Hebbeln, D., Henrich, R. & Baumann, K. -H. (1998). Paleoceanography of the last interglacial/glacia cycle in the Polar North Atlantic. Quaternary Science Reviews. 17: 125-153. gs :: :: ::

Heer, O. (1865). Die Urwelt der Schweiz. Friedrich Schulthess, Zürich. 1-622. gs :: :: ::

Hegseth, E. N. & Sundfjord, A. (2008). Intrusion and blooming of Atlantic phytoplankton species in the high Arctic. Journal of Marine Systems. 74: 108-119. gs :: :: :: doi:10.1016/j.jmarsys.2007.11.011

Heidenreich, E. et al. (2019). Ocean acidification has little effect on the biochemical composition of the coccolithophore Emiliania huxleyi. PLoS One. 14(7): -. gs :: :: :: doi:10.1371/journal.pone.0218564. eCollection 2019.

Heimdal, B. R. (1973). Two new taxa of Recent coccolithophorids. “Meteor” Forschungsergebnisse. Reihe D, Biologie 70-75. gs :: :: ::

Heimdal, B. R. (1982). Validation of the names of some species of Zygosphaera Kamptner. INA Newsletter. 4: 52-56. gs :: V :: O ::

Heimdal, B. R. (1993). Modern Coccolithophorids. In, Tomas, C. R. (ed.) Marine Phytoplankton: A Guide to Naked Flagellates and Phytoplankton. Academic Press, London 147-243. gs :: :: :: doi:10.1016/B978-0-12-693010-8.50009-8

Heimdal, B. R., Egge, J. K., Veldhuis, M. J. W. & Westbroek, P. (1994). The 1992 Norwegian Emiliania huxleyi experiment an overview. Sarsia. 79(4): 285-290. gs :: :: :: doi:10.1080/00364827.1994.10413560

Heimdal, B. R. & Gaarder, K. R. (1980). Coccolithophorids from the northern part of the eastern central Atlantic I. Holococcolithophorids. “Meteor” Forschungsergebnisse. Reihe D, Biologie 32: 1-14. gs :: :: ::

Heimdal, B. R. & Gaarder, K. R. (1981). Coccolithophorids from the northern part of the eastern central Atlantic II. Heterococcolithophorids. “Meteor” Forschungsergebnisse. Reihe D, Biologie 33: 37-69. gs :: :: ::

Heimhofer, U., Hochuli, P. A., Herrle, J. O. & Weissert, H. (2006). Contrasting origins of Early Cretaceous black shales in the Vocontian basin: Evidence from palynological and calcareous nannofossil records. Palaeogeography Palaeoclimatology Palaeoecology. 235(1-3): 93-109. gs :: :: :: doi:10.1016/j.palaeo.2005.09.025

Hekel, H. (1968). Nannoplanktonhorizonte und tektonische Strukturen in der Flyschzone nördlich von Wien (Bisambergzug). Jahrbuch der Geologischen Bundesanstalt. 293-338. gs :: V :: O ::

Hekel, H. (1973). Nannofossil Biostratigraphy, Leg 20, Deep Sea Drilling Project. Initial Reports of the Deep Sea Drilling Project. 20: 221-247. gs :: V :: O :: doi:10.2973/dsdp.proc.20.112.1973

Helenes, J., Carreño, A. L. & Carrillo, R. M. (2009). Middle to late Miocene chronostratigraphy and development of the northern Gulf of California. Marine Micropaleontology. 72: 10-25. gs :: :: :: doi:10.1016/j.marmicro.2009.02.003

Henderiks, J. (2001). Coccolith studies in the Canary Basin: Glacial-interglacial palaeoceanography of the Eastern Boundary Current system. PhD thesis, ETH Zurich. 1-175. gs :: :: ::

Henderiks, J. (2008). Coccolithophore size rules — Reconstructing ancient cell geometry and cellular calcite quota from fossil coccoliths. Marine Micropaleontology. 67: -. gs :: :: :: doi:10.1016/j.marmicro.2008.01.005

Henderiks, J. (2022). Fossil imprints from oceans of the past: Marine phytoplankton show notable resilience during extreme ocean states. Science. 376: 795-796. gs :: :: :: doi:10.1126/science.abp9754

Henderiks, J. & Bollmann, J. (2004). The Gephyrocapsa sea surface palaeothermometer put to the test: comparison with alkenone and foraminifera proxies off NW Africa. Marine Micropaleontology. 50(3-4): 161-184. gs :: :: :: doi:10.1016/S0377-8398(03)00070-7

Henderiks, J. et al. (2002). Glacial–interglacial variability of particle accumulation in the Canary Basin: a time-slice approach. Deep-Sea Research Part II: Topical Studies in Oceanography. 49: 3675-3705. gs :: :: :: doi:10.1016/S0967-0645(02)00102-9

Henderiks, J. & Pagani, M. (2007). Refining ancient carbon dioxide estimates: Significance ofcoccolithophore cell size for alkenone-based pCO₂ records. Paleoceanography. 22: 1-12. gs :: :: :: doi:10.1029/2006PA001399

Henderiks, J. & Pagani, M. (2008). Coccolithophore cell size and the Paleogene decline in atmospheric CO2. Earth and Planetary Science Letters. 269: 576-584. gs :: :: :: doi:10.1016/j.epsl.2008.03.016

Henderiks, J. & Renaud, S. (2001). Coccolith size increase of Calcidiscus leptoporus off-shore Morocco during the last glacial maximum: An expression of enhanced glacial productivity? In, Henderiks, J. (ed.) Coccolith studies in the Canary Basin: Glacial-inter-glacial paleoceanography of the eastern boundary current system. PhD thesis, ETH-Zurich. -. gs :: :: ::

Henderiks, J. & Renaud, S. (2004). Coccolith size increase of Calcidiscus leptoporus offshore Morocco during the Last Glacial maximum: an expression of enhanced glacial productivity? Journal of Nannoplankton Research. 26(1): 1-12. gs :: V :: O ::

Henderiks, J., Rickaby, R. & Elderfield, H. (2006). Algal constraints on the cenozoic history of atmospheric CO2. Geochimica et Cosmochimica Acta. 70(18): A244-A244. gs :: :: :: doi:10.1016/j.gca.2006.06.492

Henderiks, J. & Rickaby, R. E. M. (2007). A coccolithophore concept for constraining the Cenozoic carbon cycle. Biogeosciences. 4: 323-329. gs :: V :: O :: doi:10.5194/bg-4-323-2007

Henderiks, J., Sturm, D., Šupraha, L. & Langer, G (2022). Evolutionary rates in the Haptophyta: Exploring molecular and phenotypic diversity. Journal of Marine Science and Engineering. 10(798): 1-29. gs :: V :: O :: doi:10.3390/ jmse10060798

Henderiks, J. & Torner, A. (2006). Reproducibility of coccolith morphometry: Evaluation of spraying and smear slide preparation techniques. Marine Micropaleontology. 58: 207-218. gs :: :: :: doi:10.1016/j.marmicro.2005.11.002

Henderiks, J. & Winter, A. (2012). A transitional Emiliania huxleyi morphotype. Journal of Nannoplankton Research. 32(2): 71-74. gs :: V :: O ::

Henderiks, J. et al. (2012). Environmental controls on Emiliania huxleyi morphotypes in the Benguela coastal upwelling system (SE Atlantic). Marine Ecology Progress Series. 448: 51-66. gs :: :: :: doi:10.3354/meps09535

Henderiks, J. & Ziveri, P. (1996). Treating strongly-lithified rocks with ultrasonic waves. Journal of Nannoplankton Research. 18(2): 51-51. gs :: V :: O ::

Henderiks, J. & Ziveri, P. (1997). Orastrum colligatum, a new holococcolith species from the Upper Albian-Cenomanian of the Russian Craton (Ukraine). Journal of Nannoplankton Research. 19(2): 109-111. gs :: V :: O ::

Henehan, M. J. et al. (2019). Rapid ocean acidification and protracted Earth system recovery followed the end-Cretaceous Chicxulub impact. Proceedings of the National Academy of Sciences, USA. 116(45): 22500-22504. gs :: :: :: doi:10.1073/pnas.1905989116

Hennige, S., Roberts, J. M. & Williamson, P. (2014). An updated synthesis of the impacts of ocean acidification on marine biodiversity. CBD Technical Series. 75: 1-99. gs :: :: ::

Henrich, R. & Wefer, G. (1986). Dissolution of biogenic carbonates: Effects of skeletal structure. Marine Geology. 71(3): 341-362. gs :: :: :: doi:10.1016/0025-3227(86)90077-0

Henriksen, K. & Stipp, S. L. S. (2009). Controlling biomineralization: The effect of solution composition on coccolith polysaccharide functionality. Crystal Growth & Design. 9(5): 2088-2097. gs :: :: :: doi:10.1021/cg8004272

Henriksen, K., Stipp, S. L. S., Marsh, M. E. & Young, J. R. (2004a). Coccolith polysaccharides: influence on genesis and diagenesis. Journal of Nannoplankton Research. 26(2): 57-57. gs :: :: ::

Henriksen, K., Stipp, S. L. S., Young, J. R. & Bown, P. R. (2003). Tailoring calcite: Nanoscale AFM of coccolith biocrystals. American Mineralogist. 88(11-Dec): 2040-2044. gs :: :: :: doi:10.2138/am-2003-11-1248

Henriksen, K., Young, J. R., Bown, P. R. & Stipp, S. L. S. (2004b). Coccolith biomineralisation studied with atomic force microscopy. Palaeontology. 47(3): 725-743. gs :: :: :: doi:10.1111/j.0031-0239.2004.00385.x

Henriksen, K., Young, J. R., Stipp, S. L. S. & Marsh, M. E. (2004c). Biological control on calcite crystallization: AFM investigation of coccolith polysaccharide function. American Mineralogist. 89(3): 1709-1716. gs :: :: :: doi:10.2138/am-2004-11-1217

Henriksson, A. (1993a). A quick and easy method for estimating absolute abundances of calcareous nannofossils. INA Newsletter. 15(2): 68-68. gs :: :: ::

Henriksson, A. S. (1993b). Biochronology of the terminal Cretaceous calcareous nannofossil Zone of Micula prinsii. Cretaceous Research. 14(1): 59-68. gs :: :: :: doi:10.1006/cres.1993.1005

Henriksson, A. S. (1995). A quick and easy technique for estimating absolute abundances of calcareous nannofossils. In, Flores, J. A. & Sierro, F. J. (eds) Proceedings of the 5th INA Conference, Salamanca 1993. Universidad de Salamanca, Salamanca 61-65. gs :: :: ::

