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A
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Abu Madi sands, sediments,
B:496 accessory
minerals, vs. depth, A:96
accretion
paleogeography, B:672-673
tectonics, A:14-16
See also
plate tectonics; tectonics
accretionary complexes
emplacement, B:736
geology, A:337
mud, A:13-14
mud matrix, B:587-588
mud volcanoes, B:575-595,
665-680
seamounts, B:692-693
stages of development, B:674
tectonics, A:5; B:673-675
See also plate
tectonics; tectonics
acoustic
properties
well-logs,
B:535-543
See also physical
properties; well-logs
Actinommids,
Site 971, B:139, 144, 148-149
active margins
collision
with seamounts, B:465-481
See also collisions;
continental margins; plate tectonics
Adana. See
Cilicia-Adana Basin
Adana Basin,
tectonics, A:6; B:750-759, 773-775
advection,
lateral flow, A:311, 313
Adventure Bank,
tectonics, A:16, 73, 78
Aegean. See
South Aegean Volcanic Arc
Aegean backarc
basin system, tectonics, A:5-6
Aegean Sea
paleogeography, B:672
sandstone, B:584
Africa
clast
lithology, B:585-586
paleoclimatology, B:327-328
sandstone, B:584
See also North
Africa
African Plate
crust,
B:727
Eocene-Miocene succession,
B:496, 498-499
subduction, A:5-6, 517;
B:688
African-Eurasian
plate boundary, tectonics, B:527-534, 688, 713, 730-731,
759
age vs. depth
Eratosthenes Seamount, B:511-514
Mediterranean Sea E, B:65,
68, 71
Site 963, A:71; B:112
Site 964, A:103
Site 965, A:135
Site 966, A:177, 179
Site 967, A:242-243; B:187
Site 968, A:303
Site 969, A:356, 358; B:110
Site 973, A:481
Aiya Varvara
metamorphics, tectonics, B:769
Akamas
Peninsula, lithofacies, B:774
Akrotiri
Peninsula
fanglomerate, B:556-560
geology, A:290; B:741, 743,
751
Akseki carbonate
platform, tectonics, B:750
Aksu Basin
offshore
geology, B:737-738
tectonics, B:749-750, 774
Alanya Massif, tectonics,
B:749-750, 766
Albian
mud
breccia, A:12-14
zoning, B:384
albite
petrography, B:456
sediments, B:581
alcohol isomers,
mass spectra, B:289
alcohols
sapropels,
B:265
See also n-alcohols;
ter-alcohols
alcohols,
steroid, carbon number, B:279
algae
lithologic
units, A:223; B:492
sapropels, B:265-266, 279,
289
algae,
calcareous
biostratigraphy, A:135
Miocene, B:421
algae,
haptophyte, sapropels, B:289
algal material,
Miocene, B:420-421
alkalinity
carbonates, A:67, 69
depth, A:366
diagenesis, A:110, 311, 363,
366
organic matter, A:110, 247,
310-311, 363
pore water, A:187, 437, 485;
B:572
sapropels, B:258
vs. depth, A:80, 114, 191,
253, 312, 394-396, 436-437, 486; B:371
alkan-1,13,30-triol
mass
spectra, B:289
sapropels, B:287, 289
alkan-1,15-diols, long-chain, sapropels, B:277
alkan-1-ol-n-ones, sapropels, B:277, 279
alkandiols
sapropels,
B:287
See also diols
alkanes. See
iso-alkanes; n-alkanes; ter-alcohols
alkanes,
isoprenoid, sapropels, B:287-288
alkanolones. See
ketols
alkanols,
sapropels, B:287, 289
alken-2-ols
mass spectra, B:289
partial gas chromatograms,
B:292
sapropels, B:286-287, 289
alken-2-one,
sapropels, B:286-287
alken-3-ols
mass
spectra, B:289
partial gas chromatograms,
B:292
sapropels, B:286-287, 289
alken-3-one,
sapropels, B:286-287
alkenes,
sapropels, B:287
alkenols,
sapropels, B:264
alkenones
bitumens,
A:115, 117, 189, 251-252
sapropels, B:273, 286-287,
289
temperature records,
B:309-331
alkenones,
long-chain, sapropels, B:265-266, 276
allochthons,
emplacement, B:736
alluvial fans
lithofacies, B:551, 558-559
sedimentation model,
B:563-564
tectonics, B:746, 748-749
alteration,
diagenesis, B:424
aluminum
electron
microscopy, B:346
vs. depth, A:271; B:200
See also
barium/aluminum ratio; calcium/aluminum ratio;
chromium/ aluminum ratio; iron/aluminum ratio;
magnesium/aluminum ratio; major elements/aluminum
ratio; manganese/aluminum ratio; nickel/aluminum
ratio; potassium/aluminum ratio; silicon/aluminum
ratio; titanium/aluminum ratio; vanadium/aluminum
ratio; zirconium/aluminum ratio
aluminum logs
gypsum,
A:263
vs. depth, A:271
aluminum oxide
logs, vs. depth, A:285-287
Amaurolithus
spp.
abundance,
B:104
Zanclean abundance,
B:118-119
ammonium
lateral
flow, A:250, 311, 313
organic matter, A:247,
310-311, 363
pore water, A:187, 392
vs. depth, A:79, 114, 191,
253, 312, 366, 394-396, 436; B:371
amphibolites,
basement, B:735
analcime,
origin, B:587
analcite. See
analcime
Anatolia. See
also East Anatolian Fault; South Anatolian Fault
Zone
Anatolian plate
boundary, tectonics, B:718, 768
Anaximander
Mountains
carbonate
platforms, B:741
lithofacies, B:459, 775
offshore geology, B:736-737
Andirin. See
Misis-Andirin Complex
ankerite
origin,
B:586-587
sediments, B:581
anoxia
isotopic
stratigraphy, B:178-179
organic carbon in sapropels,
B:257, 285-295
provenance of trace
elements, B:202
sapropels, A:21, 23-24;
B:33, 267-268, 274
sediment fabric and
composition, B:659-660
Zanclean, B:120
See also euxinia;
photic zone
anoxic basins,
geology, A:337
Antalya Basin
conglomerate comparison, B:563
Cretaceous-Paleogene
succession, B:413-414
lithofacies, B:459
tectonics, A:6; B:773, 775
volcanism, B:766
Antalya Complex
geologic
map, B:739
Mesozoic, B:738-741, 769-770
offshore geology, B:737-738
Antalya
travertine, geology, B:737-738
anticlines,
lineaments, B:759
apatite,
diagenesis, B:408
Apennines,
tectonics, A:15
apolar fraction
gas
chromatograms, B:290
lipids, B:287, 294-295
Apolos
Formation, lithofacies, B:553
Aptian
chalk,
B:406
mud breccia, A:12-14
Neotethys, B:726
zoning, B:384
Aptian, upper,
hiatuses, B:522
Apulia,
tectonics, A:15
Aquitanian,
deposition, B:433-434
Arabian margin,
tectonics, B:759-760, 764, 769-770, 775-776
Arabian
Peninsula, tectonics, A:6
Arabian Plate,
Cretaceous-Paleogene succession, B:412
aragonite
photomicrograph, B:424-425
X-ray diffraction data,
B:428, 474
arc structures,
lineaments, B:759
Ardana. See
Kalagrai-Ardana Unit
arsenic, vs.
depth, B:201
Arsos Formation,
Oligocene-Miocene succession, B:744
Aslantas
Formation, tectonics, B:758
Aslantas-Iskenderun Basin, tectonics, B:758
asphaltenes,
sapropels, B:274
astronomical
calibration, lower Pleistocene, B:191-197
Athalassa
Formation, Pliocene channels, B:478
Atterberg
limits, sediments, B:633, 638
authigenesis,
formation, B:368-370
Ayios Photios
Group
basement,
B:734-736
tectonics, B:704-705, 771
|
B
|
Bachymayerella tenuis
Pliocene-Quaternary succession, B:125-135
vs. planktonic foraminifer
and calcareous nannofossil zones, B:126-128
backthrusting,
accretionary wedges, B:673-675, 677
bacteria
sapropels,
B:249-259, 266-267, 274-281, 303-307
sulfate reduction,
B:368-371, 677
vs. depth, B:304, 306
See also
cyanobacteria
Baer-Bassit Unit
ophiolite,
B:760-769
tectonics, B:753
Balearic Basin. See
North Balearic Basin
Bannock
Structure, moats, B:500-501
Barbados, mud
volcanoes, B:670
barite,
authigenic, formation, B:368-370
barium
productivity, B:211, 213
vs. depth, B:200, 370
barium/aluminum
ratio, vs. depth, B:210, 212
basement
lithology,
B:745
Mesozoic, B:734-736
basins
Early to
Mid-Cretaceous, B:726
geology, B:737-738
Late Triassic, B:725
tectonics, A:56-58; B:704
bathyal
environment, Upper Cretaceous, B:408
bathymetry
seamounts,
A:8-10; B:710
Site 964, A:87-88
structures, A:466-467
Beato Angelico
Trough, tectonics, A:87-88
bedding
clasts,
B:583
Formation MicroScanner,
B:521
lithofacies, B:408
Messinian-Pliocene
succession, B:458-459
photograph, A:184
projection, A:75
structural data, A:358-359,
431, 458, 481, 492; B:520
See also graded
bedding
bedding planes
fabric,
A:428
lithologic units, A:220-222
photograph, A:426
projection, A:359, 459, 481
structural data, A:63-64,
136
beidellite,
Formation MicroScanner logs, B:619
Bellapais
Formation, tectonics, B:746, 748-749
benzenes,
alkylated, sapropels, B:288
beta-carotene
derivative, sapropels, B:287
beta-sitosterol,
sapropels, B:266
Bey Daglari
carbonate platform unit
geology,
B:738-741
tectonics, B:750
Beysehir-Hoyran
Nappes, tectonics, B:770-771
biocalcarenite,
mud breccia, A:11-14
biochronology
Pliocene-Pleistocene nannofossils, B:109
sapropels, B:193
sedimentation rates,
B:108-109
stable isotopes, B:167-180
bioclasts
diagenesis, B:427, 475
lithofacies, B:476, 495
mud breccia, B:598, 602
photomicrograph, B:475, 506
bioevents
base of
MNN14-MNN15 Zone, B:104
composite, A:355, 392, 433,
457, 480; B:102, 108
depth and proposed age,
B:162
list, B:169-170
nannofossils, B:102, 108
planktonic foraminifers,
B:380
Site 963, A:70
Site 964, A:101
Site 965, A:134
Site 966, A:174-175
Site 967, A:240-241
Site 968, A:301
biomarkers,
organic matter, B:261-269, 271-283, 285-295, 352, 355-356
biomicrite
lithologic
units, A:162
mud breccia, B:601
photograph, A:132
photomicrograph, B:405, 407,
426, 473, 475
biomicrite
clasts, photomicrograph, B:473
biosparite
lithologic
units, A:223
photograph, A:133, 173-174
biostratigraphic
age, vs. organic carbon, B:274
biostratigraphic
datums
position
and astronomical ages, B:193
sedimentation rates, A:231,
233
biostratigraphy
Eocene,
B:395-401
lower Pleistocene, B:191-193
mass flow units, B:467
Messinian/Pliocene boundary,
B:9-17
paleobathymetry, B:511
Pliocene-Quaternary
succession, B:83-112, 125-135
Site 963, A:60-63
Site 964, A:100-102
Site 965, A:132-135
Site 966, A:164, 170,
173-176
Site 967, A:224-231, 264-265
Site 968, A:298-303
Site 969, A:344, 348,
351-355, 374
Site 970, A:385-387, 389-390
Site 971, A:431-435
Site 972, A:454-458
Site 973, A:477-479
Zanclean, B:113-123
biosynthesis,
sapropels, B:276, 290, 292
biotite,
petrography, B:455
bioturbation
lithofacies, B:408
lithologic units, A:59,
129-130, 161, 220-222, 340-342
paleoenvironment, A:162-164
photograph, A:65-66, 68-69,
235-238, 299; B:406
