Organic-walled dinoflagellate cysts as paleoenvironmental indicators in the Paleogene; a synopsis of concepts

Anderson, D.M.;Taylor, C.D. &Armbrust, E.V. 1987. The effects of darkness and anaerobiosis on dinoflagellate cyst germination. — Limnology and Oceanography32: 340–351.

Backer, L.C.;Fleming, L.E.;Rowan, A.;Cheng, Y.-S.;Benson, J.;Pierce, R.H.;Zaias, J.;Bean, J.;Bossart, G.D.;Johnson, D.;Quimbo, R. &Baden, D.G. 2003. Recreational exposure to aerosolized brevetoxins during Florida red tide events. — Harmful Algae2: 19–28.

Berger, W.H.;Smetacek, V.S. &Wefer, G. 1989. Ocean productivity and paleoproductivity — an overview. — In:Berger, W.H.;Smetacek, V.S. &Wefer, G., eds., Productivity of the Ocean: Present and Past. — Life Sciences Research Report44: 1–34.

Bradford, M.R. &Wall, D.A. 1984. The distribution of Recent organic-walled dinoflagellate cysts in the Persian Gulf, Gulf of Oman, and northwestern Arabian Sea. — Palaeontographica192: 16–84.

Brasier, M.D. 1985. Fossil indicators of nutrient levels. 1. eutrophication and climate change — In:Bosence, D.W.J. &Allison, P.A., eds., Marine Palaeoenvironmental analysis from Fossils. — Geological Society of London, Special Publication83: 113–132.

Brinkhuis, H. 1994. Late Eocene to Early Oligocene dinoflagellate cysts from the Priabonian type-area (Northeast Italy); bio-stratigraphy and palaeoenvironmental interpretation. — Palaeoge-ography, Palaeoclimatology, Palaeoecology107: 121–163.

Brinkhuis, H. &Biffi, U. 1993. Dinoflagellate cyst stratigraphy of the Eocene/Oligocene transition in Central Italy. — Marine Micropa-leontology22: 131–183.

Bucefalo-Palliani, R.;Mattioli, E. &Riding, J.B. 2002. The response of marine phytoplankton and sedimentary organic matter to the early Toarcian (Lower Jurassic) oceanic anoxic event in northern England. — Marine Micropaleontology46: 223–245.

Cembella, A.D.;Quilliam, M.A.;Lewis, N.I.;Bauder, A.G., Dell’Aversano, C.;Thomas, K.;Jellett, J. &Cusack, R.R. 2002. The toxigenic marine dinoflagellateAlexandrium tama-rense as the probable cause of mortality of caged salmon in Nova Scotia. — Harmful Algal Blooms1: 313–325.

Crouch, E.M. 2001. Environmental change at the time of the Paleocene-Eocene biotic turnover. — University of Utrecht Laboratory of Palaeobotany and Palynology Contribution Series14: 1–216.

Dale, B. 1983. Dinoflagellate resting cysts: “Benthic plankton”. — In:Fryxell, G.A., ed., Survival Strategies of the Algae: 69–136, Cambridge (Cambridge University Press).

Dale, B. 1996. Dinoflagellate cyst ecology: Modeling and geological applications. — In:Jansonius, J. &McGregor, D.C., eds., Palynology: Principles and Applications: 1249–1276, Dallas (American Association of Stratigraphic Palynologists Foundation).

Dale, B. &Dale, A.L. 1992. Dinoflagellate contributions to the deep sea. — Ocean Biocoenosis Series5: 1–77.

Dale, B. &Fjellså, A. 1994. Dinoflagellate cysts as paleoproductivity indicators: State of the art, potential and limits. — In:Zahn, R.;Pedersen, T.F.;Kaminski, M.A. &Labeyrie, L., eds., Carbon cycling in the glacial ocean: Constraints on the ocean’s role in global change: 521–537, Berlin (Springer).

de Vernal, A.;Turon, L. &Guiot, J. 1994. Dinoflagellate distribution in high-lattitude marine environments and quantitative reconstruction of sea-surface salinity, temperature and seasonality. — Canadian Journal of Earth Sciences31: 48–62.

