SUBJECT INDEX

A

age

biostratigraphic age control, A:64-65, 119-120, 168

fossil assemblages, A:61

See also chronostratigraphy

age vs. depth

Site 1071, A:62

Site 1072, A:119

Site 1073, A:165

albite, scanning electron microscopy images, B7:47, 52

alkalinity

diagenesis, A:73-74

inorganic carbon, B1:6

pore water, A:72, 122-123, 170-171

vs. depth, A:75, 126, 173

ammonium

diagenesis, A:73-74

pore water, A:72-73, 122-123, 170-171

vs. depth, A:75, 126, 173

amphibole

heavy minerals, B(synopsis):10; B6:2-4

lithologic units, A:113-115, 162-163

peak intensity vs. depth, A:59, 116, 163

andalusite, heavy minerals, B6:6, 9-11

ankerite, lithologic units, A:54-55

apatite

heavy minerals, B6:6, 9-11

scanning electron microscopy images, B7:56

aquifers, overpressure, A:74

arenite, glauconitic quartz, lithologic units, A:111

Asterosoma(?), lithologic units, A:111

authigenesis, geochemistry, B(synopsis):9

B

bathymetry, Site 1073, B7:11

biofacies

biostratigraphy, B(synopsis):5-7

Pleistocene, B(synopsis):9-10

biostratigraphy

biofacies, B(synopsis):5-7

calcareous nannofossils, B5:1-16

Site 1071, A:58-65

Site 1072, A:115-120

Site 1073, A:163-168

biotite

lithologic units, A:113-115

scanning electron microscopy images, B7:47

bioturbation

biofacies, B(synopsis):7

lithologic units, A:45, 54-57, 104-113, 157-159

sediments, B3:4-6, 9

Boehm lamellae, lithologic units, A:55

breakpoint, buried, middle Miocene, A:8

Brunhes Chron

magnetostratigraphy, A:65, 68, 120, 169-170

sequence stratigraphy, B(synopsis):5

Brunhes/Matuyama boundary

magnetostratigraphy, A:68-69, 120, 169-170

sequence stratigraphy, B(synopsis):5

bulk density logs, vs. depth, A:89

burrows

biostratigraphy, B(synopsis):7

lithologic units, A:104-113, 158-162

photograph, A:113, 158, 162

sediments, B3:4-6, 9

C

calcareous microfossils

lithologic units, A:163

percentage vs. depth, A:60, 164

calcite

carbon isotopes, B(synopsis):9

lithologic units, A:57-58, 113-115, 163

peak intensity vs. depth, A:59, 116, 163

scanning electron microscopy images, B7:59

calcium

pore water, A:122-123, 171

vs. depth, A:75, 126, 173, 175

See also magnesium/calcium ratio; strontium/calcium ratio

caliper logs, vs. depth, A:89, 92, 137, 139-140, 186

carbon, sediments, A:127, 175

carbon, inorganic

carbon isotopes, B1:1-7

methane oxidation, B(synopsis):9

sediments, A:127, 177

vs. depth, A:76, 128, 178

carbon, organic

sediments, A:77, 127, 177

vs. depth, A:76, 128, 178

carbon, total, sediments, A:76, 127, 175, 177

carbon dioxide, methanogenesis, B(synopsis):10

carbon isotopes

calcite, B(synopsis):9

methane, B1:1-7

pore water, B(synopsis):10

vs. depth, B1:5

carbon/nitrogen ratio, sediments, A:76, 175

carbonate content

percentage vs. depth, A:60, 116, 164

sediments, A:127, 177

carbonates

authigenesis, B(synopsis):9

lithologic units, A:113-115, 163

precipitation, A:73-74

See also nodules, carbonate

carbonates, biogenic, dissolution, A:171

Cenozoic

calcareous nannofossils, B5:1-16

sequence boundaries, A:95-96

chalk, clay-rich nannofossil, lithologic units, A:161-162

chalk, sandy nannofossil, lithologic units, A:161

chemostratigraphy, oxygen isotopes, B(synopsis):7-8

chert, lithologic units, A:111

chloride

pore water, A:72-73, 122-123, 171

salinity minima, A:73

vs. depth, A:75, 126, 173; B2:7

chlorite

lithologic units, A:113-115

sediments, B(synopsis):8-9

thorium/potassium ratio, A:150

Chondrites

lithologic units, A:104, 111, 157, 159-162

photograph, A:162

sediments, B3:6, 9

Chron C1r.1n, magnetostratigraphy, A:65, 68, 120

Chron C1r.1r, magnetostratigraphy, A:65, 68

Chron C1r.2r, magnetostratigraphy, A:120

