basin compartmentalization in the foreland: el cajon basin
TRANSCRIPT
coarsening-up alluvial
shallowbraided alluvial plain
Reworkedbasalt clasts
Palaeosols braided alluvial plain
phyllite
bivalvesin green-greysilt
Lake and ephemeral streams
distal alluvial plain
reworked basalt clasts
Palaeosols interbedded with
gravel sheets, rare channels
red-brown alluvial plain sediments
basalt
coarsening-upalluvial
massive conglomeratedebris fan
Channellisedalluvial plain
7.82 ± 0.32 Ma
6.93 ± 0.15 Ma
13.6 ± 0.5 Ma
12.2 ± 0.5 Ma
12.0 ± 0.5 Ma
QTt: Quaternary-Tertiary Tortoral Fm.
Tpz: Tertiary Playa del Zorro Fm.
Tl: Tertiary lacustrine
Tpa: Tertiary Penas Azules Fm.
Tb: Tertiary basalt
pC: Precambrian (?) basement
Tgm: Tertiary green mudstone marker
Penas Azules Formation
~
Sections ARG1 - 6 Section ARG8 Section ARG 9
Playa del ZorroFormation
TotoralFormation
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7.5 m separation
12.0 ± 0.5 Ma
7.82 ± 0.3 Ma6.93 ± 0.2 Ma
12.2 ± 0.5 Ma
5.71 ± 0.4 Ma
11.8 ± 0.4 Ma
11.6 ± 0.5 Ma
Basin Compartmentalization in the Foreland: El Cajon Basin, Southwestern ArgentinaJonathan R. Pratt - The Ohio State University, Lindsay Schoenbohm - The Ohio State University, Estelle Mortimer - University of Leeds
Basin compartmentalization in a thick-skinned set-ting: In a thin-skinned setting there is a fairly accuratemodel for basin compartmentalization, where thrustspropagate in sequence utilizing bedding planes in sed-imentary rocks. However, in thick-skinned settingswhere reverse faults occur at higher angles, this modelis compromised by the importance of pre-existing weaknesses.
Approach: Analyze the spatial and temporal evolut-ion of one basin, the El Cajon Basin of Northwest Argentina as an example of a basin compartmentaliz-ation in a thick-skinned setting.
Data: As part of a collaborative effort, several data are combined to understand the process and controls that compartmentalized the El Cajon Basin.
1. Geologic mapping of the northern basin, (Fig 2a), produced by L. Schoenbohm.
2. Stratigraphic analysis (Fig. 1), produced by E. Mortimer.
3. Rigorous cross sections (Fig 3a,b), produced by J. Pratt.
4. Seismic data from southern basin (Fig 3c) produced by E. Mortimer.
5. U-Pb dating of intercalated tuff beds (Fig 1 & Fig 2a), produced by J. Pratt
E
E’
F
F’Si
erra
de
Chan
go R
eal
Sierrra de Q
uilm
es
Santa Maria Basin ->
<- Puna Plateau
45
45
Qal: Quaternary alluvium
Qt: Quaternary terrace deposits
QTt: Quaternary-Tertiary Tortoral Fm.
Tpz: Tertiary Playa del Zorro Fm.
Tl: Tertiary lacustrine
Tf: Tertiary coarse fan deposits
Tpa: Tertiary Penas Azules Fm.
Tb: Tertiary basalt
T: Undifferentiated Tertiary
pC: Precambrian (?) basement
Ql: Quaternary lacustrine
Qls: Quaternary landslide deposits
Thrust fault with dip
Thrust fault- concealed
Normal fault with dip
Thrust reactivated as normal fault
Syncline axis
Anticline axis
Fold axis- approximate
Contact
Contact- approximate
Contact- concealed
Thrust fault- approximate
Strike and dip of bedding
Strike and dip of overturned bedding
45
45
Richard YuretichRichard YuretichRichard YuretichRichard YuretichRichard YuretichRichard YuretichRichard Yuretich 11.8 ± 0.4 Ma
5.00 ± 0.14 Ma
0s
1s
2sARG01553
SQS
Seq. 1
Seq. 2
Seq. 3
Seq. 4
TWTT
Sier
ra A
conq
uija
Sier
ra d
e Q
uilm
es
Chango
Rea
l
Santa Maria Basin
Hualfin Basin
El Cajon Basin
N
Puna Plateau
26ºS
67ºW 66ºW
27ºS
2 0 2 4 6 KILOMETERS
~13 Ma
~10 Ma
~6 Ma
Chango Real uplifts, creating accomodation space
Sierra de Quilmes begins uplifting in the north, beginningcompartmentalization.
Sierra de Quilmes propagates further south and the Sierra Aconquijabeings to uplift, effectively compartmentalizing the foreland.
