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acoustic anisotropy, B:115-123
carbonate veins, B:79-96
fluid pressure, A:4; B:232-234
geochemistry, B:171-182
hydrogeology, B:303-310
magnetic anisotropy, B:97-105
pore pressure, B:125-135
scaly fabric, B:59-77
seismic profiles, B:255-275
structural domains, A:114-116, 211, 213
structural geology, B:279-292
tectonics, A:13-27
temperature, B:239-245, 247-252

acoustic anisotropy

directional properties, B:115-123
vs. depth, B:119

advection, geochemical profiles, B:317

alkali group, pore fluid, B:165, 167

alkaline earth group, pore fluid, B:165, 167-168

alkalinity

interstitial waters, A:149
vs. depth, A:148, 240

alkanes

chromatograms, A:145
See also n-alkanes

alteration

smectite, B:317
See also authigenesis; diagenesis

aluminum, vs. depth, B:179, 181

aluminum oxide

vs. depth, B:24
vs. kaolinite, B:30
See also calcium oxide/aluminum oxide ratio; iron, total/aluminum oxide ratio; magnesium oxide/aluminum oxide ratio; potassium oxide/aluminum oxide ratio; silica/aluminum oxide ratio

ammonium

interstitial waters, A:149
sediments, A:232
vs. depth, A:148, 240

amphibian, volcanic ash, B:346-348

amplitude, normalized, vs. depth, B:299, 301

Atlantic Ocean W, geology, A:3-11

authigenesis

accretionary prisms, A:4
See also alteration; diagenesis

authigenesis minerals

geochemistry, B:171-182
X-ray diffraction data, A:29-37

carbonate veins, B:79-96
compressional wave velocity, B:115-123
drilling, A:3-11, 13-27
magnetic anisotropy, B:97-105
sediments, A:29-37
ultrasonic velocity, B:125-135

Barbados Ridge N

biostratigraphy, B:49-56
clay mineralogy, B:3-30
fluid pressure, B:229-238
geochemistry, B:171-182, 311-319, 353-356
geology, A:3-11, 13-27
grain size, B:337-341
hydrogeology, B:303-310
natural gamma-ray spectra, B:183-195
packer experiments, B:199-218
permeability, B:109-114
porosity, B:137-149
scaly fabric, B:59-77
seismic data, B:255-262
seismic reflection, B:293-302
seismic velocity, B:263-275
structural geology, B:279-292
tomography, B:151-159
trace metals, B:163-170
well-logging, B:321-334

barite, solubility, B:165-167

barium

enrichment, B:173
pore fluid, B:165, 167-168
vs. depth, B:167-168, 179, 181

bathymetry, accretionary prisms, A:13-16

bedding

orientation, A:116, 129
structural domains, A:117
vs. depth, A:116

bedding dip

compressional wave velocity, B:120-122
structural domains, A:213
vs. depth, A:214; B:122

bedding orientation, sediments, A:215

beidellite, diagenesis, B:27

bentonite, clay minerals, B:17

biostratigraphy

Miocene, B:33-48
Site 948, A:129-131
Site 949, A:215, 217-220, 228-229, 233

bioturbation

décollement zones, B:284
lithologic units, A:98-99
photograph, A:101, 104

bitumen, sediments, A:144, 227

Bouma sequences, deposition, A:203

brecciation, photograph, A:117

bromide

pore fluids, B:354
vs. depth, B:355

bromide/chloride ratio, vs. depth, B:314

sediments, A:101-103, 206-213, 216-217, 220
veins, A:225
vs. carbonate content, A:207
vs. depth, A:36, 108, 208-209
X-ray diffraction data, A:32-33

calcium

interlayer cation composition, B:140-141
interstitial waters, A:147-149
sediments, A:231-232
vs. depth, A:148, 239; B:165, 168, 179, 181
See also magnesium/calcium ratio

calcium carbonate

carbonate veins, B:85-87
values, B:95

calcium/chloride ratio, interlayer cation composition, B:140

calcium oxide, vs. silica, B:350

calcium oxide/aluminum oxide ratio, vs. depth, B:25

caliper logs, vs. depth, A:163

carbon

geochemistry, A:140-143
sediments, A:230-231

carbon, organic

sediments, A:138, 225
vs. depth, A:139, 141, 237, 240
vs. nitrogen, A:139
vs. total organic carbon, A:237

carbon, total, organic, vs. organic carbon, A:237

carbon isotopes, carbonate veins, B:85-87, 92, 356

carbonate compensation depth, deposition, A:100-101, 203

carbonate content

cores, A:203
sediments, A:206-213, 216-217
vs. calcite, A:207
vs. depth, A:100, 148, 207
X-ray diffraction data, A:102-103, 105-114

