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Research Articles

Miocene dinoflagellate cyst biostratigraphy of the Península Valdés, Patagonia, Argentina

Sabrina Natalia FuentesDepartamento de Biología, Bioquímica y Farmacia, Universidad Nacional del Sur, Bahía Blanca, Buenos Aires, ArgentinaCorrespondence[email protected]
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Article: 2212276 | Published online: 12 Jun 2023

References

  • Acosta Hospitaleche C, Tambussi C, Donato M, Cozzuol M. 2007. A new Miocene penguin from Patagonia and its phylogenetic relationships. Acta Palaeontologica Polonica. 52:299–314.
  • Barreda V, Palamarczuk S. 2000. Monte León en su área tipo, provincia de Santa Cruz. Argentina. Ameghiniana. 37:1.
  • Benedek PN. 1972. Phytoplanktonten aus dem Mittel- und Oberoligozän von Tönisberg (Niederrheingebiet). Palaeontographica, Abteilung B. 137:1–71.
  • Bijl PK. 2022. DINOSTRAT: a global database of the stratigraphic and paleolatitudinal distribution of Mesozoic-Cenozoic organic-walled dinoflagellate cysts. Earth System Science Data. 14(2):579–617.
  • Boyd JL, Riding JB, Pound MJ, De Schepper S, Ivanovic RF, Haywood AM, Wood SE. 2018. The relationship between Neogene dinoflagellate cysts and global climate dynamics. Earth-Science Reviews. 177:366–385.
  • Bradford MR. 1975. New dinoflagellate cyst genera from the recent sediments of the Persian Gulf. Canadian Journal of Botany. 53(24):3064–3074.
  • Brinkhuis H, Munsterman DK, Sengers S, Sluijs A, Warnaar J, Williams GL. 2003. Late Eocene to Quaternary dinoflagellate cysts from ODP Site 1168, off western Tasmania. In: Exon NF, Kennett JP, Malone MJ, editors. Proceedings of the Ocean Drilling Program, Scientific Results. College Station (TX): Ocean Drilling Program. p. 1–36.
  • Brosius M. 1963. Plankton aus dem nordhessischen Kasseler Meeressand (Oberoligozän). Zeitschrift der Deutschen Geologischen Gesellschaft. 114(1):32–56.
  • Bujak JP. 1984. Cenozoic dinoflagellate cysts and acritarchs from the Bering Sea and northern North Pacific, D.S.D.P. Leg 19. Micropaleontology. 30(2):180.
  • Bujak JP, Downie C, Eaton GL, Williams GL. 1980. Dinoflagellate cysts and acritarchs from the Eocene of southern England. Special Papers in Palaeontology. 24:100.
  • Bujak JP, Matsuoka K. 1986. Taxonomic reallocation of Cenozoic dinoflagellate cysts from Japan and the Bering Sea. Palynology. 10(1):235–241.
  • Buono MR, Viglino M, Cozzuol MA, Lucero S. 2016. Descifrando la historia evolutiva de los Neoceti (Mammalia: Cetacea): aportes del registro fósil del Neógeno del Atlántico Sudoccidental. XXX Jornadas Argentinas de Paleontología de Vertebrados, Contribuciones del MACN. 6:323–334.
  • Caramés A, Malumián N, Náñez C. 2004. Foraminíferos del Paleógeno del Pozo Península Valdés (PV. es-1), Patagonia septentrional. Argentina. Ameghiniana. 41(3):461–474.
  • Casadío S, Feldmann RM, Parras A, Schweitzer CE. 2005. Miocene fossil Decapoda (Crustacea: Brachyura) from Patagonia, Argentina, and their paleoecological setting. Annals of Carnegie Museum. 74(3):151–188.2.0.CO;2]
  • Channell JET, Amigo AE, Fronval T, Rack F, Lehman B. 1999a. Magnetic stratigraphy at Sites 907 and 985 in the Norwegian–Greenland Sea and a revision of the Site 907 composite section. In: Raymo ME, Jansen E, Blum P, Herbert TD, editors. Proceedings of the Ocean Drilling Program, Scientific Results; College Station (TX). p. 131–148.
  • Channell JET, Smelror M, Jansen E, Higgins SM, Lehman B, Eidvin T, Solheim A. 1999b. Age models for glacial fan deposits off East Greenland and Svalbard (Sites 986 and 987). In: Raymo ME, Jansen E, Blum P, Herbert TD, editors. Proceedings of the Ocean Drilling Program, Scientific Results; College Station (TX). p. 149–166.
  • Cione AL, Cozzuol MA, Dozo MT, Acosta Hospitaleche C. 2011. Marine vertebrate assemblages in the southwest Atlantic during the Miocene. Biological Journal of the Linnean Society. 103(2):423–440.
  • Cione AL, Tonni EP. 1981. Un pingüino (Aves, Spheniscidae) de la Formación Puerto Madryn (Mioceno tardío) de Chubut, Argentina. Annais do II Congreso Latinoamericano de Paleontología. Porto Alegre (Brasil): Universidad Federal de Rio Grande do Sul editorial; Apr. p. 591–604.
