Braarudosphaera


  1. Aguado, R., de Gea, G. A., Castro, J. M., O’Dogherty, L., Quijano, M. L., Naafs, B. D. A., & Pancost, R. D. (2014). Late Barremian–early Aptian dark facies of the Subbetic (Betic Cordillera, southern Spain): Calcareous nannofossil quantitative analyses, chemostratigraphy and palaeoceanographic reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology, 395, 198-221.
  2. Alday, M., Cearreta, A., Cachão, M., Freitas, M. C., Andrade, C., & Gama, C. (2006). Micropalaeontological record of Holocene estuarine and marine stages in the Corgo do Porto rivulet (Mira River, SW Portugal). Estuarine, Coastal and Shelf Science, 66(3), 532-543.
  3. Amore, F. O., Caffau, M., Massa, B., & Morabito, S. (2004). Late Pleistocene–Holocene paleoclimate and related paleoenvironmental changes as recorded by calcareous nannofossils and planktonic foraminifera assemblages in the southern Tyrrhenian Sea (Cape Palinuro, Italy). Marine Micropaleontology,52(1), 255-276.
  4. Auer, G., Piller, W. E., & Harzhauser, M. (2014). High-resolution calcareous nannoplankton palaeoecology as a proxy for small-scale environmental changes in the Early Miocene. Marine Micropaleontology, 111, 53-65.
  5. Balaguru, A., & Nichols, G. (2004). Tertiary stratigraphy and basin evolution, southern Sabah (Malaysian Borneo). Journal of Asian Earth Sciences, 23(4), 537-554.
  6. Barbu, V., & Melinte-Dobrinescu, M. C. (2008). Latest Jurassic to earliest Cretaceous paleoenvironmental changes in the Southern Carpathians, Romania: regional record of the late Valanginian nutrification event. Cretaceous Research, 29(5), 790-802.
  7. Barragán, R., & Melinte, M. C. (2006). Palaeoenvironmental and palaeobiologic changes across the Barremian/Aptian boundary interval in the Tethys Realm, Mexico and Romania. Cretaceous Research, 27(4), 529-541.
  8. Barron, J. A., Bukry, D., Dean, W. E., Addison, J. A., & Finney, B. (2009). Paleoceanography of the Gulf of Alaska during the past 15,000 years: results from diatoms, silicoflagellates, and geochemistry. Marine Micropaleontology,72(3), 176-195.
  9. Bartol, M., Pavšič, J., Dobnikar, M., & Bernasconi, S. M. (2008). Unusual Braarudosphaera bigelowii and Micrantholithus vesper enrichment in the Early Miocene sediments from the Slovenian Corridor, a seaway linking the Central Paratethys and the Mediterranean. Palaeogeography, Palaeoclimatology, Palaeoecology, 267(1), 77-88.
  10. Bartol, M., Mikuž, V., & Horvat, A. (2014). Palaeontological evidence of communication between the Central Paratethys and the Mediterranean in the late Badenian/early Serravalian. Palaeogeography, Palaeoclimatology, Palaeoecology, 394, 144-157.
  11. Beaufort, L., & Heussner, S. (2001). Seasonal dynamics of calcareous nannoplankton on a West European continental margin: the Bay of Biscay. Marine Micropaleontology, 43(1), 27-55.
  12. Bersezio, R., Erba, E., Gorza, M., & Riva, A. (2002). Berriasian–Aptian black shales of the Maiolica formation (Lombardian Basin, Southern Alps, Northern Italy): local to global events. Palaeogeography, Palaeoclimatology, Palaeoecology, 180(4), 253-275.
  13. Bjerager, M., Surlyk, F., Lykke-Andersen, H., Thibault, N., & Stemmerik, L. (2010). Danian cool-water coral reefs in southern Scandinavia localised over seafloor highs. Marine and Petroleum Geology, 27(2), 455-466.
  14. Black, M. (1972). Crystal Development in Discoasteraceae and Braarudosphaeraceae (Planktonic Algae). Palaeontology 15(3), 87-96.
