Tabulate Neptune Occurrences from a Site

NB To get the correct list of sites you may need to set fossil group and run search, then choose site.
Charts can be very large,and a large screen is useful, you can, however, reduce both depth and width of chart by selecting a limited set of samples.
Copying to excel: if you want to have a table in excel then simply copy and paste. This will work with most browsers, and most spreadsheet programs.

Site:
Fossil Group:
Names for columns:
Sort order
Age min: Age max:
Depth min: Depth max:
Core min: Core max:
Species min: Species max:
highlight duplicate rows?:
off
nReference source date set rows
0Sanfilippo, A. & Nigrini, C. 1998. Upper Paleocene-Lower Eocene Deep-Sea Radiolarian Stratigraphy and the Paleocene/Eocene Series Boundary. In Aubry, M.-P. et al (Eds), Late Paleocene - early Eocene climatic and biotic events in the marine and terrestrial records. Columbia University Press, New York, 244-276.prior to 201023334
If more than one reference is listed then the set column can be used to identify which data rows come from which reference.





Age(Ma)mbsf
0
1
2 Amphicraspedum murrayanum
3 Amphicraspedum prolixum
4 Bekoma campechensis
5 Bekoma campechensis (q)
6 Buryella pentadica
7 Buryella tetradica
8 Giraffospyris lata
9 Lamptonium fabaeforme chaunothorax
10 Lamptonium fabaeforme fabaeforme
11 Lamptonium pennatum
12 Lithochytris archaea
13 Lychnocanoma auxilla
14 Phormocyrtis cubensis
15 Phormocyrtis striata exquisita
16 Phormocyrtis striata striata
17 Phormocyrtis turgida
18 Podocyrtis papalis
19 Pterocodon ampla
20 Pterocodon anteclinata
21 Pterocodon poculum
22 Pterocodon poculum (q)
23 Pterocodon tenellus
24 Spongodiscus cruciferus
25 Spongodiscus quartus quartus
26 Stylotrochus alveatus
27 Theocorys acroria
28 Theocorys phyzella
29 Theocotyle nigriniae
30 Theocotylissa alpha
31 Theocotylissa auctor
32 Theocotylissa auctor (q)
33 Thyrsocyrtis tarsipes
sample
set
53.74153.91RF+FRRFFFVFFRRCRRVFR+RRRFRR1_1_91cm233
53.79154.30FRVFRRFRRVFFVFMRVFRRRR+1_1_130cm233
53.92155.30FFRFMRRRRFRFCVFRVFR+FRRR!RFR1_2_80cm233
54.83162.00RRVFFFRMRFRCRRRRRRR1_99_0cm233
55.36165.99RR+RR+RR+R+2_3_99cm233
55.52167.11+RR+++R+RR++++2_4_61cm233
55.61167.78RRR+RR+++++2_4_128cm233
55.7168.49RR++RRRR++2_5_49cm233
55.81169.272_5_127cm233
56.17172.00+R++2_99_0cm233
56.75176.26F3_3_126cm233
56.96177.82FRRR+R++3_4_132cm233
57178.15F+MRR+F+PRR3_5_15cm233
57.16179.33RRFRRFFF+CRFRRRRRR+R3_5_133cm233
57.52182.00RVFFVFFMRFRRRR+VR3_99_0cm233
57.76183.80FRRFFFFMRFMRRR+R4_2_30cm233
57.84184.35++FRRRFFRF+RRR+4_2_85cm233
58.06186.03+MR+R4_3_103cm233
58.87192.00+F++R+FRR+P+P4_99_0cm233
60.08201.00R++R++5_99_0cm233
60.32202.76RR6_2_26cm233
61.01207.92FFR+6_5_92cm233
61.08208.44RFRR6_5_144cm233
62215.26+R7_3_126cm233
62.06215.71FC+R+7_4_21cm233
62.18216.597_4_109cm233
62.23216.95+RFR+7_4_145cm233
62.64220.00PFF+RR7_99_0cm233
62.74220.80FFRFR8_1_80cm233
62.8221.25FF+FR8_1_125cm233
63.85229.00FFRFR8_99_0cm233
63.96229.83MRFVFVF9_1_83cm233
64.04230.41RFVF+9_1_141cm233


Colour coding: this is based on comparing the standard range of the taxon (from the mikrotax database) with the age of the sample (from the Neptune database).
Pink shading - the sample age is too young for the taxon; any occurrences are shown in red - and may be due to reworking.
Green shading - the sample age is correct for the taxon to occur
Grey shading - the sample is too old for the taxon; any occurrences are shown in magenta - these may be due to misidentifications, changing species concepts, downhole contamination or White/no shading - non-standard taxon and so there is no predicted age-range.