carbonates, geochemical profiles, B:317

Caribbean Plate, geology, A:3-11

cation exchange capacity

density, B:139
electrical conductivity, B:137-149
vs. depth, B:143
vs. water content, B:139-142, 145

cementation, reflectivity, B:134

chalk, lithologic units, A:99

chloride

clay, B:146
interlayer cation composition, B:140
interstitial waters, A:145, 147; B:314-315
sediments, A:231
vs. depth, A:147, 239; B:167, 169, 313-314
vs. strontium, B:315
See also bromide/chloride ratio; calcium/chloride ratio; iodide/chloride ratio; magnesium/chloride ratio; potassium/chloride ratio; sodium/chloride ratio

chlorite

mineralogy-porosity inversion, B:224-225
X-ray diffraction data, B:222
See also kaolinite/chlorite ratio

chromium

depletion, B:173
vs. depth, B:179, 181

Chron 3r, magnetostratigraphy, A:220

Chron 6, magnetostratigraphy, A:134

Chron 7n1, magnetostratigraphy, A:134

clay

chloride, B:146
lithologic units, A:98, 202
sediments, A:206-213, 216-217
vs. depth, A:102-103, 105-114; B:341
well-logging, B:321-334

clay, sheared

permeability, B:132-134
scaly fabric, B:59-77

clay content, fluid pressure, B:236-237

clay minerals

core-log integration, B:222-223
décollement zones, B:3-30
geochemical profiles, B:317
sediments, A:204-213, 216-217, 220
vs. depth, A:36, 208-209
X-ray diffraction data, A:32-33, 102-103, 105-114; B:9, 11-13

claystone

clay minerals, B:18-19, 22
lithologic units, A:98-99, 202-203
photograph, A:101, 104
scaly fabric, B:59-77

cleavage, scanning, B:155-156

cobalt

diagenesis, B:168
vs. depth, B:167, 170

color, sediments, A:105

compaction

carbonate veins, B:88-90
logging units, A:75-76
sediments, B:67, 69, 71

compressional wave anisotropy, vs. depth, A:245

compressional wave velocity

directional properties, B:115-123
sea-surface reflections, B:267
sediments, A:151, 155-156, 238, 243
vs. depth, A:152, 245; B:119

compressional wave velocity anisotropy, vs. depth, B:119

conglomerate, tuff-pebble, photograph, A:101

consolidation

fluid pressure, B:236-237
sediments, B:109-114
tests, B:304-309

consolidation, one-dimensional, effective stress, B:111

consolidation, secondary, sediments, B:230

copper

enrichment, B:173
vs. depth, B:179, 181

copper minerals, scanning electron micrographs, B:182

core-log comparison, logging-while-drilling, B:328-330

CORK experiment, temperature, B:247-252

crust, oceanic, seismic reflection, A:16

Curie temperature, magnetic anisotropy, B:99

biostratigraphy, B:33-48
carbonate veins, B:79-96
clay mineralogy, B:3-30
cores, A:108, 111, 114
diagenesis, B:25-27
evolution, B:287-288
fluid regime, B:311-319
geochemical profiles, B:317
geochemistry, B:171-182
location and arrangement, B:285-286
magnetic susceptibility, B:103-104
packer experiments, B:199-218
photograph, A:128, 226
pore pressure, B:125-135, 39
reflections, B:128
scaly fabric, B:59-77
seismic profiles, B:255-262
seismic reflection, A:4, 10, 19-21, 76; B:293-302
sketch, A:127
structural domains, A:116-117, 126, 213-215, 256
structural geology, B:279-292
See also proto-décollement

decoupling, décollement zones, B:288-289

deformation

carbonate veins, B:80-84, 88-90
décollement zones, B:281, 284, 288-289
magnetic susceptibility, B:103-104
photograph, A:226; B:62-66, 68-71, 73
scaly fabric, B:63-66
seismic reflection, A:18-21
structures, A:208-209, 211

deformation, drilling-induced, artifacts, B:69, 71

deformation bands, scaly fabric, B:66-67, 73

dehydration, smectite, B:317

demagnetization, vectors, A:134, 234

demagnetization, thermal, claystone, A:136-137

density

cation exchange capacity, B:139
core-log comparison, B:328
décollement zones, B:300-301
logging units, A:75-76
pore pressure, B:125-135
sediments, A:150-151, 153-155, 237-238; B:330
vs. depth, B:259, 299-301

density, bulk, vs. depth, A:244; B:154-158, 205, 231, 286

density, grain

cation exchange capacity, B:139
vs. depth, A:151, 244; B:142

density correction logs, vs. depth, A:86

density logs

logging-while-drilling, B:326-327
vs. depth, A:74, 86, 151, 162, 165; B:259

detrital minerals, X-ray diffraction data, A:29-37

detrital provenance, clay minerals, B:15-17, 20-21

diagenesis

organic matter, B:168
reflectivity, B:134
sediments, B:25-27
See also alteration; authigenesis