  15. Boalch, G. T. (1987). Changes in the phytoplankton of the western English Channel in recent years. British Phycological Journal, 22(3), 225-235.
  16. Buccheri, G., Capretto, G., Di Donato, V., Esposito, P., Ferruzza, G., Pescatore, T., … & Madonia, G. (2002). A high resolution record of the last deglaciation in the southern Tyrrhenian Sea: environmental and climatic evolution. Marine Geology, 186(3), 447-470.
  17. Buccianti, A., & Esposito, P. (2004). Insights into Late Quaternary calcareous nannoplankton assemblages under the theory of statistical analysis for compositional data. Palaeogeography, Palaeoclimatology, Palaeoecology,202(3), 209-227.
  18. Calvo, J. P., Triantaphyllou, M. V., Regueiro, M., & Stamatakis, M. G. (2012). Alternating diatomaceous and volcaniclastic deposits in Milos Island, Greece. A contribution to the upper Pliocene–lower Pleistocene stratigraphy of the Aegean Sea. Palaeogeography, Palaeoclimatology, Palaeoecology, 321, 24-40.
  19. Coccioni, R., Frontalini, F., Bancalà, G., Fornaciari, E., Jovane, L., & Sprovieri, M. (2010). The Dan-C2 hyperthermal event at Gubbio (Italy): Global implications, environmental effects, and cause (s). Earth and Planetary Science Letters, 297(1), 298-305.
  20. Company, M., Aguado, R., Sandoval, J., Tavera, J. M., de Cisneros, C. J., & Vera, J. A. (2005). Biotic changes linked to a minor anoxic event (Faraoni Level, latest Hauterivian, Early Cretaceous). Palaeogeography, Palaeoclimatology, Palaeoecology, 224(1), 186-199.
  21. Couapel, M. J., Beaufort, L., Jones, B. G., & Chivas, A. R. (2007). Late Quaternary marginal marine palaeoenvironments of northern Australia as inferred from cluster analysis of coccolith assemblages. Marine Micropaleontology, 65(3), 213-231.
  22. Deprez, A., Tesseur, S., Stassen, P., D’haenens, S., Steurbaut, E., King, C., … & Speijer, R. P. (2015). Early Eocene environmental development in the northern Peri-Tethys (Aktulagay, Kazakhstan) based on benthic foraminiferal assemblages and stable isotopes (O, C). Marine Micropaleontology, 115, 59-71.
  23. Di Donato, V., Esposito, P., Garilli, V., Naimo, D., Buccheri, G., Caffau, M., … & Stanzione, D. (2009). Surface–bottom relationships in the Gulf of Salerno (Tyrrhenian Sea) over the last 34 kyr: Compositional data analysis of palaeontological proxies and geochemical evidence. Geobios, 42(5), 561-579.
  24. Dinarès-Turell, J., Baceta, J. I., Bernaola, G., Orue-Etxebarria, X., & Pujalte, V. (2007). Closing the mid-Palaeocene gap: toward a complete astronomically tuned Palaeocene Epoch and Selandian and Thanetian GSSPs at Zumaia (Basque Basin, W Pyrenees). Earth and Planetary Science Letters, 262(3), 450-467.
  25. Dinarès-Turell, J., Stoykova, K., Baceta, J. I., Ivanov, M., & Pujalte, V. (2010). High-resolution intra-and interbasinal correlation of the Danian–Selandian transition (Early Paleocene): the Bjala section (Bulgaria) and the Selandian GSSP at Zumaia (Spain). Palaeogeography, Palaeoclimatology, Palaeoecology, 297(2), 511-533.
  26. Di Stefano, E., & Incarbona, A. (2004). High-resolution palaeoenvironmental reconstruction of ODP Hole 963D (Sicily Channel) during the last deglaciation based on calcareous nannofossils. Marine Micropaleontology, 52(1), 241-254.
