhuis, H</b> (2015). Geochemical and palaeontological characterization of a new K-Pg Boundary locality from the Northern branch of the Neo-Tethys: Mudurnu - Göynük Basin, NW Turkey. <i>Cretac. Res. 52(Part A)</i>: 251-267. <a href=\"http://dx.doi.org/10.1016/j.cretres.2014.07.011\" target=\"_blank\">http://dx.doi.org/10.1016/j.cretres.2014.07.011</a>","AutID":194704,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":257068,"RR":"<b>Deprez, A.; Tesseur, S.; Stassen, P.; D'haenens, S.; Steurbaut, E.; King, C.; Claeys, P.; Speijer, R.P.</b> (2015). Early Eocene environmental development in the northern Peri-Tethys (Aktulagay, Kazakhstan) based on benthic foraminiferal assemblages and stable isotopes (O, C). <i>Mar. Micropaleontol. 115</i>: 59-71. <a href=\"https://dx.doi.org/10.1016/j.marmicro.2014.11.003\" target=\"_blank\">https://dx.doi.org/10.1016/j.marmicro.2014.11.003</a>","AutID":154198,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":256804,"RR":"<b>Jehle, S.; Bornemann, A.; Deprez, A.; Speijer, R.P.</b> (2015). The impact of the latest Danian event on planktic foraminiferal faunas at ODP site 1210 (Shatsky Rise, Pacific Ocean). <i>PLoS One 10(11)</i>: e0141644. <a href=\"http://dx.doi.org/10.1371/journal.pone.0141644\" target=\"_blank\">dx.doi.org/10.1371/journal.pone.0141644</a>","AutID":154198,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":257067,"RR":"<b>Stassen, P.; Thomas, E.; Speijer, R.P.</b> (2015). Paleocene-Eocene Thermal Maximum environmental change in the New Jersey Coastal Plain: benthic foraminiferal biotic events. <i>Mar. Micropaleontol. 115</i>: 1-23. <a href=\"https://dx.doi.org/10.1016/j.marmicro.2014.12.001\" target=\"_blank\">https://dx.doi.org/10.1016/j.marmicro.2014.12.001</a>","AutID":154198,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":256792,"RR":"<b>Woelders, L.; Speijer, R.P.</b> (2015). Stable seafloor conditions, sea level and food supply during the latest Maastrichtian at Brazos River, Texas. <i>Mar. Micropaleontol. 121</i>: 41-51. <a href=\"https://dx.doi.org/10.1016/j.marmicro.2015.10.002\" target=\"_blank\">https://dx.doi.org/10.1016/j.marmicro.2015.10.002</a>","AutID":154198,"MonDate":null,"AnaDate":2015,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":247010,"RR":"<b>Bornemann, A; Norris, D; Lyman, A; D'haenens, S.; Groeneveld, J; Rohl, U; Farley, A; Speijer, R.P.</b> (2014). Persistent environmental change after the Paleocene-Eocene Thermal Maximum in the eastern North Atlantic. <i>Earth Planet. Sci. Lett. 394</i>: 70-81. <a href=\"http://dx.doi.org/10.1016/j.epsl.2014.03.017\" target=\"_blank\">dx.doi.org/10.1016/j.epsl.2014.03.017</a>","AutID":154198,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":247011,"RR":"<b>D'haenens, S.; Bornemann, A; Claeys, P.; Rohl, U; Steurbaut, E.; Speijer, R.P.