Pliocene, B:457
sapropels, A:95-96;
B:334-337
Bitlis Suture
Zone, tectonics, A:6; B:763, 770
Bitlis-Puturge
massifs, tectonics, B:761
bitumens,
extractable, sediments, A:115, 117, 189-190, 251-252,
370-371
bitumens,
paleoenvironment, A:164
bivalves
basement,
B:735
lithologic units, A:162
photograph, A:173; B:422
photomicrograph, B:425-426,
473, 475
Black Sea, mud domes, B:670
Blake Event,
magnetostratigraphy, B:71-72
Bolboforma,
biostratigraphy, A:102, 135, 176, 355
bone beds,
lithofacies, B:555
borehole
extension, fractures, B:530-534
brassicasterol,
sapropels, B:266
breccia
lithologic
units, A:381-383
photograph, A:249, 387, 483
tectonics, B:749
See also carbonate
breccia; limestone breccia; microbreccia; mud breccia
breccia,
clast-supported, lithofacies, B:471
breccia,
matrix-supported
carbonates, B:494-496, 687
Formation MicroScanner logs,
B:616
photomicrograph, B:508
brecciation
limestone clasts, B:474
photograph, B:422-423
brines,
geochemistry, A:115; B:368-371
bromine
evaporites, A:113
pore water, A:187, 485
vs. depth, A:79, 114, 191,
487
vs. potassium, strontium,
and lithium, A:115
bromine/chlorine
ratio, vs. depth, A:487
Brunhes Chron
magnetostratigraphy, B:64, 66, 70, 72
remanent magnetization,
A:63, 78, 103-104, 135-136, 177, 179, 234
See also
Matuyama/Brunhes boundary
Burdigalian,
deposition, B:433-434
Burdur Basin,
conglomerate comparison, B:563
Burdur Fault
Zone, offshore geology, B:737
burrows
axial
ratio, B:524
chalk, B:410
fabric, A:186
laminations, B:337-338
lithofacies, B:408
lithologic units, A:59-60,
221-223, 294, 340-342, 423, 454
photograph, A:66, 68-69, 76,
97, 99, 169-172, 186, 235-238, 247, 299, 347,
350-351; B:422
photomicrograph, B:342
sedimentary structures,
B:471
See also Chondrites;
Planolites; trace fossils; Teichichnus;
Zoophycos
butane. See
iso-butane
|
C
|
cadmium, vs. depth, B:201 Calabrian
accretionary wedge
sapropel
age, B:187, 191-197
tectonics, A:87-88, 118
Calabrian Ridge
geology,
A:337
tectonics, A:16, 87-88
calcarenite
Aptian,
B:406
deformation, A:241, 266
photograph, A:249
Pliocene channels, B:477-478
calcarenite,
brecciated, deformation, A:242
calcarenite,
pelagic, petrography, B:579
calcarenite,
shallow-water, petrography, B:579
calcilutite
deformation, A:238-239
lithologic units, A:222-223,
266
origin, B:587
photograph, A:174
calcirudite,
mass flow units, B:467-468
calcite
clasts,
B:598
composition, B:4, 442
deformation, A:240
diagenesis, A:188; B:429
electron microprobe data,
B:428
lithologic units, A:129-130,
294, 340; B:438-439
petrography, B:456
photograph, A:132-133, 185
sediments, B:447-448, 581
vs. depth, B:5
X-ray diffraction data,
B:427-428, 474
calcite,
fibrous, photomicrograph, B:595
calcite,
inorganic
lithologic
units, A:222, 295
vs. depth, A:96, 164, 228,
297, 342
calcite,
magnesian, origin, B:587
calcite, sparry,
photomicrograph, B:405, 425-426, 472-473, 506, 593
calcite/dolomite
ratio, carbonates, B:448
calcite cement,
photograph, A:249
calciturbidite
paleogeography, B:414-415, 743
photomicrograph, B:593
Pliocene, B:457
calcium
carbonates, A:67, 69; B:448
diagenesis, A:188
gypsum, A:250, 311
pore water, A:113, 392, 485
vs. chlorine, A:254
vs. depth, A:80, 114, 192,
255, 314, 367, 394-396, 437, 486
vs. NaCl-extracted sulfur,
B:252
vs. sulfate, A:255; B:259
X-ray flourescence data in carbonates, B:450
See also
hydrogen/(silicon + calcium) ratio; silicon/(silicon
+ calcium) ratio; strontium/calcium ratio;
sulfur/calcium ratio
calcium/aluminum
ratio, vs. depth, B:210, 212
calcium/chlorine
ratio, vs. depth, A:256, 314, 367; B:572
calcium/magnesium ratio
diagenesis, A:366
vs. depth, A:192, 314
calcium
carbonate, sediments, A:69-70, 80-81, 113, 116-117,
137-138, 188-189, 193, 250, 256-257, 313, 315-316,
367-369, 395, 398, 439-440, 461, 488; B:13-15, 17, 21
caliche?,
photograph, A:132
caliper logs,
vs. depth, A:144-147, 150-151, 200-206, 208-213, 264-266,
274-281, 323-324, 404-408, 446; B:539-540
Caltanisetta
Basin, tectonics, A:15
Campanian
basement,
B:734, 776
biostratigraphy, B:400-401
carbonate
compensation depth, B:499
stratigraphy, B:412
tectonic models, B:769
Campanian-Maastrichtian succession, plate tectonics,
B:771
campesterol,
sapropels, B:266-267
Cannobotryid
group, Site 971, B:142, 152
canthaxanthin,
sapropels, B:298-302
carbon
electron
microscopy, B:344
sediments, A:69-70, 80-81,
113, 116-117, 137-138, 188-189, 193, 250, 256-257,
313, 315-316, 367-369, 395, 398, 439-440, 459-461,
485-488
See also
sulfur/carbon ratio
carbon/nitrogen
ratio
carbonates, A:69, 264
diagenesis, A:110, 366;
B:274
organic matter, B:34
vs. depth, B:200
carbon/sulfur
ratio, organic matter, B:34
carbon, organic
bacteria,
B:305-306
normal faults, B:650, 656
sapropels, A:21, 23-24,
165-166, 354, 478-479; B:201, 229, 262-263, 272-274,
286, 354
sedimentation rates, B:34
sulfate reduction,
B:253-254
vs. age, B:317, 318,
324-327
vs. alkenone sea-surface
temperature, B:280
vs. biostratigraphic age,
B:274
vs. carbon isotopes, B:179
vs. degree of pyritization,
B:254
vs. depth, A:82, 118,
194-195, 258, 262, 317, 369, 371, 399, 441, 461, 488;
B:200, 251, 305, 658
vs. hydrogen index, A:195,
260, 370; B:275
vs. iron, B:255
vs. sterols, B:279
vs. total sulfur, B:254
carbon,
organic/nitrogen ratio
sediments, A:395-396, 439, 460, 486
vs. depth, A:70, 82, 113,
115, 118, 189, 194, 250-251, 258, 313, 317, 369-370
carbon isotope
signal, Messinian/Pliocene boundary, B:7
carbon isotopes
biochronology, B:167-180
carbonates, B:448-450
Cretaceous, B:384, 389-390
Incertae sedis,
forma A, B:132
mean values, B:178
ooze, B:17-18, 21
sapropels, B:309-331
sediments, B:13-15
vs. age, B:316-317, 389
vs. depth, B:6, 21,
177-178, 200, 389, 449
vs. Messinian/Pliocene
boundary, B:6
vs. organic carbon, B:179
vs. oxygen isotopes, B:450
vs. oxygen isotopes of Globigerinoides
obliquus, Oridorsalis stellatus, and Incertae
sedis, forma A, B:132
vs. planktonic
foraminiferal zones, B:389
carbon number
sapropels, B:264, 280
steroid alcohols, B:279
carbonate
breccia, matrix-supported, lenses, B:494-496
carbonate
clasts
lithologic units, A:130, 161
lithology, A:266
carbonate
compensation depth
Cretaceous-Eocene succession, B:499
Cretaceous-Paleogene
succession, B:413
Upper Cretaceous, B:408
carbonate
content
ooze,
B:17
sapropels, B:272-274
sediments, B:634-636
vs. depth, A:82, 118, 194,
258, 317, 369, 399, 441, 461, 488; B:200, 210, 212,
221, 223, 440, 658
carbonate
grains, petrography, B:580
carbonate logs,
vs. depth, A:285-287
carbonate
platforms
evolution
of seamount in relation to Eratosthenes Seamount,
B:696-697
history, A:266-267
Lower Cretaceous, B:404,
406, 408
Mesozoic, B:740-741
tectonics, B:671
carbonates
atomic
absorption data, A:192
composition, B:4
diagenesis, A:67, 69, 110,
188, 311, 363, 366
dissolution, B:231, 234,
237, 240, 245
electron microprobe data,
B:428
fragmentation, A:136
geochemistry, B:447-451
lithologic units, A:130,
143
paleoenvironment, B:483-508
paleogeography, B:414-415
photomicrograph, B:8, 405,
407, 409
shallow-water facies, B:378
X-ray diffraction data,
B:427-428
carbonates,
bathyal-pelagic, Oligocene, B:410, 412
carbonates,
fine-grained, petrography, B:578-579
carbonates,
laminated, photomicrograph, B:405
carbonates,
neritic
Early
Cretaceous, B:404, 406, 408
shallow-water carbonate
platforms, B:404, 406, 408
carbonates,
pelagic
lithofacies, B:408, 683
photograph, B:406
photomicrograph, B:407,
409, 593
Upper Cretaceous, B:408
carbonates,
shallow-water, Miocene, B:419-436, 684-685
carbonates,
silicified, photomicrograph, B:405
Carmel. See
Mount Carmel
carotene. See
beta-carotene derivative
carotenoids, sapropels, B:298-302
cells, dividing, bacteria,
B:304-306
cementation
diagenesis, B:424-425, 427, 581, 583
sparry calcite, B:474
Cenomanian
hiatuses,
B:522
stratigraphy, B:413
tectonic models, B:769
zoning, B:384
Cenomanian-Turonian succession, plate tectonics, B:770
ceratolith
taxa, abundance, B:104
Ceratolithus
rugosus, abundance, B:104
chain length,
vs. alkenone sea-surface temperature, B:279-280
chalk
Aptian,
B:406
biostratigraphy, B:395-401
Cretaceous, A:127; B:406
deformation, A:238-239
Messinian-Pliocene
succession, B:458-459, 491
petrography, B:471
stratigraphy, B:703
tectonics, B:704
chalk,
bioturbated, Formation MicroScanner, B:498
chalk,
foraminifer-nannofossil
lithologic units, A:222-223
photograph, A:238-239
chalk,
micritic, deformation, A:242
chalk,
nannofossil
Aptian,
B:406
lithofacies, B:469-471
photograph, A:237, 247-248
chalk, pelagic
lithofacies, B:408
middle Eocene, B:410
Miocene, B:690
chalk,
silicified, photomicrograph, B:407
chalk clasts,
lithofacies, B:469, 555
channels,
lithofacies, B:554, 557
chaotic beds,
photograph, A:230
chemostratigraphy, Messinian/Zanclean boundary, B:17, 21
chemosynthetic
processes, mud domes, A:11
chert
diagenesis, B:408, 684
lithologic units, A:162
paleoenvironment, A:163-164
petrography, B:455
chert, black,
photograph, A:238
chert,
radiolarian, photomicrograph, B:592
chert nodules,
photograph, A:238
chevron
folding, photograph, A:308
chevron
structures, deformation, A:304, 307, 310
chlorine
diagenesis, A:311
evaporites, A:69, 247, 249,
311, 366-367
pore water, A:110, 186,
391-393, 485
vs. calcium, A:254
vs. depth, A:79, 114-115,
190, 254, 314, 367, 393-395, 436-437, 486; B:571
vs. potassium, strontium,
and lithium, A:115
vs. sodium, A:254, 313
See also
bromine/chlorine ratio; calcium/chlorine ratio;
lithium/chlorine ratio; magnesium/chlorine ratio;
potassium/chlorine ratio; sodium/chlorine ratio;
strontium/chlorine ratio; sulfate/chlorine ratio
chlorine/hydrogen ratio
vs.