  27. Duchamp-Alphonse, S., Gardin, S., & Bartolini, A. (2014). Calcareous nannofossil response to the Weissert episode (Early Cretaceous): Implications for palaeoecological and palaeoceanographic reconstructions. Marine Micropaleontology, 113, 65-78.
  28. Faris, M., Abdelghany, O., & Zahran, E. (2014). Upper Maastrichtian to Lutetian nannofossil biostratigraphy, United Arab Emirates, west of the Northern Oman Mountains. Journal of African Earth Sciences, 93, 42-56.
  29. Farouk, S., Ahmad, F., & Smadi, A. A. (2013). Stratigraphy of the Middle Eocene–Lower Oligocene successions in northwestern and eastern Jordan. Journal of Asian Earth Sciences, 73, 396-408.
  30. Farouk, S., & El-Sorogy, A. (2015). Danian/Selandian unconformity in the central and southern Western Desert of Egypt. Journal of African Earth Sciences, 103, 42-53.
  31. Farouk, S., Marzouk, A. M., & Ahmad, F. (2014). The Cretaceous/Paleogene boundary in Jordan. Journal of Asian Earth Sciences, 94, 113-125.
  32. Fornaciari, E., Giusberti, L., Luciani, V., Tateo, F., Agnini, C., Backman, J., … & Rio, D. (2007). An expanded Cretaceous− Tertiary transition in a pelagic setting of the Southern Alps (central-western Tethys). Palaeogeography, Palaeoclimatology, Palaeoecology, 255(1), 98-131.
  33. Fourcade, É., Rocchia, R., Gardin, S., Bellier, J. P., Debrabant, P., Masure, E., … & Pop, W. T. (1998). Age of the Guatemala breccias around the Cretaceous-Tertiary boundary: relationships with the asteroid impact on the Yucatan. Comptes Rendus de l’Académie des Sciences-Series IIA-Earth and Planetary Science, 327(1), 47-53.
  34. Fuertes, M. Á., Flores, J. A., & Sierro, F. J. (2014). The use of circularly polarized light for biometry, identification and estimation of mass of coccoliths. Marine Micropaleontology, 113, 44-55.
  35. Girone, A., Capotondi, L., Ciaranfi, N., Di Leo, P., Lirer, F., Maiorano, P., … & Pulice, I. (2013). Paleoenvironmental changes at the lower Pleistocene Montalbano Jonico section (southern Italy): Global versus regional signals. Palaeogeography, Palaeoclimatology, Palaeoecology, 371, 62-79.
  36. Giunta, S., Morigi, C., Negri, A., Guichard, F., & Lericolais, G. (2007). Holocene biostratigraphy and paleoenvironmental changes in the Black Sea based on calcareous nannoplankton. Marine Micropaleontology, 63(1), 91-110.
  37. Guerra, R. M., Concheyro, A., Lees, J., Fauth, G., de Araujo Carvalho, M., & Ramos, R. R. C. (2015). Calcareous nannofossils from the Santa Marta Formation (Upper Cretaceous), northern James Ross Island, Antarctic Peninsula. Cretaceous Research, 56, 550-562.
  38. Guerra, R. M., Tokutake, L. R., & Fauth, G. (2012). Cretaceous calcareous nannofossils from Pelotas Basin, Brazil: Biostratigraphic and paleoecological inferences. Journal of South American Earth Sciences, 36, 55-71.
  39. Hagino, K., Okada, H., & Matsuoka, H. (2005). Coccolithophore assemblages and morphotypes of Emiliania huxleyi in the boundary zone between the cold Oyashio and warm Kuroshio currents off the coast of Japan. Marine Micropaleontology, 55(1), 19-47.
  40. Hagino, K., Onuma, R., Kawachi, M., & Horiguchi, T. (2013). Discovery of an endosymbiotic nitrogen-fixing cyanobacterium UCYN-A in Braarudosphaera bigelowii (Prymnesiophyceae). PLOS one, 8(12), 1-11.