</b> (2014). A transient deep-sea circulation switch during Eocene Thermal Maximum 2. <i>Paleoceanography 29(5)</i>: 370-388. <a href=\"http://dx.doi.org/10.1002/2013PA002567\" target=\"_blank\">dx.doi.org/10.1002/2013PA002567</a>","AutID":154198,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":246973,"RR":"<b>Meilijson, A; Ashckenazi-Polivoda, S; Ron-Yankovich, L; Illner, P; Alsenz, H; Speijer, R.P.; Almogi-Labin, A; Feinstein, S; Berner, Z; Puttmann, W; Abramovich, S</b> (2014). Chronostratigraphy of the Upper Cretaceous high productivity sequence of the southern Tethys, Israel. <i>Cretac. Res. 50</i>: 187-213. <a href=\"http://dx.doi.org/10.1016/j.cretres.2014.04.006\" target=\"_blank\">dx.doi.org/10.1016/j.cretres.2014.04.006</a>","AutID":154198,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":238087,"RR":"<b>Nguyen, T.M.P.; Speijer, R.P.</b> (2014). A new procedure to assess dissolution based on experiments on Pliocene-Quaternary foraminifera (ODP Leg 160, Eratosthenes Seamount, Eastern Mediterranean). <i>Mar. Micropaleontol. 106</i>: 22-39. <a href=\"http://dx.doi.org/10.1016/j.marmicro.2013.11.004\" target=\"_blank\">dx.doi.org/10.1016/j.marmicro.2013.11.004</a>","AutID":154198,"MonDate":null,"AnaDate":2014,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":238128,"RR":"<b>Kost'ak, M.; Jagt, J.W.M.; Speijer, R.P.; Stassen, P.; Steurbaut, E.</b> (2013). New Paleocene sepiid coleoids (Cephalopoda) from Egypt: evolutionary significance and origin of the sepiid 'Rostrum'. <i>PLoS One 8(11)</i>: 1-19. <a href=\"https://dx.doi.org/10.1371/journal.pone.0081180\" target=\"_blank\">https://dx.doi.org/10.1371/journal.pone.0081180</a>","AutID":178120,"MonDate":null,"AnaDate":2013,"PeerRev":1,"outputType":"1_A1","OpenAcc":1},{"BRefID":238165,"RR":"<b>Pirkenseer, C.M.; Steurbaut, E.; Abels, H.A.; King, C.; Speijer, R.P.</b> (2013). An expanded lower Eocene shelf sequence from the eastern Aquitaine Basin, SW France: biostratigraphy, biofacies, and stable carbon and oxygen isotopes. <i>Newsl. stratigr. 46(3)</i>: 339-361. <a href=\"http://dx.doi.org/10.1127/0078-0421/2013/0037\" target=\"_blank\">dx.doi.org/10.1127/0078-0421/2013/0037</a>","AutID":178344,"MonDate":null,"AnaDate":2013,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":231412,"RR":"<b>Schulte, P.; Schwark, L.; Stassen, P.; Kouwenhoven, T.J.; Bornemann, A.; Speijer, R.P.</b> (2013). Black shale formation during the Latest Danian Event and thePaleocene-Eocene Thermal Maximum in central Egypt: Two of a kind? <i>Palaeogeogr. Palaeoclimatol. 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Micropaleontol. 59(3-4)</i>: 210-229. <a href=\"http://dx.doi.org/10.1016/j.marmicro.2006.02.008\" target=\"_blank\">dx.doi.org/10.1016/j.marmicro.2006.02.008</a>","AutID":142592,"MonDate":null,"AnaDate":2006,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":231703,"RR":"<b>Schulte, P.; Speijer, R.; Mai, H.; Kontny, A.</b> (2006). The Cretaceous-Paleogene (K-P) boundary at Brazos, Texas: Sequence stratigraphy, depositional events and the Chicxulub impact. <i>Sediment. Geol. 184(1-2)</i>: 77-109. <a href=\"http://dx.doi.org/10.1016/j.sedgeo.2005.09.021\" target=\"_blank\">dx.doi.org/10.1016/j.sedgeo.2005.09.021</a>","AutID":168956,"MonDate":null,"AnaDate":2006,"PeerRev":1,"outputType":"1_A1","OpenAcc":0},{"BRefID":211324,"RR":"<b>Guasti, E.; Kouwenhoven, T.J.; Brinkhuis, H.; Speijer, R.P.</b> (2005). Paleocene sea-level and productivity changes at the southern Tethyan margin (El Kef, Tunisia). <i>Mar. 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