depth, A:271
See also salinity
logs
chlorinity
gas
hydrates, B:669
pore water, A:67
chlorins,
sapropels, B:298-302
chlorite
abundance, B:241
electron microscopy,
B:443-444
lithologic units, B:438
petrography, B:455
provenance, B:238
vs. depth, B:221, 223
chlorophyll
sapropels, B:298-302
See also deep
chlorophyll maximum
chlorophyllone
alpha, sapropels, B:298-302
cholesterol,
sapropels, B:266
Chondrites
chalk,
B:410
laminations, B:337-338
lithofacies, B:408
lithologic units, A:59-60,
220-223, 294, 341-342, 423
photograph, A:66, 68-69,
99, 169-171, 196, 235, 237, 299, 350-351
photomicrograph, B:342
chromium, vs.
depth, B:201
chromium/aluminum ratio
sedimentation, B:213-214
vs. depth, B:210-212
chronology,
lower Pleistocene, B:191-197
chronostratigraphy
Messinian/Zanclean boundary, B:115-118
Pliocene-Quaternary
succession, B:161-164
Pliocene/Quaternary
boundary, B:101
Cilicia Basin,
tectonics, A:6
Cilicia-Adana
Basin, tectonics, B:749-750
circulation,
paleoceanography, A:21
clams, mud
domes, A:11
clast area, vs.
depth, B:628-629
clast lithology
mineralogy and composition, B:584-585
origin, B:584-586
clast size, vs.
depth, A:385, 387, 428
clastic
environment, sedimentation, B:563-564
clastics,
carbonate-quartzose, petrography, B:579
clastics,
clay-rich, petrography, B:580
clasts
carbonates, B:428-429
characteristics, A:389,
427-430
diagenesis, B:581, 583
distribution, B:602, 671,
677
halite, B:669
lithofacies, B:550-559
lithologic units, A:424,
430-431
lithology, A:400-401
mass flow units, B:468
Messinian-Pliocene
succession, B:458-459, 685-686
mud breccia, A:11-14;
B:598-599
mud domes, A:522-524
mud volcanoes, B:575-595
occurrence, A:445
paleogeography, B:672-673
petrography, B:471, 577-579
photograph, A:230, 245
photomicrograph, B:472-473,
591-593
Pliocene channels,
B:477-478
provenance and age, B:668
structural data, A:483
See also
bioclasts; biomicrite clasts; carbonate clasts; chalk
clasts; crystalloclasts; intraclasts; limestone
clasts; lithoclasts; mud clasts; mudstone clasts;
sandstone clasts; siltstone clasts
clasts,
shardlike, petrography, B:579
clathrates
mud
domes, A:394, 522-524
occurrence, A:445
sediments, A:394-395
See also gas
hydrates
clay
abundance, B:241
electron microscopy,
B:443-444
lithologic units,
A:220-222, 295, 469-471; B:438
photograph, A:230, 233-234,
298, 300
pore water, A:187
vs. depth, A:96, 164, 228,
297, 342, 385
clay,
calcareous, lithologic units, A:130, 340; B:438, 454
clay,
nannofossil
lithologic units, A:59, 92-93, 129-130, 220-222,
294-295, 339-340, 381, 421-423, 452-454; B:438
lithostratigraphy, A:75-76,
78
photograph, A:237, 344,
426, 455-457, 471-472, 474
clay, silty
lithologic units, A:294-296, 423-424, 427-428; B:438
photograph, A:300, 345-346,
424, 430, 474-475; B:341
clay minerals
lithologic units, A:59; B:438
matrix, B:599-600, 668
matrix composition vs.
depth, B:603-604
Messinian-Pliocene
succession, B:440
origin, B:586-587
sapropels, B:35, 235,
241-245
vs. depth, B:221, 223
clays. See
mixed-layer clays
claystone
mud
domes, A:522-524; B:668
petrography, B:577, 580
photograph, A:429
claystone,
calcareous, photograph, A:477
cobalt, vs.
depth, B:201
Cobb Mountain
Cryptochron, magnetostratigraphy, B:64, 72
Cobblestone 3
diapiric area, mud breccia, B:602
cobblestone
topography
geology,
A:337
Pliocene-Quaternary
succession, A:88
Coccolithus
pelagicus, Zanclean abundance, B:119
Cochiti
Subchron, remanent magnetization, A:179, 356-357
coercivity,
magnetic intensity, A:500
collisions. See
continental collisions
Collospherid
group, Site 971, B:138, 149
color. See
lithofacies/color ratio
color banding
deformation, A:307, 310
lithologic units, A:422,
454, 471, 474; B:438
photograph, A:97-100, 308,
343, 457, 476
color
reflectance. See reflectance
compaction
deformation, A:180, 182
diagenesis, B:427
composite
depths
continuous sedimentary sequences, B:37-59
depth offsets, A:113
lithology, A:95
revision, B:45, 53, 55,
57
revision procedure,
B:41
section construction,
B:40-41
Site 963, A:64, 66, 76
Site 964, A:106, 108
Site 966, A:182-183,
185-186
Site 967, A:242-244,
246
Site 968, A:310
Site 969, A:362-363
Site 973, A:484
splice tie points,
A:78, 113, 189, 253, 366, 485
compressional
tectonics
composite
depths, A:363
plate tectonics, A:9-10
uplifts, B:690, 716-717
compressional
wave velocity
acoustic
properties, B:536-543
sediments, A:72, 83, 118,
122, 138-139, 191, 197, 254, 261, 314, 319, 371-372,
397, 401, 442-443, 460, 462, 488-489; bp:CD-ROM
vs. bulk density, B:538,
541
vs. depth, A:84, 122, 140,
198, 262, 319, 373, 463, 490
vs. dolomite, B:537-538
vs. insoluble residues,
B:538
vs. porosity, B:538, 541
conductive
heat, sediments, A:317
conglomerate
lithofacies, B:549-564
lithologic units, A:381-383
photograph, A:387
Pliocene channels,
B:477-478
See also
fanglomerate; gravel; paraconglomerate; pebbles
conglomerate,
clast-supported, lithofacies, B:471
Coniacian,
stratigraphy, B:412
consolidation
tests, sediments, B:630-632, 637- 640
continental
collisions
continental margins, A:6-10
seamounts, A:513-520;
B:709-721
seamounts with active
margins, B:465-481, 681-699
subsidence, B:509-515
tectonics, A:14-16;
B:670-672, 772
continental
margins
continental collisions, A:6-10
divergence, B:706
See also active
margins; passive margins
convergent
plate boundaries
evolution
of seamount in relation to Eratosthenes Seamount,
B:696-697, 716-717
mud volcanism, B:675-678
seamounts, A:9-10
copper, vs.