  41. Hagino, K., Takano, Y., & Horiguchi, T. (2009). Pseudo-cryptic speciation in Braarudosphaera bigelowii (Gran and Braarud) Deflandre. Marine Micropaleontology, 72(3), 210-221.
  42. Hagino, K., Young, J. R., Bown, P. R., Godrijan, J., Kulhanek, D. K., Kogame, K., & Horiguchi, T. (2015). Re-discovery of a “living fossil” coccolithophore from the coastal waters of Japan and Croatia. Marine Micropaleontology, 116, 28-37.
  43. Hollis, C. J., Field, B. D., Jones, C. M., Strong, C. P., Wilson, G. J., & Dickens, G. R. (2005). Biostratigraphy and carbon isotope stratigraphy of uppermost Cretaceous‐lower Cenozoic Muzzle Group in middle Clarence valley, New Zealand. Journal of the Royal Society of New Zealand, 35(3), 345-383.
  44. Huang, C. Y., Yen, Y., Liew, P. M., He, D. J., Chi, W. R., Wu, M. S., & Zhao, M. (2013). Significance of indigenous Eocene larger foraminifera Discocyclina dispansa in Western Foothills, Central Taiwan: A Paleogene marine rift basin in Chinese continental margin. Journal of Asian Earth Sciences, 62, 425-437.
  45. Ishiwatari, R., Houtatsu, M., & Okada, H. (2001). Alkenone-sea surface temperatures in the Japan Sea over the past 36 kyr: warm temperatures at the last glacial maximum. Organic Geochemistry, 32(1), 57-67.
  46. Jafar, S. A. (1998) Architecture of Braarudosphaera bigelowii (coccolithophorid): A marine planktonic alga holding clues to quasicrystalline symmetry (extended abstract), Seventh Internat. Nannoplankton Assoc. Conf., La Parguera, Puerto Rico, U.S.A..
  47. Jafar, S. A. (2015) A Trapezium Generates Tiling of Concentric Regular Pentagons. Forma 30, 5-7.
  48. Jones, T. D., Bown, P. R., & Pearson, P. N. (2009). Exceptionally well preserved upper Eocene to lower Oligocene calcareous nannofossils (Prymnesiophyceae) from the Pande Formation (Kilwa Group), Tanzania. Journal of Systematic Palaeontology, 7(04), 359-411.
  49. Kędzierski, M., Rodríguez-Tovar, F. J., & Uchman, A. (2011). Vertical displacement and taphonomic filtering of nannofossils by bioturbation in the Cretaceous–Palaeogene boundary section at Caravaca, SE Spain. Lethaia, 44(3), 321-328.
  50. Keller, G., Adatte, T., Tantawy, A. A., Berner, Z., Stinnesbeck, W., Stueben, D., & Leanza, H. A. (2007). High stress late Maastrichtian–early Danian palaeoenvironment in the Neuquén Basin, Argentina. Cretaceous Research,28(6), 939-960.
  51. Kameo, K., & Furukawa, N. (2007). Analysis of crystallographic directions in Florisphaera profunda, Braarudosphaera bigelowii and Neogene discoasters: preliminary report on nannolith crystallography. J. Nannoplankton Res, 29(1), 19-23.
  52. Kędzierski, M. (2008). Calcareous nannofossil and inoceramid biostratigraphies of a Middle Turonian to Middle Coniacian section from the Opole Trough of SW Poland. Cretaceous Research, 29(3), 451-467.
  53. Kelly, D. C., Norris, R. D., & Zachos, J. C. (2003). Deciphering the paleoceanographic significance of Early Oligocene Braarudosphaera chalks in the South Atlantic. Marine Micropaleontology, 49(1), 49-63.
  54. Konno, S., Harada, N., Narita, H., & Jordan, R. W. (2007). Living Braarudosphaera bigelowii (Gran & Braarud) Deflandre in the Bering Sea.Journal of Nannoplankton Research, 29(2), 78-87.