  • Continanzia J, Manceda R, Covellone GM, Gavarrino AS. 2011. Cuencas de Rawson y Valdés: Síntesis del Conocimiento Exploratorio—Visión actual. Simposio Cuencas Argentinas Visión Actual: VIII Congreso de Exploración y Desarrollo de Hidrocarburos. Mar del Plata (BA): Instituto Argentino del Petróleo y del Gas; Nov. p. 47–64.
  • Cookson IC. 1953. Records of the occurrence of Botryococcus braunii, Pediastrum and the Hystrichosphaerideae in Cainozoic deposits of Australia. Memoirs of the National Museum of Victoria. 18:107–123.
  • Cookson IC, Eisenack A. 1965. Microplankton from the Browns Creek Clays, sw Victoria. Proceedings of the Royal Society of Victoria. 79:119–131.
  • Cozzuol MA. 1993. Mamíferos acuáticos del Mioceno medio y tardío de Argentina. Sistemática, Evolución y Biogeografía [disertación]. La Plata (BA): Facultad de Ciencias Naturales y Museo de La Plata.
  • Cozzuol MA. 2001. A “northern” seal from the Miocene of Argentina: implications for phocid phylogeny and biogeography. Journal of Vertebrate Paleontology. 21(3):415–421.2.0.CO;2]
  • Cuitiño JI, Scasso RA, Santos RV, Mancini LH. 2015. Sr ages for the Chenque Formation in the Comodoro Rivadavia región (Golfo San Jorge basin, Argentina): stratigraphic implications. Latin American Journal of Sedimentology and Basin Analysis. 22:3–12.
  • Cuitiño JI, Dozo MT, del Río CJ, Buono MR, Palazzesi L, Fuentes S, Scasso RA. 2017. Miocene marine transgressions: palaeoenvironments and paleobiodiversity. New York (NY): Late Cenozoic of Península Valdés, Patagonia, Argentina (Bouza P, Bilmes A, editors.). p. 47–84.
  • Cuitiño JI, Buono MR, Viglino M, Farroni N, Bessone S. 2019. Factors affecting the preservation and distribution of cetaceans in the lower Miocene Gaiman Formation of Patagonia, Argentina. Palaeogeography, Palaeoclimatology, Palaeoecology. 526:110–125.
  • Dale B. 1983. Dinoflagellate resting cysts: benthic plankton. In: Fryxell A, editor. Survival strategies of the algae. Cambridge: Cambridge University Press. p. 69–136.
  • Deflandre G, Cookson IC. 1955. Fossil microplankton from Australian Late Mesozoic and Tertiary sediments. Australian Journal of Marine and Freshwater Research. 6(2):242–313.
  • del Río CJ. 1988. Bioestratigrafía y Cronoestratigrafía de la Formación Puerto Madryn (Mioceno medio). Provincia del Chubut - Argentina. Anales de la Academia Nacional de Ciencias Exactas, Físicas y Naturales. 40:231–254.
  • del Río CJ. 1990. Composición, Origen y Significado Paleoclimático de la Malacofauna “Entrerriense” (Mioceno medio) de la Argentina. Anales Academia Nacional de Ciencias Exactas Físicas y Naturales. 42:207–226.
  • del Río CJ. 2000. Malacofaunas de las Formaciones Paraná y Puerto Madryn (Mioceno marino, Argentina): su origen, composición y significado bioestratigráfico. Tucumán (Argentina): El Neógeno de Argentina (Aceñolaza FG, Herbst R, editors.). p. 77–101.
  • del Río CJ, Martinez SA, Scasso RA. 2001. Nature and origin of spectacular marine Miocene Shell beds of northeastern Patagonia (Argentina): paleoecological and bathymetric significance. Palaios. 16(1):3–25.
  • del Río CJ, Martinez SA, McArthur JM, Thirlwall MF, Pérez LM. 2018. Dating late Miocene marine incursions across Argentina and Uruguay with Sr-isotope stratigraphy. Journal of South American Earth Sciences. 85:312–324.
  • De Schepper S, Beck KM, Mangerud G. 2017. Late Neogene dinoflagellate cyst and acritarch biostratigraphy for Ocean Drilling Program Hole 642B, Norwegian Sea. Review of Palaeobotany and Palynology. 236:12–32.
  • De Schepper S, Head MJ. 2008. Age calibration of dinoflagellate cyst and acritarch events in the Pliocene–Pleistocene of the eastern North Atlantic (DSDP Hole 610A). Stratigraphy. 5(2):137–161.
  • De Schepper S, Head MJ. 2009. Pliocene and Pleistocene dinoflagellate cyst and acritarch zonation of DSDP Hole 610A, eastern North Atlantic. Palynology. 33(1):179–218.