depth, B:201
coral material,
Miocene, B:420-421
corals
lithologic units, A:223
Miocene, B:422
photograph, B:422
corals,
poritid, photomicrograph, B:424-425
cores, suck-in
photograph, A:501
coring
gaps,
B:52, 54, 56, 58
magnetic overprints,
A:497-505
correlation
composite
depths, B:42-44
composite sections, A:91,
342-344
data sets, B:40
different Mediterranean
sequences, B:163
lithologic units, A:474,
476
lithology, A:94-95; B:25
Pliocene/Pleistocene
nannofossil, foraminifer, Bachymayerella tenuis,
and Incertae sedis, forma A zones, B:129
sapropels, B:31-33
sediments, B:220
to Singa section, B:164
corrensite,
origin, B:587
Corsica,
tectonics, A:15
Cretaceous
biostratigraphy, B:377-394
chalk, A:127
geology, A:291
isotope stratigraphy, B:384
lithologic units, A:222-223
planktonic foraminiferal
zones vs. their thickness and sedimentation rate,
B:386
planktonic foraminifers,
B:378-383
sedimentation rates,
B:384-386
tectonics, A:14-16
See also
individual stages
Cretaceous,
Lower
basement,
B:734-736
neritic carbonates, B:404,
406, 408, 491, 683-684
paleoenvironment, B:500,
683-684
tectonic models, B:766, 769
Cretaceous, Lower-Middle,
B:726
Cretaceous,
Upper
bathyal
deposition, B:408
biostratigraphy, B:395-401
collisions, A:513, 515
ophiolite, B:761, 764
paleogeography, B:672
tectonic models, B:769
tectonics, B:759
Cretaceous-Eocene succession, paleoenvironment, B:499
Cretaceous-Holocene succession, hiatuses, B:517-526
Cretaceous-Paleogene succession
sedimentology, B:403-417
subsidence, B:512
Cretaceous/Tertiary boundary, hiatuses, B:384
Crete
conglomerate comparison, B:562
geology, A:337
paleoceanography, A:21-25
sandstone, B:584
tectonics, A:5-6; B:670-671
thrust sheets, B:585
crinoid
ossicles
lithofacies, B:408
photomicrograph, B:409
crinoids,
lithologic units, A:223
cross
laminations
clasts,
B:583
mud breccia, B:601
photograph, A:390
photomicrograph, B:595
See also
laminations
crust
evolution
of seamount in relation to Eratosthenes Seamount,
B:696-697
subduction zones, B:694
crust, oceanic,
tectonics, A:14-16
crystalloclasts, mud breccia, B:598, 601-602
Cungus
Formation, tectonics, B:761
cyanobacteria
sapropels, B:265
See also bacteria
cyclopentenones, alkylated, sapropels, B:288
cyclostratigraphy
calcareous plankton, B:155-165
geochemistry, B:208-211
middle Pliocene, B:219-226
sapropels, B:193-195
Cyprus
comparison of mass flow units, B:474, 476-480
crust, B:727, 768
crust fragmentation, B:695,
713
fanglomerate, B:545-566
flexure, B:513
Messinian gypsum, B:459-460
Cyprus E,
tectonics, B:750-759
Cyprus S
basement,
B:741, 743-749
Cretaceous tectonics,
B:704-705
Cretaceous-Paleogene
succession, B:412-413
diagenesis of Miocene
reefs, B:431
lower Miocene reefs,
B:430-431
uplifts, B:690-691
upper Miocene reefs, B:431
Cyprus SE,
tectonics, B:751-753
Cyprus W
lithofacies, B:477
plate boundary, B:731-736
Cyprus margin
geology,
A:126-127, 142-143, 196-197, 199, 263-267, 290-291,
324-326; B:682-683, 686
Messinian nonmarine
deposition, B:437-445
oceanic crust, B:729
paleoenvironment, B:453-463
plate tectonics, A:5-6,
8-10, 515-520; B:465-481, 717-720
Cyprus Trench,
tectonics, B:750-751
Cyprus-Latakia
Link zone, tectonics, B:754-756
Cyrenaica
Peninsula, tectonics, A:6; B:670
|
D
|
debris flows
carbonates, B:458, 687
cobblestone topography,
A:88
deformation,
A:180, 182, 242
Formation
MicroScanner logs, B:619
lithologic units,
A:381-383, 423-424, 427-428
lithology, A:400
mud breccia, A:12-14;
B:600, 677
mud domes, A:524
occurrence, A:445
paleoenvironment, A:162-164
photograph, A:183, 245,
390, 428
photomicrograph, B:472-473
structural data, A:136
See also gravity
flows; mass flow deposits; mud flows; slumping
décollement
zone
geology,
A:337, 451; B:677
mud matrix, B:587-588
seamounts, B:693
deep
chlorophyll maximum, Zanclean, B:119-120
deformation
evaporites, A:14-16, 517
faults, A:104-106
lithologic units,
A:234-235, 238-242
lithostratigraphy,
A:179-180, 182
mud breccia, B:600
photograph, A:229, 247-249
photomicrograph, B:594
seamounts, B:688-690
tectonics, A:56-58; B:704
degassing,
geology, A:378-379
degradation
organic
matter, A:67, 108, 110, 247, 310-311, 363
sapropels, B:274
demagnetization
magnetic
intensity, A:500-501; B:60
vectors, A:72, 105, 178,
243, 358; B:63, 65-67, 69
demagnetization, thermal, intensity-decay curves, B:66,
68
density, vs.
depth, A:84, 319, 372, 401, 403, 441, 462, 489; B:539-540
density, bulk
Pliocene-Quaternary succession, B:228
vs. compressional wave
velocity, B:538, 541
vs. depth, A:122, 140,
144-145, 197-198, 200-202, 261-262, 264-266, 319,
325-326, 373, 443, 463, 490
vs. porosity, B:541
density, GRAPE,
sediments, A:71-72, 118, 138, 191, 254, 314, 371, 397,
442, 444, 460, 487
density, index
property, vs. depth, A:140, 198, 262
density, method
C, vs. depth, A:84
density,
wet-bulk, vs. depth, A:83
density
correction logs, vs. depth, A:144-145, 200, 208-210,
264-266, 325-326, 446
density logs
vs.
depth, A:270, 327, 408, 446
See also gamma
ray-density-porosity logs; lithodensity logs
deposition
basins,
B:456-457
carbonates, B:428-429
clast lithology, B:584-585
clasts, B:586
controls, B:433-434
history, A:130-132,
223-224, 344, 476-477
mass flow deposits,
B:478-480
models, A:134
paleoenvironment, A:96-97,
100, 102-103, 162-164, 296-297, 303, 454
sapropels, A:24
deposition,
nonmarine, Messinian, B:437-445
depth
intervals, well-logs, A:142, 199, 263, 322, 404, 445, 491
des-A-triterpinoids, sapropels, B:287, 289
Dhekelia,
fanglomerate, B:555-556
Dhiarizos Group
basement,
B:735
tectonics, B:704-705
di-unsaturated
cyclized isorenieratene derivative, mass spectra, B:291
di-unsaturated
isorenieratane derivative, mass spectra, B:291
diachroneity,
cyclostratigraphy, B:195
diagenesis
carbonates, A:67, 69, 110, 188, 311, 363, 366;
B:423-425, 427
chalk, B:406, 408
clasts, B:581, 583
mass flow units, B:474
matrix, B:587
photograph, A:99, 185, 457
photomicrograph, B:426,
472-473, 475
provenance of trace
elements, B:202
remanent magnetization,
A:177, 179
sapropels, B:31-33, 257,
274, 289
secondary minerals, B:408
sediments, A:438
See also
alteration; authigenesis; cementation; compaction;
dolomitization; pyritization; recrystallization;
remineralization; silicification; sulfidization
diapiric
structures
mud
volcanoes, B:597-605
plate boundary, B:731
structural data, A:383-385
diapirism
geology,
A:378-379
mud domes, A:10-14
mud volcanism, B:675-678
See also mud
diapirism; mud volcanism
diatom
frustules
lithologic units, A:423
See also frustules
diatom mats
paleoecology, B:357-358
preservation, B:144-145
diatoms
biostratigraphy, A:435
electron microscopy, B:355,
357, 361-363
occurrence, A:445; B:356
opal, B:338
paleoecology, B:357-358
photograph, A:426
sapropels, B:34, 335, 340
diffusion, iron, B:256
dinoflagellates, sapropels, B:289
dinostanol,
sapropels, B:289
dinosterol,
sapropels, B:266, 287, 289
diols,
sapropels, B:264-265, 276, 287
dip
deformation, A:304, 307, 310
fault planes, A:108
faults and fractures, A:185
Formation MicroScanner
logs, B:504, 618-620
inclination, B:59
microfaults, A:183, 247,
308, 360
normal faults, B:647-649
seamounts, B:688-689
sediments, B:613
structural data, A:358-359
Discoaster
asymmetricus
abundance, B:107
acme, B:94
Discoaster
pentaradiatus, paracme, B:104, 107
Discoaster
spp.