Chron C2n, magnetostratigraphy, A:120

Chron C3An, magnetostratigraphy, A:68, 120

Chron C3Bn, magnetostratigraphy, A:68, 120

Chron C4n, magnetostratigraphy, A:68, 120

chronostratigraphy

Eocene/Pleistocene sequence boundary, A:182

Miocene/Pleistocene sequence boundary, A:86-88, 134-135

summary, A:134

See also age

chrons, magnetic polarity, A:123

clasts, textures, B3:4, 9

clasts, mud

lithologic units, A:159-160

photograph, A:112, 161

clay

grain size, B4:1-18

lithologic units, A:43-50, 104-115, 157-160, 162-163

percentage vs. depth, A:60, 116, 164

photograph, A:54, 158

clay, diatom-rich nannofossil, lithologic units,
A:161-162

clay, foraminifer-rich, lithologic units, A:160

clay, glauconitic silty, lithologic units, A:160

clay, micaceous silty, lithologic units, A:157-159

clay, pebbly sandy, photograph, A:161

clay, sandy, lithologic units, A:104-113, 157-159

clay, silty

lithologic units, A:43-50, 54-56, 104-113, 157-161

photograph, A:55, 58, 158-159

textures, B3:4, 9

clay, silty nannofossil, lithologic units, A:160

clay minerals

peak intensity vs. depth, A:59, 116, 163

sediments, B(synopsis):8-9

See also chlorite; illite; kaolinite; mixed-layer clays; vermiculite

clay vs. sand, vs. depth, B7:12

clinoforms

middle Miocene, A:8

Miocene/Pliocene sequence boundary, A:86-88

seismic profiles, A:135

seismic stratigraphy, A:11-12

sequence stratigraphy, B(synopsis):2-5

Cobb Mountain Subchron, magnetostratigraphy, A:120

coercivity, demagnetization, A:69

color bands, lithologic units, A:159

compaction, sediments, B7:4-5

compressional wave velocity

sediments, A:80, 130-131, 177-178; B7:5, 26

vs. depth, A:129

vs. porosity, B7:16

consolidation, sediments, B7:19

continental margin, seismic stratigraphy, A:5-16

continental shelf, outer

Miocene/Pliocene sequence boundary, A:86-88,
134-135

sequence stratigraphy, A:182

continental shelf, sequence stratigraphy, B(synopsis):2-5

continental slope, sequence stratigraphy, B(synopsis):
2-5

continental slope, upper, sequence stratigraphy, A:182

convolution, textures, B3:4, 9

core-log correlation. See log-core correlation

cores, azimuthal orientation, A:169

correlation

depth vs. traveltime, A:93

lithostratigraphy and chronostratigraphy, A:87

COST-B2 Well

comparison with A:92-95

log-seismic ties, A:91-92

profile correlation with A:83, 90, 93-95

stratigraphy, A:89

cross laminations

lithologic units, A:160

photograph, A:162

Cruziana, biostratigraphy, B(synopsis):7

cyclic processes, gamma-ray logs, A:183-184

D

debris flows, sediments, B(synopsis):8

deformation

effective axial stress, B7:13

photograph, A:112

degradation, organic matter, B(synopsis):9

demagnetization

coercivity, A:69

vector endpoints, A:67, 71, 121, 169

density

sediments, A:77, 128, 130, 175-176

vs. depth, A:78-79, 129, 179

density logs

vs. depth, A:89, 137-140, 186

vs. spectral gamma ray, A:149

vs. traveltime, A:143

vs. velocity logs, A:149

detrital component, textures, B3:4, 9

diagenesis

pore water, A:123

redox, B(synopsis):10

sulfate reduction, A:73-74

diatoms, lithologic units, A:58

discontinuities. See hiatuses; seismic disctontinuities; stratigraphic discontinuities

dissolution

biogenic carbonates, A:171

diagenesis, A:123

silica, A:73-74

dolomite

lithologic units, A:57-58, 113-115, 163

peak intensity vs. depth, A:59, 116, 163

precipitation, A:74

scanning electron microscopy images, B7:46, 54

dolomite cement

lithologic units, A:56

photograph, A:56

downhole logging

Site 1071, A:88-95

Site 1072, A:135-146

Site 1073, A:182-187

See also downhole logging; log-core correlation; log-seismic correlation;