  • De Schepper S, Head MJ, Louwye S. 2009. Pliocene dinoflagellate cyst stratigraphy, palaeoecology and sequence stratigraphy of the Tunnel-Canal Dock, Belgium. Geological Magazine. 146(1):92–112.
  • De Schepper S, Schreck M, Beck KM, Matthiessen J, Fahl K, Mangerud G. 2015. Early Pliocene onset of modern Nordic Seas circulation related to ocean gateway changes. Nature Communications. 6(1):8659.
  • de Verteuil L, Norris G. 1996. Miocene dinoflagellate stratigraphy and systematics of Maryland and Virginia. Micropaleontology. 42:1–172.
  • Donders TH, Weijers JWH, Munsterman DK, Kloosterboer-van Hoeve ML, Buckles LK, Pancost RD, Schouten S, Sinninghe Damsté JS, Brinkhuis H. 2009. Strong climate coupling of terrestrial and marine environments in the Miocene of northwest Europe. Earth and Planetary Science Letters. 281(3–4):215–225.
  • Dozo MT, Monti A, Bouza P, Vucetich MG, Cione AL, Tonni EP, Scillato-Yané GJ. 2002. Geología y vertebrados continentales en cercanías de Punta Delgada (Neógeno de Península Valdés, Chubut, Argentina). Actas del XV Congreso Geológico Argentino CD-ROM, Artículo; Santa Cruz, Argentina; Apr. 1–6.
  • Dozo MT, Bouza P, Monti A, Palazzesi L, Barreda V, Massaferro G, Scasso RA, Tambussi CP. 2010. Late Miocene continental biota in Northeastern Patagonia (Península Valdés, Chubut, Argentina). Palaeogeography, Palaeoclimatology, Palaeoecology. 297(1):100–109.
  • Dybkjær K, Piasecki S. 2008. A new Neogene biostratigraphy for Denmark. Geological Survey of Denmark and Greenland Bulletin. 15:29–32.
  • Dybkjær K, Piasecki S. 2010. Neogene dinocyst zonation for the eastern North Sea Basin, Denmark. Review of Palaeobotany and Palynology. 161(1–2):1–29.
  • Dybkjær K, Rasmussen ES. 2000. Palynological dating of the Oligocene – Miocene successions in the Lille Bælt area, Denmark. Bulletin of the Geological Society of Denmark. 47:87–103.
  • Dybkjær K, Rasmussen ES, Eidvin T, Grøsfjeld K, Riis F, Piasecki S, Śliwińska KK. 2021. A new stratigraphic framework for the Miocene–Lower Pliocene deposits offshore Scandinavia: a multiscale approach. Geological Journal. 56(3):1699–1725.
  • Eaton GL. 1976. Dinoflagellate cysts from the Bracklesham Beds (Eocene) of the Isle of Wight, southern England. Bulletin of the British Museum (Natural History). Geology. 26:227–332.
  • Eaton GL, Fensome RA, Riding JB, Williams GL. 2001. Re-evaluation of the status of the dinoflagellate cyst genus Cleistosphaeridium. Neues Jahrbuch für Geologie und Paläontologie - Abhandlungen. 219(1–2):171–205.
  • Edwards LE. 1984. 14. Miocene dinocysts from Deep Sea Drilling Project Leg 81, Rockall Plateau, Eastern North Atlantic Ocean. U.S. Geological Survey Professional Paper. p. 581–594.
  • Egger LM, Bahr A, Friedrich O, Wilson PA, Norris RD, van Peer TE, Lippert PC, Liebrand D, Pross J. 2018. Sea level and surface-water change in the western North Atlantic across the Oligocene–Miocene Transition: a palynological perspective from IODP Site U1406 (Newfoundland margin). Marine Micropaleontology. 139:57–71.
  • Ehrenberg CG. 1837. Über das Massenverhältniss der jetzt lebenden Kiesel-Infusorien und über ein neues Infusorien-Conglomerat als Polirschiefer von Jastraba in Ungarn. Abhandlungen der Königlichen Akademie der Wissenschaften zu Berlin, Physikalische Klasse. 1836:109–135.
  • Fensome R, Crux JA, Gard IG, MacRae RA, Williams GL, Thomas FC, Fiorini F, Wach G. 2008. The last 100 million years on the Scotian Margin, offshore eastern Canada: an event-stratigraphic scheme emphasizing biostratigraphic data. Atlantic Geology. 44:93–126.
  • Fuentes SN. 2020. Análisis palinológico de sedimentitas neógenas del centro-norte de Patagonia [PhD Thesis]. Universidad Nacional del Sur. p. 143.
  • Fuentes SN, Guler MV, Cuitiño JI, Palazzesi L, Scasso RA, Barreda VN. 2016. Bioestratigrafía basada en quistes de dinoflagelados del Neógeno en el Noreste de la Patagonia, Argentina. Revista Brasileira de Paleontologia. 19(2):303–314.