  55. Kováč, M., Baráth, I., Fordinál, K., Grigorovich, A. S., Halásová, E., Hudáčková, N., … & Vojtko, R. (2006). Late Miocene to Early Pliocene sedimentary environments and climatic changes in the Alpine–Carpathian–Pannonian junction area: a case study from the Danube Basin northern margin (Slovakia). Palaeogeography, Palaeoclimatology, Palaeoecology, 238(1), 32-52.
  56. Krupke, A., Lavik, G., Halm, H., Fuchs, B. M., Amann, R. I., & Kuypers, M. M. (2014). Distribution of a consortium between unicellular algae and the N2 fixing cyanobacterium UCYN‐A in the North Atlantic Ocean. Environmental microbiology, 16(10), 3153-3167.
  57. Lamolda, M. A., Florentin, J. M. M., & Paul, C. R. (2005). Paleobiotic changes in earth history and their causes. Palaeogeography, Palaeoclimatology, Palaeoecology, 224(1), 1-5.
  58. Lamolda, M. A., Melinte, M. C., & Kaiho, K. (2005). Nannofloral extinction and survivorship across the K/T boundary at Caravaca, southeastern Spain. Palaeogeography, Palaeoclimatology, Palaeoecology, 224(1), 27-52.
  59. Lupi, C., & Wise, S. W. (2006). Calcareous nannofossil biostratigraphic framework for middle Eocene sediments from ODP Hole 1260A, Demerara Rise. Revue de micropaléontologie, 49(4), 245-253.
  60. Lynn, D. H., & Pinheiro, M. (2009). A Survey of Polymerase Chain Reaction (PCR) Amplification Studies of Unicellular Protists Using Single‐Cell PCR. Journal of Eukaryotic Microbiology, 56(5), 406-412.
  61. Mandur, M. M. (2011). Lithostratigraphy and biostratigraphy of the upper cretaceous succession of Southeastern Sinai, Egypt. Egyptian Journal of Petroleum, 20(2), 89-96.
  62. Maravelis, A., & Zelilidis, A. (2012). Paleoclimatology and Paleoecology across the Eocene/Oligocene boundary, Thrace Basin, Northeast Aegean Sea, Greece. Palaeogeography, Palaeoclimatology, Palaeoecology, 365, 81-98.
  63. Marzouk, A. M., El Shishtawy, A. M., & Kasem, A. M. (2014). Calcareous nannofossil and planktonic foraminifera biostratigraphy through the Middle to Late Eocene transition of Fayum area, Western Desert, Egypt. Journal of African Earth Sciences, 100, 303-323.
  64. Medlin, L. K., Sáez, A. G., & Young, J. R. (2008). A molecular clock for coccolithophores and implications for selectivity of phytoplankton extinctions across the K/T boundary. Marine Micropaleontology, 67(1), 69-86.
  65. Melinte, M. C., & Jipa, D. (2005). Campanian–Maastrichtian marine red beds in Romania: biostratigraphic and genetic significance. Cretaceous Research, 26(1), 49-56.
  66. Melinte-Dobrinescu, M. C., Suc, J. P., Clauzon, G., Popescu, S. M., Armijo, R., Meyer, B., … & Çakir, Z. (2009). The Messinian salinity crisis in the Dardanelles region: Chronostratigraphic constraints. Palaeogeography, Palaeoclimatology, Palaeoecology, 278(1), 24-39.
  67. Minoletti, F., de Rafelis, M., Renard, M., & Gardin, S. (2004). Remaniement des nannofossiles calcaires maastrichtiens dans les sédiments du Danien basal de Bidart (France): arguments isotopiques (carbone et oxygène). Revue de micropaléontologie, 47(3), 145-152.
  68. Minoletti, F., de Rafelis, M., Renard, M., Gardin, S., & Young, J. (2005). Changes in the pelagic fine fraction carbonate sedimentation during the Cretaceous–Paleocene transition: contribution of the separation technique to the study of Bidart section. Palaeogeography, Palaeoclimatology, Palaeoecology, 216(1), 119-137.