Dybkjaer, K. 2004. Morphological and abundance variations inHomotryblium-cyst assemblages related to depositional environments; uppermost Oligocene — Lower Miocene, Jylland, Den-mark. — Palaeogeography, Palaeoclimatology, Palaeoecology206: 41–58.

Fensome, R.A.;Taylor, F.J.R.;Norris, G.;Sarjeant, W.A.S.;Wharton, D.I. &Williams, G.L. 1993. A Classification of Fossil and Living Dinoflagellates. — Micropaleontology, Special Publication7: 1–351.

Goodman, D.K. 1987. Dinoflagellate cysts in ancient and modern sediments. — In:Taylor, F.J.R., ed., The Biology of Dinoflagellates. — Botanical Monographs21: 649–722.

Gradstein, F.M.;Kristiansen, I.L.;Loemo, L. &Kaminski, M.A. 1992. Cenozoic foraminiferal and dinoflagellate cyst biostratigra-phy of the central North Sea. — Micropaleontology38: 101–137.

Hochuli, P.A. &Frank, S.M. 2000. Palynology (dinoflagellate cysts, spores, and pollen) and stratigraphy of the Lower Carnian Raibl Group. — Eclogae Geologicae Helvetiae93: 429–443.

Haq, B.U.;Hardenbol, J. &Vail, P.R. 1987. Chronology of fluctuating sea levels since the Triassic. — Science235: 1156–1167.

Head, M.J. 1996. Modern dinoflagellate cysts and their biological affinities. — In:Jansonius, J. &McGregor, D.C., eds., Palynology: principles and applications: 1197–1248, Dallas (American Association of Stratigraphic Palynologists Foundation).

Jarvis, I.;Carson, G.A.;Cooper, M.K.E.;Hart, M.B.;Leary, P.N.;Tocher, B.A.;Hörne, D. &Rosenfeld, A. 1988. Microfossil assemblages and the Cenomanian-Turonian (late Cretaceous) Oceanic Anoxic Event (OAE). — Cretaceous Research9: 3–103.

Leckie, D.A.;Singh, C.;Bloch, J.;Wilson, M. &Wall, J. 1992. An anoxic event at the Albian-Cenomanian boundary: the Fish Scale Marker Bed, northern Alberta, Canada. — Palaeogeography, Palaeoclimatology,Palaeoecology92: 139–166.

Lentin, J.K. &Williams, G.L. 1980. Dinoflagellate provincialism with emphasis on Campanian peridiniaceans. — American Association of Stratigraphic Palynologists, Contribution Series7: 1–47.

Lewis, J.;Ellegaard, M.;Hallett, R.;Harding, I. &Rochon, A. 2003. Environmental control of cyst morphology in gonyaulaeoid dinoflagellates. — In:Matsuoka, K.;Yoshida, M. &Iwataki, M., eds., Dino7, Seventh International Conference on Modern and fossil Dinoflagellates, Nagasaki, Japan, Abstract Volume, Additional abstract.

MacRae, R.A.;Fensome, R.A. &Williams, G.L. 1996. Fossil dinoflagellate diversity, originations, and extinctions and their significance. — Canadian Journal of Botany74: 1687–1694.

Marshall, K.L. &Batten, D.J. 1988. Dinoflagellate cyst associations in Cenomanian-Turonian “black shale” sequences of northern Europe. — Review of Palaeobotany and Palynology54: 85–103.

Matthiessen, J.;de Vernal, A.;Head, M.;Okolodkov, Y.;Zon-Neveld, K. &Harland, R. 2005. Modern organic-walled dinoflagellate cysts in Arctic marine environments and their (paleo-) environmental significance. — Paläontologische Zeitschrift79 (1): 3–51.

Norris, G. 1965. Provincialism of Callovian-Neocomian dinoflagellate cysts in the northern and southern hemispheres. — American Association of Stratigraphic Palynologists, Contribution Series4: 29–35.