  • Fuentes SN, Cuitiño JI, Martz P, Panera JPP, Guler V, Palazzesi L, Barreda VD, Scasso RA. 2018. Palaeoenvironmental reconstruction of the Puerto Madryn Formation (middle to late Miocene), northeast of Patagonia: palynology, nannofossils and stratigraphy. Ameghiniana. 56 (1):28–52.
  • Fuentes SN, Cuitiño JI, Martz P, Panera JPP, Guler V, Palazzesi L, Scasso RA. 2019. Palaeoenvironmental reconstruction of the Puerto Madryn Formation (middle to late Miocene), northeast of Patagonia: palynology, nannofossils and stratigraphy. Ameghiniana. 56:28–52.
  • Gamerro JC, Archangelsky S. 1981. Palinozonas Neocretácicas y Terciarias de la plataforma continental Argentina en la Cuenca del Colorado. Revista Española de Micropaleontología. 13(1):119–140.
  • Gartner S, Shyu JP. 1993. Aspects of calcareous nannofossil biostratigraphy and abundance in the Pliocene and late Miocene of Site 905. In: Mountain GS, Miller KG, Blum P, Poag CW, Twichell DC, editors. Proceedings of the Ocean Drilling Program, Scientific Results. p. 53–64.
  • Gradstein FM, Ogg JG, Smith A. 2005. A geologic time scale 2004. Cambridge (UK): Cambridge University Press.
  • Grøsfjeld K, Dybkjær K, Eidvin T, Riis F, Rasmussen ES, Knies J. 2019. A Miocene age for the Molo Formation, Norwegian Sea shelf off Vestfjorden based on Marine Palynology. Norwegian Journal of Geology. 99(3):1–20.
  • Góis F, Scillato-Yané GJ, Carlini AA, Guilherme E. 2013. A new species of Scirrotherium Edmund & Theodor, 1997 (Xenarthra, Cingulata, Pampatheriidae) from the late Miocene of South America. Alcheringa: An Australasian Journal of Palaeontology. 37(2):177–188.
  • Gruetzner J, Matthiessen J, Geissler WH, Gebhardt AC, Schreck M. 2022. A revised core-seismic integration in the Molloy Basin (ODP Site 909): implications for the history of ice rafting and ocean circulation in the Atlantic-Arctic gateway. Global and Planetary Change. 215:103876.
  • Guerstein GR, Junciel G. 2001. Quistes de dinoflagelados del Cenozoico de la Cuenca del Colorado, Argentina. Ameghiniana. 38:299–316.
  • Guerstein GR, Williams GL, Fensome RA. 2001. Cannosphaeropsis quattrocchiae, a new species of dinoflagellate cyst from the mid Cenozoic of the Colorado Basin, Argentina. Micropaleontology. 47(2):155–167.
  • Guler MV, Guerstein GR. 2002. Bioestratigrafía del Oligoceno-Plioceno temprano de la cuenca del Colorado (Argentina) basada en quistes de dinoflagelados. Revista Española de Micropaleontología. 34(3):359–372.
  • Guler MV, González Estebenet MS, Navarro EL, Astini RA, Pérez Panera JP, Ottone EG, Pieroni D, Paolillo MA. 2019. Maastrichtian to Danian Atlantic transgression in the north of Patagonia: a dinoflagellate cyst approach. Journal of South American Earth Science. 92:552–564.
  • Guler MV, Estebenet MSG, Navarro EL, Fuentes S, Cuitiño JI, Palazzesi L, Pérez Panera JP, Barreda V. 2021. Miocene Atlantic transgressive-regressive events in northeastern and offshore Patagonia: a palynological perspective. Journal of South American Earth Sciences. 109:103239.
  • Guler MV, Guerstein GR, Archangelsky S. 2003. Quistes de dinoflagelados del Cretácico inferior de la plataforma continental argentina: resultados bioestratigráficos. Revista del Museo Argentino de Ciencias Naturales. 5:225–233.
  • Haller MJ. 1979. Estratigrafía de la región al poniente de Puerto Madryn, provincia del Chubut, República Argentina. 7° Congreso Geológico Argentino; Neuquén (Argentina); Apr. pp. 285–297.
  • Haller MJ. 2017. Late Cenozoic of Península Valdés, Patagonia, Argentina. In: Bouza P, Bilmes A, editors. New York (UK): Geology of Península Valdés. p. 23–46.
  • Haller MJ, Mendía JE. 1980. Las sedimentitas del ciclo Patagoniano en el litoral atlántico norpatagónico. Estratigrafia del Terciario en el valle inferior del río Chubut. 9° Congreso Geológico Argentino; S. C de Bariloche, Argentina; Nov. p. 93–606.
  • Haller MJ, Monti AJ, Meister CM, Ardolino AA. 2001. Hoja Geológica 4363-I Península Valdés.
  • Harland R, Hill J. 1979. A reappraisal of the Cainozoic dinoflagellate cyst “Hystrichosphaeridium” choanophorum Deflandre et Cookson 1955. Review of Palaeobotany and Palynology. 28(1):37–45.