dilation

diagenesis, B:25-27
permeability, B:132-134
sediments, B:67, 69, 71

dolomite, carbonate veins, B:84-85, 92, 356

downhole logging, Barbados Ridge N, A:160-164

drilling, accretionary prisms, A:5, 11

duplexing, seismic reflection, A:22

elastic rebound, sediments, B:230

electrical conductivity

cation exchange capacity, B:137-149
porosity, B:137-149

electron microscopy, scaly fabric, B:61-69

electron microscopy, scanning, clay mineralogy, B:8-9

environment, deposition, A:100-101, 203

ethane

sediments, A:225
See also methane/ethane ratio

carbonate veins, B:96
magnetic anisotropy, B:97-105
scanning, B:155-156
structural domains, A:114-127

fabric, magnetic, magnetic susceptibility, B:103-104

fabric, scaly

décollement zones, B:281, 284
kinematic model, B:71-73
photograph, A:127-129, 218, 221
proportion in décollement zone, B:285
sheared clays, B:59-77

fault planes

reflections, B:125-127
seismic reflection, A:3-5, 22, 76

fault splay, décollement zones, B:300-301

fault zones

bulk permeability, B:215-217
diagenesis, B:25-27
sediments, B:67, 69, 71
structural domains, A:117, 173, 211, 213-215

faults, healed, scanning, B:155-156

faults, normal, photograph, A:221

feldspar

carbonate veins, B:84-85
veins, A:225
volcanic ash, B:344-345, 347-348
X-ray diffraction data, A:116

flattening, sediments, B:67, 69, 71-72

flow tests, pressure, B:205-214

flow velocity, vs. hydraulic conductivity, B:112-113

fluid composition, carbonate veins, B:90-91

fluid flow

décollement zones, B:288-289
diagenesis, B:25-27
geochemical profiles, B:317, 353-356
pore fluid, B:168-169, 353-356
scaly fabric, B:73
tests, B:249-251
thermal resistance, B:243

fluid pressure

décollement zones, A:4, 76-77
geochemical profiles, B:317
packer experiments, B:203
sediments, B:229-238, 309
vertical seismic profiles, B:271-272
vs. depth, B:130, 232, 235-237

fluid regime

carbonate veins, B:88-90
décollement zones, B:311-319

fluid/rock interactions

geochemical profiles, B:317, 354-355
geochemistry, B:163-170

fluid samplers, geochemical gradient, A:235, 237

fluids, geochemistry, B:311-319, 353-356

folding

photograph, A:128
seismic profiles, lithostratigraphy, A:9, 22

foliation

photograph, A:127-128
scaly fabric, B:63-66, 72-75

foliation, scaly

photograph, A:117
structural domains, A:127-128

foliation, spaced

carbonate veins, B:80-81
scaly fabric, B:66-67

foraminifers, lithologic units, A:98-99, 202

foraminifers, planktonic, biostratigraphy, A:130-131, 218

formation factor

sediments, A:156, 240, 244
vs. depth, A:159, 246
vs. porosity, B:148

fracture networks, scaly fabric, B:66, 287

fractures

carbonate veins, B:81-82
scaly fabric, B:63-66, 287
structural domains, A:117

gamma ray-density-porosity logs, A:180-183

gamma-ray logs, vs. depth, A:74, 79-86, 115, 162, 165; B:286

gamma ray-resistivity-rate of penetration logs, A:176-179

gamma ray-tension-velocity logs, A:189-192

gamma rays, natural

sediment cores, B:183-195, 225
sediments, A:158, 244
vs. depth, A:250

geochemical logs, vs. depth, A:86

geochemistry

clay mineralogy, B:3-30
décollement zones, A:10
fluids, B:311-319, 353-356
sediments, B:171-179

geochemistry, inorganic

Site 948, A:144-150
Site 949, A:227, 229-235, 237

geochemistry, organic

Site 948, A:137-144
Site 949, A:221, 225-227

geothermal gradient

clay mineralogy, B:7
sediments, A:166-167, 245-246
tests, B:249

grain size

clay minerals, B:16, 20
sediments, B:337-341

ground water, accretionary prisms, A:4

accretionary prisms, B:240-241
Site 948, A:164-167
Site 949, A:244-246

helium, pore water, B:318

helium isotopes, interstitial waters, B:316-317

hemipelagic environment, deposition, A:203

hexane, chromatograms, A:145, 238

hydraulic conductivity

sediments, B:111-112
vs. depth, B:114
vs. flow velocity, B:112-113
vs. void ratio, B:114

