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Moran, Michael J; Watkins, David K (1988): Relative abundance, preservation, and distribution of calcareous nannofossils from ODP Hole 101-628A (Table 1) [dataset]. PANGAEA, https://doi.org/10.1594/PANGAEA.743045, Supplement to: Moran, MJ; Watkins, DK (1988): Oligocene calcareous-nannofossil biostratigraphy from Leg 101, Site 628, Little Bahama Bank Slope. In: Austin, JA Jr.; Schlager, W; et al. (eds.), Proceedings of the Ocean Drilling Program, Scientific Results, College Station, TX (Ocean Drilling Program), 101, 87-103, https://doi.org/10.2973/odp.proc.sr.101.174.1988

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Abstract:
Drilling at Hole 628A, Leg 101 of the Ocean Drilling Program, recovered a thick, relatively complete Oligocene section of nannofossil-foraminifer chalk and ooze. Sediments from Cores 101-628A-16H through 101-628A-29X were examined using the light microscope to provide information about biostratigraphy of calcareous nannofossils. Several authors noted a problem in distinguishing the first appearance of species within the Sphenolithus predistentus-S. ciperoensis lineage of the mid-Oligocene, particularly Sphenolithus ciperoensis, because of the gradual evolution of its members. Successful separation of species in this lineage is critical for accurately dating relative age of mid- and upper-Oligocene nannofossil sediments. Length and taper of the apical spine, along with width of the proximal shield, were reported by various authors as the best criteria for separating 5. ciperoensis from Sphenolithus distentus in light microscopy. We find that the 'extinction' line characteristics of the proximal shield, as originally proposed, are the best criteria for separation in light microscopy. These criteria provide results that correlate well with dating using other microfossils. Scanning electron microscopy (SEM) study shows that this feature directly results from the widening of the proximal shield during evolution from S. predistentus to S. ciperoensis. Transitional forms between S. distentus and S. ciperoensis show features of both species. The last appearance datums (LAD) of Lanternithus minutus and Helicopontosphaera compacta were found to correspond with the first appearance datum (FAD) of S. ciperoensis in Hole 628A. The LAD of H. compacta has a high confidence rating for reliability as an alternative datum to the FAD of S. ciperoensis. The usefulness of L. minutus to approximate this datum is much less. Other potentially useful Oligocene nannofossil datums (with varying degrees of usefulness) also are given.
Project(s):
Ocean Drilling Program (ODP)
Coverage:
Latitude: 27.530800 * Longitude: -78.315800
Date/Time Start: 1985-02-17T23:55:00 * Date/Time End: 1985-02-17T23:55:00
Minimum Elevation: -974.0 m * Maximum Elevation: -974.0 m
Event(s):
101-628A * Latitude: 27.530800 * Longitude: -78.315800 * Date/Time: 1985-02-17T23:55:00 * Elevation: -974.0 m * Penetration: 298.4 m * Recovery: 217.49 m * Location: South Atlantic Ocean * Campaign: Leg101 * Basis: Joides Resolution * Method/Device: Drilling/drill rig (DRILL) * Comment: 32 cores; 298.4 m cored; 0 m drilled; 72.9 % recovery
Comment:
Species abundance: A = abundant (1-10 specimens per field of view at 1500X), C = common (1 specimen per 2-10 fields of view), F = few (1specimen per 11-100 fields of view), R = rare 1 specimen per 101-1000 fields of view), ? = questionable presence of the species, - = absent
Parameter(s):
#NameShort NameUnitPrincipal InvestigatorMethod/DeviceComment
Sample code/labelSample labelMoran, Michael JDSDP/ODP/IODP sample designation
AbundanceAbundMoran, Michael JA = abundant, C = common, P = periplatform ooze, F = few, R = rare, ? = questionable
Nannofossil zoneNannos zoneMoran, Michael Jfollows Bukrey (1973, 1975) and Okada and Bukrey (1980)