  • Head MJ. 1997. Thermophilic dinoflagellate assemblages from the mid Pliocene of eastern England. Journal of Paleontology. 71(2):165–193.
  • Head MJ, Norris G, Mudie PJ. 1989a. New species of dinocysts and a new species of acritarch from the upper Miocene and lowermost Pliocene, ODP Leg 105, Site 646, Labrador Sea. In: Srivastava SP, Arthur MA, Clement B, editors. College Station (TX): Proceedings of the Ocean Drilling Program, Scientific Results. p. 453–466.
  • Head MJ, Norris G, Mudie PJ. 1989b. Palynology and dinocyst stratigraphy of the Miocene in ODP Leg 105, Hole 645E, Baffin Bay. In: Srivastava SP, Arthur MA, Clement B, editors. Proceedings of the Ocean Drilling Program, Scientific Results. College Station (TX): Ocean Drilling Program. p. 467–514.
  • Hennissen JA, Head MJ, De Schepper S, Groeneveld J. 2017. Dinoflagellate cyst paleoecology during the Pliocene–Pleistocene climatic transition in the North Atlantic. Palaeogeography, Palaeoclimatology, Palaeoecology. 470:81–108.
  • Jiménez Moreno G, Head MJ, Harzhauser M. 2006. Early and Middle Miocene dinoflagellate cyst stratigraphy of the Central Paratethys, Central Europe. Journal of Micropalaeontology. 25(2):113–139.
  • King C. 2016. A revised correlation of Tertiary rocks in the British Isles and adjacent areas of NW Europe. London: Geological Society of London; p. 724.
  • King C, Iakovleva A, Heilmann-Clausen C, Steurbaut E. 2018. Ypresian (early Eocene) stratigraphy of the Suvlu-Kaya reference section in the Bakhchisaray area (Crimea). Newsletters on Stratigraphy. 51(2):167–208.
  • Köthe A. 2003. Dinozcysten-Zonierung im Tertiär Norddeutschlands. Revue de Paleobiologie. 22(2):895–923.
  • Köthe A. 2005. Biostratigraphie an der Oligozän/Miozän-Grenze und im Unter-Miozän der Forschungsbohrung Wursterheide (Kalknannoplankton, Dinozysten, Norddeutschland). Senckenbergiana Lethaea. 85:201–229.
  • Köthe A. 2012. A revised Cenozoic dinoflagellate cyst and calcareous nannoplankton zonation for the German sector of the southeastern North Sea Basin. Newsletters on Stratigraphy. 45(3):189–220.
  • Köthe A, Piesker B. 2007. Stratigraphic distribution of Paleogene and Miocene dinocysts in Germany. Revue de Paleobiologie. 26(1):1.
  • Louwye S, De Coninck J, Verniers J. 1999. Dinoflagellate cyst stratigraphy and depositional history of Miocene and Lower Pliocene formations in northern Belgium (southern North Sea Basin). Geologie en Mijnbouw. 78(1):31–46.
  • Louwye S, De Schepper S. 2010. The Miocene–Pliocene hiatus in the southern North Sea Basin (northern Belgium) revealed by dinoflagellate cysts. Geological Magazine. 147(5):760–776.
  • Louwye S, De Schepper S, Laga P, Vandenberghe N. 2007. The Upper Miocene at the southern North Sea Basin: a palaeoenvironmental and stratigraphic reconstruction with dinoflagellate cysts. Geological Magazine. 144(1):33–52.
  • Louwye S, Foubert A, Mertens K, Van Rooij D. 2008. Integrated stratigraphy and palaeoecology of the Lower and Middle Miocene of the Porcupine Basin. Geological Magazine. 145(3):321–344.
  • Louwye S, Head MJ, de Schepper S. 2004. Dinoflagellate cyst stratigraphy and palaeoecology of the Pliocene in northern Belgium, southern North Sea Basin. Geological Magazine. 141(3):353–378.
  • Malumián N. 1978. Esbozo paleoecológico de las asociaciones foraminiferológicas terciarias de la Argentina. Ameghiniana. 15:161–171.
  • Malumián N, Ardolino AA, Franchi M, Remesal M, Salani F. 1999. La sedimentación y el volcanismo terciarios en la Patagonia Extraandina. Instituto de Geología y Recursos Minerales. Anales. 29(18):557–612.
  • Malumián N, Masiuk V. 1973. Asociaciones foraminiferológicas fósiles de la República Argentina. V Congreso Geológico Argentino; Córdoba, Argentina; Oct. p. 433–453.
  • Malumián N, Náñez C. 1991. Paleogeografía del Terciario medio del Cono Sur: avance de aguas antárticas. 6° Congreso Geológico Chileno (Viña del Mar, 1991), Resúmenes Expandidos 847–851.
  • Mantell GA. 1854. The Medals of Creation; or, First Lessons in Geology and the Study of Organic Remains; Second Edition. 930 p., 6 pl. (in two volumes); Henry G. Bohn, London, U.K.