Henriksson, A. S. (1996). Calcareous nannoplankton productivity and succession across the Cretaceous–Tertiary boundary in the Pacific (DSDP Site 465) and Atlantic (DSDP Site 527) Oceans,. Cretaceous Research. 17(4): 451-477. gs :: :: :: doi:10.1006/cres.1996.0028

Henriksson, A. S. (2000). Coccolithophore response to oceanographic changes in the equatorial Atlantic during the last 200,000 years. Palaeogeography Palaeoclimatology Palaeoecology. 156: 161-173. gs :: :: :: doi:10.1016/S0031-0182(99)00139-X

Henriksson, A. S., Widmark, J. G. V., Holbourn, A. E. L., Thies, A. & Kuhnt, W. (1998). Coccoliths as test-building material for foraminfera ("Coccolithofera"). Journal of Nannoplankton Research. 20(1): 15-19. gs :: V :: O ::

Henry, M., Karez, C. S., Roméo, M., Gnassia-Barelli, M., Fresnel, J. & Puiseux-Dao, S. (1991). Ultrastructural study and calcium and cadmium localization in the marine coccolithophorid Cricosphaera elongata. Marine Biology. 111(1): 167-173. gs :: :: :: doi:10.1007/BF01986358

Herendeen, P. S. (2016). Report of the Nomenclature Committee on Fossils: 10. Taxon. 65(2): 382-387. gs :: :: :: doi:10.12705/652.18

Herendeen, P. S. (2017). Report of the Nomenclature Committee on Fossils. Taxon. 66(1): 193-196. gs :: :: ::

Herfort, L., Loste, E., Meldrum, F. & Thake, B. (2004). Structural and physiological effects of calcium and magnesium in Emiliania huxleyi (Lohmann) Hay and Mohler. Journal of Structural Biology. 148: 307-314. gs :: :: :: doi:10.1016/j.jsb.2004.07.005

Herfort, L., Thake, B. & Roberts, J. (2002). Acquisition and use of bicarbonate by Emiliania huxleyi. New Phytologist. 156: 427-436. gs :: :: :: doi:10.1046/j.1469-8137.2002.00523.x

Herm, D., Hillebrandt, A. v. & Perch-Nielsen, K. (1981). Die Kreide/Tertiar - Grenze im Lattengebirge (Nordliche Kalkalpen) in mikropalaontologischer Sicht. Geologica Bavarica. 82: 319-344. gs :: V :: O ::

Herman, Y., Bhattacharya, S. K., Perch-Nielsen, K. & al. , e. (1988). Cretaceous/Tertiary boundary marine extinctions: the Russian Platform record. Revista Española de Paleontología. No, Extraordinario: 31-40. gs :: V :: O ::

Hermoso, M. (2014). Coccolith-derived isotopic proxies in palaeoceanography: where geologists need biologists. Cryptogamie Algologie. 35: 323-352. gs :: :: :: doi:10.7872/crya.v35.iss4.2014.323

Hermoso, M. (2015). Control of ambient pH on growth and stable isotopes in phytoplanktonic calcifying algae. Paleoceanography. 30: 1100-1112. gs :: :: :: doi:10.1002/2015PA002844

Hermoso, M. (2016). Isotopic record of Pleistocene glacial / interglacial cycles in pelagic carbonates: Revisiting historical data from the Caribbean Sea. Quaternary Science Reviews. 137: 69-78. gs :: :: :: doi:10.1016/j.quascirev.2016.02.003

Hermoso, M., Candelier, Y., Browning, T. J. & Minoletti, F. (2015). Environmental control of the isotopic composition of subfossil coccolith calcite: Are laboratory culture data transferable to the natural environment? GeoResJ. 7: 35-42. gs :: :: :: doi:10.1016/j.grj.2015.05.002

Hermoso, M., Chan, I. Z. X., McClelland, H. L. O., Heureux, A. M. C. & Rickaby, R. E. M. (2016a). Vanishing coccolith vital effects with alleviated carbon limitation. Biogeosciences. 13: 301-312. gs :: V :: O :: doi:10.5194/bg-13-301-2016

Hermoso, M. et al. (2014a). Record of Early Toarcian carbon cycle perturbations in a nearshore environment: the Bascharage section (easternmost Paris Basin). Solid Earth. 5: 793-804. gs :: :: :: doi:10.5194/se-5-793-2014

Hermoso, M., Godbillot, C. & Minoletti, F. (2020). Enhancing Our Palaeoceanographic Toolbox Using Paired Foraminiferal and Coccolith Calcite Measurements From Pelagic Sequences. Frontiers in Earth Science. 8(38): -. gs :: :: :: doi:10.3389/feart.2020.00038

Hermoso, M. & Hesselbo, S. P. (2016). Comment on “New insights in the pattern and timing of the Early Jurassic calcareous nannofossil crisis” by M. E. Clémence et al. [Palaeogeography Palaeoclimatology Palaeoecology 427 (2015) 100–108. Palaeogeography Palaeoclimatology Palaeoecology. 457: 422-423. gs :: :: :: doi:10.1016/j.palaeo.2015.12.005

Hermoso, M., Horner, T. J., Minoletti, F. & Rickaby, R. E. M. (2014b). Constraints on the vital effect in coccolithophore and dinoflagellate calcite by oxygen isotopic modification of seawater. Geochimica et Cosmochimica Acta. 141: 612-627. gs :: :: :: doi:10.1016/j.gca.2014.05.002

Hermoso, M., Le Callonnec, L., Minoletti, F., Renard, M. & Hesselbo, S. P. (2009a). Expression of the Early Toarcian carbon-isotope negative excursion in separated microfractions (Jurassic, Paris Basin). Earth and Planetary Science Letters. 277: 194-203. gs :: :: :: doi:10.1016/j.epsl.2008.10.013

Hermoso, M. & Lecasble, M. (2018). The effect of salinity on the biogeochemistry of the coccolithophores with implications for coccolith-based isotopic proxies. Biogeosciences. 15(22): 6761-6772. gs :: :: O :: doi:10.5194/bg-15-6761-2018

Hermoso, M., Lefeuvre, B., Minoletti, F. & de Rafélis, M. (2017). Extreme strontium concentrations reveal specific biomineralization pathways in certain coccolithophores with implications for the Sr/Ca paleoproductivity proxy. PLoS One. 12(10): -. gs :: V :: O :: doi:10.1371/journal.pone.0185655

Hermoso, M. & Minoletti, F. (2018). Mass and Fine-Scale Morphological Changes Induced by Changing Seawater pH in the Coccolith Gephyrocapsa oceanica. Journal of Geophysical Research: Biogeosciences. 123(9): 2761-2774. gs :: :: :: doi:10.1029/2018JG004535

Hermoso, M. et al. (2016b). An explanation for the 18O excess in Noelaerhabdaceae coccolith calcite. Geochimica et Cosmochimica Acta. 189: 132-142. gs :: :: :: doi:10.1016/j.gca.2016.06.016

Hermoso, M. et al. (2009b). Global and local forcing of Early Toarcian seawater chemistry: a comparative study of different paleoceanographic settings (Paris and Lusitanian basins). Paleoceanography. 24(PA4208): 1-15. gs :: :: :: doi:10.1029/2009PA001764

Hermoso, M., Minoletti, F., Rickaby, R. E. M., Hesselbo, S. P., Baudin, F. & Jenkyns, H. C. (2012). Dynamics of a stepped carbon-isotope excursion: ultra high-resolution study of Early Toarcian environmental change. Earth and Planetary Science Letters. 319: 45-54. gs :: :: :: doi:10.1016/j.epsl.2011.12.021

Hermoso, M. & Pellenard, P. (2014). Continental weathering and climatic changes inferred from clay mineralogy and paired carbon isotopes across the early to middle Toarcian in the Paris Basin. Palaeogeography Palaeoclimatology Palaeoecology. 399: 385-393. gs :: :: :: doi:10.1016/j.palaeo.2014.02.007

Hernández, A. S. R., Flores, J. A., Sierro, F. J., Fuertes, M. A., Cros, L. & Trull, T. W. (2018). Coccolithophore populations and their contribution to carbonate export during an annual cycle in the Australian sector of the Antarctic zone. Biogeosciences. 15: 1843-1862. gs :: V :: O :: doi:10.5194/bg-15-1843-2018

Hernández-Almeida, I., Ausín, B., Saavedra-Pellitero, M., Baumann, K. H. & Stoll, H. M. (2019). Quantitative reconstruction of primary productivity in low latitudes during the last glacial maximum and the mid-to-late Holocene from a global Florisphaera profunda calibration dataset. Quaternary Science Reviews. 205: 166-181. gs :: :: :: doi:10.1016/j.quascirev.2018.12.016

Hernández-Almeida, I., Bárcena, M. A., Flores, J. A., Sierro, F. J., Sanchez-Vidal, A. & Calafat, A. (2011). Microplankton response to environmental conditions in the Alboran Sea (Western Mediterranean): One year sediment trap record. Marine Micropaleontology. 78: 14-24. gs :: :: :: doi:10.1016/j.marmicro.2010.09.005

Hernandez-Becerril, D. U., Bravo-Sierra, E. & Ramırez-Valdez, Y. (2001). Coccolithophorids from the west coast of Baja California, Mexico. Hydrobiologia. 452: 31-45. gs :: :: :: doi:10.1023/A:1011961325093

Herngreen, G. F. W. et al. (1998). Biostratigraphy of Cretaceous/Tertiary boundary strata in the Curfs Quarry, The Netherlands, and comparison with the type Maastrichtian. Mededelingen Rijks Geologische Dienst. 61: 3-57. gs :: :: ::

Herngreen, G. F. W., Randrianasolo, A. & Verbeek, J. W. (1982). Micropaleontology of Albian to Danian strata in Madagascar. Micropaleontology. 28: 97-109. gs :: :: :: doi:10.2307/1485364

Herold-Vieuxblé, I. (1979). A new preparation technique for calcareous nannoplankton from bituminous rocks. Micropaleontology. 25(4): 438-439. gs :: :: :: doi:10.2307/1485431

Herrle, J. O. (2003). Reconstructing nutricline dynamics of mid-Cretaceous oceans: evidence from calcareous nannofossils from the Niveau Paquier black shale (SE France). Marine Micropaleontology. 47: 307-321. gs :: :: :: doi:10.1016/S0377-8398(02)00133-0