PreservationPreservMoran, Michael JG = good, M = moderate, P = poor
Braarudosphaera bigelowiiB. bigelowiiMoran, Michael J
Braarudosphaera disculaB. disculaMoran, Michael J
Bramletteius serraculoidesB. serraculoidesMoran, Michael J
Calcidiscus protoannulusC. protoannulusMoran, Michael J
Chiasmolithus altusC. altusMoran, Michael J
10 Chiasmolithus titusC. titusMoran, Michael J
11 Coccolithus eopelagicusC. eopelagicusMoran, Michael J
12 Coccolithus miopelagicusC. miopelagicusMoran, Michael J
13 Coccolithus pelagicusC. pelagicusMoran, Michael J
14 Coronocyclus nitescensC. nitescensMoran, Michael J
15 Cyclicargolithus abisectusC. abisectusMoran, Michael J
16 Cyclicargolithus floridanusC. floridanusMoran, Michael J
17 Dictyococcites bisectusD. bisectusMoran, Michael J
18 Dictyococcites scrippsaeD. scrippsaeMoran, Michael J
19 Discoaster adamanteusD. adamanteusMoran, Michael J
20 Discoaster deflandreiD. deflandreiMoran, Michael J
21 Discoaster saipanensisD. saipanensisMoran, Michael J
22 Discoaster taniiD. taniiMoran, Michael J
23 Discoaster nodiferD. nodiferMoran, Michael J
24 Discolithina segmentaD. segmentaMoran, Michael J
25 Ericsonia fenestrataE. fenestrataMoran, Michael J
26 Ericsonia formosaE. formosaMoran, Michael J
27 Ericsonia subdistichaE. subdistichaMoran, Michael J
28 Hayaster perplexusH. perplexusMoran, Michael J
29 Hayella situliformisH. situliformisMoran, Michael J
30 Helicopontosphaera compactaH. compactaMoran, Michael J
31 Helicopontosphaera euphratisH. euphratisMoran, Michael J
32 Helicopontosphaera intermediaH. intermediaMoran, Michael J
33 Helicopontosphaera obliquaH. obliquaMoran, Michael J
34 Helicopontosphaera perch-nielsenasiaeH. perch-nielsenasiaeMoran, Michael J
35 Helicopontosphaera rectaH. rectaMoran, Michael J
36 Helicopontosphaera reticulataH. reticulataMoran, Michael J
37 Helicopontosphaera seminulumH. seminulumMoran, Michael J
38 Helicopontosphaera wilcoxoniiH. wilcoxoniiMoran, Michael J
39 Isthmolithus recurvusI. recurvusMoran, Michael J
40 Lanternithus minutusL. minutusMoran, Michael J
41 Micrantholithus attenuatusM. attenuatusMoran, Michael J
42 Micrantholithus flosM. flosMoran, Michael J
43 Pedinocyclus larvalisP. larvalisMoran, Michael J
44 Pemma papillatumP. papillatumMoran, Michael J
45 Peritrachelina joidesaP. joidesaMoran, Michael J
46 Pontosphaera pectinataP. pectinataMoran, Michael J
47 Pontosphaera planaP. planaMoran, Michael J
48 Pontosphaera versaP. versaMoran, Michael J
49 Pyrocyclus orangensisP. orangensisMoran, Michael J
50 Reticulofenestra hillaeR. hillaeMoran, Michael J
51 Reticulofenestra umbilicusR. umbilicusMoran, Michael J
52 Scyphosphaera apsteiniiS. apsteiniiMoran, Michael J
53 Sphenolithus ciperoensisS. ciperoensisMoran, Michael J
54 Sphenolithus distentusS. distentusMoran, Michael J
55 Sphenolithus moriformisS. moriformisMoran, Michael J
56 Sphenolithus predistentusS. predistentusMoran, Michael J
57 Sphenolithus pseudoradiansS. pseudoradiansMoran, Michael J
58 Thoracosphaera fossataT. fossataMoran, Michael J
59 Thoracosphaera saxeaT. saxeaMoran, Michael J
60 Thoracosphaera tuberosaT. tuberosaMoran, Michael J
61 Transversopontis exilisT. exilisMoran, Michael J
62 Transversopontis pulcherT. pulcherMoran, Michael J
63 Vermiculithina arcaVermiculithina arcaMoran, Michael J
64 Zygrhablithus bijugatusZ. bijugatusMoran, Michael J
65 Nannofossils indeterminataNannos indetMoran, Michael JSpecies A
66 Nannofossils indeterminataNannos indetMoran, Michael JSpecies B
67 Nannofossils indeterminataNannos indetMoran, Michael JSpecies C
68 Nannofossils indeterminataNannos indetMoran, Michael JSpecies D
License:
Creative Commons Attribution 3.0 Unported (CC-BY-3.0)
Size:
2720 data points

Data

Download dataset as tab-delimited text — use the following character encoding:


Sample label
Abund
(A = abundant, C = common, P =...)