abundance, B:105-106
abundance of selected
species, B:86-87, 90- 91
Zanclean abundance,
B:118-119
Discoaster
surculus, last appearance datum, B:94
Discoaster
tamalis
abundance, B:107, 220
acme, B:94
paracme, B:107
Discoaster
triradiatus, increase, B:107-108
Discoaster
variabilis, biostratigraphic events, B:94
disconformities, Pliocene-Quaternary succession, A:157
discontinuities, photograph, A:308
dissection,
lithofacies, B:554
dissolution
carbonates, B:231, 234, 237, 240, 245
diagenesis, B:425
gypsum, B:370
moats, B:500-501
opal, B:358-359
photomicrograph, B:475
provenance of trace
elements, B:203-204
radiolarians and
silicoflagellates, B:144-145
See also pressure
dissolution
dissolution
porosity
photograph, B:422-423
photomicrograph, B:426
dolomite
degree of
order vs. depth, B:449, 965
diagenesis, B:429
electron microprobe data,
B:428
lithologic units, A:296;
B:438-439, 442
petrography, B:456
photomicrograph, B:8, 506
sediments, B:447-448, 581
vs. compressional wave
velocity, B:537-538
vs. depth, B:449, 965
vs. strontium, B:450
X-ray diffraction data,
B:427-428, 474
See also
calcite/dolomite ratio
dolomitization
diagenesis, B:429
pore water, B:450
downhole
measurements
paleoenvironment, B:483-508
physical properties,
B:535-543
Site 965, A:141-142
Site 966, A:192, 194-196
Site 967, A:255, 258-263
Site 968, A:321-324
Site 970, A:399
Site 971, A:444-445
Site 973, A:489-491
drilling,
normal faults, A:507-511
drilling
disturbance, mass flow units, B:468-469
|
E
|
earthquakes, tectonics,
A:5-6 East
Anatolian Fault, tectonics, A:6; B:758, 771, 774-775
eccentricity,
sapropels, B:33
echinoderm
spines, photomicrograph, B:426
echinoderms,
Miocene, B:423
echinoids
accumulation rates, B:231-232, 234, 237, 240
lithologic units, A:161
Egypt,
Miocene-Pliocene succession, B:498
electron
microprobe data
carbonates, B:428
sediments, B:609-610
emergence, mass flow
deposits, B:478
Emilian
calcareous plankton, B:155-165
See also
Santernian/Emilian boundary
Eocene
biostratigraphy, B:395-401
carbonates, B:458
collisions, A:513, 515
lithologic units, A:162,
222-223
planktonic foraminifers,
B:379
stratigraphy, B:412-413
tectonics, B:748, 763-764,
776
zoning, B:384
See also
Cretaceous-Eocene succession; Jurassic-Eocene
succession; Paleocene-lower Eocene succession
Eocene, lower,
tectonic models, B:771-772
Eocene, middle,
pelagic chalk, B:410
Eocene,
middle-late
plate
tectonics, B:772
tectonic models, B:772-773
Eocene-Miocene
succession, seamount shallowing, B:496, 498-499
Eratosthenes
Moat, depressions, B:500-501
Eratosthenes
Seamount
acoustic
properties, B:535-543
basement, B:741
bathymetry, A:6-10
biostratigraphy, B:10, 13,
83-98, 377-394
carbonate geochemistry,
B:447-451
collisions, A:513-520;
B:681-699, 709-721
continental fragment, B:730
crust, B:727
depositional model, B:434
Eocene-Upper Cretaceous,
B:395-401
geology, A:126-127,
142-143, 157, 196-197, 199, 217-218, 263-267; B:742
hiatuses, B:517-526
lithofacies, B:403-417
mass flow deposits,
B:465-481
Messinian, B:457-459
Miocene carbonates,
B:419-436
normal faults, B:645-661
paleoceanography, B:701-708
paleoenvironment,
B:453-463, 483-508
plate tectonics, A:8-10
sapropels, B:207-217,
242-244
sedimentology, B:3-4,
403-417
structure, B:702-703
subsidence, B:509-515
tectonic models, B:691-697
tectonics, B:527-534, 773
Eratosthenes
Seamount-Cyprus transect, drilling, A:5-10
erosion
gaps,
B:53, 59
lithofacies, B:551, 558-559
lithologic units, A:471
mass flow deposits,
B:478-479
tectonics, B:704
erosion,
differential, photograph, A:472-473
erosional
surfaces
lithofacies, B:552
structural data, A:358-359
eruptions, mud
volcanoes, B:588
ethane
sediments, A:395
See also
methane/ethane ratio
Euboea,
conglomerate comparison, B:562
Eurasia
plate
tectonics, A:5-6; B:688
See also
African-Eurasian plate boundary
eustacy
sedimentation, B:563-564
See also
glacioeustacy; isostasy; sea-level changes
Eustigmatophyceae, sapropels, B:276, 289
euxinia
organic
matter, B:285-295
See also anoxia;
photic zone
evaporation,
isotopic stratigraphy, B:178-179
evaporites
clasts,
B:669
fluxes, A:69, 113, 366-367
geology, A:337
indicators, A:311
lithology, A:247, 249
Messinian, A:14-16, 87-88,
451, 466-467; B:368-370, 673-674, 677, 734
Messinian-Pliocene
succession, B:441, 458-459, 716, 718-720
moats, B:500-501
mud, A:13-14
Evvia,
conglomerate comparison, B:563
extensional
tectonics, plate tectonics, A:9-10
|
F
|
fabric
burrows,
A:186
deformation, A:180, 182
mousselike, A:428
photograph, A:186, 247, 428
photomicrograph, B:342,
344, 346
See also
microfabric
Famagusta-Hatay
Unit, tectonics, B:753-756
fan faulting,
photograph, A:309
fanglomerate,
deposition, B:545-566, 746
Fanglomerate F1
and F2, lithofacies, B:549, 556-557, 560-562
Fanglomerate
F3, lithofacies, B:550, 557, 560-562
Fanglomerate
F4, lithofacies, B:550-551, 557-562
Fanglomerate
Group, uplifts, B:545-566
fatty acids. See
lipids; n-fatty acids
fault planes
deformation, A:106, 307, 310
dip, A:108
structural data, A:64
tensors, A:110
faults
deformation, A:104-106, 143, 180, 182, 234-235,
238-242
dip, A:185
gaps, B:53, 59
mass flow deposits,
B:478-479
mud volcanoes, B:641-642
photograph, A:229
Pliocene-Quaternary
succession, A:157, 518; B:716
projection, A:244, 310
rotation, A:310
seamounts, B:688-689
strain, B:521
structural data, A:458
tectonics, B:704
vs. depth, A:244
See also fan
faulting; microfaults; normal faults; overthrusting;
reverse faults; strike-slip faults; thrust faults;
underthrusting
faults, block,
hiatuses, B:524
faults,
extensional
debris
flows, B:476
moats, B:500-501, 694
seamounts, B:692
faults,
high-angle, photograph, A:109
feldspar
matrix,
B:599
photomicrograph, B:592
See also
individual minerals
feldspar
grains, photomicrograph, B:591
fibrous grains,
photomicrograph, B:472
fish debris,
sediments, B:230, 233, 236, 239
flexure,
subsidence, B:513
floatstone
Formation
MicroScanner, B:493
lithofacies, B:495
Florence Rise
geology,
A:337; B:775
lithofacies, B:459
Miocene-Pliocene
succession, B:478
offshore geology, B:736-737
tectonics, A:6
Florisphaera
profunda, Zanclean abundance, B:118
fluid flow,
model, A:320
fluid pressure,
mudstone, B:588
fluvial
environment, lithofacies, B:560
folding
Pliocene-Quaternary succession, A:157
See also chevron
folding
foraminifers
abundance, B:22
electron microscopy, B:445
lithologic units, A:160-162
Messinian-Pliocene, B:441
Miocene, B:420-423
petrography, B:471
photograph, A:97, 476
photomicrograph, B:506,
508, 658
sapropels, A:95-96
sediments, B:457
stratigraphy, B:703
vs. depth, A:96, 164, 228,
342, 385
foraminifers,
benthic
accumulation rates, B:231-232, 234, 237, 240
biostratigraphy, A:135,
176, 353-355; B:13-14, 16, 17
photomicrograph, B:407, 424
Pliocene distribution and
abundance, B:18, 20
sediments, B:230, 233, 236,
239
foraminifers, planktonic
accumulation rates,
B:231-232, 234, 237, 240
biostratigraphy, A:61-62,
101-102, 134-135, 175-176, 230-231, 302, 353, 387,
389-390, 434-435, 457-458, 478-479; B:10, 13-14, 17,
129-131, 156-157, 379-394
diagenesis, B:581, 583
electron microscopy, B:357,
361
Messinian and Zanclean
distribution and abundance, B:16, 19
photomicrograph, B:407,
409, 424, 593
Pliocene distribution and
abundance, B:16, 19
Pliocene-Quaternary
abundance, B:158-160
sediments, B:230, 233, 236,
239
size fraction and stable
isotopes, B:13-15
stable isotopes, B:170-177
stratigraphic list, A:102,
135, 177, 242, 303, 356, 480
Formation
MicroScanner logs
bedding
and fractures, B:521
bioturbated chalk, B:498
brecciated limestone, B:498
correlation with
lithostratigraphy, B:607-624
floatstone,
B:493
grainstone, B:493
gypsum, B:496
Messinian breccia, B:493
Miocene/Eocene
unconformities, B:494
tectonics, B:527-534
vs. depth, A:146-147,
203-205, 211-213, 267-269, 278-281
fractionation,
stable isotopes, B:449-450
fractures
deformation, A:239-241
dip, A:185
Formation MicroScanner
logs, B:521, 612-623
frequency with depth, A:183
orientation, B:529
photograph, A:132, 239,
248, 429
photomicrograph, B:506
seamounts, B:688-689
structural data, B:520
vs. depth, A:244
fragmentation
carbonates, A:136
diagenesis, B:427
mudstone, B:588, 598
framboids,
lithologic units, A:59
friction angle
sediment
fabric and composition, B:659-660
vs. water content, B:660
frustules. See
diatom frustules
frustules,
rhizosolenid, photomicrograph, B:342, 346
furans,
alkylated, sapropels, B:288
|
G
|
gadolinium logs, vs. depth,
A:285-287 gamma
ray-density-porosity logs
Site 966,
A:208-210
Site 967, A:274-277
Site 968, A:330-331
Site 970, A:410-411
Site 971, A:449
vs. depth, A:150-151
gamma
ray-resistivity-sonic logs
Site 966,
A:211-213
Site 967, A:278-281
Site 968, A:332-333
Site 970, A:412-413
Site 971, A:449
Site 973, A:494
vs. depth, A:152-153
gamma rays
sediments, A:73, 118, 139, 191, 254, 316, 372, 461,
488
vs. depth, A:84, 123, 140,
148, 198, 200-206, 262, 264-270, 274-284, 320, 373,
463, 490
gamma-ray logs
lithology, B:485, 487
vs. depth, A:200-206,
208-213, 264-271, 274-284, 323-324, 327, 404-408,
446-447, 491
gas hydrates
chlorinity, B:669
mud domes, A:522-524
pore water, A:187;
B:569-574
See also clathrates
gases
occurrence, A:445
sediments, A:394-395
gastropods
lithologic units, A:162
Messinian-Pliocene
succession, B:441
photomicrograph, B:473
Gauss Chron
remanent
magnetization, A:104, 136
See also
Gilbert/Gauss boundary
Gauss/Matuyama
boundary
magnetostratigraphy, B:67
remanent magnetization,
A:233-234, 356
geanticlines,
tectonic models, B:775
Gela Basin,
tectonics, A:56-57
Gela Nappe,
tectonics, A:56-57
Gelasian
calcareous plankton, B:155-165
See also
Piacenzian/Gelasian boundary
Gelendzhik
Rise, tectonics, B:751-753
geochemical
logs
gypsum, A:263
vs.
depth, A:144-147, 150-151, 200-202, 208-210, 260-261,
264-271, 274-277, 282-287, 323-324, 404-408, 446-447,
491
geochemistry
carbonates, B:447-451
sapropels, B:199-217
geochemistry,
inorganic
Site 963,
A:67, 69
Site 964, A:108, 110, 113
Site 966, A:185-188
Site 967, A:246-247,
249-250
Site 968, A:310-313
Site 969, A:363, 366-367
Site 970, A:390-394
Site 971, A:435-437
Site 973, A:484-485
geochemistry,
organic
Site 963,
A:69-71
Site 964, A:113, 115-117
Site 965, A:136-137
Site 966, A:188-190
Site 967, A:250-252
Site 968, A:313
Site 969, A:367-371
Site 970, A:394-396
Site 971, A:437-439
Site 972, A:459-460
Site 973, A:485-487
geologic maps,
Kyrenia Range, B:747
geological
setting
Site 963,
A:56-58
Site 964, A:87-88
Site 965, A:126-127
Site 966, A:157
Site 967, A:217-218
Site 968, A:290-291
Site 969, A:336-337
Site 970, A:378-379
Site 971, A:416-417
Site 972, A:451
Site 973, A:466-467
geophysics,
tectonics, A:5-6
geothermal
gradient
organic
matter, B:318-319
vs. depth, A:148, 206,
321-322
Gephyrocapsa
sp., Pleistocene, B:191-197
Gephyrocapsa
sp. 3, distribution pattern, B:108
Gilbert Chron,
remanent magnetization, A:179
Gilbert/Gauss
boundary, remanent magnetization, A:234, 356-357
glacial
environment, deposition, A:102
glacial/interglacial cycles, sapropels, A:21, 23-24
glaciation
isotopic
stratigraphy, B:178-179
sedimentation, B:563-564
glacioeustacy
uplifts,
B:733
See also eustacy;
isostasy; sea-level changes
glauconite
diagenesis, B:408
Miocene, B:420, 423
glauconite
grains, clasts, B:599
glauconite
pellets, origin, B:587
Globigerina
bulloides
abundance, B:22
stable isotopes, B:170-177
Globigerinoides
obliquus, size fraction and stable isotopes, B:13-15
Globigerinoides
spp.