Herrle, J. O. & Bollmann, J. (2004). Accuracy and reproducibility of absolute nannoplankton abundances using the filtration technique in combination with a rotary sample splitter. Marine Micropaleontology. 53: 389-404. gs :: :: :: doi:10.1016/j.marmicro.2004.08.002

Herrle, J. O., Bollmann, J., Gebühr, C., Schulz, H., Sheward, R. M. & Giesenberg, A. (2018). Black Sea outflow response to Holocene meltwater events. Scientific Reports. 8(4081): 1-6. gs :: V :: O :: doi: 10.1038/s41598-018-22453-z 4

Herrle, J. O. & Mutterlose, J. (2003). Calcareous nannofossils from the Aptian-Lower Albian of southeast France: palaeoecological and biostratigraphic implications. Cretaceous Research. 24: 1-22. gs :: :: :: doi:10.1016/S0195-6671(03)00023-5

Herrmann, S. & Thierstein, H. R. (2012). Cenozoic coccolith size changes—Evolutionary and/or ecological controls? Palaeogeography Palaeoclimatology Palaeoecology. 333: 92-106. gs :: :: :: doi:10.1016/j.palaeo.2012.03.011

Herrmann, S., Weller, A. F., Henderiks, J. & Thierstein, H. R. (2012). Global coccolith size variability in Holocene deep-sea sediments. Marine Micropaleontology. 82–83: 1-12. gs :: :: :: doi:10.1016/j.marmicro.2011.09.006

Hesselbo, S. P., Ogg, J. G. & Ruhl, M. (2020). The Jurassic Period. In, Gradstein, F. M., Ogg, J. G. & Schmitz, M. D. (eds) Geologic Time Scale 2020. Elsevier 2: 955-1022. gs :: :: ::

Hester, N. C. & Risatti, J. B. (1972). Nannoplankton Biostratigraphy and Sedimentary Petrology of a Vertical Facies Sequence Crossing the Campanian-Maestrichtian Boundary in Central Alabama: ABSTRACT. Bulletin of the American Association of Petroleum Geologists. 56(9): 1899-1899. gs :: :: :: doi:10.1306/819A4144-16C5-11D7-8645000102C1865D

Hibberd, D. J. (1972). Chrysophyta: definition and interpretation. British Phycological Journal. 7: 281-. gs :: :: ::

Hibberd, D. J. (1976). The ultrastructure and taxonomy of the Chrysophyceae and Prymnesiophyceae (Haptophyceae): a survey with some new observations on the ultrastructure of the Chrysophyceae. Botanical Journal of the Linnean Society. 72: 55-80. gs :: :: ::

Hibberd, D. J. (1980). Prymnesiophytes (=Haptophytes). In, Cox, E. R. (ed.) Phytoflagellates. Developments in Marine Biology. Elsevier, New York 273-317. gs :: :: ::

Highfield, A., Evans, C., Walne, A., Miller, P. I. & Schroeder, D. C. (2014). How many Coccolithovirus genotypes does it take to terminate an Emiliania huxleyi bloom? Virology. 466-467: 138-145. gs :: :: :: doi:10.1016/j.virol.2014.07.017. Epub 2014 Jul 30.

Highfield, A., Joint, I., Gilbert, J. A., Crawfurd, K. J. & Schroeder, D. C. (2017). Change in Emiliania huxleyi Virus Assemblage Diversity but Not in Host Genetic Composition during an Ocean Acidification Mesocosm Experiment. Viruses. 9(3): 41-41. gs :: :: :: doi:10.3390/v9030041.

Hildebrand-Habel, T. & Mai, H. (1999). External and internal views of coccospheres: Notes on a new cracking technique. Journal of Nannoplankton Research. 21(1): 27-29. gs :: V :: O ::

Hildebrand-Habel, T. & Streng, M. (2003). Calcareous dinoflagellate associations and Maastrichtian-Tertiary climatic change in a high latitude core (ODP Hole 689B, Maud Rise, Weddell Sea). Palaeogeography Palaeoclimatology Palaeoecology. 197: 293-321. gs :: :: :: doi:10.1016/S0031-0182(03)00470-X

Hildebrand-Habel, T. & Willems, H. (1999). New calcareous dinoflagellates from the Paleogene of the South Atlantic Ocean (DSDP Site 357, Rio Grand Rise). Journal of Micropalaeontology. 18: 89-95. gs :: V :: O :: doi:10.1144/jm.18.1.89

Hildebrand-Habel, T. & Willems, H. (2000). Distribution of calcareous dinoflagellates from the Maastrichtian to early Miocene of DSDP Site 357 (Rio Grande Rise, western South Atlantic Ocean). International Journal of Earth Sciences. 88: 694-707. gs :: :: :: doi:10.1007/s005310050298

Hildebrand-Habel, T. & Willems, H. (2004). New calcareous dinoflagellates (Calciodinelloideae) from the Middle Coniacian to Upper Santonian chalks of Lägerdorf (northern Germany). Journal of Micropalaeontology. 23: 181-190. gs :: V :: O :: doi:10.1144/jm.23.2.181

Hildebrand-Habel, T., Willems, H. & Versteegh, G. J. M. (1999). Variations in calcareous dinoflagellate associations from the Maastrichtian to Middle Eocene of the western South Atlantic Ocean (São Paulo Plateau, DSDP Leg 39, Site 356). Review of Palaeobotany and Palynology. 106: 57-87. gs :: :: :: doi:10.1016/S0034-6667(98)00079-7

Hilgen, J., Krijgsman, W., Raffi, I., Turco, E. & Zachariasse, W. J. (2000). Integrated stratigraphy and astronomical calibration of the Serravallian-Tortonian boundary section at Monte Gibliscemi (Sicily, Italy). Marine Micropaleontology. 38: 181-211. gs :: :: :: doi:10.1016/S0377-8398(00)00008-6

Hill, M. E. (1975). Selective dissolution of mid-Cretaceous (Cenomanian) calcareous nannofossils. Micropaleontology. 21(2): 227-236. gs :: :: :: doi:10.2307/1485025

Hill, M. E. (1976). Lower Cretaceous calcareous nannofossils from Texas and Oklahoma. Palaeontographica Abteilung B Palaeophytologie. 156: 103-179. gs :: :: ::

Hill, M. E. & Bralower, T. J. (1987). Early evolution, stratigraphy and taxonomy of Eiffellithus eximius and closely-related species. In, Stradner, H. , & Perch Nielsen, K, (eds) Proceedings of the INA Meeting, Vienna 1985. Abhandlungen der Geologischen Bundesanstalt . 39: 89-97. gs :: V :: O ::

Hills, S. J. & Thierstein, H. R. (1989). Plio-Pleistocene Calcareous Plankton Biochronology. Marine Micropaleontology. 14: 67-96 . gs :: :: :: doi:10.1016/0377-8398(89)90032-7

Hincapié, D. F. V. et al. (2019). Early Eocene (Ypresian) calcareous nannofossil stratigraphy from the Caribbean Region of Colombia, South America. Society for Sedimentary Geology. -. gs :: :: :: doi:10.2110/sepmsp.111.07

Hine, N. (1990). Late Cenozoic Calcareous Nannoplankton from the Northeast Atlantic. PhD thesis, University of East Anglia. -. gs :: :: ::

Hine, N. & Weaver, P. P. E. (1998). Quaternary. In, Bown, P. R. (ed.) Calcareous Nannofossil Biostratigraphy. British Micropalaeontological Society Publication Series . 266-283. gs :: V :: O :: doi:10.1007/978-94-011-4902-0_9

Hinz, D. J. et al. (2012). Comparative seasonal biogeography of mineralising nannoplankton in the Scotia Sea: Emiliania huxleyi, Fragilariopsis spp. and Tetraparma pelagica. Deep-Sea Research Part II: Topical Studies in Oceanography. 59-60: 57-66. gs :: :: :: doi:10.1016/j.dsr2.2011.09.002

Hippolyte, J. -C., Müller, C., Kaymakci, N. & Sangu, E. (2010). Dating of the Black Sea Basin: new nannoplankton ages from its inverted margin in the Central Pontides (Turkey). Geological Society of London. -. gs :: :: :: doi:10.1144/SP340.7

Hippolyte, J. -C., Müller, C., Sangu, E. & Kaymakci, N. (2017). Stratigraphic comparisons along the Pontides (Turkey) based on new nannoplankton age determinations in the Eastern Pontides: Geodynamic implications. Geological Society of London. -. gs :: :: :: doi:10.1144/SP428

Hiramatsu, C. & de Deckker, P. (1997a). The calcareous nannoplankton assemblages of surface sediments in the Tasman and Coral Seas. Palaeogeography Palaeoclimatology Palaeoecology. 131(3–4): 257-285. gs :: :: :: doi:10.1016/S0031-0182(97)00006-0

Hiramatsu, C. & de Deckker, P. (1997b). The late Quaternary calcareous nannoplankton assemblages from three cores from the Tasman Sea. Palaeogeography Palaeoclimatology Palaeoecology. 131(3–4): 391-412. gs :: :: :: doi:10.1016/S0031-0182(97)00013-8

Hirokawa, Y., Fujiwara, S. & Tsuzuki, M. (2005). Three types of acidic polysaccharides associated with coccolith of Pleurochrysis haptonemofera: comparison with Pleurochrysis carterae and analysis using fluorescein-isothiocyanate-labeled lectins. Marine Biotechnology. 7(6): 634-644. gs :: :: :: doi:10.1007/s10126-004-5148-9

Ho, T. -Y. et al. (2003). The elemental composition of some marine phytoplankton. Journal of Phycology. 39(6): 1145-1159. gs :: :: :: doi:10.1111/j.0022-3646.2003.03-090.x

Hochuli, P. A. (2000). 'Organic nannofossils': a new type of palynomorph from the Palaeogene of the North Sea. Journal of Micropalaeontology. 19(2): 153-158. gs :: V :: O :: doi:10.1144/jm.19.2.153

Hockfield, M. (2000). Blooms and morphometrics: a study of plankton from SW of Iceland and of coccolithophores from the English Channel and the Southern Ocean. MSc thesis, University College London. 1-67. gs :: :: ::

Hodson, F. & West, I. M. (1970). Calcareous nannoplankton from an Upper Bracklesham horizon at Fawley, Hampshire. Revue de Micropaléontologie. 13: 165-187. gs :: :: ::

Hoepffner, N. & Haas, L. W. (1990). Electron microscopy of nanoplankton from the North Pacific Central Gyre. Journal of Phycology. 26: 421-439. gs :: :: ::