  69. Molina, E., Cosovic, V., Gonzalvo, C., & Von Salis, K. (2000). Integrated biostratigraphy across the Ypresian/Lutetian boundary at Agost, Spain. Revue de micropaléontologie, 43(3), 381-391.
  70. Nagendra, R., Kannan, B. K., Sen, G., Gilbert, H., Bakkiaraj, D., Reddy, A. N., & Jaiprakash, B. C. (2011). Sequence surfaces and paleobathymetric trends in Albian to Maastrichtian sediments of Ariyalur area, Cauvery Basin, India. Marine and Petroleum Geology, 28(4), 895-905.
  71. Negri, A., & Giunta, S. (2001). Calcareous nannofossil paleoecology in the sapropel S1 of the eastern Ionian sea: paleoceanographic implications.Palaeogeography, Palaeoclimatology, Palaeoecology, 169(1), 101-112.
  72. Oaie, G., & Melinte-Dobrinescu, M. C. (2012). Holocene litho-and biostratigraphy of the NW Black Sea (Romanian shelf). Quaternary International, 261, 146-155.
  73. Olde, K., Jarvis, I., Uličný, D., Pearce, M. A., Trabucho-Alexandre, J., Čech, S., … & Tocher, B. A. (2015). Geochemical and palynological sea-level proxies in hemipelagic sediments: A critical assessment from the Upper Cretaceous of the Czech Republic. Palaeogeography, Palaeoclimatology, Palaeoecology, 435, 222-243.
  74. Ozer, C. K. (2014). Calcareous nannofossil assemblage changes and stable isotope data from Maastrichtian to Selandian in the Akveren Formation, Western Black Sea, Turkey. Arabian Journal of Geosciences, 7(3), 1233-1247.
  75. Parker, M. E., Clark, M., & Wise, S. W. (1985). Calcareous Nannofossils of Deep-Sea Drilling Project Site-558 and Site-563, North-Atlantic Ocean-Biostratigraphy and the Distribution of Oligocene Braarudosphaerids. Initial Reports of the Deep Sea Drilling Project, 82(JUN), 559-589.
  76. Pearson, P. N., Nicholas, C. J., Singano, J. M., Bown, P. R., Coxall, H. K., van Dongen, B. E., … & Msaky, E. (2006). Further Paleogene and Cretaceous sediment cores from the Kilwa area of coastal Tanzania: Tanzania drilling project sites 6–10. Journal of African Earth Sciences, 45(3), 279-317.
  77. Pimpirev, C., Stoykova, K., Ivanov, M., & Dimov, D. (2006). The Sedimentary Sequences of Hurd Peninsula, Livingston Island, South Shetland Islands: Part of the Late Jurassic—Cretaceous Depositional History of the Antarctic Peninsula. In Antarctica (pp. 249-253). Springer Berlin Heidelberg.
  78. Principato, M. S., Giunta, S., Corselli, C., & Negri, A. (2003). Late Pleistocene–Holocene planktonic assemblages in three box-cores from the Mediterranean Ridge area (west–southwest of Crete): palaeoecological and palaeoceanographic reconstruction of sapropel S1 interval. Palaeogeography, Palaeoclimatology, Palaeoecology, 190, 61-77.
  79. Punekar, J., Keller, G., Khozyem, H., Hamming, C., Adatte, T., Tantawy, A. A., & Spangenberg, J. E. (2014). Late Maastrichtian–early Danian high-stress environments and delayed recovery linked to Deccan volcanism. Cretaceous Research, 49, 63-82.
  80. Rodríguez-Tovar, F. J., Uchman, A., Molina, E., & Monechi, S. (2010). Bioturbational redistribution of Danian calcareous nannofossils in the uppermost Maastrichtian across the K-Pg boundary at Bidart, SW France. Geobios, 43(5), 569-579.
  81. Sachsenhofer, R. F., Stummer, B., Georgiev, G., Dellmour, R., Bechtel, A., Gratzer, R., & Ćorić, S. (2009). Depositional environment and hydrocarbon source potential of the Oligocene Ruslar Formation (Kamchia Depression; western Black Sea). Marine and Petroleum geology, 26(1), 57-84.