Geologic Background:
The El Cajon basin is one of several intermontane basins along the southeastern margin of the Puna Plateau (Fig. 2b). This part of the Andes is an active, foreland-propagating, thick-skinned fold and thrust belt, which is superimposed on the Cretaceous Salta Rift. Once part of a continuous foreland stretching from the Hualfin basin to the southwest to the Santa Maria basin to the east (Fig. 2b), the El Cajon was compartmentalized by the uplift of the Sierra de Quilmes.
The El Cajon basin contains three Miocene to Pliocene alloformations:
1. Penas Azules: a coarsening-upwards alluvial sequence between11.8-13.6 Ma. Deposited before significant deformation.2. Playa del Zorro: a coarsening-upwards alluvial sequence show-ing growth structures and containing a lacustrine unit. Syntectonic, between 6.93-11.8 Ma. in age.3. Tortoral: Massive fan conglomerate, regionally widespread and sits above an unconformity in the El Cajon. Upper age of 5.00 Ma.
Sierra
deFiam
bala
Sierra
de A
ftoHua
siSie
rra de
Hua
lfin
Sierra
deAco
nquij
a
Orogenic Front
Sierras PampeanasPuna
Farallon NegroVolcanics
Regional Cross-section from just south of the El Cajon. The area encompassing the El Cajon’s east-west extent is boxed in red. Published by V.A. Ramos et. al.
Fig. 1
Fig. 2a
Fig. 2b
F F'
distance (kilometers)1 32 4 5 6 7 8 9 10 11 12 13
elev
atio
n (m
eter
s)
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0
-500
Tpz
Tpz
Tpa
pC
pC
Tb
Tf
High angle, basement faults
Alluvial fan along basin margin
Growth strata within Playa del Zorro fm.
Fig. 3a
Fig. 3c
elev
atio
n (m
eter
s)distance (kilometers)
E E'
1 32 4 5 6 7 8 9 10 11 12 13 14
3500
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-500
pC
pC
Tpa
Tpz
QTt
TlTb
Fig. 3b
Fig. 4
Fig. 5
High angleblind reverse fault
Fault propagation fold
Angular unconformity- Middle El Cajon
- Tpa thins eastward
- Less deformation along the Chango Real than in the north.
- Fault pair younger than in the north.
- Northern El Cajon
- Tpa thins eastward
- Eastern margin gives constraint on Tpa thickness. Potential pre-existing topo- graphy.
- Faults are most likely reactivated normal faults.
Thin Playa del Zorro fm.over Penas Azules fm.
Landslide deposit
Lacustrine unit
Discussion:
By using the basal age of the sedimentary sequence of 13.6 Mato approximate the onset of loading along the Chango Real, we can estimate that this is when significant uplift along the fault began.
The lacustrine bed serves as an indication of a switch from foreland drainage to internal drainage, which was most likely caused by uplift of the Sierra de Quilmes basement anticline asit propagated southward reactivating Salta Rift structures. The age of the lacustrine bed is bracketed between ~8 & ~12 Ma therefore the uplift of the Sierra de Quilmes is also bracketed between these ages.
The Sierra Aconquija is east of the El Cajon basin and is theeastern bound of the Santa Maria basin. Previous work by Strecker has dated the Aconquija uplift at 5.5 Ma.
The evolution of the El Cajon basin is therefore an in-sequencecompartmentalization following a propagating thrust-wedgemodel with deformation strongly controlled by pre-existing structures as is shown simplified in Fig. 5.
1
2
3
1 Mortimer et al, 2007, Fragmentation of a foreland basin in response to out-of-sequence basement uplifts and structural reactivation: El Cajon-Campo del Arenal basin, NW Argentina: GSA Bulletin: May/June 2007, p.637-653 2 Ramos, V.A., et al, 2002, The Pampean flat-slab of the Central Andes: Journal of South American Earth Science v. 15, p.59-783 Sobel, E.R. & M.R. Strecker, 2003, Uplift, Exhumation and Precipitation: Tectonic and Climatic Control of Late Cenozoic Landscape Evolution in the Northern Sierras Pampeanas, Argentina: Basin Research, p.1-21
-Seismic section from south of the El Cajon subbasin
-Shows both high angle reverse faults and growth strata as exist in the north.
-SQS stands for South Quilmes Structure, which is the buried extension of the Sierra de Quilmes.
-Tpa thins, but to a lesser extent than it does in the north.
Produced by E. Mortimer and modified by J. Pratt
Produced by L. Schoenbohm and modified by J. Pratt
Above:
Geologic map of the El Cajoncontaining locations of theU-Pb dated tuff samples andthe cross-section lines corresp-onding to Fig. 3a and 3b.
The ashes were dated usingan ion microprobe at the Univer-sity of Los Angeles with theaid of Dr. Axel Schmidt.
Left:
Stratigraphic column showingthe rock types and interpreteddepositional environments.
U-Pb ages are placed in thecolumn and are shown in red.
Of note is the bracketing of thelacustrine unit between 7.82 &12.0 Ma.
13.6 ± 0.5 Ma10.7 ± 1.7 Ma
5.00 ± 0.14 Ma