Hoffmann, N. (1970a). Placozygus n. gen. (Coccolithineen) aus der Oberkreide des nordlichen Mitteleuropas. Geologie, Berlin. 19: 1004-1009. gs :: :: ::

Hoffmann, N. (1970b). Coccolithineen aus der werssen Schreibkreide (Unter-Maastricht) von Jasmund auf Rügen. Geologie, Berlin. 17(7): 846-879. gs :: :: ::

Hoffmann, N. (1970c). Elektronenmikroskopische Untersuchungen an "stabförmigen" Nannofossilien aus der Kreide und dem Paläogen Norddeutschlands. Hercynia. 7: 131-162. gs :: :: O ::

Hoffmann, N. (1970d). Elektronenmikroskopische Untersuchungen an Discoasteriden aus dem Ober-Eozan der Bohrung Salzwedel 202/64 (Altmark). Hallesches Jahrbuch für Mitteldt. Erdg. 10: 7-26. gs :: :: ::

Hoffmann, N. (1970e). Taxonomische Untersuchungen an Coccolithen aus der Kreide Norddeutchlands anhand elektronenmikroskopischer Aufnamen. Hercynia. 7(1-3): 163-198. gs :: V :: O ::

Hoffmann, N. & Vetter, J. (1971). Coccolithen aus der Turonscholle von Johanisberg, nordwestlich von Pasewalk. Geologie, Berlin. 20(10): 1170-1211. gs :: :: O ::

Hoffmann, R. et al. (2015). Insight into Emiliania huxleyi coccospheres by focused ion beam sectioning. Biogeosciences. 12: 825-834. gs :: V :: O :: doi:10.5194/bg-12-825-2015

Hoffmann, R. et al. (2014a). TEM preparation methods and influence of radiation damage on the beam sensitive CaCO3 shell of Emiliania huxleyi. Micron. 62: 28-36. gs :: :: :: doi:10.1016/j.micron.2014.03.004

Hoffmann, R. et al. (2014b). Nanoprobe crystallographic orientation studies of isolated shield elements of the coccolithophore species Emiliania huxleyi. European Journal of Mineralogy. 26(4): -. gs :: :: :: doi:10.1127/0935-1221/2014/0026-2365

Hofmann, T. (2020). Das ausgetrocknete Mittelmeer: Bahnbrechende Erkenntnis der Glomar Challenger. der Standard. 1-8. gs :: V :: O ::

Hojjatzadeh, M. (1977). Calcareous nannofossils from the Barremian to Coniacian of Western Morocco and their zonal use. Newsletters on Stratigraphy. 6(3): 171-182. gs :: :: ::

Hojjatzadeh, M. (1978). Discoasters of the Blue Clay (Middle Miocene) of Malta and Gozo. Geological Magazine. 115(1): 1-19. gs :: :: :: doi:10.1017/S0016756800040942

Hojjatzadeh, M. (1981). Mid-Cretaceous (Albian-Cenomanian) calcareous nannofossils from Pont du Fahs (northern Tunisia). Geological Magazine. 118(2): 161-174. gs :: :: :: doi:10.1017/S0016756800034361

Holail, H. & Lohmann, K. C. (1994). The role of early lithification in development of chalky porosity in calcitic micrites: Upper Cretaceous chalks, Egypt. Sedimentary Geology. 88(3): 193-200. gs :: :: :: doi:10.1016/0037-0738(94)90061-2

Holcova, K. (2009). Morphometrical variability of Helicosphaera ampliaperta (calcareous nannoplankton) in the Central Paratethys: biostratigraphic and paleogeographic applications. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 253(2-3): 314-356. gs :: :: :: doi:10.1127/0077-7749/2009/0253-0341

Holcová, K. (2013). Oligocene–Miocene small reticulofenestrid coccolites and its paleoecological and paleogeographical implications. Acta Palaeontologica Polonica. 58(3): 651-668. gs :: V :: O ::

Höll, C., Karwath, B., Rühlemann, C., Zonneveld, K. A. F. & Willems, H. (1999). Palaeoenvironmental information gained from calcareous dinoflagellates: the late Quaternary eastern and western tropical Atlantic Ocean in comparison,. Palaeogeography Palaeoclimatology Palaeoecology. 146(1–4): 147-164. gs :: :: :: doi:10.1016/S0031-0182(98)00141-2

Höll, C., Zonnefeld, K. A. F. & Willems, H. (1998). On the ecology of calcareous dinoflagellates: The Quaternary Eastern Equatorial Atlantic. Marine Micropaleontology. 33: 1-25. gs :: :: :: doi:10.1016/S0377-8398(97)00033-9

Holligan, P. & Harbour, D. S. (1977). The vertical distribution and succession of phytoplankton in the western English Channel in 1975 and 1976. Journal of the Marine Biological Association of the United Kingdom. 57: 1075-1093. gs :: :: ::

Holligan, P., Harbour, D. S. & Groom, S. B. (1993a). What controls the distribution of the coccolithophore, Emiliania huxleyi, in the North Sea? Fisheries Oceanography. 2(3-4): 175-183. gs :: :: :: doi:10.1111/j.1365-2419.1993.tb00133.x

Holligan, P. M. (1987). The physical environment of exceptional phytoplankton blooms in the Northeast Atlantic. Rapports et procès-verbaux des réunions / Conseil International pour l'Exploration de la Mer. 187: 9-18. gs :: :: ::

Holligan, P. M., Aarup, T. & Groom, S. B. (1989). The North Sea Satellite Colour Atlas. Continental Shelf Research. 9(8): 665-765. gs :: :: ::

Holligan, P. M., Fernandez, E. & et al. (1993b). A biogeochemical study of the coccolithophore Emiliania huxleyi in the north Atlantic. Global Biogeochemical Cycles. 7: 879-900. gs :: :: ::

Holligan, P. M., Viollier, M., Harbour, D. S., Camus, P. & Champagne-Philippe, M. (1983). Satellite and ship studies of coccolithophore production along a continental shelf edge. Nature. 304: 339-342. gs :: :: :: doi:10.1038/304339a0

Hollis, C. J. (2003). The Cretaceous/Tertiary boundary event in New Zealand: profiling mass extinction. New Zealand Journal of Geology and Geophysics. 46: 307-321. gs :: :: O :: doi:10.1080/00288306.2003.9515011

Hollis, C. J., Dickens, G. R., Field, B. D., Jones, C. M. & Strong, C. P. (2005). The Paleocene–Eocene transition at Mead Stream, New Zealand: a southern Pacific record of early Cenozoic global change. Palaeogeography Palaeoclimatology Palaeoecology. 215: 313-343. gs :: :: :: doi:10.1016/j.palaeo.2004.09.011

Holmes, M. A. & Watkins, D. K. (1992). Middle and Late Cretaceous history of the Indian Ocean. Synthesis of Results from Scientific Drilling in the Indian Ocean. Geophysical Monograph. 70: 225-244. gs :: :: ::

Holmes, M. A., Watkins, D. K. & Norris, R. D. (2004). Paleocene cyclic sedimentation in the western North Atlantic, ODP Site 1051, Blake Nose. Marine Geology. 209: 31-43. gs :: :: :: doi:10.1016/j.margeo.2004.06.005

Holtz, L-M., Wolf-Gladrow, D. & Thoms, S. (2015). Numerical cell model investigating cellular carbon fluxes in Emiliania huxleyi . Journal of Theoretical Biology. 364: 305-315. gs :: :: :: doi:10.1016/j.jtbi.2014.08.040

Holtz, L. -M., Wolf-Gladrow, D. & Thoms, S. (2017). Stable carbon isotope signals in particulate organic and inorganic carbon of coccolithophores – A numerical model study for Emiliania huxleyi. Journal of Theoretical Biology. 420: 117-127. gs :: :: :: doi:10.1016/j.jtbi.2017.01.030

Holtz, Lena-M., Thoms, S., Langer, G. & Wolf-Gladrow, D. A. (2013). Substrate Supply for Calcite Precipitation in Emiliania huxleyi: Assessment of Different Model Approaches. Journal of Phycology. 49: 417-426. gs :: :: :: doi:10.1111/jpy.12052

Honjo, S. (1975). Dissolution of suspended coccoliths in the deep-sea water column and sedimentation of coccolith ooze. In, Sliter, W. V., Bé, A. W. H. & Berger W. H. (eds) Dissolution of Deep-sea Carbonates. Cushman Foundation for Foraminiferal Research, Special Publication . 13: 114-159. gs :: V :: O ::

Honjo, S. (1976). Coccoliths: Production,Transportation and Sedimentation. Marine Micropaleontology. 1: 65-79. gs :: :: :: doi:10.1016/0377-8398(76)90005-0

Honjo, S. (1977). Biogeography and provincialism of living coccolithophorids in the Pacific Ocean. In, Ramsay, A. T. S. (ed.) Oceanic Micropalaeontology,. Academic Press, London 2: 951-972. gs :: :: ::

Honjo, S. & Manganini, S. J. (0). Sediment trap particle flux data during the North Atlantic Bloom Experiment. Woods Hole Oceanographic Institution, Technical Report. 92(15): 1-6. gs :: :: ::

Honjo, S., Manganini, S. J., Krishfield, R. A. & Francois, R. (2008). Particulate organic carbon fluxes to the ocean interior and factors controlling the biological pump: A synthesis of global sediment trap programs since 1983. Progress in Oceanography. 76: 217-285. gs :: :: :: doi:10.1016/j.pocean.2007.11.003

Honjo, S. & Okada, H. (1974). Community structure of coccolithophores in the photic layer of the mid-Pacific. Micropaleontology. 20(2): 209-230. gs :: :: :: doi:10.2307/1485061

Hood, M. A., Leemreize, H., Scheffel, A. & Faivre, D. (2016). Lattice distortions in coccolith calcite crystals originate from occlusion of biomacromolecules. Journal of Structural Biology. 196(2): 147-154. gs :: :: :: doi:10.1016/j.jsb.2016.09.010

Hood, R. R. et al. (2006). Pelagic functional group modeling: Progress, challenges and prospects. Deep-Sea Research Part II: Topical Studies in Oceanography. 53(5-7): 459-512. gs :: :: :: doi:10.1016/j.dsr2.2006.01.025

Hopkins, J., Henson, S. A., Painter, S. C., Tyrrell, T. & Poulton, A. J. (2015). Phenological characteristics of global coccolithophore blooms. Global Biogeochemical Cycles. 29(2): -. gs :: V :: O :: doi:10.1002/2014GB004919