  • Marengo H. 2015. Neogene Micropaleontology and Stratigraphy of Argentina: the Chaco-Paranense Basin and the Península de Valdés. New York (NY): Springer.
  • Martin HA. 1993. Middle Tertiary dinoflagellate and spore/pollen biostratigraphy and palaeoecology of the Mallee Cliffs bore, central Murray Basin. Alcheringa: An Australasian Journal of Palaeontology. 17(2):91–124.
  • Martínez SA, del Río CJ. 2002. Late Miocene Molluscs from the Southwestern Atlantic Ocean (Argentina and Uruguay): a paleobiogeographic analysis. Palaeogeography, Palaeoclimatology, Palaeoecology. 188:67–182.
  • Martínez S, del Río CJ. 2008. A new, first fossil species of Ophioderma Müller and Troschel, 1842 (Echinodermata: Ophiuroidea) (Late Miocene, Argentina). Zootaxa. 1841(1):43–52.
  • Masiuk V, Becker D, García Espiasse A. 1976. Micropaleontología y sedimentología del pozo YPF.Ch.PV es-1 (Península Valdés) Provincia del Chubut, República Argentina. ARPEL XXIV.1–28.
  • Matsuoka K. 1983. Late Cenozoic dinoflagellates and acritarchs in the Niigata district, central Japan. Palaeontographica, Abteilung B. 187:89–154.
  • Matsuoka K. 1985. Organic-walled dinoflagellate cysts from surface sediments of Nagasaki Bay and Senzaki Bay, west Japan. Faculty of Liberal Arts, Nagasaki University. Natural Science, Bulletin. 25(2):21–115.
  • Matsuoka K, Head MJ. 1992. Taxonomic revision of the Neogene marine palynomorphs Cyclopsiella granosa (Matsuoka) and Batiacasphaera minuta (Matsuoka) and a new species of Pyxidinopsis (Dinophyceae) from the Miocene of the Labrador Sea. In: Head MJ, Wrenn JH, editors. Neogene and Quaternary dinoflagellate cysts and acritarchs. Dallas (USA): American Association of Stratigraphic Palynologists Foundation. p. 165–180, pl. 1–3.
  • McMinn A. 1991. Recent dinoflagellate cysts from estuaries on the central coast of New South Wales, Australia. Micropaleontology. 37(3):269–287.
  • Munsterman DK, Brinkhuis H. 2004. A southern North Sea Miocene dinoflagellate cyst zonation. Netherlands Journal of Geosciences - Geologie en Mijnbouw. 83(4):267–285.
  • Munsterman DK, ten Veen JH, Menkovic A, Deckers J, Witmans N, Verhaegen J, Kerstholt-Boegehold SJ, van de Ven T, Busschers FS. 2019. An updated and revised stratigraphic framework for the Miocene and earliest Pliocene strata of the Roer Valley Graben and adjacent blocks. Netherlands Journal of Geosciences. 98:1–23.
  • Palamarczuk S, Barreda VD. 1998. Bioestratigrafía en base a quistes de dinoflagelados de la Formación Chenque (Mioceno), provincia del Chubut, Argentina. Netherlands Journal of Geosciences. 35(4):415–426.
  • Palazzesi L, Barreda V. 2004. Primer registro palinológico de la Formación Puerto Madryn, Mioceno de la provincia de Chubut, Argentina. Ameghiniana. 41:355–362.
  • Palazzesi L, Barreda V. 2007. Major vegetation trends in the Tertiary of Patagonia (Argentina): a qualitative paleoclimatic approach based on palynological evidence. Flora-Morphology, Distribution, Functional Ecology of Plants. 202(4):328–337.
  • Palazzesi L, Barreda V. 2012. Fossil pollen records reveal a late rise of open-habitat ecosystems in Patagonia. Nature Communications. 3(1):1294.
  • Palazzesi L, Barreda VD, Cuitiño JI, Guler MV, Telleria MC, Santos RV. 2014. Fossil pollen records indicate that Patagonian desertification was not solely a consequence of Andean uplift. Nature Communications. 5:3558.
  • Paredes JM, Foix N, Guerstein GR, Guler MV, Irigoyen M, Moscoso P, Giordano S. 2015. A late Eocene-early Oligocene transgressive event in the Golfo San Jorge basin: palynological results and stratigraphic implications. Journal of South American Earth Sciences. 63:293–309.
  • Parras A, Cuitiño JI. 2021. Revised chrono and lithostratigraphy for the Oligocene-Miocene Patagoniense marine deposits in Patagonia (Argentina): implications for stratigraphic cycles, paleogeography, and major drivers. Journal of South American Earth Sciencies. 110:103327.
  • Parras A, Dix GR, Griffin M. 2012. Sr-isotope chronostratigraphy of Paleogene/Neogene marine deposits: Austral Basin, southern Patagonia (Argentina). Journal of South American Earth Sciences. 37:122–135.