Nannos zone
(follows Bukrey (1973, 1975) a...)
Preserv
(G = good, M = moderate, P = poor)
B. bigelowii
B. discula
B. serraculoides
C. protoannulus
C. altus		10 
C. titus		11 
C. eopelagicus		12 
C. miopelagicus		13 
C. pelagicus		14 
C. nitescens		15 
C. abisectus		16 
C. floridanus		17 
D. bisectus		18 
D. scrippsae		19 
D. adamanteus		20 
D. deflandrei		21 
D. saipanensis		22 
D. tanii		23 
D. nodifer		24 
D. segmenta		25 
E. fenestrata		26 
E. formosa		27 
E. subdisticha		28 
H. perplexus		29 
H. situliformis		30 
H. compacta		31 
H. euphratis		32 
H. intermedia		33 
H. obliqua		34 
H. perch-nielsenasiae		35 
H. recta		36 
H. reticulata		37 
H. seminulum		38 
H. wilcoxonii		39 
I. recurvus		40 
L. minutus		41 
M. attenuatus		42 
M. flos		43 
P. larvalis		44 
P. papillatum		45 
P. joidesa		46 
P. pectinata		47 
P. plana		48 
P. versa		49 
P. orangensis		50 
R. hillae		51 
R. umbilicus		52 
S. apsteinii		53 
S. ciperoensis		54 
S. distentus		55 
S. moriformis		56 
S. predistentus		57 
S. pseudoradians		58 
T. fossata		59 
T. saxea		60 
T. tuberosa		61 
T. exilis		62 
T. pulcher		63 
Vermiculithina arca		64 
Z. bijugatus		65 
Nannos indet
(Species A)		66 
Nannos indet
(Species B)		67 
Nannos indet
(Species C)		68 
Nannos indet
(Species D)
101-628A-16-1,80-81ACP19bGCF-C--CFCCCAFF-C---FF--F--CCF-C-F---FF--F-FCF--FC-A---F----C-CC-
101-628A-16-3,80-81ACP19bMFF-CF-CFCCCAFFFC---FC--C-?CFCFF-----FC---RFCF--FC-A---F----C-F--
101-628A-16-5,80-81PCP19bMFF-F--CFACCAFRFC---FC--C--CFCFF-R---FF---RFC---FC-A---F----F-F--
101-628A-16,CCPCP19bMFF-FF-CFCCCAF-FA---FC-----CFFFC-----FF----FFF--FC-A---F----C-F--
101-628A-17-1,80-81PCP19bMFF-CR-CFCCCACFFC---FC--C--CFCFC-----FF---FFCF--CC-A---F----C-F--
101-628A-17-3,80-81ACP19bMFF-F--FFCFCACFFC---FC--C--CFF-C-----FF--FFFCF--CC-A---F----A-F--
101-628A-17-5,80-81ACP19bMCF-FR-CFCCCA-FFC---FC--F--CFF-C-----FF----FFF--FC-A---F----C-C--
101-628A-17,CCACP19bMCF-F--CFCCCAFFFC---FC--F--CFF-F-R---FCR-FRFFF---C-A---F----C-F--
101-628A-18,CCACP19bMCF-F--CFCCCAFF-C---FC-FF--CFF-C-----FC--CRFFF--FC-A---F---RC-CC-
101-628A-19-1,80-81ACP19bMFF-FF-CFCCCACF-C---FC--F--CFF-C-R---CC--CRFRF--RC-C---R----C-CCF
101-628A-19-3,80-81ACP19bMFF-CF-CFACCACF-C---FC-FC--CCFFC-R---CCF-FFFRF--RC-A---R----F-C-C
101-628A-20,CCACP19bMAC-FF-C-CCCACF-C---FC-FC--CFFRC-----CCR-FR--F--RC-A---R---RF-F-R
101-628A-21-1,80-81ACP19bMCF-C--CFACCAFFFC---FC-----CFFFC-R---FCF-C-CRF--FF?A---FR--RC-C-C