Hoppe, C. J. M., Langer, G. & Rost, B. (2011). Emiliania huxleyi shows identical responses to elevated pCO2 in TA and DIC manipulations. Journal of Experimental Marine Biology and Ecology. 406: 54-62. gs :: :: :: doi:10.1016/j.jembe.2011.06.008

Hori, T. & Green, J. C. (1985). An ultrastructural study of mitosis in non-motile coccolith-bearing cells of Emiliania huxleyi (Lohm) Hay and Mohler (Prymnesiophceae). Protistologica. 21: 107-120. gs :: V :: O ::

Hori, T. & Green, J. C. (1991). The ultrastructure of the flagellar root system of Isochrysis galbana (Prymnesiophyta). Journal of the Marine Biological Association of the United Kingdom. 71: 137-152. gs :: :: :: doi:10.1017/S0025315400037450

Hori, T. & Green, J. C. (1994). Mitosis and cell division. In, Green, J. C. & Leadbeater, B. S. C. (eds) The Haptophyte Algae. Systematics Association Special Volume . 51(5): 47-71. gs :: :: ::

Hori, T. & Inouye, I. (1981). The ultrastructure of mitosis in Cricosphaera roscoffensis var. haptonemifera (Prymnesiophyceae). Protoplasma. 106: 121-135. gs :: :: :: doi:10.1007/BF02115966

Horigome, M. T., Ziveri, P., Grelaud, M., Baumann, K. -H., Marino, G. & Mortyn, P. G. (2014). Environmental controls on the Emiliania huxleyi calcite mass. Biogeosciences. 11: 2295-2308. gs :: V :: O :: doi:10.5194/bg-11-2295-2014

Horner, R. A., Carstens, M., Gradinger, R., Ikavalko, J., Spindler, M. & Juhanoja, J. (1998). Discoasters are recent taxa . In, Smelror, M. (ed.) Abstracts from the Sixth International Conference on Modem and Fossil Dinoflagellates Dino 6, Trondheim, June 1998. Norges teknisk - naturvitenspkapelige universitet Vitenskapmuseet Rapport botanisk serie . 70-71. gs :: :: ::

Horng, C-S. & Shea, K-S. (1994). Study of Nannofossil Biostratigraphy in the Eastern Part of the Erhjen-Chi Section, Southwestern Taiwan. Special Publication of the Central Geological Survey of Taiwan. 8: 181-204. gs :: :: ::

Hoshina, K. et al. (2021). Eocene calcareous nannofossils from southern Tibet: Paleoceanographic implications for the closure of the eastern Tethys Ocean. Marine Micropaleontology. 167: 1-13. gs :: :: :: doi:10.1016/j.marmicro.2021.102031

Houdan, A. et al. (2004a). Flow cytometric analysis of relative ploidy levels in holococcolithophore-heterococcolithophore (Haptophyta) life cycles. Systematics and Biodiversity. 1(4): 453-465. gs :: :: :: doi:10.1017/S1477200003001270

Houdan, A., Bonnard, A., Fresnel J., Fouchard, S., C. Billard, C. & Probert, I. (2004b). Toxicity of coastal coccolithophores (Prymnesiophyceae, Haptophyta). Journal of Plankton Research. 26(8): 875-883. gs :: :: :: doi:10.1093/plankt/fbh079

Houdan, A., Probert, I., van Lenning, K. & Lefebvre, S. (2005). Comparison of photosynthetic responses in diploid and haploid life-cycle phases of Emiliania huxleyi (Prymnesiophyceae). Marine Ecology Progress Series. 292: 139-146. gs :: :: :: doi:10.3354/meps292139

Houdan, A., Probert, I., Zatylny, C., Véron, B. & Billard, C. (2006). Ecology of oceanic coccolithophores. I. Nutritional preferences of the two stages in the life cycle of Coccolithus braarudii and Calcidiscus leptoporus. Aquatic Microbial Ecology. 44: 291-301. gs :: :: :: doi:10.3354/ame044291

Houghton, S. D. (1988). Thermocline control on coccolith diversity and abundance in Recent sediments from the Celtic Sea and English Channel. Marine Geology. 83(1-4): 313-319. gs :: :: :: doi:10.1016/0025-3227(88)90065-5

Houghton, S. D. (1989). Coccolith sedimentation and transport in the Irish Sea. Marine Geology. 86: 67-74. gs :: :: :: doi:10.1016/0025-3227(89)90019-4

Houghton, S. D. (1991). Coccolith sedimentation and transport in the North Sea. Marine Geology. 99: 267-274. gs :: :: :: doi:10.1016/0025-3227(91)90097-N

Houghton, S. D. (1993). Recent coccolith sedimentation patterns and transport in the North Sea: Implications for palaeoceanographic studies of marginal and continental shelf seas. In, Jenkins, D. G. (ed.) Applied Micropalaeontology. Kluwer, Dordrecht 1-39. gs :: :: :: doi:10.1007/978-94-017-0763-3_1

Houghton, S. D. & Guptha, M. V. S. (1991). Monsoonal and fertility controls on Recent marginal sea and continental shelf coccolith assemblages from the western Pacific and northern Indian oceans. Marine Geology. 97: 252-259. gs :: :: :: doi:10.1016/0025-3227(91)90119-O

Houghton, S. D., Guptha & , M. V. S. (1991). Monsoonal and fertility controls on Recent marginal sea and continental shelf coccolith assemblages from the western Pacific and Indian Oceans. Marina Geology. 97: 251-259. gs :: :: ::

Houghton, S. D. & Jenkins, D. G. (1988). Subtropical Microfossil Indicators From the Late Pliocene Celtic Sea. Marine Geology. 79: 119-126 119. gs :: :: :: doi:10.1016/0025-3227(88)90160-0

Hovde, B. T., Deodato, C. R., Andersen, R. A., Starkenburg, S. R., Barlow, S. B. & Cattolico, R. A. (2019). Chrysochromulina: Genomic assessment and taxonomic diagnosis of the type species for an oleaginous algal clade. Algal Research. 37: 307-319. gs :: :: :: doi:10.1016/j.algal.2018.11.023

Howe, R. (1995). Mid-Late Cretaceous nannofossil biostratigraphy of the Papuan Basin, Papua, New Guinea. Journal of Nannoplankton Research. 17(2): 64-64. gs :: :: ::

Howe, R. (2021). Ultrastructure and taxonomy of the family Sphenolithaceae. Journal of Nannoplankton Research. 39(1): 29-75. gs :: :: O ::

Howe, R. C. (1977). Calcareous Nannofossils—Leg 37, Deep Sea Drilling Project. Initial Reports of the Deep Sea Drilling Project. 37: 909-916. gs :: V :: O :: doi:10.2973/dsdp.proc.37.174.1977

Howe, R. C. & Ellis, C. H. (1977). Calcareous nannofossils from Mid-Atlantic basement rocks of DSDP Leg37. Canadian Journal of Earth Sciences. 14(4): 707-715. gs :: :: :: doi:10.1139/e77-070

Howe, R. W. (2017). Acadialithus, a new nannofossil genus from offshore Eastern Newfoundland, Canada. Journal of Nannoplankton Research. 37(1): 61-66. gs :: V :: O ::

Howe, R. W., Campbell, R. J. & Rexilius, J. P. (2003). Integrated uppermost Campanian– Maastrichtian calcareous nannofossil and foraminiferal biostratigraphic zonation of the northwestern margin of Australia. Journal of Micropalaeontology. 22(1): 29-62. gs :: V :: O :: doi:10.1144/jm.22.1.29

Howe, R. W., Sikora, P. J., Gale, A. S. & Bergen, J. A. (2007). Calcareous nannofossil and planktonic foraminiferal biostratigraphy of proposed stratotypes for the Coniacian/Santonian boundary: Olazagutia, northern Spain; Seaford Head, southern England; and Ten Mile Creek, Texas, USA. Cretaceous Research. 28: 61-93. gs :: :: :: doi:10.1016/j.cretres.2006.05.017

Hradecká, L. & Svábenická, L. (1995). Foraminifera and calcareous nannoplankton assemblages from the Cenomanian-Turonian boundary interval of the Knovíz section, Bohemian Cretaceous Basin. Geologica Carpathica. 46: 267-276. gs :: V :: O ::

Hu, X., Yin, M. & Tseng, C. (2005). Morphology of Chrysochromulina planisquama sp. nov. (Haptophyta, Prymnesiophyceae) isolated from Jiaozhou Bay, China. Botanica Marina. 48: 52-57. gs :: :: :: doi:10.1515/BOT.2005.004

Huang, C., Hesselbo, S. P. & Hinnov, L. (2010). Astrochronology of the late Jurassic Kimmeridge Clay (Dorset, England) and implications for Earth system processes. Earth and Planetary Science Letters. 289(1-2): 242-255. gs :: :: :: doi:10.1016/j.epsl.2009.11.013

Huang, T-C. (1977). Calcareous Nannoplankton stratigraphy of the Upper Wulai Group (Oligocene) in Northern Taiwan. Petroleum Geology of Taiwan. 14: 147-179. gs :: :: ::

Huang, Y., Zheng, Y., Heng, P., Giosan, L. & Coolen, M. J. L. (2021). Black Sea paleosalinity evolution since the last deglaciation reconstructed from alkenone-inferred Isochrysidales diversity. Earth and Planetary Science Letters. 564: 1-9. gs :: :: :: doi:10.1016/j.epsl.2021.116881

Huber, B. T., Petrizzo, M. R., Watkins, D. K., Haynes, S. J. & MacLeod, K. G. (2017a). Correlation of Turonian continental margin and deep-sea sequences in the subtropical Indian Ocean sediments by integrated planktonic foraminiferal and calcareous nannofossil biostratigraphy. Newsletters on Stratigraphy. 50: 141-185. gs :: :: ::

Huber, B. T. et al. (2017b). Pforams@microtax: A new online taxonomic database for planktonic foraminifera. Micropaleontology. 62(6): 429-438. gs :: :: :: doi:10.47894/mpal.62.6.02

Huber, B. T. & Watkins, D. K. (1992). Biogeography of Campanian-Maastrichtian calcareous plankton in the region of the Southern Ocean: paleogeographic and paleoclimatic implications. The Antarctic Paleoenvironment: a Perspective on Global Change. Antarctic Research Series (AGU). 56: 31-60. gs :: :: ::

