jgs2021-006_si_001.pdf (1.78 MB)
Supplementary Fig. 1. Light microscope images of some Eocene–Oligocene calcareous nannofossils from the NKK-1 borehole. The Eocene–Oligocene Transition in Nanggulan, Java: lithostratigraphy, biostratigraphy and foraminiferal stable isotopes
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posted on 2021-05-19, 13:48 authored by Helen K. Coxall, Tom Dunkley Jones, Amy P. Jones, Peter Lunt, Ian MacMillan, Gayatri I. Marliyani, Christopher J. Nicholas, Aoife O'Halloran, Emanuela Piga, Prihardjo Sanyoto, Wartono Rahardjo, Paul N. PearsonSupplementary Fig 1. A selection of middle Eocene to lower Oligocene light microscope images of some biostratigraphically useful calcareous nannofossils (and others) from the NKK-1 borehole, central Java. Figs. 1 & 2. Reticulofenestra reticulata (Fig. 1, reproduced from *, Pl. 1, fig. 38; and **, Pl. 1, fig. 1). Fig. 2 reproduced from *, Pl. 1, fig. 44 and **, Pl. 1, fig. 8), Figs. 3 & 4. R. nanggulanensis (reproduced from Jones & Dunkley Jones (2020) Pl. 1, fig 40-41), Fig. 5. R. bisecta (reproduced from **, Pl. 1 fig. 32), Fig. 6. R. umbilicus (reproduced from **, Pl. 1, fig. 35), Fig. 7. Coccolithus pelagicus (reproduced from *, Pl. 1, fig. 12; and **, Pl. 2, fig. 3), Fig. 8. C. formosus (reproduced from *, Pl. 1, fig. 16; and **, Pl. 2, fig. 23), Figs. 9, 27 & 28. Reticulofenestra isabellae, (Fig. 9, reproduced from *, Pl. 1, fig. 9; and of **, Pl. 1, fig. 45; Fig 27 reproduced from *, Pl. 1, fig. 10; and of **, Pl. 1, fig. 46; Fig 28 reproduced from *, Pl. 1, fig. 11; and **, Pl. 1, fig. 47). Fig. 10. Calcidiscus bicircus (reproduced from **, Pl. 3, fig. 12) Fig. 11. Umbilicosphaera bramletti, Fig. 12. U. detecta, (reproduced from **, Pl. 3, fig. 19) Figs. 13 & 14. Discoaster saipanensis, Figs. 15 & 16. D. barbadiensis, (Fig. 15, reproduced from **, Pl. 6, fig. 3; Fig. 16, reproduced from **, Pl. 6, fig.6), Figs. 17 & 18. Clausicoccus subdistichus, (Fig. 17, reproduced from **, Pl. 3, fig. 1; Fig. 18 reproduced from **, Pl. 3, fig. 4), Figs. 19 & 20 Sphenolithus obtusus, (Fig. 19, reproduced from *, Pl. 1 fig. 31; and **, Pl. 6, fig. 29; Fig. 20, reproduced from *, Pl. 1 fig. 32; and **, Pl. 6, fig. 30), Figs. 21 & 22. S. akropodus, (Fig. 21, reproduced from *, Pl. 1 fig. 33; and **; Pl. 6, fig. 41; Fig. 22, reproduced *, Pl. 1 fig. 34; and **, Pl. 6, fig. 42), Figs. 23 & 24. S. tribulosus, (Fig. 23, reproduced from *, Pl. 1 fig. 35; and ** Pl. 6, fig. 35; Fig. 24, reproduced from *, Pl. 1 fig. 36; and ** Pl. 6, fig. 36), Figs. 25 & 26. Chiasmolithus grandis, (Fig. 25, reproduced ** Pl. 2, fig. 45; Fig. 26, reproduced ** Pl. 2, fig. 44). Sample information recorded under each image pertaining to each species. Where an image is a rotation of the same specimen as the preceding image, the sample information is not replicated. The same applies to different specimens that are the same species. * Jones et al., (2019); ** Jones & Dunkley Jones (2020).
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10. Calcidiscus bicircus28. Reticulofenestra isabellaeisotopes Supplementary Fig 1Oligocene light microscope images18. Clausicoccus subdistichusPl2. Reticulofenestra reticulata14. Discoaster saipanensis1. Light microscope images7. Coccolithus pelagicus26. Chiasmolithus grandis1 fig20 Sphenolithus obtusus11. Umbilicosphaera bramlettiNKKGeology