hydrocarbons

headspace gases, A:139, 227
sediments, A:137-138, 225

hydrofractures

fluid pressure, B:236-237
non-décollement site, B:298-299
permeability, B:132-134

hydrogen index, vs. oxygen index, A:143, 238

hydrogeology, B:303-310

hydrology, pressure, B:205-207

abundance, B:14
mineralogy-porosity inversion, B:224-225
sediments, A:206-213, 216-217, 220
veins, A:225
vs. depth, A:102-103, 105-114; B:15-16, 20-22
X-ray diffraction data, A:35, 116; B:222

illite/smectite mixed layers

sediments, B:10, 22
vs. depth, B:22

illitization, in situ, sediments, B:25-27

imbricate thrusting, seismic reflection, A:21-22

impedance, acoustic, vs. depth, A:152, 245

impedance, vs. effective pressure, B:134

inclusions, carbonate veins, B:84

index properties

sediments, A:241-242
X-ray scan, B:153

interstitial waters

geochemistry, A:147, 234; B:163-170
sediments, A:144-150
X-ray diffraction data, A:102-103, 206

iodide

pore fluids, B:354
vs. depth, B:355

iodide/chloride ratio, vs. depth, B:314

iron, total

vs. depth, B:24
vs. kaolinite, B:30

iron, total/aluminum oxide ratio

vs. depth, B:25
vs. kaolinite, B:30

iron, vs. depth, B:179, 181

iron oxide, vs. silica, B:350

abundance, B:14
mineralogy-porosity inversion, B:224-225
sediments, A:206-213, 216-217, 220
vs. depth, A:102-103, 105-114; B:15-16, 20-21
vs. major oxides, B:30
X-ray diffraction data, A:35; B:222

kaolinite/chlorite ratio

veins, A:225
vs. depth, A:102-103, 105-114

kerogen, sediments, A:139, 143-144, 226-227

kutnohorite. See magnesium-kutnohorite

décollement zones, B:281, 284
deposition, A:100-101
photograph, A:104

lateral ramps, seismic reflection, A:22-23

Lesser Antilles

clay minerals, B:17, 20-21
drilling, A:3-11
magmatic history, B:347-349

lithium

interstitial waters, A:149-150
pore fluid, B:165, 167
sediments, A:232-234
vs. depth, A:149, 240; B:165, 168, 179, 181

lithofacies, clay mineralogy, B:6

lithologic units

Site 948, A:98-100
Site 949, A:202-203
Unit I, A:98, 202
Unit II, A:98-99, 202-203
Unit III, A:99, 203

lithology, structural geology, B:281

lithostratigraphy

Barbados Ridge accretionary prism, A:5-6
correlation with well-logging, A:163-164
Site 948, A:98-108
Site 949, A:202-205

logging units, A:74-75

logging-while-drilling, well-logging, B:321-334

décollement zones, B:281, 284-285
scaly fabric, B:62-63

magmatic history, Lesser Antilles, B:347-349

magnesium

interlayer cation composition, B:140-141
interstitial waters, A:147-149
sediments, A:231-232
vs. depth, A:148, 239; B:165, 168, 179, 181

magnesium/calcium ratio, vs. depth, A:148, 239

magnesium carbonate

carbonate veins, B:85-87
values, B:95

magnesium/chloride ratio, interlayer cation composition, B:140

magnesium-kutnohorite

carbonate veins, B:84-85, 92, 356
X-ray diffraction data, A:116

magnesium oxide

vs. depth, B:24
vs. kaolinite, B:30
vs. silica, B:350

magnesium oxide/aluminum oxide ratio, vs. depth, B:25

magnetic anisotropy

décollement zones, B:281
sediments, B:97-105
structural domains, A:127, 215
vs. depth, B:100-103

magnetic declination, vs. depth, A:135, 235

magnetic inclination, vs. depth, A:135, 235

magnetic intensity, vs. depth, A:135, 235

magnetic susceptibility

décollement zones, B:281, 284
Flinn diagrams, A:129, 227
magnetic anisotropy, B:97-105
principal ellipsoids, A:129
projections, A:226
sediments, A:136-137, 220-221
structural domains, A:127
vs. depth, A:138, 237; B:100-103

magnetite, sediments, A:134-136

magnetostratigraphy, sediments, A:131-134, 220, 236

major elements, carbonate veins, B:85-87, 93-94

major oxides

clays, B:23
vs. depth, B:24-25
vs. kaolinite, B:30

manganese

diagenesis, B:168
enrichment, B:173
interstitial waters, A:150
sediments, A:235
vs. depth, A:149, 240; B:165, 169, 179, 181