Huber, B. T., Tur, N. A., Self-Trail, J. & MacLeod, K. G. (2022). Calcareous plankton biostratigraphic fidelity and species richness during the last 10 m.y. of the Cretaceous at Blake Plateau, subtropical North Atlantic. Cretaceous Research. 131: 1-42. gs :: :: ::

Hudson, W. E. & Nicholas, C. J. (2014). The Pindiro Group (Triassic to Early Jurassic Mandawa Basin, southern coastal Tanzania): Definition, palaeoenvironment, and stratigraphy. Journal of African Earth Sciences. 92: 55-67. gs :: :: :: doi:10.1016/j.jafrearsci.2014.01.005

Hughes, C., Malin, G., Nightingale, P. D. & Liss, P. S. (2006). The effect of light stress on the release of volatile iodocarbons by three species of marine microalgae. Limnology and Oceanography. 51(6): 2849-2854. gs :: :: :: doi:10.4319/lo.2006.51.6.2849

Huh, J. M. & Smith, C. I. (1972). Coccoliths and related calcareous nannofossils from the Upper Cretaceous Fencepost Limstone of Northwestern Kansas. Contributions from the Museum of Paleontology, University of Michigan. 24(3): 17-22. gs :: :: ::

Hulburt, E. M. (1970). Competition for nutrients by marine phytoplankton in oceanic, coastal, and estuarine regions. Ecology. 51(3): 475-484. gs :: :: :: doi:10.2307/1935382

Hultberg, S. U. (1985). Pithonella organica—a new calcareous dinoflagellate with an inner organic wall. Grana. 24: 1150120-. gs :: :: ::

Humboldt, F. W. H. A. v. (1795). Ueber die unterirdischen Gasarten und die Mittel ihren Nachtheil zu vermindern. Ein Beytrag zur Physik der praktischen Bergbaukunde. F. Wiewag, Braunschweig. -. gs :: :: ::

Hünnig Bom, M. H., Guerra, R. do Monte, Concheyro, A. & Fauth, G. (2015). Methodologies for recovering calcareous nannofossils from bituminous claystone. Micropaleontology. 61(3): 165-170. gs :: :: :: doi:10.47894/mpal.61.3.02

Huxley, T. (1858). Appendix A. In, Dayman, J. (ed.) Deep sea soundings in the North Atlantic Ocean between Ireland and Newfoundland made in H.M.S. Cyclops. The Admiralty Commissioners, London 63-68. gs :: :: ::

Huxley, T. H. (1868). On some organisms living at great depths in the North Atlantic Ocean. Quarterly Journal of Microscopical Science. 8: 203-212. gs :: V :: O :: doi:10.1111/j.1365-2818.1987.tb04756.x

Iaccarino, S. M. et al. (2008). The Trave section (Monte dei Corvi, Ancona, Central Italy): an integrated paleontological study of the Messinian deposits. Stratigraphy. 5(3-4): 281-306. gs :: :: ::

Iaccarino, S. M. et al. (2011). High-resolution integrated stratigraphy of the upper Burdigalian-lower Langhian in the Mediterranean: the Langhian historical stratotype and new candidate sections for defining its GSSP. Stratigraphy. 8(2-3): 199-215. gs :: :: ::

Ibrahim, M. I. A., Dilcher, D. & Kholeif, S. (2009). Palynomorph succession and paleoenvironment in the Upper Cretaceous Abu Gharadig Oil Field, Northwestern Desert, Egypt. Micropaleontology. 55(6): 525-558. gs :: :: ::

Ichinomiya, M. et al. (2016). Diversity and oceanic distribution of the Parmales (Bolidophyceae), a picoplanktonic group closely related to diatoms. ISME Journal. 10(10): 2419-2434. gs :: :: :: doi:10.1038/ismej.2016.38

Ichinomiya, M., Yoshikawa, S., Kamiya, M., Ohki, K., Takaichi, S. & Kuwata, A. (2011). Isolation and Characterization of Parmales (Heterokonta ⁄ Heterokontophyta ⁄ Stramenopiles) From the Oyashio Region, Western North Pacific. Journal of Phycology. 47: 144-151. gs :: :: :: doi:10.1111/j.1529-8817.2010.00926.x

Iglesias-Rodríguez, M. D. et al. (2002a). Representing key phytoplankton functional groups in ocean carbon cycle models: Coccolithophorids. Global Biogeochemical Cycles. 16(4): 1-20. gs :: V :: O :: doi:10.1029/2001GB001454

Iglesias-Rodríguez, M. D. et al. (2008). Phytoplankton calcification in a high-CO₂ world. Science. 320: 336-340. gs :: :: :: doi:10.1126/science.1154122

Iglesias-Rodriguez, M. D., Jones, B. M., Blanco-Ameijeiras, S., Greaves, M., Huete-Ortega, M. & Lebrato, M. (2017). Physiological responses of coccolithophores to abrupt exposure of naturally low pH deep seawater. PLoS One. 12(7): -. gs :: V :: O :: doi:10.1371/journal.pone.0181713

Iglesias-Rodríguez, M. D. et al. (2002b). Polymorphic microsatellite loci in global populations of the marine coccolithophorid Emiliania huxleyi. Molecular Ecology Notes. 2: 495-497. gs :: :: :: doi:10.1046/j.1471-8286.2002.00289.x

Iglesias-Rodríguez, M. D., Schofield, O., Batley, J., Medlin, L. K. & Hayes, P. K. (2006). Intraspecific genetic diversity in the marine coccolithophore Emiliania huxleyi (Prymnesiophyceae): the use of microsatellite analysis in marine phytoplankton population studies. Journal of Phycology. 42: 526-536. gs :: :: :: doi:10.1111/j.1529-8817.2006.00231.x

Imai, R., Farida, M., Sato, T. & Iryu, Y. (2015). Evidence for eutrophication in the Northwestern Pacific and Eastern Indian Oceans during the Miocene to Pleistocene based on the nannofossil accumulation rate, Discoaster abundance, and coccolith size distribution of Reticulofenestra. Marine Micropaleontology. 11: 15-27. gs :: :: :: doi: 10.1016/j.marmicro.2015.01.001

Imai, R., Sato, T. & Iryu, Y. (2013). Chronological and paleoceanographic constraint of Miocene to Pliocene ‘mud sea’ in the Ryukyu Island (southwestern Japan) based on calcareous nannofossil assemblages. Island Arc. 22: 522-537. gs :: :: :: doi:10.1111/iar.12046

Imbrie, e. a. (1984). The orbital theory of Pleistocene climate: support from a revised chronology of the marine d18O record. In, Berger, A. L. & et al. (eds) Milankovitch and Climate. 269-305. gs :: :: ::

Incarbona, A. et al. (2008a). Calcareous nannofossil surface sediment assemblages from the Sicily Channel (central Mediterranean Sea): Palaeoceanographic implications. Marine Micropaleontology. 67: 297-309. gs :: :: :: doi:10.1016/j.marmicro.2008.03.001

Incarbona, A., Di Stefano, E. & Bonomo, S. (2009). Calcareous nannofossil biostratigraphy of the central Mediterranean Basin during the last 430,000 years. Stratigraphy. 6(1): 33-45. gs :: :: ::

Incarbona, A., di Stefano, E., Sprovieri, R., Bonomo, S., Pelosi, N. & Sprovieri, M. (2010). Millennial-scale paleoenvironmental changes in the central Mediterranean during the last interglacial: Comparison with European and North Atlantic records. In, Giraud, F. & Mattioli, M. (eds) Recent advances in living coccolithophore and calcareous nannofossil studies, Proceedings of INA12, Lyon 2008. Geobios . 43(1): 111-122. gs :: :: :: doi:10.1016/j.geobios.2009.06.008

Incarbona, A. et al. (2013). Productivity modes in the Mediterranean Sea during Dansgaard–Oeschger (20,000–70,000yr ago) oscillations. Palaeogeography Palaeoclimatology Palaeoecology. 392: 128-137. gs :: :: :: doi:10.1016/j.palaeo.2013.09.023

Incarbona, A., Stefano, E. D., Maiorano, P., Marino, M. & Pelosi, N. (2019). The response of calcareous nannoplankton to sea surface variability at Ceara Rise during the early Pleistocene glacial-interglacial cycles. Italian Journal of Geosciences. 138(1): 3-16. gs :: :: :: doi:10.3301/IJG.2018.22

Incarbona, A. et al. (2008b). Variability in the vertical structure of the water column and paleoproductivity reconstruction in the central-western Mediterranean during the Late Pleistocene. In, Young, J. R., Flores, J. A. & Cachao, M. (eds) Quaternary Coccolithophore Palaeocenaography, Proccedings of the INA 10 Conference, Lisbon 2006. Marine Micropaleontology . 69(1): 26-41. gs :: :: :: doi:10.1016/j.marmicro.2007.11.007

Indelicato, S. R. & Loeblich, A. R. I. (1986). A revision of the marine peridinioid genera (Pyrrhophyta) utilizing hypothecal-cingular plate relationships as a taxonomic guideline. Japanese Journal of Phycology. 34: 153-162. gs :: :: ::

Inouye, I. & Chihara, M. (1979). Life history and taxonomy of Cricosphaera roscoffensis var. haptonemofera, var. nov. (Class Prymnesiophyceae) from the Pacific. Botanical Magazine, Tokyo. 92: 75-87. gs :: :: :: doi:10.1007/BF02488303

Inouye, I. & Chihara, M. (1980). Laboratory culture and taxonomy of Hymenomonas coronata and Ochrosphaera verrucosa (Class Prymnesiophyceae) from the Northwest Pacific. Botanical Magazine, Tokyo. 93: 195-208. gs :: :: :: doi:10.1007/BF02489322

Inouye, I. & Chihara, M. (1983). Ultrastructure and taxonomy of Jomonlithus littoralis gen. et sp. nov. (Class Prymnesiophyceae), a coccolithophorid from the Northwest Pacific. Botanical Magazine, Tokyo. 96: 365-376. gs :: :: :: doi:10.1007/BF02488181

Inouye, I. & Kawachi, M. (1994). The haptonema. In, Green, J. C. & Leadbeater, B. S. C. (eds) The Haptophyte Algae. Systematics Association Special Volume . 51(4): 73-89. gs :: :: ::

Inouye, I. & Pienaar, R. N. (1983). Observations on the life cycle and microanatomy of Thoracosphaera heimii (Dinophyceae) with special reference to its systematic position. South African Journal of Botany. 2(1): 63-75. gs :: :: :: doi:10.1016/S0022-4618(16)30147-4