well-logging

dropstone, photograph, A:158

dueterium, vs. depth, B2:7, 8

E

earth pressure, at rest

sediments, B7:5

vs. effective axial stress, B7:14-15

effective stress

sediments, B7:5, 20-25, 27

vs. earth pressure at rest, B7:14-15

vs. permeability, B7:17

vs. porosity, B7:13

electrical conductivity logs, vs. depth, A:92

Emiliania huxleyi, percentage vs. depth, B5:9-10

Eocene

biofacies, B(synopsis):7

biostratigraphy, A:163-168

calcareous nannofossils, B5:1-8, 16

photograph, A:162

Eocene, upper, lithologic units, A:161-163

epidote, heavy minerals, B6:6, 9-11

ethane

sediments, A:172, 175-177

See also methane/ethane ratio

ethene, sediments, A:172, 175-177

F

feldspar

lithologic units, A:55, 113-115, 162-163

peak intensity vs. depth, A:59, 116, 163

See also plagioclase; potassium feldspar; quartz + feldspars

firmground, biofacies, B(synopsis):7

fluid flow, debris flows, B(synopsis):8

fluid inclusions, lithologic units, A:56

foraminifers, benthic, biostratigraphy, A:63, 118, 167; B(synopsis):6-7

foraminifers, planktonic

biostratigraphy, A:59-63, 117-118, 166-167; B(synopsis):6-7

oxygen isotopes, B(synopsis):7-8

relative dominance of Pleistocene species, A:166

Formation Microscanner imagery

surface patterns, A:143-144

vs. depth, A:145, 147-149

G

gamma rays

sediments, A:80, 130, 177

vs. depth, A:78-79, 129, 179

gamma-ray logs

correlation with deep resistivity, A:151

cyclic processes, A:183-184

vs. depth, A:89, 92, 94-95, 138, 143

vs. traveltime, A:143

gamma-ray logs, spectral

vs. deep-shallow resistivity, A:142

vs. density logs, A:149

vs. depth, A:141, 144-146, 148-149

vs. shallow resistivity, A:149

gamma-ray logs, spliced, vs. depth, A:184-185

garnet, heavy minerals, B6:2-4

gases, headspace, sediments, A:172, 175-176

gases, syringe, sediments, A:175, 177

gases, volatile, sediments, A:74, 76, 123, 127, 172

geochemical logs, vs. depth, A:137, 139, 185

geochemistry

pore water, B(synopsis):10

sediments, B(synopsis):9

geochemistry, inorganic

Site 1071, A:71-74

Site 1072, A:122-123

Site 1073, A:170-172

geochemistry, organic

Site 1071, A:74, 76-77

Site 1072, A:123, 127-128

Site 1073, A:172, 175

glacial/interglacial cycles, oxygen isotopes, B(synopsis):7-8, 10-11

glaciation

oxygen isotopes, B(synopsis):7-8

See also last glacial maximum

glauconite

lithologic units, A:45, 104-111, 113-115, 163

percentage vs. depth, A:60, 116, 164

photograph, A:113

precipitation, A:172

scanning electron microscopy images, B7:56-59

sediments, B(synopsis):8-9

textures, B3:4, 9

thorium/potassium ratio, A:150

graded bedding, lithologic units, A:57

grain size

average variations, B4:10, 12

frequency histograms, B4:7-9, 11

sediments, B(synopsis):10; B4:1-18

granules, lithologic units, A:104-111

granules, quartz

lithologic units, A:54-57

photograph, A:57

gravel, lithologic units, A:111-113

gravel, glauconitic granule- and fine-pebble, photograph, A:56

H

heavy minerals

associations, B6:2-4

sediments, B(synopsis):10; B6:1-11

Helminthopsis

lithologic units, A:159

sediments, B3:6, 9

hiatuses, seismic surfaces, A:180, 182, 187

highstands, sequence stratigraphy, B(synopsis):2-5

hole-hole correlation, stratigraphic discontinuities, A:141-143

Holocene, lithologic units, A:43-45, 104-105, 157-158

Hudson Apron, seismic surfaces, A:180, 182

hydrocarbons, sediments, A:74, 76, 123, 127

hydrogen index

organic matter, A:76-77, 127-128

sediments, A:77, 128

hydrogen isotopes

pore water, B2:1-11

vs. depth, B2:7-8

hydrotroilite

lithologic units, A:157-159

silt, A:45

I

ichnofabric

biostratigraphy, B(synopsis):7

Pleistocene, B(synopsis):9-10

sediments, B3:4-6, 9

ichnofacies

biostratigraphy, B(synopsis):7

Pleistocene, B3:1-9

ichnofossils, photograph, A:162

illite

scanning electron microscopy images, B7:52

thorium/potassium ratio, A:150

interglacials

salinity minima, A:123

See also glacial/interglacial cycles

iron oxides, lithologic units, A:113-115, 163

iron sulfides

textures, B3:4, 9

See also nodules, iron sulfides

J

Jaramillo Subchron, magnetostratigraphy, A:65, 68, 120

K

kaolinite

sediments, B(synopsis):8-9

thorium/potassium ratio, A:150

kyanite, heavy minerals, B6:6, 9-11