manganese carbonate

carbonate veins, B:85-87
values, B:95

manganese minerals, scanning electron micrographs, B:180

manganese oxide, geochemistry, B:173

manganese/silica ratio, vs. depth, A:149, 240

manganese stain, photograph, A:127

Martinique, clay minerals, B:17

maturation, phytane, A:147

metals

diagenesis, B:168
geochemistry, B:163-170

methane

interstitial waters, B:314-315
sediments, A:137-138, 225
vs. depth, A:138, 147, 237; B:314

methane/ethane ratio, vs. depth, A:237

micrite, carbonate veins, B:84-85

microscopy, scaly fabric, B:61-69

microsparite, carbonate veins, B:84-85

microstructures, scaly fabric, B:67, 286-287

mineral composition, sediments, A:204-213, 216-217, 220

mineral composition inversion, logging-while-drilling, B:328-329

Miocene

biostratigraphy, B:49-56
lithologic units, A:98-99, 202-203
radiolarian biostratigraphy, B:33-48

mixed-layer minerals, sediments, B:10, 22

molybdenum

diagenesis, B:168
vs. depth, B:167, 170

montmorillonite

X-ray diffraction data, A:34
See also sodium-montmorillonite

mudstone, clay minerals, B:18-19, 22

geochemistry, A:239
sediments, A:144, 146, 227

nannofossils, calcareous, biostratigraphy, A:129-130, 217- 218; B:49-56

nannofossils, lithologic units, A:98-99, 202-203

neocrystallization, magnetic susceptibility, B:103-104

neon, pore water, B:318

nitrogen

geochemistry, A:140-143
sediments, A:139, 225, 230-231
vs. organic carbon, A:139

normalization factors, X-ray diffraction data, A:29-30, 36-37

North American Shale Composites, geochemistry, B:173

Oligocene

biostratigraphy, B:49-56
lithologic units, A:203

organic matter, diagenesis, B:168, 354-355

organic matter maturity, vs. depth, A:143

orientation, compressional wave velocity, B:121

overconsolidation, sediments, B:111-112

overpressure

diagenesis, B:25-27
fluid pressure, B:236-237
permeability, B:132-134
pore fluid, B:168-169
tests, B:250-251

oxidation, phytane, A:147

oxides. See major oxides

oxygen index, vs. hydrogen index, A:143, 238

oxygen isotopes

carbonate veins, B:85-87, 92, 356
interstitial waters, B:315-316
pore fluids, B:354
vs. depth, B:355

décollement zones, B:199-218
Site 948, A:169-171
Site 949, A:253-256

paleobathymetry, deposition, A:100-101

paleomagnetism

Site 948, A:131-137
Site 949, A:220-221

penetration rate logs, vs. depth, A:79-82

penetration rates, logging-while-drilling, B:323

permeability

accretionary prisms, A:4
décollement zones, B:132-134
sediments, B:109-114
tests, B:304-309
vs. depth, B:114
vs. effective stress, B:306-308
vs. porosity, B:308-309
vs. void ratio, B:308

permeability, bulk

vs. effective stress, B:215-216, 309
vs. modified pore pressure, B:216

permeability, in situ, packer experiments, B:199-218

phillipsite

veins, A:225
X-ray diffraction data, A:116

phillipsite veins, photograph, A:219

phosphorus, vs. depth, B:179, 181

photoelectric-effect logs, vs. depth, A:115

physical properties, seismic reflection, B:293-302

physical properties (core)

Site 948, A:150-160
Site 949, A:237-238, 240-244

phytane

maturation, A:147
sediments, A:144

plagioclase

mineralogy-porosity inversion, B:224-225
sediments, A:101-103, 206-213, 216-217, 220
vs. depth, A:36, 108, 208-209
X-ray diffraction data, A:32-33, 102-103, 105-114

plate tectonics, accretionary prisms, A:3-11, 13-27

Pleistocene

biostratigraphy, B:49-56
lithologic units, A:98, 202

Pliocene

biostratigraphy, B:49-56
lithologic units, A:202-203

pore collapse, scaly fabric, B:63-66

pore fluid

overpressure, B:271
trace metals, B:163-170

pore pressure

carbonate veins, B:88-90
density, B:125-135
electrical conductivity, B:143-145
permeability, B:132-134
sediments, B:112

pore pressure, modified, vs. bulk permeability, B:216

porosity

electrical conductivity, B:137-149
logging units, A:75-76
mineralogy-porosity inversion, B:224
scaly fabric, B:73
sediments, A:150-151, 153-155, 237-238
velocity, B:131-132
vertical seismic profiles, B:271-272
vs. depth, A:151, 158, 244; B:114, 154-158
vs. effective pressure, B:132
vs. formation factor, B:148
vs. permeability, B:308-309
vs. resistivity, B:147
vs. surface conductivity, B:149
See also void ratio

