arkL edit interval

	age2020	age		event	event_id	pup	in interval	age	age2020
Top:		46.7230	<---	FAD Nannotetrina alata group	6703	0.6800	C21n	46.7230	00046.7230
Base:		48.7997	<---	FAD Discoaster sublodoensis (5-rayed)	6710	0.0700	C21r	48.7997	00048.7997
base notes	Agnini et al. (2014) assign Base of 5-rayed type as 7% up in C21r (used here), which was 49.0 Ma on C&K’95 scale. In contrast, IODP Expedition 320/321 Scientists (2010) assigned 0.5myr lower as 49.5 Ma (based on same CK’95 scale) citing the same Agnini et al. (2006) => Chron C21n.3 on that scale, which was just slightly younger than the chron-age scaling of Berggren et al. (1995a) of base of C22n. The Lutetian GSSP nannofossils (Molina et al., Episodes, in press as of 2011) indicate the FAD may be as high as C21n.5.5.	comp notes

Agnini, C., et al. (2014). Biozonation and biochronology of Paleogene calcareous nannofossils from low and middle latitudes. Newsletters on Stratigraphy. 47: 131-181. gs

Backman, J., et al. (2012). Biozonation and biochronology of Miocene through Pleistocene calcareous nannofossils from low and middle latitudes. Newsletters on Stratigraphy. 45: 221-244. gs

Bergen, J. A. (1994). Berriasian to early Aptian calcareous nannofossils from the Vocontian trough (SE France) and Deep Sea Drilling Site 534: new nannofossil taxa and a summary of low-latitude biostratigraphic events. Journal of Nannoplankton Research. 16: 59-69. gs

Berggren, W. A., Kent, D. V. & Flynn, J. J. (1985a). Paleogene geochronology and chronostratigraphy. In, Snelling, N. J. (ed.) The Chronology of the Geological Record. Memoirs of the Geological Society of London . 10: 141-195. gs

Berggren, W. A., et al. (1995). A revised Cenozoic geochronology and chronostratigraphy. In, Berggren, W. A. , Kent, D. V. , Aubry, M. -P. , and Hardenbol, J. (ed.) Geochronology, Time Scales and Global Stratigraphic Correlations: A Unified Temporal Framework for a Historical Geology. SEPM Special Publication . 54: 129-212. gs

Bown, P. R. (1998a). Triassic. In, Bown , P. R. (ed.) Calcareous nanofossils biostratigraphy. Chapman and Hall. London, 29-33. gs

Bown, P. R. (ed. ) (1998b). Calcareous nanofossils biostratigraphy. Chapman and Hall. London,. 1-314. gs

Bralower, T. J., et al. (1995). An integrated Cretaceous microfossil biostratigraphy. In, Berggren, W. A. , Kent, D. V. , and Hardenbol, J. (ed.) Geochronology, Time Scales and Global Stratigraphic Correlations: A Unified Temporal Framework for a Historical Geology. SEPM Special Publication . 54: 65-79. gs

Burnett, J. A. (1998). Upper Cretaceous. In, Bown, P. R. (ed.) Calcareous Nannofossil Biostratigraphy. British Micropalaeontological Society Publication Series. London: Chapman & Hall 132-199. gs

Cande, S. C. & Kent, D. V. (1992). A new geomagnetic polarity time scale for the late Cretaceous and Cenozoic. Journal of Geophysical Research. 97: 13917-13951. gs

Casellato, C. E. (2010). Calcareous nannofossil biostratigraphy of upper Callovian-lower Berriasian successions from the southern Alps, North Italy. Rivista Italiana di Paleontologia e Stratigrafia. 116: 357-404. gs

de Kaenel, E., Bergen, J. A. & von Salis Perch-Nielsen, K. (1996). Jurassic calcareous nannofossil biostratigraphy of western Europe. Compilation of recent studies and calibration of bioevents. Bulletin de la Société Géologique de France. 167: 15-28. gs

Erba, E., Premoli Silva, I. & Watkins, D. K (1995). Cretaceous calcareous plankton biostratigraphy of Sites 872 through 879. Proceedings of the Ocean Drilling Program, Scientific Results. 144: 157-169. gs

Lourens, L. J., et al. (2004). The Neogene Period. In, Gradstein, F. M. , Ogg, J. G. , and Smith, A. G. (ed.) A Geologic Time Scale 2004. Cambridge: Cambridge University Press 409-440. gs

Martini, E. (1971). Standard Tertiary and Quaternary calcareous nannoplankton zonation. In, Farinacci, A. (ed.) Proceedings of the Second Planktonic Conference, Rome, 1970. Tecnoscienza, Roma 739-785. gs

Mattioli, E. & Erba, E. (1999). Synthesis of calcareous nannofossil events in tethyan Lower and Middle Jurassic successions. Rivista Italiana di Paleontologia e Stratigrafia. 105: 343-376. gs

Perch-Nielsen, K. (1985). Cenozoic calcareous nannofossils. In, Bolli, H. M. , Saunders, J. B. , and Perch-Nielsen, K. (ed.) Plankton Stratigraphy. Cambridge University Press, Cambridge 427-554. gs

Raffi, I., et al. (2006). A review of calcareous nannofossil astrobiochronology encompassing the past 25 million years. Quaternary Science Reviews. 25: 3113-3137. gs

Raffi, I., Wade, B. S. & Pälike, H. (2020). Chapter 29 - The Neogene Period. In, Gradstein, F. M. , Ogg, J. G. , Schmitz, M. D. , and Ogg, G. M. (ed.) The Geologic Time Scale 2020. Elsevier, Boston, MA 2: 1141-1217. gs

Wimbledon, W. A. P., et al. (2020). Fixing a J/K boundary: a comparative account of key Tithonian-Berriasian profiles in the departments of Drome and Hautes-Alpes, France. Geologica Carpathica. 71: 24-46. gs

	interval above:	NP15
parent-intervals:;	this interval:	NP14	sub-intervals: NP14b; NP14a;
	interval below:	NP13

intervalx:	NP14has added abv?id: 4568 sort:533
alternative_term:	block label:
formal term:	D. sublodoensis
interval_type:
parent_interval:
dataset:	nannos Tethyan (dataset id = 13)
alt dataset:	(dataset id = )
subdataset:
TSC Column:	id:30
stage:
colour:	222/218/215 Lithology:(id)
interval_notes:
compilation_notes:
refs to add:
linked refs:
preset_duration:
preset_duration_notes:
tracecode	; Q1base from event age; Q2top from event age; Q3a duration from base & top

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