2. BEDDING
• Bed :
Sedimentation unit
greater than 1cm.
• Lamina:
Sedimentation unit
smaller than 1cm.
• Interbedded:
between two things
3. STRATIGRAPHY
• Stratigraphic unit
A naturally occuring body of rock or rock
material which is distinguished from
adjoining rock on the basis of some stated
property or properties.
1.Lithostratigraphic unit.
2.Biostratigraphic unit.
3.Chronostratigraphic unit.
4.Geochronologic unit.
4. Lithostratigraphic Unit
(( is a stratum or body of strata,
generally layered which conforms
to the law of superposition and is
distinguished and delimited on the
basis of lithic characteristics and
stratigraphic position.))
5. Nature of Lithostratigraphic Units
• Type section and
locality.
• Independence from
inferred Geologic
history.
• Independence from
time concepts.
6. Boundaries
Are placed at positions of
lithic change.
Boundaries in lateral lithologic change.
Correspondence with generic units.
9. Formation
It is the fundamental unit in
lithostratigraphic classification.
• Content:
A formation should posses some degree of
internal homogeneity or distinct features.
i. One lithic type.
ii. Repetitions of two or more lithic types.
iii. Extrem lithic heterogenity.
• Lithic characteristics.
• Mappability and thickness.
10. Lithostratigraphic Nomenclature
• Compound character:
Geographic +Lithic term+ Rank.
Geographic + Rank.
Geographic + Lithic + Rank.
• Use of Simple lithic terms.
• Misuse of well known name.
11. Clay Minerals
A term reserved for those constituents of a
clay which give it its plastic properties. They
are hydrous aluminosilicates.
• Generally occur as minute, platy, rarely fibrous
crystals.
• Some contain loosely bonded cations which can
be easily exchanged.
• Ability to loose or take up water.
• Produced by the degradation of other silicates.
• Both two and three layered types are known.
13. Clay minerals (continue)
• Layers of Al - O/OH are called “gibbsite”.
• Layers of Mg – O/OH are called “brucite”.
• The stacking arrangement of the sheets
determine the clay mineral type, as does
the replacement of the Si and Al inons.
14. I. Kandit Group
• Members have two – layered
structure consisting of a silica
tetrahedral sheet linked to an
alumina octahedral sheet by
common O/OH ions.
• No replacement occur for Si
or Al.
• The structure formula is
(OH)4Al2Si2O5. e.g Kaolinite
15. II. Smectite Group
• Members have a three –
layered structure.
• Have ability for Al and Si
exchange.
• Have ability for absorbing
water.
• e.g Montmorillonite
(Mg,Ca)O.Al2O3.5SiO2.nH2O
17. Diagensis
• Pre-Burial changes:
1. Burrowing organisms
effect.
2. Adjustment to eH and
pH.
3. Adjustment to major
cations.
4. Development of
Authigenic menerals.
• Early-Burial changes
1. Continuation of 2 & 3.
2. Oxidation of carbonaceous
material.
3. Continuation of compaction.
4. Probable initiation of
concretions.
5. Start of primary cementation.
6. Some conversation of
aragonite to calcite, and
development of dolomite.
18. Diagensis (continue)
• Late – Burial Changes:
• Cease of eH and pH
adjustments.
• Completion of compaction.
• Authigenic mica & chlorite.
• Completion of concretions
development and
cementation.
• Replacement of aragonite
by calcite; dolomitization.
19. Sedimentary Rock Types
Rocks formed from material derived
from pre-existing rocks by
processes of denudation, together
with material of organic origin.
20. Lithological Description
1. Type of formation (Limestone, sandstone,
shale…).
2. Colour.
3. Texture.
4. Cementing material.
5. Hardness.
6. Porosity.
7. Minor components (accessories).
8. Staining and fluorescence (oil shows).
21. 3. Texture
• Sediments with visible graine size:
1. Size,
2. Sorting,
3. Roundness,
4. Sphericity.
• Sediments with crystalline appearance.
estimate crystallinity:
1. Microcrystalline
2. Cryptocrystalline
3. Succrose
• Sediments without recognizable size at ordinary
microscope:
Descripe the morphology of the cutting.
26. Dunham Classification
Depositional
texture not
recognisable
Depositional texture recognisable
Original
components
bound
together
during
deposition
Original components not bound together during
deposition.
Lacks mud
and is grain
supported
Contain mud (particles<20m)
Grain
supported
Mud supported
> 10%
grains
< 10%
grains
Crystalline
carbonate
Boundstone Grainstone Packstone Wackstone Mud
stone
28. 5. Hardness
Hardness is a reflection of degree of
cementation.
1. Soft or friable
2. Moderately hard; fairly cemented.
3. Hard; moderately cemented.
4. Very hard; well cemented.
29. 6. Porosity
• Porosity could be estimated from hardness and
cementation.
• Archi classification
matrix porosity
I. Compact, dense, hard
II. Chaiky, earthy, soft.
III. Sugary, loose, poorly cemented.
Visible porosity
A. No visible pores w/ 10x
B. Visible w/ 10x
C. Visible w/ eye.
D. Larger than 2 mm
31. Oil Shows Description
A. In Normal Light
• Percentage
No visible stain
Poor stain
Fair stain
Good stain
40%
32. Oil Shows Description
A. In Normal Light
• Distribution
Uniform Scattered
Spoty Streaked
• Shade
V. Light Light
Medium Dark
Very dark
• Hue
Green
Yellow
Brown
Black
34. Oil Shows Description
B. Under UV light
• Distribution
Uniform Scattered
Spoty Streaked
• Shade
V. Light Light
Medium Dark
Very dark
• Hue
Blue
white
Yellow, Orange
Gold
Brown
35. C. Cuts & D. Residual ring
• Stream cut:
Immediate
Fast
Slow
• Discoloration
Very slow
Slow
Fast
• Crush cut
Poor
Fair
Good
• Allow the solvent to
evaporate,
describe the
fluorescence of the
ring as well as the
color of the ring in
the day light.