  82. Santos, A., Mayoral, E., da Silva, C. M., Cachão, M., & Kullberg, J. C. (2010). Trypanites ichnofacies: Palaeoenvironmental and tectonic implications. A case study from the Miocene disconformity at Foz da Fonte (Lower Tagus Basin, Portugal). Palaeogeography, Palaeoclimatology, Palaeoecology, 292(1), 35-43.
  83. Schulte, P., Speijer, R., Mai, H., & Kontny, A. (2006). The Cretaceous–Paleogene (K–P) boundary at Brazos, Texas: Sequence stratigraphy, depositional events and the Chicxulub impact. Sedimentary Geology, 184(1), 77-109.
  84. Siesser, W. G., Bralower, T. J., & De Carlo, E. H. (1992). Mid-Tertiary Braarudosphaera-rich sediments on the Exmouth plateau. In Proceedings of the Ocean Drilling Program, Scientific Results (Vol. 122, pp. 653-663).
  85. Silva, I. P., Erba, E., Spezzaferri, S., & Cita, M. B. (1996). Age variation in the source of the diapiric mud breccia along and across the axis of the Mediterranean Ridge Accretionary Complex. Marine geology, 132(1), 175-202.
  86. Snel, E., Mărunţeanu, M., & Meulenkamp, J. E. (2006). Calcareous nannofossil biostratigraphy and magnetostratigraphy of the Upper Miocene and Lower Pliocene of the Northern Aegean (Orphanic Gulf–Strimon Basin areas), Greece.Palaeogeography, Palaeoclimatology, Palaeoecology, 238(1), 125-150.
  87. Snel, E., Mărunţeanu, M., Macaleţ, R., Meulenkamp, J. E., & Van Vugt, N. (2006). Late Miocene to early Pliocene chronostratigraphic framework for the Dacic Basin, Romania. Palaeogeography, Palaeoclimatology, Palaeoecology,238(1), 107-124.
  88. Soliman, A., Ćorić, S., Head, M. J., Piller, W. E., & El Beialy, S. Y. (2012). Lower and Middle Miocene biostratigraphy, Gulf of Suez, Egypt based on dinoflagellate cysts and calcareous nannofossils. Palynology, 36(1), 38-79.
  89. Sprovieri, R., Di Stefano, E., Incarbona, A., & Gargano, M. E. (2003). A high-resolution record of the last deglaciation in the Sicily Channel based on foraminifera and calcareous nannofossil quantitative distribution.Palaeogeography, Palaeoclimatology, Palaeoecology, 202(1), 119-142.
  90. Steurbaut, E., & Sztrákos, K. (2008). Danian/Selandian boundary criteria and North Sea Basin–Tethys correlations based on calcareous nannofossil and foraminiferal trends in SW France. Marine Micropaleontology, 67(1), 1-29.
  91. Storme, J. Y., Steurbaut, E., Devleeschouwer, X., Dupuis, C., Iacumin, P., Rochez, G., & Yans, J. (2014). Integrated bio-chemostratigraphical correlations and climatic evolution across the Danian–Selandian boundary at low latitudes. Palaeogeography, Palaeoclimatology, Palaeoecology, 414, 212-224.
  92. Švábenická, L. (1999). Braarudosphaera-rich sediments in the Turonian of the Bohemian Cretaceous Basin, Czech Republic. Cretaceous Research, 20(6), 773-782.
  93. Takano, Y., Hagino, K., Tanaka, Y., Horiguchi, T., & Okada, H. (2006). Phylogenetic affinities of an enigmatic nannoplankton, Braarudosphaera bigelowii based on the SSU rDNA sequences. Marine Micropaleontology, 60(2), 145-156.
  94. Tantawy, A. A. A. (2003). Calcareous nannofossil biostratigraphy and paleoecology of the Cretaceous–Tertiary transition in the central eastern desert of Egypt. Marine Micropaleontology, 47(3), 323-356.