L

laminations

lithologic units, A:160

photograph, A:159

See also cross laminations

last glacial maximum, salinity minima, A:73

limonitization, lithologic units, A:111

lithoclasts, textures, B3:4, 9

lithofacies

Cenozoic, A:9-10

See also ichnofacies

lithologic Unit I

magnetization, A:71

sequence stratigraphy, A:182

lithologic Unit I/II boundary, pore water, A:73

lithologic Unit IA/IB

photograph, A:112

stratigraphy, A:114

lithologic Unit IB/IC boundary, pore water, A:72

lithologic Unit IC

chronostratigraphy, A:134-135

lithologic units, A:114-115

magnetostratigraphy, A:120

photograph, A:159

lithologic Unit IC/IIA, diagenesis, A:123

lithologic Unit IC2, photograph, A:112-113

lithologic Unit IE, photograph, A:160-161

lithologic Unit IIA

chronostratigraphy, A:135

magnetization, A:71

photograph, A:113-114

stratigraphy, A:115

lithologic Unit IIB, magnetization, A:71

lithologic Unit IIB/C, chronostratigraphy, A:135

lithologic Unit IIC

magnetization, A:71

properties, A:178

lithologic Unit IIF, photograph, A:162

lithologic Unit II-I, photograph, A:162

lithologic units

Site 1071, A:43-58

Site 1072, A:104-115, 157-163

Unit I, A:43-45, 104-108, 111, 157-160

Unit II, A:45, 54-57, 108-113, 160-161

Unit III, A:57, 161-163

lithology, vs. depth, A:44, 47-53, 104-110, 156

lithostratigraphy

Site 1071, A:43-58

Site 1072, A:103-115

Site 1073, A:155-163

log-core correlation

cyclic processes, A:183-184

physical properties, A:144-146

stratigraphic discontinuities, A:141-143

stratigraphy, A:88-89

surface patterns, A:143-144

water depth, A:184

log-seismic correlation

COST-B2 Well, A:91-92

sonic data, A:138-141, 184-187

synthetic seismograms, A:141, 187

See also seismic stratigraphy

M

magnesium

pore water, A:72-73, 122-123, 171

vs. depth, A:75, 126, 173, 175

magnesium/calcium ratio

diagenesis, A:123

dolomite, A:74

magnetic declination, vs. depth, A:70, 170, 172

magnetic inclination

histograms, A:122

vs. depth, A:68-70, 122-123, 170-172

magnetic intensity, vs. depth, A:68-70, 123, 170-172

magnetic polarity zones, vs. depth, A:68-70, 122,
170-172

magnetic reversals, magnetostratigraphy, A:169-170

magnetic susceptibility

ratio vs. depth, A:72

sediments, A:77, 80, 130, 176-177

vs. depth, A:78-79, 125, 129, 170-172, 179

magnetic susceptibility, volume, vs. depth, A:68-70, 122

magnetite, demagnetization, A:69, 71

magnetostratigraphy

Quaternary-Eocene, A:169-170

Quaternary-Miocene, A:65, 68, 120

See also chrons

mass flows, sediments, B(synopsis):8

mass-transport deposits, slumps, B(synopsis):8

Matuyama Chron, magnetostratigraphy, A:65, 68, 120

median destructive field

magnetization, A:69, 71, 120-122

vs. depth, A:72, 125

methane

carbon isotopes, B1:1-7

oxidation, B(synopsis):9

sediments, A:74, 76, 123, 127, 172, 175-177

vs. depth, A:176

methane/ethane ratio, sediments, A:74, 76, 172,
175-177

methanogenesis

carbon dioxide, B(synopsis):10

sediments, B(synopsis):9

micas

lithologic units, A:45, 113-115, 163

percentage vs. depth, A:60, 116, 164

microfossils, lithologic units, A:58

Mid-Atlantic Transect, Cenozoic, A:9-10

Miocene

biofacies, B(synopsis):7

biostratigraphy, A:58-65, 115-120, 163-168

calcareous nannofossils, B5:1-16

debris flows, B(synopsis):8

heavy minerals, B6:1-11

sequence stratigraphy, B(synopsis):2-5, 10-11

See also Oligocene-Pleistocene sequence

Miocene, lower, lithologic units, A:160-161

Miocene, middle

buried rollover, A:8

lithologic units, A:160

Miocene, upper, lithologic units, A:109-113

Miocene, upper-middle, lithologic units, A:50-57

Miocene/Pleistocene sequence boundary, outer shelf, A:86-88, 134-135

mixed-layer clays, sediments, B(synopsis):8-9

mollusks, photograph, A:56

mottling, lithologic units, A:104

mud, textures, B3:4, 9

mud, glauconitic sandy, lithologic units, A:160

mud, sandy

lithologic units, A:56-57, 157-161

photograph, A:112, 161-162

sediment grain size, B4:1-18

textures, B3:4, 9

muscovite

lithologic units, A:113-115

thorium/potassium ratio, A:150

N

nannofossil datums, summary, A:164

nannofossils

oxygen isotopes, B(synopsis):7-8

sequence boundaries, B(synopsis):9

nannofossils, calcareous