porosity inversion, logging-while-drilling, B:324- 329

porosity logs

logging-while-drilling, B:326-327
vs. depth, A:163

porosity (neutron) logs, vs. depth, A:86

potassium

diagenesis, B:25-27
estimation errors, B:194
interlayer cation composition, B:140-141
interstitial waters, A:149-150
natural gamma-ray spectra, B:187, 225
reference concentrations, B:193
sediments, A:232-234
vs. depth, A:149, 240; B:166, 168, 179, 181, 188

potassium/chloride ratio, interlayer cation composition, B:140

potassium logs, vs. depth, A:86

potassium oxide

vs. depth, B:24, 188
vs. kaolinite, B:30
vs. silica, B:350

potassium oxide/aluminum oxide ratio, vs. depth, B:25

potassium/rubidium ratio, vs. depth, B:166, 168

precipitation, carbonate veins, B:87-88

preferred orientation

magnetic susceptibility, B:102
scaly fabric, B:63-66

pressure

CORK experiment, B:247-252
Site 948, B:239-245
vs. depth, B:206, 245
vs. time, A:173, 257; B:204, 244, 250-251

pressure, effective

vs. impedance, B:134
vs. porosity, B:132
vs. velocity, B:131

pristane

maturation, A:147
sediments, A:144

production index, vs. temperature, A:144

proto-décollement

sediments, B:112
seismic reflection, A:19, 24
See also décollement zones

provenance, clay minerals, B:15-17, 20-21

pyrolysis, Rock-Eval, sediments, A:232

pyroxene, volcanic ash, B:345-346, 348

carbonate veins, B:84-85
mineralogy-porosity inversion, B:224-225
sediments, A:101-103, 206-213, 216-217, 220
veins, A:225
vs. depth, A:36, 108, 208-209
X-ray diffraction data, A:32-33, 102-103, 105-114

biostratigraphy, A:131, 218-220
lithologic units, A:98-99, 202-203
Miocene biostratigraphy, B:33-48
preservation, A:132

rare earths

geochemistry, B:173
manganese minerals, B:180

reflectance

percentage, A:114
sediments, A:105
vs. depth, A:111

reflection, décollement zones, B:300-301

reflection coefficient, vs. depth, B:259

reflectivity, diagenesis, B:134

remanent magnetization, anhysteritic, grains, A:138

remanent magnetization, isothermal, sediments, A:131-134

remanent magnetization, magnetic anisotropy, B:99

remanent magnetization, multicomponent, isothermal, sediments, A:134-136

remanent magnetization, natural, sediments, A:131-134, 220

remanent magnetization, partial, anhysteritic, sediments, A:136

resistivity

sediments, A:156, 240, 244
vs. depth, A:159, 247-249; B:138, 286, 299, 301
vs. porosity, B:147
X-ray scan, B:152-153

resistivity logs, vs. depth, A:74, 79-82, 162, 165

rhodochrosite

carbonate veins, B:84-85, 92
geochemistry, B:173, 356
photograph, A:117
veins, A:225
X-ray diffraction data, A:116

rock magnetism, sediments, A:134-136

rubidium

pore fluid, B:165, 167
vs. depth, B:166, 168
See also potassium/rubidium ratio

décollement zones, B:288-289
photograph, B:291-292

scaly fabric, B:63-66, 72-74

salinity

core-log comparison, B:333-334
interstitial waters, A:145, 147
sediments, A:231
vs. depth, A:147, 239

sand, vs. depth, B:341

scintillation detector, shipboard, natural gamma-ray spectra, B:183-195

sedimentation, deposition, A:100-101, 203

sedimentology

Site 948, A:98-108
Site 949, A:202-205

sediments

computed tomography, B:151-159
core-log integration, B:223
décollement zone, A:111
deformation, B:67, 69, 71
fluid pressure, B:229-238
geochemistry, B:171-182, 353-356
grain size, B:337-341
magnetic anisotropy, B:97-105
magnetic properties, B:98-103
mineral composition, A:29-37
scan image analysis, B:151-159
seismic reflection, A:16-20
X-ray mineralogy, A:101-103

sediments, altered, X-ray diffraction data, A:116

seismic anisotropy, overpressure, B:271

seismic profiles

accretionary prisms, B:255-262
Barbados Ridge N, B:117
folding, lithostratigraphy, A:7, 9
Site 947, A:73
Site 948, A:91, 93
Site 949, A:196, 254-255

seismic profiles, vertical

Site 948, A:167-169; B:260-261
Site 949, A:246, 249-252
velocity, B:263-275
well-logging, B:259-261

seismic reflection

accretionary prisms, A:16-22, 24, 26-27
décollement zones, B:293-302
structural geology, B:280-281