Patten, B.C. 1962. Species diversity in net phytoplankton of Raritan Bay. — Journal of Marine Research20: 57–75.

Powell, A.J.;Lewis, J. &Dodge, J.D. 1992. The palynological expressions of post-Paleogene upwelling: a review. — In:Summer-Hayes, C.P.;Prell, W.L. &Emeis, K.C., eds., Upwelling Systems: Evolution since the Early Miocene: 215–226, London (The Geological Society).

Pross, J. 2001. Paleo-oxygenation in Tertiary epeiric seas: Evidence from dinoflagellate cysts. — Palaeogeography, Palaeoclimatology, Palaeoecology166: 369–381.

Pross, J. &Schmiedl, G. 2002. Early Oligocene dinoflagellate cysts from the Upper Rhine Graben (SW Germany): Paleoenvironmental and paleoclimatic implications. — Marine Micropaleontology45: 1–24.

Pross, J.;Kotthoff, U. &Zonneveld, K.A.F. 2004. Die Anwendung organischwandiger Dinoflagellatenzysten zur Rekonstruktion von Paläoumwelt, Paläoklima und Paläozeanographie: Möglichkeiten und Grenzen. — Paläontologische Zeitschrift78: 5–39.

Reichart, G.-J. &Brinkhuis, H. 2003. Late QuaternaryProtoperidi-nium cysts as indicators of paleoproductivity in the northern Arabian Sea. — Marine Micropaleontology49: 303–370.

Reichart,G.-J.;Brinkhuis, H.;Huiskamp, F. &Zachariasse, W.J. 2004. Hyper-stratification following glacial overturning events in the northern Arabian Sea. — Paleoceanography19: 10.1029/2003PA000300.

Röhl, U.;Brinkhuis, H.;Stickley, CE.;Füller, M.;Schellenberg, S.A.;Wefer, G. &Williams, G.L. in press. Sea level and astronomically induced environmental changes in Middle and Late Eocene sediments from the East Tasman Plateau. — In:Exon, N.F.;Malone, M. &Kennett, J.P., eds., Climate evolution of the Southern Ocean and Australia’s northward flight from Ant-arctica. — American Geophysical Union Geophysical Research Series.

Sluijs, A.;Pross, J. &Brinkhuis, H. 2005. From greenhouse to ice-house; organic-walled dinoflagellate cysts as paleoenvironmental indicators in the Paleogene. — Earth-Science Reviews68: 281–315.

Versteegh, G.J.M. &Zonneveld, K.A.F. 2002. Use of selective degradation to separate preservation from produetivity. — Geology30: 615–618.

Wall, D. &Dale, B. 1974. Dinoflagellates in late Quaternary deep-water sediments of Black Sea. — In:Degens, E.T. &Ross, D.A., eds., The Black Sea — Geology, Chemistry and Biology. — American Association of Petroleum Geologists, Memoir20: 364–380.

Wall, D.;Dale, B. &Harada, K. 1973. Descriptions of new fossil dinoflagellates from the late Quaternary of the Black Sea. — Micropaleontology19: 18–31.

Wall, D.;Dale, B.;Lohmann, G.P. &Smith, W.K. 1977. The environmental and climatic distribution of dinoflagellate cysts in the North and South Atlantic and adjacent seas. — Marine Micropaleontology30: 319–343.

Wefer, G.;Berger, W.H.;Bijma, J. &Fischer, G. 1999. Clues to ocean history: a brief overview of proxies. — In:Fischer, G. &Wefer, G., eds., Use of Proxies in Paleoceanography. Examples from the South Atlantic: 1–68, Berlin (Springer).

Zachos, J.C.;Pagani, M.;Sloan, L.C.;Thomas, E. &Billups, K. 2001. Trends, rhythms, and aberrations in global climate 65 Ma to presents. — Science292: 686–693.

Zonneveld, K.A.F.; Versteegh, G.J.M. & De Lange, G.J. 1997. Preservation of organic-walled dinoflagellate cysts in different oxygen regimes: a 10,000 year natural experiment. — Marine Micropaleontology29: 393–405.