biostratigraphy, A:58-59, 115-117, 164-166

Cenozoic, B5:1-16

neutron porosity logs, vs. depth, A:186

New Jersey continental margin

calcareous nannofossils, B5:1-16

heavy minerals, B6:1-11

Oligocene-Pleistocene eustatic change, A:5-16

sediment grain size, B4:1-18

sedimentology, B3:1-9

sequence stratigraphy, B(synopsis):2-5

stable isotopes, B2:1-11

nitrogen. See also carbon/nitrogen ratio

nitrogen, total, sediments, A:76, 127, 175, 177

nodules, carbonate, photograph, A:114

nodules, iron sulfides, textures, B3:4, 9

nodules, pyrite, lithologic units, A:45, 56-57, 111-113

nodules, siderite, lithologic units, A:45, 56-57, 111-113

O

offlap

Cenozoic, A:95-96

log-core correlation, A:184

seismic stratigraphy, A:11-12

sequence stratigraphy, B(synopsis):2-5

Olduvai Subchron, magnetostratigraphy, A:120

Oligocene

biofacies, B(synopsis):7

biostratigraphy, A:163-168

calcareous nannofossils, B5:1-8, 16

debris flows, B(synopsis):8

lithologic units, A:161

photograph, A:162

porosity, B7:4-5

sequence stratigraphy, B(synopsis):3

Oligocene-Pleistocene sequence, eustatic changes,
A:5-16

onlap, seismic stratigraphy, A:11-12

opal-CT

diagenesis, A:74

peak intensity vs. depth, A:59

Ophiomorpha

lithologic units, A:57, 111

sediments, B3:6, 9

organic matter

decomposition, A:73-74

degradation, B(synopsis):9

diagenesis, A:73-74, 123

oxygen index, A:127-128

photograph, A:57

overbank deposits

lithologic units, A:159

photograph, A:159

overpressure, aquifers, A:74

oxidation

methane, B(synopsis):9

See also redox

oxygen index

organic matter, A:76-77, 127-128

sediments, A:77, 128

oxygen isotopes

chemostratigraphy, B(synopsis):7-8

pore water, B(synopsis):10; B2:1-11

vs. depth, B2:7-8

P

Palaeophycus, lithologic units, A:104, 111, 159-160

paleobathymetry, from benthic foraminifers, A:61

paleoclimatology, palynomorphs, B(synopsis):6-7

paleomagnetism

discrete samples, A:66, 124-125, 169

Site 1071, A:65-71

Site 1072, A:120-122

Site 1073, A:168-170

palynology, biostratigraphy, B(synopsis):5-7

palynomorphs, biostratigraphy, A:63-64, 118-119, 167-168; B(synopsis):5-7

pebbles

lithologic units, A:56-57, 104-111

photograph, A:57, 113, 158, 161

pellets, glauconite, B(synopsis):8-9

permeability

sediments, B7:5, 27

vs. effective isostatic stress, B7:17

vs. porosity, B7:18

pH, vs. depth, A:75, 126, 173

phosphate

pore water, A:72-73, 122-123, 170-171

vs. depth, A:75, 126, 173

photoelectric factor logs

vs. depth, A:139-140, 186

vs. thorium/potassium ratio, A:150

physical properties

log-core correlation, A:144-146

Site 1071, A:77-81

Site 1072, A:128-131

Site 1073, A:175-178; B7:1-62

thin section images, B7:30-39

plagioclase, scanning electron microscopy images, B7:47, 56-57

Planolites

lithologic units, A:104, 111, 160-162

photograph, A:162

Planolites(?), lithologic units, A:159

plant debris, textures, B3:4, 9

Pleistocene

calcareous nannofossils, B5:1-16

debris flows, B(synopsis):8

decimeter-scale sedimentology, B3:1-9

heavy minerals, B6:1-11

ichnofabric, B(synopsis):9-10

ichnofossils, B3:1-9

lithologic units, A:43-50, 54-55, 104-113, 157-160, 187-189

porosity, B7:4-5

relative dominance of planktonic foraminifer species, A:166

sediment grain size, B4:1-18

sequence stratigraphy, B(synopsis):2-5, 10-11

See also Miocene/Pleistocene sequence boundary; Oligocene-Pleistocene sequence

Pliocene

biofacies, B(synopsis):7

biostratigraphy, A:58-65, 115-120, 163-168

calcareous nannofossils, B5:1-16

heavy minerals, B6:1-11

lithologic units, A:104-111, 160

See also Oligocene-Pleistocene sequence

Pliocene, lower, lithologic units, A:45

pore water

carbon isotopes, B1:1-7

geochemistry, A:74, 127, 174; B(synopsis):10

stable isotopes, B2:1-11

porosity

burial, B(synopsis):5

Pleistocene, B7:4-5

sediments, A:77, 128, 130, 175-176; B7:4-5, 21-26

vs. compressional wave velocity, B7:16

vs. depth, A:78-79, 129, 179; B7:12

vs. effective axial stress, B7:13

vs. permeability, B7:18

See also neutron porosity logs

porosity logs, vs. depth, A:140

potassium

pore water, A:72-73, 122-123, 171-172

vs. depth, A:75, 126, 173

See also thorium/potassium ratio; thorium/potassium ratio logs