seismic reflection, three-dimensional, fault planes, A:3-5, 18-22

seismic velocity, B:263-275

seismograms, traveltime, A:170

seismograms, synthetic

décollement, A:164; B:260, 272, 274
vs. depth, A:76, 166

shear strain, displacement, B:75

shear strength

sediments, A:156-158, 244
vs. depth, A:161

shear strength, vane

logs, A:161
vs. depth, A:249

shear wave velocity

sea-surface reflections, B:270-271
sediments, A:156, 158-159, 238, 244-245
vs. depth, A:152, 245

shear zone thickness, vs. depth, A:126; B:285

shear zones

comparison with radiolarian zonation, B:34, 36
décollement zones, B:288-289
deformation, B:72-73
structural domains, A:114-127
vs. depth, A:214

shore-based log processing, A:175, 184

silica

interstitial waters, A:150
sediments, A:235
vs. calcium oxide, B:350
vs. depth, A:149, 240; B:24
vs. iron oxide, B:350
vs. kaolinite, B:30
vs. magnesium oxide, B:350
vs. potassium oxide, B:350
vs. sodium oxide, B:350
See also manganese/silica ratio

silica/aluminum oxide ratio

vs. depth, B:25
vs. kaolinite, B:30

silt, sandy, photograph, A:104

silt, vs. depth, B:341

Site 541

fluid pressure, B:232-234
tectonics and hydrology, B:235

Site 672

geochemical anomalies, B:236
magnetic anisotropy, B:99-101
tectonics and hydrology, B:235

Site 676

fluid pressure, B:232-234
tectonics and hydrology, B:235

Site 947, A:71-86

background and scientific objectives, A:71-72
downhole logging, A:73-76
non-décollement site, B:298-299
operations, A:72-73
site description, A:71-86
well-logging, A:73-76

Site 948, A:87-192

acoustic anisotropy, B:118-119
background and scientific objectives, A:89-90
biostratigraphy, A:129-131
calcareous nannofossil biostratigraphy, B:50, 53
clay mineralogy, B:9-10
core physical properties, A:150-160
coring, A:92
downhole logging, A:160-164
fluid pressure, B:232-234
geochemical anomalies, B:236
geochemistry, B:165-167, 171, 173
heat flow, A:164-167
inorganic geochemistry, A:144-150
lithostratigraphy, A:98-108
low fluid content site, B:299-300
magnetic anisotropy, B:101-103
operations, A:90-98
organic geochemistry, A:137-144
packer experiments, A:169-171
paleomagnetism, A:131-137
permeability, B:207-209
porosity, B:142-145
radiolarians, B:33-36
sedimentology, A:98-108
shore-based log processing, A:175, 184
site description, A:87-192
structural geology, A:108-129
tectonics and hydrology, B:236
temperature, B:239-245
vertical seismic profiles, A:167-169
well-logging while drilling, B:219-227

Site 949, A:193-257

acoustic anisotropy, B:119-120
background and scientific objectives, A:194
biostratigraphy, A:215, 217-220
calcareous nannofossil biostratigraphy, B:53-54
clay mineralogy, B:10
core physical properties, A:237-238, 240-244
coring, A:197
geochemistry, B:167-169, 173
heat flow, A:244-246
incipient décollement site, B:300
inorganic geochemistry, A:227, 229-235, 237
lithostratigraphy, A:202-205
magnetic anisotropy, B:103
operations, A:194-202
organic geochemistry, A:221, 225-227
packer experiments, A:253-256
paleomagnetism, A:220-221
permeability, B:209-211
pressure and temperature, B:247-252
radiolarians, B:36
sedimentology, A:202-205
site description, A:193-257
structural geology, A:205-215
vertical seismic profiles, A:246, 249-252
volcanic ash, B:343-351

smectite

abundance, B:14
chemical composition, B:21, 25
dehydration, B:317
interlayer cation composition, B:140-141
mineralogy-porosity inversion, B:224-225
sediments, A:206-213, 216-217, 220
veins, A:225
vs. depth, A:102-103, 105-114; B:15-16, 20-21, 299
X-ray diffraction data, A:35; B:222
See also illite/smectite mixed layers

sodium

interlayer cation composition, B:140-141
interstitial waters, A:149-150
sediments, A:232-234
vs. depth, A:149, 240; B:179, 181

sodium/chloride ratio

interlayer cation composition, B:140
vs. depth, A:149, 240; B:313

sodium oxide, vs. silica, B:350

sodium-montmorillonite, X-ray diffraction data, A:34

solid solution, carbonate veins, B:85-87

sonic velocity logs

vs. depth, A:163
See also velocity

spectroscopy, energy dispersive, clay mineralogy, B:8-9

standard materials, X-ray diffraction data, A:30-33

strain, compactional, carbonate veins, B:88-90

strain, magnetic susceptibility, B:103-104

stress

carbonate veins, B:88-90
magnetic susceptibility, B:103-104
vs. depth, B:233

stress, effective

vs. bulk permeability, B:215-216, 309
vs. permeability, B:306-308
vs. void ratio, B:111, 231