Inouye, I. & Pienaar, R. N. (1984). New observations on the coccolithophorid Umbilicosphaera sibogae var. foliosa (Prymnesiophyceae) with reference to cell covering, cell structure and flagellar apparatus. British Phycological Journal. 19: 357-369. gs :: V :: O :: doi:10.1080/00071618400650401

Inouye, I. & Pienaar, R. N. (1985). Ultrastructure of the flagellar apparatus in Pleurochrysis (Class Prymnesiophyceae). Protoplasma. 125: 24-35. gs :: :: ::

Inouye, I. & Pienaar, R. N. (1988). Light and electron microscope observations of the type species of Syracosphaera, S. pulchra (Prymnesiophyceae). British Phycological Journal. 23: 205-217. gs :: V :: O :: doi:10.1080/00071618800650241

Intxauspe-Zubiaurre, B., Flores, J. -A. & Payros, A. (2017). Variations to calcareous nannofossil CaCO3 content during the middle Eocene C21r-H6 hyperthermal event (~47.4Ma) in the Gorrondatxe section (Bay of Biscay, western Pyrenees). Palaeogeography Palaeoclimatology Palaeoecology. 487(Supplement C): 296-306. gs :: :: :: doi:10.1016/j.palaeo.2017.09.015

Irie, T., Bessho, K., Findlay, H. S. & Calosi, P. (2010). Increasing costs due to ocean acidification drives phytoplankton to be more heavily calcified: Optimal growth strategy of coccolithophores. PLoS One. 5(10): 1-10. gs :: V :: O :: doi:10.1371/journal.pone.0013436

Irwin, H. (1979). On an environmental model for the type Kimmeridge Clay. Nature. 279: 819-819. gs :: :: :: doi:10.1038/279819a0

Israel, A. A. & Gonzalez, E. L. (1996). Photosynthesis and inorganic carbon utilization in Pleurochrysis sp. (Haptophyta), a coccolithophorid alga. Marine Ecology Progress Series. 137: 243-250. gs :: :: :: doi:10.3354/meps137243

Iturralde-Vinent, M. A. (1967). Kainoconus ovalis, nuevo microfosile insertae sedis del Eoceno y Paleoceno Cubana. Revista Tecnologica. 5(5): 12-16. gs :: :: ::

Ivanova, D. K. & Kietzmann, D. A. (2017). Calcareous dinoflagellate cysts from the Tithonian - Valanginian Vaca Muerta Formation in the southern Mendoza area of the Neuquén Basin, Argentina,. Journal of South American Earth Sciences. 77: 150-169. gs :: :: :: doi:10.1016/j.jsames.2017.05.004

Ivanova, E. V., Beaufort, L., Vidal, L. & Kucera, M. (2012). Precession forcing of productivity in the Eastern Equatorial Pacific during the last glacial cycle. Quaternary Science Reviews. 40: 64-77. gs :: :: :: doi:10.1016/j.quascirev.2012.02.020

Iwai, M., Kameo, K. & Miyake, N. (2001). Calcareous nannofossils, pollen, and spores from Leg 178 Sites 1095, 1097, 1100, and 1103, western Antarctic Peninsula: age constraints and environmental implications. Proceedings of the Ocean Drilling Program, Scientific Results. 178: 1-22 . gs :: V :: O :: doi:10.2973/odp.proc.sr.178.227.2001

Iwai, T. & Nishida, S. (1976). The distribution of modern coccolithophores in the North Pacific. News of Osaka Micropaleontologists. 5: 1-11 (In Jaanese). gs :: :: ::

Jackett, S-J., Baumgartner, P. O. & Bandini, A. N. (2008). A new low-latitude late Paleocene-early Eocene radiolarian biozonation based on unitary associations: applications for accreted terranes. Stratigraphy. 54(1): 39-62. gs :: :: ::

Jacquet, S., Heldal, M., Iglesias-Rodriguez, D., Larsen, A., Wilson, W. & Bratbak, G. (2002). Flow cytometric analysis of an Emiliania huxleyi bloom terminated by viral infection. Aquatic Marine Ecology. 27: 111-124. gs :: :: :: doi:10.3354/ame027111

Jafar, A. S. (1983). Significance of Late Triassic calcareous nannoplankton from Austria and Southern Germany. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 166: 218-259. gs :: :: ::

Jafar, S. A. (1975). Calcareous nannoplankton from the Miocene of Rotti, Indonesia. Verhandelingen der Koninklijke Nederlandse Akademie van Wetenschappen. 28: 1-99. gs :: :: O ::

Jafar, S. A. (1979). Taxonomy, stratigraphy and affinities of calcareous nannoplankton genus Thoracosphaera Kamptner. In, Proceedings of the IV International Palynological Conference, Lucknow (1976-77). 2: 1-21. gs :: :: ::

Jafar, S. A. & Kapoor, P. N. (1988). Late Maastrichtian-Danian nannoplankton from basal Subathu of Dharampur, Simla Himalaya, India- Palaeogeographic implications. The Palaeobotanist. 37(1): 115-124. gs :: V :: O ::

Jafar, S. A. & Martini, E. (1975). On the validity of the calcareous nannoplankton genus Helicosphaera. Senckenbergiana Lethaea. 56: 381-397. gs :: :: ::

Jafar, S. A. (1977a). A device for variable observation of the same nannoplankton specimen, with remarks on Paleocene coccoliths from Alabama. Neues Jahrbuch für Geologie und Paläontologie, Monatshefte. 2: 103-111. gs :: :: ::

Jafar, S. A. (1977b). The nature of problematical microfossils of the English Gault (Middle-Upper Albian) earlier described by Black (1971). Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 153(2): 180-192. gs :: :: ::

Jafar, S. A. (1994). Late Maastrichtian calcareous nannofossils from the Lattengebirge (Germany) and the Andaman-Nikobar Islands (India)- Remarks on events around the Cretaceous-Tertiary boundary. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 191(2): 251-269. gs :: :: ::

Jagt, J. W. M., Burnett, J. & Kennedy, W. J. (1995a). Campanian ammonites and nannofossils from southern Limburg, the Netherlands. Mededelingen Rijks Geologische Dienst. 53: 49-63. gs :: :: ::

Jagt, J. W. M., Kennedy, W. J., Burnett, J. A., Christensen, W. K. & Dhondt, A. V. (1995b). Santonian macrofauna and nannofossils from northeast Belgium. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique. Sciences de la Terre. 65: 127-137. gs :: :: ::

Jain, K. P., Garg, R. & Joshi, D. C. (1983). Upper Palaeocene calcareous nannoplankton from Vriddhachalam area, Cauvery Basin, Southern India. The Palaeobotanist. 31(1): 69-75. gs :: V :: O ::

Jain, S. & Singh, A. (2019). First calcareous nannofossil record from the Jurassic strata exposed in the Blue Nile Basin (Ethiopia). Journal of African Earth Sciences. 158: 1-16. gs :: :: :: doi:10.1016/j.jafrearsci.2019.103553

Jain, S., Muluget, M., Benzaggagh, M., Salamon, M. A. & Schmerold, R. (2022). Discovery of chitinoidellids and calpionellids from the Blue Nile Basin and the Jurassic-Cretaceous boundary in Ethiopia. Cretaceous Research. 132: 1-17. gs :: :: :: doi:10.1016/j.cretres.2021.105112

Jakob, I., Chairopoulou, M. A., Vucak, M., Posten, C. & Teipel, U. (2017). Biogenic calcite particles from microalgae—Coccoliths as a potential raw material. Engineering in Life Sciences. 17: 605-612. gs :: :: :: doi:10.1002/elsc.201600183

Jakubowski, M. (1985). A proposed Lower Cretaceous nannofossil zonation scheme for the Moray Firth area of the North Sea. INA Newsletter. 7(3): 175-175. gs :: V :: O ::

Jakubowski, M. (1986). New calcareous nannofossil taxa from the Lower Cretaceous of the North Sea. INA Newsletter. 8(1): 38-42. gs :: V :: O ::

Jakubowski, M. (1987). A proposed Lower Cretaceous calcareous nannofossil zonation scheme for the Moray Firth area of the North Sea. Abhandlungen der Geologischen Bundesanstalt. 39: 99-119. gs :: V :: O ::

Jakubowski, M. (1990). J. A. Crux & S. E. Van Heck (eds) 1989. Nannofossils and Their Applications. Proceedings of the International Nannoplankton Association Conference, London 1987. British Micropalaeontological Society Series. xiii 356 pp. Published by Ellis Horwood for the British Micropalaeontological Society; marketed and distributed by John Wiley. Price £69.50 (hard covers). ISBN 0 7458 0237 0 (Ellis Horwood); 0 470 21203 9 (Halsted Press).,. Geological Magazine. 127(1): 88-89. gs :: :: :: doi:10.1017/S0016756800014321

Jan du Chene, R. E., Perch-Nielsen, K. & Petters, S. W. (1978). New stratigraphic data on the Paleogene Ewekoro and Akinbo Formations (Southwestern Nigeria). Archives des Sciences. 31(3): 205-212. gs :: :: ::

Janicke, V. (1969). Untersuchungen über den Biotop der Solnhofener Plattenkalke. Mitteilungen der Bayerischen Staatssammlung für Paläontologie und Historische Geologie. 9: 117-181. gs :: V :: O ::

Janin, M-C. (1987a). The Imprints of Cenozoic Calcareous Nannofossils from Polymetallic Concretions: Biostratigraphic Significance for two Crusts from the Central Pacific (Line Islands Ridge and Mid-Pacific Mountains). Abhandlungen der Geologischen Bundesanstalt. 39: 121-141. gs :: V :: O ::

Janin, M. -C. (1987b). Micropaleontologie de concretions polymetalliques du Pacifique central: zone Clarion-Clipperton, chaine Centre-Pacifique, lles de la Ligne et archipel des Tuoamotou (Eocene-Actuel). Mémoires de la Société Géologique de France. 152: 1-315. gs :: :: ::

Janin, M. -C. (1992a). Miocene variability of Calcidiscus gr. leptoporus and possible evolutionary relationsip with another Coccolithaceae: Umbiliosphaera gr. sibogae. Bio Systems. 28: 169-178. gs :: :: :: doi:10.1016/0303-2647(92)90018-T

Janin, M. -C. (1992b). The discoaster ray number evolution: stratigraphical application. In, Monechi, S., Proto-Decima, F. & Rio, D. (eds) Proceedings of the International Nannoplankton Association Conference, Firenze, 1989. Memorie di Scienze Geologiche . 43: -. gs :: :: ::