potassium feldspar, scanning electron microscopy images, B7:56, 58-59

potassium logs, vs. depth, A:137, 139, 145, 147-149, 185

precipitation, carbonates, A:73-74

progradation

seismic stratigraphy, A:11-12

sequence stratigraphy, B(synopsis):2-5

propane, sediments, A:172, 176

pyrite

lithologic units, A:57-58, 113-115

peak intensity vs. depth, A:59, 116, 163

scanning electron microscopy images, B7:46, 56-59

See also nodules, pyrite

pyroxene

heavy minerals, B(synopsis):10; B6:2-4

scanning electron microscopy images, B7:46

Q

quartz

lithologic units, A:55, 113-115, 162-163

peak intensity vs. depth, A:59, 116, 163

scanning electron microscopy images, B7:46-47, 52, 54, 57-59

See also granules, quartz

quartz + feldspars, percentage vs. depth, A:60, 116, 164

Quaternary, biostratigraphy, A:58-65, 115-120, 163-168

R

rate of penetration logs, vs. depth, A:89

recrystallization

biogenic carbonates, A:171

diagenesis, A:123

redox

diagenesis, B(synopsis):10

See also oxidation

remanent magnetization, anhysteretic

demagnetization, A:69, 71, 120-122

vs. depth, A:72, 125

remanent magnetization, natural

demagnetization, A:120-122

vs. depth, A:72, 125

resistivity

sediments, A:80-81, 131, 178

vs. depth, A:78-79, 129, 179

resistivity logs

vs. depth, A:89, 94-95, 137-139

vs. traveltime, A:143

resistivity logs, deep

correlation with gamma-ray logs, A:151

vs. depth, A:144, 146-149, 186

vs. spectral gamma ray, A:142

resistivity logs, induction medium, vs. depth, A:144, 146, 148

resistivity logs, phasor-induction deep, vs. depth, A:184

resistivity logs, shallow

vs. depth, A:141, 144-146, 148-149, 186

vs. spectral gamma ray, A:149

vs. velocity logs, A:149

resistivity logs, shallow spherically-focused, vs. depth, A:144, 146-149, 184

rock magnetics

discrete samples, A:66, 124-125, 169

magnetization, A:69, 71, 120-122

vs. depth, A:72

rollover, buried, middle Miocene, A:8

rutile

heavy minerals, B(synopsis):10; B6:6, 9-11

lithologic units, A:113-115, 163

S

salinity

carbon isotopes, B1:2-3

diagenesis, A:73-74

pore water, A:72-73, 122-123

vs. depth, A:75, 126

salinity minima

interglacial stages, A:123

Pliocene-Pleistocene sequence, A:96

pore water, A:73

sand

lithologic units, A:43-50, 54-55, 104-111, 158-161

photograph, A:54, 159

sediment grain size, B4:1-18

textures, B3:4, 9

sand, glauconitic, photograph, A:54

sand, glauconitic silty, lithologic units, A:111-113

sand, micaceous muddy, lithologic units, A:56-57

sand, muddy

lithologic units, A:158-161

photograph, A:159

textures, B3:4, 9

sand, pebbly fine silty, photograph, A:56

sand, pebbly muddy, photograph, A:55

sand, quartz, lithologic units, A:45

sand, silty

lithologic units, A:104-111

photograph, A:55, 58

sandstone, glauconitic pebbly

lithologic units, A:56-57

photograph, A:56, 114-115

sandstone, glauconitic quartz, lithologic units,
A:111-113

sandstone, pebbly glauconitic quartz, lithologic units, A:111-113

scanning electron microscopy, images, B7:46-62

scanning electron microscopy data, sediments, B7:29

Schaubcylindrichnus freyii, sediments, B3:5, 9

sea-level changes

Oligocene-Pleistocene, A:5-16

sequence stratigraphy, B(synopsis):2-5

seawater, backflushing, A:74

sedimentary wedges, Cenozoic, A:9

sedimentation rates

biostratigraphy, B(synopsis):6-7

Oligocene-Pleistocene, A:7-9

vs. depth, B7:12

sedimentology, decimeter-scale, Pleistocene, B3:1-9

sediments

grain size, B(synopsis):10; B4:1-18

heavy minerals, B6:1-11

textures, B3:4, 9

seismic discontinuities, physical properties, A:81, 131

seismic facies, seismic mapping, A:95-96, 146-151

seismic facies units, photograph, A:158-161

seismic profiles

Cenozoic, A:9

sequence stratigraphy, B(synopsis):2-5

Site 1071, A:82-84, 90

Site 1072, A:132-133, 135

Site 1073, A:181, 191

seismic reflections, vs. depth, A:184-186

seismic stratigraphy

Oligocene-Pleistocene, A:5-16

Site 1071, A:81-88

Site 1072, A:131-135

Site 1073, A:178-182

See also log-seismic correlation

seismic surface m0.5(s)-m3(s), lithologic units, A:160

seismic surface m5.6(s), lithologic units, A:160

seismic surface pp1(s), photograph, A:158

seismic surface pp3(s), correlation, A:180, 182

seismic surface pp4(s)