  • Parras A, Guerstein GR, Pérez Panera JP, Griffin M, Nánez C, Cusminsky C, Quiroga A. 2020. Integrated stratigraphy and paleontology of the lower Miocene Monte Leon Formation, southeastern Patagonia, Argentina: unraveling paleonvironmental changes and factors controlling Sedimentation. Palaeogeography, Palaeoclimatology, Palaeoecology. 556:109701.
  • Panera JP, Guerstein GR, Heredia E, Parras A, Griffin M, Paez M. 2014. Calcareous nannofossils, Palynological and sedimentological data from the early Miocene Monte León Formation and the lowermost Santa Cruz Formation, southern Patagonia, Argentina. 4th International Paleontological Congress, Actas (CD-ROM); Sep. 591; Mendoza, Argentina.
  • Piasecki S. 1980. Dinoflagellate cyst stratigraphy of the Miocene Hodde and Gram Formations, Denmark. Bulletin of the Geological Society of Denmark. 29:53–76.
  • Piasecki S. 2003. Neogene dinoflagellate cysts from Davis strait, offshore West Greenland. Marine and Petroleum Geology. 20(9):1075–1088.
  • Piasecki S. 2005. Dinoflagellate cysts of the Middle–Upper Miocene Gram Formation, Denmark. In: Roth F, Hoedemarkers K, editors. The Gram Book. Palaeontos. Midtsønderjyllands Museum Gram Slot; p. 29–45.
  • Pinzón D, Rodríguez G, Rincón-Martínez D, Prámparo MB, Guerstein GR, Restrepo S, Pérez Panera JP, De la Parra F, Vargas MC, Vento B, et al. 2022. Late Neogene chronostratigraphy and integrated paleoecological trends in the southwestern Caribbean Sea. Marine Micropaleontology. 172:102106.
  • Poulsen NE, Manum SB, Williams GL, Ellegaard M. 1996. Tertiary dinoflagellate biostratigraphy of Sites 907, 908, and 909 in the Norwegian–Greenland Sea. In: Thiede J, Myhre AM, Firth JV, Johnson GL, Ruddiman WF, editors. College Station (TX): Proceedings of the Ocean Drilling Program, Scientific Results. p. 255–287.
  • Powell AJ. 1992. Dinoflagellate cysts of the Tertiary system. In: Powell AJ, editor. A stratigraphic index of dinoflagellate cysts, British Micropalaeontological Society Publication Series. London: Chapman and Hall. p. 155–251.
  • Premaor E, Ferreira EP, Guerstein GR, Souza PA, Arai M. 2023. Cousteaudinium aubryae (Dinophyceae, Cribroperidinioideae) from the lower to middle Miocene of the Pelotas Basin, southern Brazil: morphology, biochronostratigraphy and paleobiogeography. Review of Palaeobotany and Palynology. 308:104799.
  • Premaor E, Souza PA, Ferreira EP, Guerstein GR. 2013. Significado bioestratigráfico das associações de cistos de dinoflagelados cenozoicos (Paleoceno a Mioceno) da Bacia de Pelotas. XXIII Congreso Brasileiro de Paleontologia; Oct. 47–48; Gramado, Brasil.
  • Riva Rossi C. 1997. Presencia de Pseudopercis semifasciata (Pisces, Pinguipedidae) en el Mioceno medio de Península Valdés. Ameghiniana. 34(4):540.
  • Riva Rossi CM, Cozzuol MA. 1996. Una nueva especie del genero Genypterus (Pisces, Ophidiiformes) del Mioceno Medio de Peninsula Valdés (Chubut) y sus relaciones filogeneticas con los abadejos actuales. Ameghiniana. 33:471.
  • Riva Rossi CM, Gosztonyi AE, Cozzuol MA. 2000. A Miocene cusk-eel (Ophidiiformes: Ophidiidae) from Península Valdés, Argentina. Journal of Vertebrate Paleontology. 20:645–650.
  • Rossignol M. 1962. Analyse pollinique de sédiments marins quaternaires en Israël II. - Sédiments Pleistocenes. Pollen et Spores. 4(1):121–148.
  • Rossignol M. 1964. Hystrichosphères du Quaternaire en Méditerranée orientale, dans les sédiments Pléistocènes et les boues marines actuelles. Revue de Micropaléontologie. 7(2):83–99.
  • Sarjeant WAS. 1970. The genus Spiniferites Mantell, 1850 (Dinophyceae). Grana, v.10, p.74–78.
  • Scasso RA, Del Río CJ, Macarthur JM, Martínez SA. 1999. Edades 87Sr/86Sr para el Entrerriense (Miocenos) de península Valdés, provincia de Chubut, Argentina. XIV Congreso Geológico Argentino; Oct. 73; Salta, Argentina.
  • Scasso RA, McArthur JM, del Rı́o CJ, Martı́nez S, Thirlwall MF, 2001. 87Sr/86Sr Late Miocene age of fossil molluscs in the ‘Entrerriense’ of the Valdés Peninsula (Chubut, Argentina). Journal of South American Earth Sciences. 14(3):319–329.