  95. Thompson, A., Carter, B. J., Turk‐Kubo, K., Malfatti, F., Azam, F., & Zehr, J. P. (2014). Genetic diversity of the unicellular nitrogen‐fixing cyanobacteria UCYN‐A and its prymnesiophyte host. Environmental microbiology, 16(10), 3238-3249.
  96. Thompson, A. W., Foster, R. A., Krupke, A., Carter, B. J., Musat, N., Vaulot, D., Kuypers, M. M. M., & Zehr, J. P. (2012). Unicellular cyanobacterium symbiotic with a single-celled eukaryotic alga. Science, 337(6101), 1546-1550.
  97. Thompson, A. W., & Zehr, J. P. (2013). Cellular interactions: lessons from the nitrogen‐fixing cyanobacteria. Journal of Phycology, 49(6), 1024-1035.
  98. Triantaphyllou, M. V. (2014). Coccolithophore assemblages during the Holocene Climatic Optimum in the NE Mediterranean (Aegean and northern Levantine Seas, Greece): Paleoceanographic and paleoclimatic implications. Quaternary International, 345, 56-67.
  99. Triantaphyllou, M. V., Ziveri, P., Gogou, A., Marino, G., Lykousis, V., Bouloubassi, I., … & Nunez, N. (2009). Late Glacial–Holocene climate variability at the south-eastern margin of the Aegean Sea. Marine Geology, 266(1), 182-197.
  100. Tremolada, F., Erba, E., De Bernardi, B., & Cecca, F. (2009). Calcareous nannofossil fluctuations during the late Hauterivian in the Cismon core (Venetian Alps, northeastern Italy) and in selected sections of the Umbria-Marche Basin (central Italy): paleoceanographic implications of the Faraoni Level. Cretaceous Research, 30(3), 505-514.
  101. Van Simaeys, S., De Man, E., Vandenberghe, N., Brinkhuis, H., & Steurbaut, E. (2004). Stratigraphic and palaeoenvironmental analysis of the Rupelian–Chattian transition in the type region: evidence from dinoflagellate cysts, foraminifera and calcareous nannofossils. Palaeogeography, Palaeoclimatology, Palaeoecology, 208(1), 31-58.
  102. Villa, G., Persico, D., Wise, S. W., & Gadaleta, A. (2012). Calcareous nannofossil evidence for Marine Isotope Stage 31 (1Ma) in Core AND-1B, ANDRILL McMurdo Ice Shelf Project (Antarctica). Global and Planetary Change, 96, 75-86.
  103. Waga, D. D., Andreeva-Grigorovich, A. S., & Maslun, N. V. (2010). Calcareous nannofossil biostratigraphy of the Paleocene sediments of the Odessa Gas Field (NW Black Sea). Geobios, 43(1), 33-43.
  104. Wyton, J., Bown, P. R., & Bailey, H. (2007). Palaeoecological trends in Turonian-Coniacian (Late Cretaceous) calcareous nannofossils from Chalk Group sections, SE England. J. Nannoplankton Res, 29(1), 31-37.
  105. Yıldız, A., & Toker, V. (2006). Pleistocene–Holocene calcareous nannofossil biostratigraphy of core samples from The Northeastern Sea of Marmara, Fenerbahçe–Pendik, NW Turkey. Journal of Asian Earth Sciences, 27(6), 835-846.
  106. Yoshida, M., Noël, M. H., Nakayama, T., Naganuma, T., & Inouye, I. (2006). A haptophyte bearing siliceous scales: ultrastructure and phylogenetic position of Hyalolithus neolepis gen. et sp. nov.(Prymnesiophyceae, Haptophyta). Protist, 157(2), 213-234.
  107. Zalat, A. A. (1995). Calcareous nannoplankton and diatoms from the Eocene/Pliocene sediments, Fayoum depression, Egypt. Journal of African Earth Sciences, 20(3), 227-244.