correlation, A:180, 182, 187-188

lithologic units, A:157, 159-160

seismic surfaces

sequence boundaries, A:95-96

sonic data, A:184-187

vs. depth, A:188-189

seismograms, synthetic

log-seismic correlation, A:141, 187

vs. depth, A:189

sequence boundaries

Cenozoic, A:95-96, 133-135

nannofossils, B(synopsis):9

structural mapping, A:86

sequence stratigraphy

boundary depth prediction, A:84-86, 133-135; B(synopsis):2-5, 10-11

calibration of outer shelf to upper slope, A:182

Oligocene-Pleistocene eustatic change, A:5-16

physical properties, A:81-88

seismic surfaces, A:180, 182

shear strength

sediments, A:80, 131, 178

vs. depth, B7:12

shear strength, undrained, vs. depth, A:78-79, 129, 179

shells

lithologic units, A:45, 56-57, 104-111

photograph, A:113

textures, B3:4, 9

shrinkage cracks, lithologic units, A:55

siderite

lithologic units, A:56-58, 111, 113-115, 163

methanogenesis, B(synopsis):9

peak intensity vs. depth, A:59, 116, 163

photograph, A:114

See also nodules, siderite

silica

diagenesis, A:74

dissolution, A:73-74

pore water, A:73, 123, 171

vs. depth, A:75, 126, 173

siliceous fossils, percentage vs. depth, A:60, 164

sillimanite, heavy minerals, B6:6, 9-11

silt

grain size, B4:1-18

lithologic units, A:111-113, 160

photograph, A:159

textures, B3:4, 9

silt, clayey, lithologic units, A:43-45, 104-111

silt, sandy, lithologic units, A:43-45, 56-57, 104-111

Site 983, percentage of Emiliania huxleyi, B5:10

Site 1071, A:37-97

background and objectives, A:39-40

biostratigraphy, A:58-65

calcareous nannofossils, B5:1-16

carbon isotopes, B1:1-7

comparison with COST-B2 Well, A:92-95

coring, A:41

downhole logging, A:88-95

heavy minerals, B6:1-11

inorganic geochemistry, A:71-74

lithostratigraphy, A:43-58

operations, A:40-43

organic geochemistry, A:74, 76-77

paleomagnetism, A:65-71

physical properties, A:77-81

sediment grain size, B4:1-18

seismic stratigraphy, A:81-88

site description, A:37-97

stable isotopes, B2:1-11

summary and conclusions, A:95-96

Site 1072, A:99-152

background and objectives, A:101

biostratigraphy, A:115-120

calcareous nannofossils, B5:1-16

carbon isotopes, B1:1-7

coring, A:102

downhole logging, A:135-146

heavy minerals, B6:1-11

inorganic geochemistry, A:122-123

lithostratigraphy, A:103-115

operations, A:101-103

organic geochemistry, A:123, 127-128

paleomagnetism, A:120-122

physical properties, A:128-131

sediment grain size, B4:1-18

seismic stratigraphy, A:131-135

site description, A:99-152

stable isotopes, B2:1-11

summary and conclusions, A:146-151

Site 1073, A:153-191

background and objectives, A:154

biostratigraphy, A:163-168

calcareous nannofossils, B5:1-16

carbon isotopes, B1:1-7

coring, A:155

downhole logging, A:182-187

heavy minerals, B6:1-11

inorganic geochemistry, A:170-172

lithostratigraphy, A:155-163

operations, A:154-155

organic geochemistry, A:172, 175

paleomagnetism, A:168-170

physical properties, A:175-178; B7:1-62

sediment grain size, B4:1-18

sedimentology, B3:1-9

seismic stratigraphy, A:178-182

site description, A:153-191

stable isotopes, B2:1-11

summary and conclusions, A:187-189

Skolithos, lithologic units, A:160

slumps

lithologic units, A:104-111

mass-transport deposits, B(synopsis):8

photograph, A:112, 160

surface patterns, A:143-144

smectite, sediments, B(synopsis):8-9

soft sediment deformation, lithologic units, A:158-160

sonic data, log-seismic correlation, A:138-141, 184-187

sponge spicules, lithologic units, A:58

stable isotopes

pore water, B2:1-11

See also carbon isotopes; dueterium; oxygen isotopes; strontium isotopes