  • Schreck M, Matthiessen J, Head MJ. 2012. A magnetostratigraphic calibration of Middle Miocene through Pliocene dinoflagellate cyst and acritarch events in the Iceland Sea (Ocean Drilling Program Hole 907A). Review of Palaeobotany and Palynology. 187:66–94.
  • Soliman A, Ćorić S, Head MJ, Piller WE, El Beialy SY. 2012. Lower and Middle Miocene biostratigraphy, Gulf of Suez, Egypt based on dinoflagellate cysts and calcareous nannofossil. Palynology. 36(1):38–79.
  • Stover LE. 1975. Observations on some Australian Eocene dinoflagellates. Geoscience and Man. 11(1):35–44.
  • Stover LE. 1977. Oligocene and Early Miocene dinoflagellates from Atlantic Corehole 5/5B, Blake Plateau. American Association of Stratigraphic Palynologists, Contributions Series, no.5A, p. 66–89.
  • Stover LE, Brinkhuis H, Damassa SP, de Verteuil L, Helby RJ, Monteil E, Partridge AD, Powell JA, Riding JB, Smelror M, et al. 1996. Mesozoic–Tertiary dinoflagellates, acritarchs and prasinophytes. In: Jansonius J, McGregor DC, editors. Palynology: principles and applications. Texas: American Association of Stratigraphic Palynologists Foundation. p. 641–750.
  • Stover LE, Evitt WR. 1978. Analyses of pre-Pleistocene organic-walled dinoflagellates. Stanford University Publications, Geological Sciences. 15:300.
  • Strauss C, Lund JJ. 1992. A Middle Miocene dinoflagellate cyst microflora from Papendorf near Hamburg, Germany. Mitteilungen Geologisch-Paläontologischen Institut der Universität Hamburg. 73:159–189.
  • Strauss C, Lund JJ, Lund-Christensen J. 2001. Miocene dinoflagellate cyst biostratigraphy of the Nieder Ochtenhausen research borehole (NW Germany). Geologisches Jahrbuch. 152:395–447.
  • Türkecan AT, Munsterman D, Işik U, Altiner D, Pinar M, Çevik T, Alay Z. 2018. Dinoflagellate cyst biostratigraphy of Miocene strata in the Adana Basin, Eastern Mediterranean, Turkey. Palynology. 42(4):516–539.
  • Verhoeven K, Louwye S, Eiríksson J, De Schepper S. 2011. A new age model for the Pliocene–Pleistocene Tjörnes section on Iceland: its implication for the timing of North Atlantic–Pacific palaeoceanographic pathways. Palaeogeography, Palaeoclimatology, Palaeoecology. 309(1–2):33–52.
  • Wall D. 1967. Fossil microplankton in deep-sea cores from the Caribbean Sea. Palaeontology. 10(1):95–123.
  • Wall D, Dale B. 1970. Living hystrichosphaerid dinoflagellate spores from Bermuda and Puerto Rico. Micropaleontology. 16:47–58.
  • Warny SA, Wrenn JH. 1997. New species of dinoflagellate cysts from the Bou Regreg core: a Miocene-Pliocene boundary section on the Atlantic coast of Morocco. Review of Palaeobotany and Palynology. 96(3-4):281–304.
  • Wilson GJ. 1973. Palynology of the Middle Pleistocene Te Piki bed, Cape Runaway, New Zealand. New Zealand Journal of Geology and Geophysics. 16(3):345–354.
  • Williams GL, Fensome RA, MacRae RA. 2017. DINOFLAJ3. American Association of Stratigraphic Palynologists, Data Series no. 2. http://dinoflaj.smu.ca/dinoflaj3.
  • Williams GL, Lentin JK, Fensome RA. 1998. The Lentin and Williams Index of Fossil Dinoflagellate Cysts 1998 edition. American Association of Stratigraphic Palynologists Contributions series. 34:817.
  • Wrenn JH. 1988. Differentiating species of the dinoflagellate cyst genus Nematosphaeropsis Deflandre & Cookson 1955. Palynology. 12(1):129–150.
  • YPF. 1976. Legajo del Pozo YPF.Ch.PV.es-1. Inédito. Buenos Aires, p.122.
  • Yrigoyen MR. 1989. Cuencas de Rawson y Peninsula Valdes. In: Chebli G, Spalletti 1, editors. Cuencas Sedimentarias Argentinas. Tucumán (Argentina): Universidad Nacional de Tucumán, Instituto Superior de Correlación Geológica, Serie Correlación Geológica. p. 467–476.
  • Zinsmeister WJ, Marshall LG, Drake RE, Curtis GH. 1981. First radioisotope (Potassium-Argon) age of marine Neogene Río Negro beds in northeastern Patagonia, Argentina. Science (New York, N.Y.). 212(4493):440.
  • Zevenboom D. 1995. Dinoflagellate cysts from the Mediterranean Late Oligocene and Miocene. [dissertation]. Den Haag (NL): University of Utrecht.

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