101-628A-21-3,80-81PCP19bMF--CR-CFCCCACCFC---RC-----CRFFC-R----F--CRF-F--FC?CFRFF----C-C-F
101-628A-21,CCACP19bMF--F--CFACCACCFC---FC-----CRFRC-------F--RF-F--FC?C---C----F-C-F
101-628A-22-1,80-81ACP19bMFF-CR-CCCCCAFFFC-R-FC--R--CFFFC-R---CCF-F-FRF--FC?C---F----F-C-C
101-628A-22-3,80-81ACP19bMCF-CR-FFCCCACCFC---FC-F---CFFFC-R---CCF-F-F-F--FC?CF-FF---RC-C-C
101-628A-22-5,80-81ACP19bMR--C--CFCCCACCFC---FC-F---CFFRC------FF-RRFFF--RC?CF--F----F-F-C
101-628A-22,CCACP19bMCF-FF-C-CCCACCFC---FC-F---CFFRC-----CFF-FFCRF--FC?CF-RF----CF--C
101-628A-23-1,80-81ACP19bMFF-C--CRCCCACCRC---FC-F---CFFRC-----FCF-CFF-F--RC?CF-RFR---C-C-C
101-628A-23-2,95-100?CP19bPC-----C-CFCAFCFC----F-----F---C-----F---F-F-F--RF?C---F----F---F
101-628A-23-3,80-81ACP19bMCF-FF-C-CCCAFCFC---FC-F---CF--C-----CFF-FFFFF--RC?CF-FF---RC---F
101-628A-23-5,80-81ACP19bMCF-FF-CFCCCAF-FC---FC-FF--CF-FC-----CFF-CFF-F---C?CC-RF----C---F
101-628A-23,CCACP19bMCF-FF-CFCFCAF-FC---FC--R--CFF-C-----CFF-C-F-F--FCFC---F----C-C-F
101-628A-24-1,80-81ACP19aGFF-C--CFCCCAFCFC---FC-----CFFFC-R---CFC-FFCRF--FFCC---F----C-C-C
101-628A-24,CCACP18MCC-CR-C-CCCACCFC---FC-F--FCF-CC----FCCF-F-CRF--F-FCA-FF----F-C-R
101-628A-25-1,80-81ACP18MCF-C--C-CCCACCFC---FC-F--FCF-FC----RCFC-CRC-F--R-FCA-------C-F-R
101-628A-25-2,80-81ACP18GCF-FF-C-CCFACFFC---FC-F---CFFFF-FF-FCCF-F-C-F--R-CCARRR----F-F--
101-628A-25,CCACP17GFF-F--C-AFFACC-C-C-F--C--CF-FFF-FF-CF-F-F-C-F--F--CAFF----FAF---
101-628A-26-1,80-81ACP17MCF-F--C-AC-ACC-C-C--R-C--CCF-FC----FF-F-F-C-F--F--CCFFF---FAF---
101-628A-26-2,80-81PCP17GCF-F-?C-CFRACF-F-F--R-C--C-R--F----FF-F---C-F--F--CCFRF---FCF---
101-628A-26-3,80-81PCP17MCF?FR?C-CFRACF-F-F----F--C----------F-F---C-F-----CCF-F---FC----
101-628A-26,CCPCP17MFF----C-CFFACF-C-F--R-F--F--F-------FF--F-R-R-----CCFFF---FC----
101-628A-27-1,80-81ACP17GCFFCF-C-AC-ACC-CRC-F--CF-AFF--FR---CCCF-C-C-F-----CAFFF---FC----
101-628A-27-2,80-81ACP17GCFFFF-C-CC-ACF-CRC-F--CR-AFF--FF---CC-F-F-C-F-R---CAFFF---FAF---
101-628A-28-1,80-81ACP16bMCFCC--C-AC-ACC-F-F-F-CC-CCFF---F---CC-F-F-CF-FC---CCF-F-R-FAF---
101-628A-28-2,80-81ACP16aMFFCCFFC-AF-ACC-C-CFF-CC-CCFF--FF--FCC-FFC-CFFC----CFC-F---FCC-F-
101-628A-28,CCPCP16cMCFFF-FC-CF-CCF-FRF-F-?C-RFR----R---CF-F-R-F-FFF---CC--F---FCF---
101-628A-29-1,80-81ACP16aGCCCC-CC-AF-AAC-CRCCF-CC-CCFR--FC--FFCFFCC-CFFCC---CFF-F----CC-F-
101-628A-29-2,47-48ACP16aGCCCCRCC-CF-AAC-CRCFF-CC-CCFF-RFF--FCC-FACFCFFCC---CFCFF--FFCC-F-