abundance, B:22
Pliocene-Quaternary
succession abundance, B:157, 162
Gondwana
continental margins, A:6-10; B:670, 682-683, 706
tectonic models, B:775
tectonics, A:56
grabens,
quadrilateral, seamounts, B:691-692
grabens,
uplifts, B:733
graded bedding
deformation, A:238-239
lithostratigraphy, A:75-76,
78
grading
petrography, B:580
sediments, B:612, 614
grain size
mud
volcanoes, B:628-630, 638
normal faults, B:650, 657
sapropels, B:235, 241
sediments, B:13-15
vs. depth, B:628-629
grainstone
Formation
MicroScanner imagery, B:493
lithofacies, B:476-477, 495
lithology, A:143, 196
Miocene, B:420-436
photograph, B:422
photomicrograph, B:508
X-ray diffraction data,
B:427-428
gravel
gases,
B:588
See also pebbles
gravel,
polymictic
Formation
MicroScanner logs, B:614-615
lithologic units, A:381-383
photograph, A:388
gravity
anomalies, seamounts, A:8-10
gravity flows
mud
breccia, B:600
turbidites, B:687
See also debris
flows
Greece
crust
fragmentation, B:695
tectonics, B:683
Guzelsu Unit,
tectonics, B:750, 770
gypsarenite,
photograph, A:300
gypsum
deposition, A:224
electron microscopy,
B:445
Formation MicroScanner,
B:496
geology,
A:290; B:459-460, 746
indicators, A:250, 311, 324-326
lithologic units, A:59,
471, 474; B:440, 454
Messinian, A:515-516;
B:458-462, 491, 686
Messinian-Pliocene
succession, B:458
photograph, A:476-477, 483
photomicrograph, B:122
sedimentology, B:3-8, 366,
368, 774
strontium/calcium ratio,
A:263
structural data, A:483
gypsum,
alabastrine, photograph, A:300
gypsum,
authigenic, formation, B:368-370
|
H |
Haddim
Nappes, lithofacies, B:772 Halete volcanic unit, tectonics,
B:763-764, 766
halite
clasts,
A:431; B:613, 669
mud matrix, B:587-588
photograph, A:429
sediments, B:581
Hatay
ophiolite, B:760, 769
See also
Famagusta-Hatay Unit
Hazar Group,
tectonics, B:761
Hazro Inlier,
tectonics, B:761, 766
heat flow
deformation, A:242
evaporites, A:366-367
Site 968, A:317-320
Site 969, A:373-374
Site 972, A:461
Hecataeus
Ridge, lineaments, B:750-751
Hecataeus-Latakia Unit, tectonics, B:753
Helicosphaera
sellii, abundance, B:104
Hellenic Trench
geology,
A:379
paleoenvironment, B:500
tectonics, A:5-6; B:670-671
hematite
photograph, A:344
remanent magnetization,
A:177, 179
Herodotus
Abyssal Plain, geology, A:337
hexane,
biomarkers, B:352
hiatuses
Cretaceous/Tertiary boundary, B:384
mud breccia, A:11-14,
516-517
remanent magnetization,
A:136
tectonics, A:56-58
Upper Cretaceous-Holocene
succession, B:517-526, 683-688
See also
unconformities
Hilarion
Limestone, tectonics, B:749
Holocene
plate
tectonics, B:706, 716-718
tectonic models, B:775
See also
Cretaceous-Holocene succession; Pliocene-Quaternary
succession; Quaternary; Tertiary-Holocene succession
hot spots,
uplifts, B:690
Hoyran. See
Beysehir-Hoyran Nappes
Hyalinea
baltica, biostratigraphy, A:61-62
Hyblean
Plateau, tectonics, A:16
hydraulic
conductivity, mud volcanoes, B:638
hydrocarbons
biomarkers, B:352
gases, A:397
headspace data, A:80, 460,
487
mass spectra of unknown
bicyclic C25 compounds, B:277
mud domes, A:524
sapropels, B:263-268, 289
vs. retention time, A:439
hydrocarbons,
aromatic, sapropels, B:287-288
hydrocarbons,
non-aromatic
gas
chromatograms, B:276
retention times and Kovats
retention indices, B:274-275
hydrocarbons,
volatile
sediments, A:69, 113, 136, 188, 250, 313, 367,
394-395, 437-439, 459, 485
hydrogen. See
chlorine/hydrogen ratio
hydrogen/(silicon + calcium) ratio
vs.
depth, A:271
See also porosity
logs
hydrogen index
sapropels, B:273-274
sediments, A:137, 189, 251,
396
vs. organic carbon, A:195,
260, 370; B:275
vs. oxygen index, B:274
hydrographic
fronts, sapropels, B:34
hydrothermal
vents, provenance of trace elements, B:202
|
I
|
igneous rocks, chloritized, photomicrograph, B:592 igneous rocks,
extrusive, photomicrograph, B:592
illite
abundance, B:241
Formation MicroScanner
logs, B:619
lithologic units, B:438
matrix, B:599, 614
origin, B:587
provenance, B:238
sediments, B:221
See also
kaolinite/illite ratio; smectite/illite ratio
imbrication
zone, tectonics, B:763
impedance, vs.
depth, B:539-540
Incertae
sedis, forma A
new
forms, B:128
Pliocene-Quaternary
succession, B:125-135
vs. planktonic foraminifer
and calcareous nannofossil zones, B:126-128
indenes,
alkylated, sapropels, B:288
index
properties
acoustic
properties, B:537
nannofossil ooze, B:636
sediments, A:71, 82, 118,
121, 138-139, 191, 197, 252, 254, 261, 313-314, 318,
371-372, 396-397, 400, 441-442, 460, 462, 489;
B:634-636; bp:CD-ROM
vs. depth, A:197, 261, 319
Inner
Deformation Front
geology,
A:374
mud volcanism, B:669-670
insolation
paleoclimatology, B:327-328
sapropels, B:31, 33,
194-195
See also orbital
insolation
insoluble
residues, vs. compressional wave velocity, B:538
internal
friction, sediment fabric and composition, B:659-660
interstitial
waters. See pore water
intraclasts
Miocene,
B:423
photomicrograph, B:425, 473
Ionian Basin
paleoceanography, B:38
paleoclimatology, B:219-226
sapropel geochemistry,
B:315-317
sapropels, A:118, 120;
B:207-217, 242-244
Ionian
(Messina) Abyssal Plain
geology,
A:118, 120, 337, 451, 461, 466-467
tectonics, A:87-88
Ionian Sea
Messinian
gypsum, B:459
tectonics, A:14-16
Ionian Zone,
subduction, B:759
Iraq, Miocene
carbonates, B:432-433
iron
addition
via diffusion, B:256
carbonates, B:448
enrichment, B:255
imbalance between sulfide
production and iron addition, B:256-257
iron sulfide formation,
B:256
relation to organic carbon,
B:255-256
sediment chemistry,
B:249-259
sources, mobility, and
fixation, B:255-256
storage, B:253-257
vs. depth, B:252
vs. NaCl-extracted sulfur,
B:253
vs. organic carbon, B:255
iron/aluminum
ratio, vs. depth, B:200, 210, 212
iron
hydroxides, oxidation, B:254-255
iron minerals,
reactivity, B:254-255
iron oxide
logs, vs. depth, A:285-287
iron oxides,
organic matter, A:67
iron sulfide,
imbalance between sulfide production and iron addition,
B:256-257
Isali
Formation, tectonics, B:757, 759
Iskenderun
Basin, tectonics, A:6; B:757
iso-alkanes,
sediments, A:438
iso-butane,
sediments, A:438
iso-loliolide,
sapropels, B:287
isomers. See
alcohol isomers
isoprenoids,
sapropels, B:264
isoprenoids,
aryl, sapropels, B:288
isorenieratane
mass spectra,
B:287, 291
sapropels,
B:287-290
See also
di-unsaturated cyclized isorenieratene derivative
isorenieratene
gas
chromatograms, B:287, 289-290, 292
See also
di-unsaturated cyclized isorenieratene derivative
isostasy
sedimentation, B:563-564, 691
uplifts, B:691
See also eustacy;
glacioeustacy; sea-level changes
isotopic
stratigraphy
calcareous plankton, B:159, 167-180
Cretaceous, B:384
Isparta Angle
carbonate
platforms, B:741
onshore geology, B:738-741,
770-771
Israel
margin
geology, B:729
Miocene carbonates,
B:432-433
Italy
paleoceanography, A:21-25
sapropel age, B:187,
191-197
|
J
|
Jaramillo Subchron
magnetostratigraphy, B:64, 72
remanent magnetization,
A:63, 78, 104, 136, 356, 458, 481
Jurassic
tectonic
models, B:766, 769
See also
Triassic-Jurassic succession
Jurassic-Eocene
succession, paleogeography, B:414
|
K
|
Kaena Subchron
magnetostratigraphy, B:67
remanent magnetization,
A:179, 234, 357
Kafr El Sheik
Formation, sediments, B:496
Kakkaristra
Formation, lithofacies, B:553
Kalagrai-Ardana
Unit, lithofacies, B:772