staurolite, heavy minerals, B6:6, 9-11

storm beds, photograph, A:54

strain, sediments, B7:5

STRATAFORM, Cenozoic, A:10-11

stratigraphic discontinuities

biostratigraphic age control, A:64-65, 119-120, 168

log-core correlation, A:141-143

stratigraphic discontinuity pp3(s)

biostratigraphic age control, A:64-65, 119-120

log-core correlation, A:141-143, 146-151

seismic mapping, A:86-88, 95-96, 134-135, 141-143

stratigraphic discontinuity pp4(s)

biostratigraphic age control, A:64-65, 119-120

log-core correlation, A:141-143, 146-151

seismic mapping, A:95-96

stratigraphic discontinuity pp5(s)

biostratigraphic age control, A:64-65, 119-120

log-core correlation, A:141-143, 146-151

seismic mapping, A:86-88, 95-96

stratigraphy. See biostratigraphy; chemostratigraphy; chronostratigraphy;

seismic stratigraphy; sequence stratigraphy

strontium

pore water, A:72-73, 122-123, 171

vs. depth, A:75, 126, 173, 175

strontium/calcium ratio

pore water, A:171

vs. depth, A:173, 175

strontium isotopes

pore water, B2:1-11

vs. depth, B2:6

structural mapping, sequence boundaries, A:86

structures, derived from traveltime, A:85-86

sulfate

pore water, A:72, 122-123

vs. depth, A:75, 126, 173

sulfate reduction, diagenesis, A:73-74

sulfur, total, sediments, A:76, 127, 175, 177

T

Taenidium

lithologic units, A:111, 160-162

photograph, A:162

sediments, B3:6, 9

Taenidium(?), lithologic units, A:111

Teichichnus

lithologic units, A:57, 111, 159-161

photograph, A:113

temperature

organic matter, A:127-128

sediments, A:128

Terebellina, lithologic units, A:57, 160

Terebellina(?), lithologic units, A:111

textures, sediments, B3:4, 9

Thalassinoides

biostratigraphy, B(synopsis):7

lithologic units, A:111, 159-162

sediments, B3:6, 9

thermal conductivity

sediments, A:80, 130, 177

vs. depth, A:78-79, 129, 179

thin section images

physical properties, B7:30-39

whole core, B7:40-45

thorium logs

cyclic processes, A:183-184

vs. depth, A:137, 139, 185

thorium/potassium ratio

vs. depth, A:150

vs. photoelectric factor, A:150

thorium/potassium ratio logs, vs. depth, A:185

time-depth estimates, seismic surfaces, A:89-91, 134

tourmaline, heavy minerals, B(synopsis):10; B6:6, 9-11

trace fossils. See ichnofossils

transects, seismic stratigraphy, A:12-13

transgression, sequence stratigraphy, B(synopsis):2-5

traveltime

boundary depth prediction, A:84-86

interpretation from seismic data, A:87

vs. depth, A:86, 93, 182, 187

turbidites

lithologic units, A:57

photograph, A:58

U

unconformities

Cenozoic, A:9

See also hiatuses; seismic discontinuities; stratigraphic discontinuities

uranium logs

cyclic processes, A:183-184

vs. depth, A:137, 139, 185

V

velocity, vs. depth, A:78-79, 91, 179

velocity logs

vs. density logs, A:149

vs. depth, A:92, 94-95, 137-138, 142, 184, 188

vs. shallow resistivity, A:149

vs. traveltime, A:143

vermiculite, sediments, B(synopsis):8-9

W

water depth, log-core correlation, A:184

water fountains

drilling photograph, A:73

origin, A:74

well-logging

Site 1071, A:88-95

Site 1072, A:135-146

Site 1073, A:182-187

summary of logging runs, A:183

See also downhole logging; log-core correlation; log-seismic correlation

wood debris

lithologic units, A:45, 56-57

textures, B3:4, 9

X

X-ray diffraction data

relative intensity of main peaks, A:59, 117, 163

sediments, B7:28

Z

zircon

heavy minerals, B(synopsis):10; B6:6, 9-11

scanning electron microscopy images, B7:52, 56

zonation, biostratigraphic, vs. depth, A:118

Zoophycos

lithologic units, A:159-162

photograph, A:162

Zoophycos(?), lithologic units, A:104, 111