Janin, M. -C. (1995). Biological affinities of the calcareous nannofossils: comparison with the organic scales secreted by living algae. In, Flores, J. A. & Sierro, F. J. (eds) Proceedings of the 5th INA Conference, Salamanca 1993. Universidad de Salamanca, Salamanca 67-86. gs :: :: ::

Janin, M. -C. (1998). Remarques sur l'ultrastructure et les affinities biologiques des Lithraphidites, nannofossiles calcaires du Crétacé. Revue de Micropaléontologie. 41(4): 281-296. gs :: :: :: doi:10.1016/S0035-1598(98)90197-0

Janin, M. -C. & Bignot, G. (1993). Nouvelle subdivision biostratigraphique du Thanétien du Bassin de Paris, fondée sur les nannofossiles calcaires. Comptes rendus de l'Académie des sciences, Paris. 317: 927-934. gs :: :: ::

Janin, M. -Christine, Bignot, G. érard, Strougo, A. & Toumarkine, M. (1993). Worldwide discoaster ray number variability at the early/middle Eocene boundary. Implication for the neritic sequences of the Nile Valley (Egypt). Newsletters on Stratigraphy. 28(2-3): 157-169. gs :: :: ::

Janin, M. C. (1981). Essai de datation de concretions polymetalliques et evolution quaternaire du coccolithe Cyclococcolithus leptoporus-macintyrei. Bulletin de la Société Géologique de France. S7-XXIII(3): 287-296. gs :: :: :: doi:10.2113/gssgfbull.S7-XXIII.3.287

Janofske, D. (1987). Kalkige Nannofossilien aus der Ober-Trias (Rhat) der Nordlichen Kalkalpen. Berliner Geowissenschaftliche Abhandlungen. 86: 45-67. gs :: V :: O ::

Janofske, D. (1990). Eine neue "Calcisphaere", Carnicalyxia tabellata n.g. n.sp. aus den Cassianer Schichten (Cordevol, unteres Karn) der Dolomiten. Berliner Geowissenschaftliche Abhandlungen. 124: 259-269. gs :: :: ::

Janofske, D. (1992). Calcareous nannofossils of the Alpine Upper Triassic. In, Hamrsmid, B. & Young, J. R. (eds) Nannoplankton Research, Proceedings of the 4th INA Conference, Prague 1991, vol I. Knihovnicka ZPN . 14a: 87-109. gs :: V :: O ::

Janofske, D. (1996). Ultrastructure types in recent "calcispheres". Bulletin de l'Institut Oceanographique Monaco Numero Special. 14/4: 295-204. gs :: :: ::

Janofske, D. (2000). Scrippsiella trochoidea and Scrippsiella regalis, nov. comb. (Peridiniales, Dinophyceae): a comparison. Journal of Phycology. 36: 178-189. gs :: :: :: doi:10.1046/j.1529-8817.2000.98224.x

Janofske, D. & Keupp, H. (1992). Mesozoic and Cenozoic "calcispheres"- update in systematics. INA Newsletter. 14(1): 14-16. gs :: V :: O ::

Jansen, H. & Wolf-Gladrow, D. A. (2001). Carbonate dissolution in copepod guts: a numerical model. Marine Ecology Progress Series. 221: 199-207. gs :: :: :: doi:10.3354/meps221199

Jantschke, A., Pinkas, I., Schertel, A., Addadi, L. & Weiner, S. (2020). Biomineralization pathways in calcifying dinoflagellates: Uptake, storage in MgCaP-rich bodies and formation of the shell,. Acta Biomaterialia. 102: 427-439. gs :: :: :: doi:10.1016/j.actbio.2019.11.042

Jarvis, I. et al. (1988). Microfossil Assemblages and the Cenomanian-Turonian (late Cretaceous) Oceanic Anoxic Event. Cretaceous Research. 9(1): 3-103. gs :: :: :: doi:10.1016/0195-6671(88)90003-1

Jarvis, I., Pearce, M., Püttmann, T., Voigt, S. & Walaszczyk, I. (2021). Palynology and calcareous nannofossil biostratigraphy of the Turonian - Coniacian boundary: The proposed boundary stratotype at Salzgitter-Salder, Germany and its correlation in NW Europe. Cretaceous Research. 123: 1-32. gs :: :: :: doi:10.1016/j.cretres.2021.104782

Jaya, B. N., Hoffmann, R., Kirchlechner, C., Dehm, G., Scheu, C. & Langer, G. (2016). Coccospheres confer mechanical protection: New evidence for an old hypothesis. Acta Biomaterialia. 42: 258-264. gs :: :: :: doi:10.1016/j.actbio.2016.07.036

Jeans, C., Long, D., Hall, M., Bland, D. & Cornford, C. (1991). The geochemistry of the Plenus Marls at Dover, England: Evidence of fluctuating oceanographic conditions and of glacial control during the development of the Cenomanian–Turonian _13C anomaly.,. Geological Magazine. 128(6): 603-632. gs :: :: :: doi:10.1017/S0016756800019725

Jeffrey, S. W. & Anderson, J. M. (2000). Emiliania huxleyi (Haptophyta) holds promising insights for photosynthesis. Journal of Phycology. 36(3): 449-452. gs :: :: :: doi:10.1046/j.1529-8817.2000.00ag3.x.

Jeffrey, S. W., Brown, M. R. & Volkman, J. K. (1994). Haptophytes as feedstocks in mariculture. In, Green, J. C. & Leadbeater, B. S. C. (eds) The Haptophyte Algae. Systematics Association Special Volume . 51(15): 287-302. gs :: :: ::

Jeffrey, S. W. & Wright, S. W. (1994). Photosynthetic pigments in the Haptophyta. In, Green, J. C. & Leadbeater, B. S. C. (eds) The Haptophyte Algae. Systematics Association Special Volume . 51(6): 111-133. gs :: :: ::

Jelby, M. E., Thibault, N., Surlyk, F., Ullmann, C. V., Harlou, R. & Korte, C. (2014). The lower Maastrichtian Hvidskud succession, Møns Klint, Denmark: calcareous nannofossil biostratigraphy, carbon isotope stratigraphy, and bulk and brachiopod oxygen isotopes. Bulletin of the Geological Society of Denmark. 89-104. gs :: :: O :: doi:10.37570/bgsd-2014-62-05

Jeletzky, J. A. (1951). Die Stratigraphie und Belemnitenfauna des Obercampan und Maastricht Westfalens, Nordwestdeutschlands und Dänemarks sowie einige allgemeine Gliederungs-Probleme der jüngeren borealen Oberkreide Eurasiens. Beihefte zum Geologischen Jahrbuch. 1: 1-142. gs :: :: ::

Jeletzky, J. A. (1958). Die jüngere Oberkreide (Oberconiac bis Maastricht) Südwestrußlands und ihr Vergleich mit der Nordwest- und Westeuropas. Beihefte zum Geologischen Jahrbuch. 33: 1-157. gs :: :: ::

Jenkins, G. & Luterbacher, H. (1992). Paleogene stages and their boundaries (introductory remarks). Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen. 186: 1-5. gs :: :: ::

Jensen, M. Ø. (1998). The Genus Chrysochromulina (Prymnesiophyceae) in Scandinavian waters – Diversity, Abundance and Ecology. PhD thesis, University of Copenhagen (Botanical Institute). -. gs :: :: ::

Jensen, M. Ø. & Moestrup, Ø. (1999). Ultrastructure of Chrysochromulina ahrengotii sp. nov. (Prymnesiophyceae), a new saddle-shaped species of Chrysochromulina from Danish coastal waters. Phycologia. 38: 195-207. gs :: :: :: doi:10.2216/i0031-8884-38-3-195.1

Jeremiah, J. (1996). A proposed Albian to Lower Cenomanian nannofossil biozonation for England and the North Sea Basin. Journal of Micropalaeontology. 15(97-129): -. gs :: V :: O :: doi:10.1144/jm.15.2.97

Jeremiah, J. (2001). A Lower Cretaceous nannofossil zonation for the North Sea Basin. Journal of Micropalaeontology. 20(1): 45-80. gs :: V :: O :: doi:10.1144/jm.20.1.45

Jerkovic, L. (1970). Noëlaerhabdus nov. gen. type d'un nouvelle famille de Coccolithophoridés fossiles: Noëlaerhabdaceae du Miocène supérieur de Yugoslavie. Comptes Rendus Hebdomadaires des Séances de l'Académie des Sciences, Paris. Série D - Sciences Naturelles 270: 468-470. gs :: V :: O ::

Jerkovic, L. (1971a). Cyclococcolithus marginatus nov. sp. des coccolithophorides du Tortonien moyen des environs de Prijedor (Yougoslavie). Bulletin Scientifique, Yougoslavie. A16: 204-205. gs :: V :: O ::

Jerkovic, L. (1971b). Noelaerhabdus bekei nov. sp. des coccolithophorides de Pannonien de Belgrade. Bulletin Scientifique, Yougoslavie. A16: 206-207. gs :: V :: O ::

Jerkovic, L. (1971c). Noelaerhabdus braarudii nov. sp. des coccolithophorides du Pannonien de Belgrade. Bulletin Scientifique, Yougoslavie. A16: 207-207. gs :: :: ::

Jerkovic, L. (1971d). Rhabdosphaera prijedorensis nov. sp. des coccolithophorides du Tortonien moyen des environs de Prijedor(Yougoslavie). Bulletin Scientifique, Yougoslavie. A16: 205-206. gs :: V :: O ::

Jerkovic, L. (1971e). Syracosphaera beogradiensis nov. sp. des coccolithophorides du Sarmatien des environs de Pancevo (Yougoslavie). Bulletin Scientifique, Yougoslavie. A16: 207-207. gs :: V :: O ::

Jerkovic, L. (1971f). Syracosphaera cohenii nov. sp. des coccolithophorides du Miocene de la Yougoslavie. Bulletin Scientifique, Yougoslavie. A16: 203-204. gs :: V :: O ::

Jerkovic, L. (1971g). Zygolithus splendens nov. sp. de nannoplancton calcaire du Miocene de Belgrade. Bulletin Scientifique, Yougoslavie. A16: 205-205. gs :: V :: O ::

Jerkovic, L. (1971h). Zygosphaera bonai nov. sp. des coccolithophorides du Tortonien de Belgrade. Bulletin Scientifique, Yougoslavie. A16: 203-204. gs :: V :: O ::