Kannaviou
Formation, basement, B:734, 769-770
Kantara
Limestone, tectonics, B:749, 766
kaolinite
electron
microscopy, B:443
lithologic units, A:295;
B:438
matrix, B:599
origin, B:586-587
provenance, B:238
sediments, B:581
vs. depth, B:221, 223
kaolinite/illite ratio, sediments, B:235, 242-244
kaolinite/smectite ratio, sediments, B:235, 242- 244
Karadere Unit,
tectonics, B:749, 763-764, 766, 772
Karatas
Formation, tectonics, B:757, 759
Keban Platform,
tectonics, B:761, 770
kerogen,
sapropels, B:273, 288-290, 292
keto-ols,
sapropels, B:287
ketols,
sapropels, B:264-265
ketones
bitumens,
A:117, 189, 251
gas chromatograms, B:278
sapropels, B:275-276
ketones,
methyl, sapropels, B:288
Khalassa
sub-basin, Messinian gypsum, B:459-460
Kilani
Formation, Oligocene, B:744
Killan Unit,
tectonics, B:763, 772
Kithrea Fault,
tectonics, B:746, 773
Kithrea Flysch,
tectonics, B:746, 748-749
Kiti Unit,
tectonics, B:753
Kocali
ophiolite, tectonics, B:769
Kopru Basin,
tectonics, B:749-750
Koronia
Formation, geology, A:291
Koronia Member,
limestone, B:476
Kovats
retention indices, hydrocarbons, B:274
Kumluca Zone,
geology, B:738
Kurd Dagh,
ophiolite, B:760
Kyrenia Range
Cretaceous-Paleogene succession, B:412-413, 746,
748-749
fanglomerate, B:560-562
tectonics, A:6; B:691,
765-766, 769, 771-775
Kyrenia-Misis
Lineament, tectonics, B:756
|
L
|
Lago Mare facies
carbonates, B:494
Messinian-Pliocene, B:441
paleoenvironment, B:18-22
laminations
composition, B:337
gases, B:588
lithofacies, B:408
lithologic units,
A:220-223, 340-342
mudstone, B:577
photograph, A:66, 98, 229,
237-248, 299, 347, 350, 388; B:406
photomicrograph, B:342,
344, 346, 348
preservation, B:337-338
sapropels, A:95-96; B:335,
339
sedimentary structures,
B:471
structural data, A:136
See also cross
laminations; pseudolaminations
laminations,
planar, photomicrograph, B:595
laminations,
rhizosolenid, electron microscopy, B:355, 357, 361-363
Lampedusa
Formation, Miocene carbonates, B:433
Langhian,
deposition, B:433-434
Latakia. See
Cyprus-Latakia Link zone; Hecataeus-Latakia Unit
Latakia Basin
lineaments, B:750-751, 774
tectonics, B:750-759
Latakia Ridge,
lineaments, B:750-751
lateral flow
ammonium,
A:311, 313
geochemistry, A:250
Lefkara
Formation
Cretaceous-Paleogene succession, B:413
geology, A:199, 291;
B:456-457, 462, 690-691, 734, 743, 773
lithofacies, B:474, 476
petrography, B:455
leiospheres,
laminations, B:338
Levant. See
also North Africa-Levant passive margin
Levant Basin
bathymetry, A:6-10
paleoceanography, B:38
sapropel geochemistry,
B:311
tectonics, A:5-6, 374;
B:703-704, 750-760, 767, 774-776
Levant margin
Cretaceous-Paleogene succession, B:412
geology, B:729, 766-767
Miocene carbonates,
B:432-433
Miocene-Pliocene
succession, B:498
paleoenvironment, B:500
Levant Sea,
crust, B:727
Lice Formation,
tectonics, B:761, 763
Limassol Forest
Ophiolite
lithofacies, B:558, 743
Miocene, B:690
sources, B:455
limestone
photomicrograph, B:472-473
See also
biocalcarenite; biomicrite; biosparite; calcarenite;
calcilutite; calcirudite; calciturbidite; micrite;
pelsparite
limestone,
bioclastic
mud
breccia, B:603
photograph, B:422-423
photomicrograph, B:424-425
limestone,
bituminous
composition, A:190, 197
lithologic units, A:223
limestone,
brecciated, lithologic units, A:223
limestone,
brecciated, shallow-water
Formation
MicroScanner logs, B:498
limestone,
dolomitized, paleoenvironment, B:500
limestone,
lithified, photograph, B:422-423
limestone,
micritic
lithologic units, A:222
mass flow units, B:467
limestone,
pelletal, photomicrograph, B:472
limestone,
recrystallized, lithologic units, A:130
limestone,
shallow-water
basement,
B:735
lithologic units,
A:161-162, 223
limestone
breccia, lithologic units, A:161
limestone
clasts
lithofacies, B:469-471, 555
mass flow units, B:467
Messinian-Pliocene
succession, B:458-459
limestone
pebbles
mass flow
units, B:467
photomicrograph, B:472
lineaments
basement,
B:734-736, 743
geology, B:690-691
tectonics, B:748-749,
754-756
lineaments,
submarine, ridges, B:750-751
lineations, mud
domes, A:12-14
Linosa Graben,
tectonics, A:73
lipids
organic
matter, B:34, 267-268, 280
partial gas chromatograms,
B:288
polar and apolar fraction,
B:289, 294-295
See also n-fatty
acids
lipids,
marine, sapropels, B:268
lipids,
terrestrial, sapropels, B:265
litharenite
lithology, A:400
mud breccia, B:601
petrography, B:577
lithic wackes,
mud breccia, B:601
lithification,
deformation, A:180, 182, 238-242
lithium
evaporites, A:69, 113
lateral flow, A:250, 313
pore water, A:437, 485
vs. chloride and bromide,
A:115
vs. depth, A:79, 114, 190,
253, 312, 336, 394-396, 436-437, 487
lithium/chlorine ratio, vs. depth, A:255, 396; B:572
lithoclasts
mud
breccia, B:598, 600
petrography, B:456, 577,
579
petrography and mineralogy,
B:455
solution porosity, B:474
lithodensity
logs, vs. depth, A:144-145
lithofacies
fanglomerate, B:548-562
late Miocene, B:434
lithologic
units, A:340
mass flow
units, B:469-471
Messinian-Pliocene
succession, B:458-462
mud breccia, B:600
paleoenvironment, B:453-463
photograph, B:552-553
sediments, B:613
tectonics, B:403-417
vs. depth, B:490
lithofacies/color ratio, carbonates, B:439
lithologic
units
deformation, A:179-180, 182, 234-235, 238-242
Site 963, A:59-60
Site 964, A:92-93
Site 965, A:129-130
Site 966, A:160-162
Site 967, A:220-223
Site 968, A:294-296
Site 969, A:339-340
Site 970, A:381-383
Site 971, A:421-430
Site 972, A:452-454
Site 973, A:469-474
structural data, B:520
Unit I, A:59, 92-93,
129-130, 160-161, 220-222, 294-295, 339-340, 381,
421-423, 452-454, 469-471
Unit II, A:130, 161, 222,
295, 340, 382-383, 423-424, 427-428, 430, 471, 474;
B:438
Unit III, A:130, 161-162,
222-223, 296; B:438-441
Unit IV, A:162, 223
lithology
mud
breccia, B:598-600
paleoenvironment, B:485
lithology logs
vs.
depth, A:271
See also
silicon/(silicon + calcium) ratio
lithoporosity
logs, vs. depth, A:144-145, 446
lithostratigraphy
correlation with physical properties, A:254-255, 317,
461, 488-489; B:627-643
correlation with well-log
units, A:194-196, 258, 260-263, 321, 323-324, 399
mass flow units, B:467-469
mud domes, A:523
Site 963, A:59-60
Site 964, A:90-100
Site 965, A:129-132; B:487,
489-490
Site 966, A:160-164;
B:485-487, 490
Site 967, A:220-224,
264-267; B:488-492
Site 968, A:293-298,
324-326
Site 969, A:338-344
Site 970, A:381-385
Site 971, A:420-431
Site 972, A:452-454
Site 973, A:468-477
loliolide
sapropels, B:287, 289
See also
iso-loliolide
Lycian Nappes
carbonate
platforms, B:741
tectonics, B:750
lycopane,
sapropels, B:287, 289
|
M
|
"M" reflector
mass flow
units, B:465-466
Messinian, A:515-516
structures, A:466-467
Maastrichtian
biostratigraphy, B:400
hiatuses, B:522-523
Neotethys, B:726
stratigraphy, B:412-413
tectonic models, B:769-771,
776
zoning, B:384
See also
Campanian-Maastrichtian succession
Madara
Formation, sand, B:584
Maden
Formation, tectonics, B:749, 761, 763-764, 772
Maghrebian
thrust sheets, tectonics, A:15
magnesium
carbonates, A:67, 69; B:448
diagenesis, A:188
lateral flow, A:250
pore water, A:113, 392, 485
vs. depth, A:80, 114, 192,
255, 314, 367, 394-396, 437, 487
X-ray fluorescence data in
carbonates, B:450
See also
calcium/magnesium ratio
magnesium/aluminum ratio
vs.