strontium

carbonate veins, B:92, 356
interstitial waters, B:315-316
pore fluids, B:354
vs. chlorine, B:315
vs. depth, B:179, 181, 354-356
vs. strontium isotopes, B:95, 316

strontium isotopes

carbonate veins, B:85-87, 92, 356
interstitial waters, B:315-316
pore fluids, B:354
sediments, B:317
vs. 1/strontium concentration, B:95, 316
vs. depth, B:355

structural contours, décollement zones, A:10

structural domains

acoustic anisotropy, B:115-123
cores, A:114-127

structural features, vs. depth, A:115, 214, 222-225

structural geology

Barbados Ridge N, B:279-292
Site 948, A:108-129
Site 949, A:205-215

structural measurements, summary, A:118-126

subduction zones, diagenesis, B:27

sulfate

interstitial waters, A:149
sediments, A:232
vs. depth, A:148, 240

sulfur

geochemistry, A:140-143
sediments, A:139, 225, 230-231

temperature

CORK experiment, B:247-252
sediments, A:164, 166-167
Site 948, B:239-245
vs. depth, A:169, 252; B:242, 250
vs. production index, A:144
vs. thermal resistance, B:245
vs. time, A:167-168, 251; B:242, 250

tension logs, vs. depth, A:163

tephra, deposition, A:100-101

textures

carbonate veins, B:87-88
sediments, B:337-341

thermal conductivity

accretionary prisms, B:240-241
core-log comparison, B:328, 332
logs, A:160
sediments, A:156, 238, 240
vs. depth, A:158, 246; B:242

thermal resistance, vs. temperature, B:245

thorium

estimation errors, B:194
natural gamma-ray spectra, B:187, 225
reference concentrations, B:193
uncertainties in laboratory analyses, B:190
vs. depth, B:188

thorium logs, vs. depth, A:86

thrust faults, geochemical gradient, A:235

thrust front, seismic reflection, A:16-18, 21-22

Tiburon Rise, geology, A:3-11

titanium, vs. depth, B:179, 181

titanium oxide, vs. depth, B:24

titanium oxide/aluminum oxide ratio

vs. depth, B:25
vs. kaolinite, B:30

tomography, computed, sediments, B:151-159

tortuosity, vs. depth, A:159

trace metals, pore fluid, B:163-170

traveltime, vs. depth, A:171-172, 253; B:256-258

turbidite, photograph, A:104

turbidity currents, deposition, A:100-101

underthrusting

décollement zones, B:286
seismic reflection, A:18
structural domains, A:215

uranium

estimation errors, B:194
natural gamma-ray spectra, B:187
reference concentrations, B:193
uncertainties in laboratory analyses, B:190
vs. depth, B:188

uranium logs, vs. depth, A:86

vein minerals, X-ray diffraction data, A:116

veins

décollement zones, B:288-289
fluid pressure, B:236-237
geochemical profiles, B:317
photograph, A:117, 219
X-ray mineralogy, A:225

veins, carbonate

décollement zones, B:79-96
geochemistry, B:85-87, 356
mineralogy, B:84-85
photograph, B:82-91
type 1, B:80-81
type 2, B:81-82
type 3, B:82
type 4, B:82-84

velocity

Barbados Ridge N, B:263-275
vs. depth, B:299
vs. effective pressure, B:131
See also sonic velocity logs

velocity, ultrasonic, pore pressure, B:125-135

void ratio

fluid pressure, B:236-237
vs. effective stress, B:111, 231
vs. hydraulic conductivity, B:114
vs. permeability, B:308
See also porosity

volcanic ash

alteration, B:317
deposition, A:100-101
lithologic units, A:202-203
phase chemistry, B:343-351

volcanic glass, volcanic ash, B:347-351

vs. cation exchange capacity, B:139-142, 145
vs. depth, A:151, 244; B:142

well-logging

Barbados Ridge N, bp:CD-ROM
clays, B:321-334
electrical conductivity, B:143-145
mineralogical inversion, B:219-227
reflection, B:259
Site 947, A:73-76
Site 948, A:160-164

clay mineralogy, B:9, 11-13, 18-19, 22
interstitial waters, A:102-103
mineralogical inversion, B:222-226
physical properties residues, A:106-107, 109-114
sediments, A:29-37, 206-212, 216-217, 220
vein minerals and altered sediments, A:116
whole-round samples, A:105

X-ray mineralogy, vs. depth, A:162

X-ray scan, sediments, B:151-159

diagenesis, B:168
vs. depth, B:167, 170, 179, 181

zonation

calcareous nannofossils, B:49-56
radiolarians, B:33-48