depth, B:210-212
vs. potassium/aluminum
ratio, B:213
magnesium/chlorine ratio, vs. depth, A:256, 314, 487;
B:572
magnetic
anomalies, seamounts, A:8-10; B:711
magnetic
declination, vs. depth, A:304, 503-504
magnetic
inclination
histogram, B:70
vs. depth, A:72-73,
104-106, 136, 178, 180, 243-244, 304, 358, 392, 435,
458, 481, 498, 503-504; B:64, 66-67, 70, 72
vs. magnetic intensity,
B:70
magnetic
intensity
correlation with reflectance and lithology, A:95
vs. depth, A:72, 104, 136,
178, 243, 304, 357, 392, 435, 458, 481, 498, 503-504;
B:77-79
vs. magnetic inclination,
B:70
magnetic overprints,
coring-induced, techniques, A:497-505
magnetic
polarity
depth of
boundaries, A:179
magnetostratigraphy,
B:64-72
remanent magnetization,
A:103-104, 233-234, 303-304, 390
magnetic
properties, sapropels, B:75-82
magnetic
susceptibility
composite
depths, A:66
correlation with
reflectance and lithology, A:95
sediments, A:72-73, 118,
139, 191, 254, 314, 371-372, 460, 488
vs. depth, A:72, 77, 84,
112, 123, 136, 140, 188-189, 198, 203-205, 252, 262,
311, 320, 365, 373, 392, 435, 458, 460, 481, 485, 490
magnetic
susceptibility, volumetric, vs. depth, B:77-79
magnetostratigraphic datums, Mediterranean Sea E, B:64
magnetostratigraphy
Pliocene-Pleistocene succession, B:61-73
Pliocene-Quaternary
succession, B:170, 172, 177-178
major elements
carbonates, B:448
sapropels, B:207-217
major
elements/aluminum ratio, sapropels, B:209
Mallorca,
Miocene carbonates, B:433
Malta
Miocene
carbonates, B:433
tectonics, A:16
Malta Graben,
tectonics, A:73
Mammoth
Subchron
magnetostratigraphy, B:67
remanent magnetization,
A:179, 234, 357
Mamonia Complex
basement,
B:734-736, 766, 769, 771, 775
Cretaceous tectonics,
B:704-705
lithofacies, B:477
Manavgat Basin,
tectonics, B:749-750, 773
manganese
carbonates, B:448
photograph, A:298, 346
manganese/aluminum ratio, vs. depth, B:200
Maras,
tectonics, B:763
marker beds,
photograph, A:346
marl, Messinian
gypsum, B:459-460
Maroni Basin
geology,
A:290
Messinian gypsum, B:459-460
mass
accumulation rates
Pliocene-Quaternary succession, B:228
sediments, B:231, 234, 237,
240
See also
sedimentation rates
mass flow
deposits
depositional-tectonic models, B:478-479
lower Pliocene, B:465-481
See also debris
flows
Mass Flow Unit,
stratigraphy and tectonics, B:465-481
matrix
depth of
origin, B:669
diagenesis, B:587
lithologic units, A:383,
431
mud breccia, B:599, 668
mud volcanoes, B:575-595
petrography, B:471, 579-580
matrix lithology, origin,
B:586-587
mats. See
diatom mats
Matuyama Chron
magnetostratigraphy, B:64, 66-67, 69, 178
remanent
magnetization, A:63, 78, 104, 136, 143, 177, 179, 234
See also
Gauss/Matuyama boundary
Matuyama/Brunhes boundary
magnetostratigraphy, B:64-66, 70
remanent magnetization,
A:177, 179, 356-357, 458, 481
Mazagan Escarpment,
hydrocarbons, A:439
median
destructive field, histogram, B:69
Mediterranean
Intermediate Water
currents,
A:73
Zanclean, B:119-120
Mediterranean
Ridge
biostratigraphy, B:13-17, 99-112
clasts and matrix,
B:575-595
geology, A:336-337, 374,
378-379, 451, 461, 466-467, 491-492; B:669-670
mud diapirism, A:20
mud volcanoes, B:597-605,
607-624
organic matter in
sapropels, B:261-269
paleoceanography, B:38
sapropels, B:349-363
sedimentology, B:5-8
tectonics, A:5-6, 88;
B:527-534, 671
Mediterranean
Sea, central, Miocene carbonates, B:433
Mediterranean
Sea E
bacterial
populations, B:303-307
biostratigraphy, B:83-112,
125-135
collisions, A:513-520;
B:709-721
high-resolution magnetic
measurements, B:75-82
Mesozoic-Tertiary
evolution, B:723-782
Miocene/Pliocene boundary,
B:9-28
normal faults, A:507-511,
645-661
paleoceanography, A:21-25;
B:113-123, 167-180, 701-708
paleoclimatology, B:219-248
paleomagnetism, A:497-505
photosynthetic pigments,
B:297-302
Pliocene-Pleistocene
magnetostratigraphy, B:61-73
radiolarians and
silicoflagellates, B:137-154
sapropel age, B:191-197
sapropel geochemistry,
B:199-217, 249-259, 271-283, 285-295, 309-331
sapropel stratigraphy,
B:181-189
sedimentary sequences,
B:37-59
sedimentology, B:3-8
sulfate reduction,
B:365-373
tectonic maps, B:432
tectonics, A:5-18;
B:527-534, 682-683, 717
meiofauna,
laminations, B:338
melange
orogenic
belts, B:693-695
tectonic models, B:758
tectonics, B:757, 763, 773
Mesaoria Basin,
lithofacies, B:474, 476, 746
Mesaoria Plain,
fanglomerate, B:555-556, 746, 773
Mesozoic
basement,
B:734-736
geology, B:738-741
paleoceanography,
B:701-708, 710-713
paleogeography, B:740
suture zones, B:682-683
Mesozoic,
upper, collisions, A:513-515
Mesozoic-Tertiary evolution, B:723-782
Messina. See
Ionian (Messina) Abyssal Plain
Messinian
chemostratigraphy and biostratigraphy, B:17, 21
correlation, B:455
distribution and abundance
of planktonic foraminifers, B:16, 19
evaporites, A:14-16, 87-88,
324-326, 451, 466-467; B:669, 673-674, 734, 743, 754
Formation MicroScanner
logs, B:619
geology, A:290, 337, 374
lithologic units, A:296
mud matrix, B:587-588, 688
nonmarine deposition,
B:437-445
photograph, B:456
salinity, B:477
salinity crisis, A:515-516;
B:685-686, 716, 718, 774
Messinian/Pliocene boundary
paleoceanography, B:9-28
sedimentology, B:3-8
Messinian/Zanclean boundary, biostratigraphy, B:115-118
metamorphic
complexes, tectonics, B:761, 766
methane
bubbles,
A:401
diagenesis, A:110
gases, B:669
mud domes, A:394, 522-524
organic matter, A:67
oxidation, B:366, 368
sediments, A:69, 113, 136,
188, 250, 313, 367, 394-395, 437-439, 459, 485
vs. depth, A:80, 397, 438;
B:371
methane/ethane
ratio
mud
domes, A:523-524
vs. depth, A:397, 438
mica,
accumulation rates, B:231, 234, 237, 240
micrite
mudstone,
B:598
photograph, A:133, 173
photomicrograph, B:473,
508, 593
micrite,
foraminiferal, photograph, A:390
micritization,
clasts, B:583-584
microbreccia,
petrography, B:471
microfabric
"e" bed, B:336-337
normal faults, B:650
"O" group, B:337
photograph, A:184
Sapropel S5, B:338
sapropels, B:333-348
See also fabric
microfaults
deformation, A:238-239
dip, A:183, 247, 308, 360
frequency with depth, A:183
photograph, A:76, 109, 137,
183
structural data, A:63-64,
136, 383-384
vs. depth, A:244
See also faults
microfaults,
high-angle, photograph, A:246
microfossils
Miocene,
B:422-423
See also
individual group
microphenocrysts
photomicrograph, B:592
microplates
rotation,
B:775
See also plate
tectonics
microveins
deformation, A:241
structural data, A:481, 483
See also veins
Milano mud
structure
clasts
and matrix, B:575-595
gas hydrates, B:569-574
geology, A:378-379,
400-401, 521-522; B:571, 665-680
mud volcanoes, B:597-605,
610-613, 625-643
tectonics, A:5-6, 384-385;
B:529
miliolines,
photomicrograph, B:425-426
mineralogy
carbonates, B:447-448
sediments, B:219-226
minor elements,
sapropels, B:207-217
Miocene
carbonate
geochemistry, B:447-451
carbonates, B:419-436
chemostratigraphy and
biostratigraphy, B:17, 21
distribution and abundance
of benthic foraminifers, B:18, 20
distribution and abundance
of planktonic foraminifers, B:16, 19
geology, A:291, 337
grabens, B:733-734
hiatuses, B:524
lithologic units, A:130,
161-162, 223, 428-430
paleoenvironment,
B:492-494, 684-685
paleogeography, B:672-673
plate tectonics, A:7
reefs, B:431-435
stratigraphy, B:703
subduction, B:758-759
tectonic models, B:773-774
tectonics, A:14-16; B:757
thrust stacks, B:672
turbidites, A:217-218
uplifts, B:689-690
Miocene, lower,
plate tectonics, B:773
Miocene, pre,
hiatuses, B:523-524
Miocene, upper
paleoenvironment, B:453-463
paleogeography, B:673-674
plate tectonics, B:774
Miocene-Pliocene succession
geology,
B:737-738
stratigraphy, B:498
Miocene/Pliocene boundary
chronostratigraphy, B:101
lithology, B:457
paleoceanography, B:9-28
sedimentology, B:3-8
Misis. See
Kyrenia-Misis Lineament
Misis
Mountains, tectonics, A:6; B:750-759, 775
Misis-Andirin Complex,
tectonics, B:757, 756-759, 771, 773
mixed-layer
clays
abundance, B:241
provenance, B:238
moats
faults, B:500-501, 716
seamounts, B:691-692
molecular paleontology,
sapropels, B:285-295
mollusks
accumulation rates, B:231-232, 234, 237, 240
lithologic units, A:223
Miocene, B:422
photomicrograph, B:506, 508
molybdenum, vs. depth,
B:201
Moni Melange
basement,
B:745
blocks, B:691
monsoon index,
sapropels, A:24
Moscow mud
dome, mud volcanoes, A:417
mottling
lithologic units, A:59-60, 130, 222-223
Messinian-Pliocene
succession, B:458-459
photograph, A:237-238, 298
Mount Carmel,
geology, B:730
Mount Olympus,
lithofacies, B:558, 774
mud
photograph, A:473
sapropels, A:217-218
mud,
calcareous, mass flow units, B:468
mud,
carbonaceous, photomicrograph, B:638
mud breccia
clast
composition vs. depth, B:602-603
clay mineral matrix
composition vs. depth, B:603-604
Formation MicroScanner
logs, B:615-616
lithologic units, A:383
mud domes, A:10-14,
516-517, 522-524; B:614
mud volcanoes, B:598-600
overpressure, B:668-669
permeability, B:639-640
photomicrograph, A:389
Pliocene-Quaternary
succession, A:416-417
sediments, B:581
structural data, A:383-384
units, A:386
mud clasts,
lithology, A:196
mud diapirism,
vs. mud volcanism, B:666
mud domes
diapirism
vs. volcanism, A:10-14
gas hydrates, B:573
geology, A:378-379
mud flows,
geology, A:378-379
mud matrix,
genesis, B:587-588
mud shards,
photomicrograph, B:594
mud volcanism
geology,
A:378-379, 400-401, 445-446, 521-526; B:665-680
models, B:675-678
salinity, A:393-394
structural data, A:383-385
vs. mud diapirism, B:666
mud volcanoes
accretionary complexes, B:575-595, 597-605
anatomy, B:666-668
diapiric belt, B:597-605
emplacement, B:641-642
Formation MicroScanner
logs, B:618-620
geometry, B:624
photomicrograph, B:638
physical properties,
B:625-643
sediment traps, B:358-359
mudstone
lithologic
units, A:424, 428-430
mass flow units, B:467-468
mud breccia, B:603, 668
mud domes, A:522-524; B:600
petrography, B:577, 580
photograph, B:422, 456
photomicrograph, B:594
Pliocene channels,
B:477-478
mudstone,
calcareous, lithofacies, B:469
mudstone,
carbonate, photograph, A:429
mudstone, lime,
photomicrograph, B:424-425
mudstone clasts
lithology, A:430-431
photograph, A:428
photomicrograph, B:594
muscovite
petrography, B:455
sediments, B:581
muscovite
grains, clasts, B:599
Muti Formation,
tectonics, B:761
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