NMBGMR Open-file Geologic Map 49
Last Modified 07 AUGUST 2006
NEW MEXICO BUREAU OF GEOLOGY AND MINERAL RESOURCES A DIVISION OF NEW MEXICO INSTITUTE OF MINING AND TECHNOLOGY
106°22'30"W
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Qvac Kinney clay pit
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* New Mexico Bureau of Geology and Mineral Resource, New Mexico Tech, Socorro, NM 87801
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Quaternary Map Units
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QUADRANGLE LOCATION
This draft geologic map is preliminary and will undergo revision. It was produced
from either scans of hand-drafted originals or from digitally drafted original maps
and figures using a wide variety of software, and is currently in cartographic production.
It is being distributed in this draft form as part of the bureau's Open-file map series
(OFGM), due to high demand for current geologic map data in these areas where
STATEMAP quadrangles are located, and it is the bureau's policy to disseminate
geologic data to the public as soon as possible.
After this map has undergone scientific peer review, editing, and final cartographic
production adhering to bureau map standards, it will be released in our Geologic Map
(GM) series. This final version will receive a new GM number and will supercede
this preliminary open-file geologic map.
DRAFT
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0
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Geologic map of the Escabosa
quadrangle, Bernalillo County, New Mexico
6650 FEET
May 2002
0.9 KILOMETER
by
Bruce Allen 1
CONTOUR INTERVAL 20 FEET
NATIONAL GEODETIC VERTICAL DATUM OF 1929
New Mexico Bureau of Geology and Mineral Resources
Open-file Map Series
1
NMBGMR, 801 Leroy Place, Socorro, NM, 87801
OFGM 49
COMMENTS TO MAP USERS
Mapping of this quadrangle was funded by a matching-funds grant from the STATEMAP program
of the National Cooperative Geologic Mapping Act, administered by the U. S. Geological Survey,
and by the New Mexico Bureau of Geology and Mineral Resources, (Dr. Peter A. Scholle,
Director and State Geologist, Dr. J. Michael Timmons, Geologic Mapping Program Manager).
New Mexico Bureau of Geology and Mineral Resources
New Mexico Tech
801 Leroy Place
Socorro, New Mexico
87801-4796
[505] 835-5490
http://geoinfo.nmt.edu
This and other STATEMAP quadrangles are (or soon will be) available
for free download in both PDF and ArcGIS formats at:
http://geoinfo.nmt.edu/publications/maps/geologic/ofgm/home.html
Hacker, L.W., 1977, Soil survey of Bernalillo County and parts of Sandoval and Valencia
Counties, New Mexico: USDA Soil Conservation Service, 101 p.
7
Kelley, V.C., and Northrop, S.A., 1975, Geology of Sandia Mountains and Vicinity, New
Mexico: New Mexico Bureau of Mines and Mineral Resources, Memoir 29, 135
p.
Kelley, V.C., and Wood, G.H., 1946, Lucero uplift, Valencia, Socorro, and Bernalillo
Counties, New Mexico: U.S. Geological Survey, Oil and Gas Investigations
Preliminary Map 47.
Kues, B.S., 2001, The Pennsylvanian System in New Mexico- overview with suggestions
for revision of stratigraphic nomenclature: New Mexico Geology, v 23, p. 103122.
Lucas, S.G., Wilde, G.L., Robbins, S., and Estep, J.W., 2000, Lithostratigraphy and
fusulinaceans of the type section of the Bursum Formation, Upper Carboniferous
of south-central New Mexico, in, Lucas, S.G., ed., New Mexico’s Fossil Record
2: New Mexico Museum of Natural History and Science, Bulletin 16, p. 1-13.
Myers, D.A., 1973, The upper Paleozoic Madera Group in the Manzano Mountains, New
Mexico: U.S. Geological Survey Bulletin 1372-F, 13 p.
|Pws- Sol se Mete Member. Approximately 75 to 105 m (250 to 350 ft) thick.
The upper 12 to 18 m (40 to 60 ft) of the member contains several-meter-thick,
ledge-forming limestone beds. Underlying deposits contain a higher proportion of
limestone and fewer thick sandstone beds than the lower part of the overlying Pine
Shadow Member. Poorly exposed clastic intervals in the unit are generally difficult
to trace for long distances, although a green- to yellow-weathering sandstone bed
occurs approximately 18 m (about 60 ft) below the top of the unit that can be
identified over much of the western part of the map area. In comparison to
overlying and underlying units, the abundance of fusulinids is relatively low in the
Sol se Mete Member in the map area. Limestone beds containing abundant chert
are not as common as in the underlying Los Moyos Limestone. A few meters of
clastic deposits, locally consisting of conglomeratic sandstone commonly mark the
base of the unit.
Myers, D.A., 1988, Stratigraphic distribution of fusulinid foraminifera from the Manzano
Mountains, New Mexico: U.S. Geological Survey Professional Paper 1446, 65 p.
Read, C.B., Wilpolt, R.H., Andrews, D.A., Summerson, C.H., and Wood, G.H., Jr., 1944,
Geologic map and stratigraphic sections of Permian and Pennsylvanian rocks of
parts of San Miguel, Santa Fe, Sandoval, Bernalillo, Torrance, and Valencia
Counties, north-central New Mexico: U.S. Geological Survey, Oil and Gas
Investigations Preliminary Map 21.
A geologic map displays information on the distribution, nature, orientation, and age relationships
of rock and deposits and the occurrence of structural features. Geologic and fault contacts are
irregular surfaces that form boundaries between different types or ages of units. Data depicted
on this geologic quadrangle map may be based on any of the following: reconnaissance field
geologic mapping, compilation of published and unpublished work, and photogeologic interpretation.
Locations of contacts are not surveyed, but are plotted by interpretation of the position of a given
contact onto a topographic base map; therefore, the accuracy of contact locations depends on the
scale of mapping and the interpretation of the geologist(s). Any enlargement of this map could cause
misunderstanding in the detail of mapping and may result in erroneous interpretations. Site-specific
conditions should be verified by detailed surface mapping or subsurface exploration. Topographic
and cultural changes associated with recent development may not be shown.
Cross sections are constructed based upon the interpretations of the author made from geologic
mapping, and available geophysical, and subsurface (drillhole) data. Cross-sections should be used as
an aid to understanding the general geologic framework of the map area, and not be the sole source
of information for use in locating or designing wells, buildings, roads, or other man-made structures.
The map has not been reviewed according to New Mexico Bureau of Geology and Mineral Resources
standards. The contents of the report and map should not be considered final and complete until
reviewed and published by the New Mexico Bureau of Geology and Mineral Resources. The views and
conclusions contained in this document are those of the authors and should not be interpreted as
necessarily representing the official policies, either expressed or implied, of the State of New Mexico, or
the U.S. Government.
|Pm- Los Moyos Limestone. Middle Pennsylvanian. Approximately 150 to 180 (500 to
600 ft) thick. The Los Moyos Limestone is characterized by ledge-forming beds of cherty
limestone, separated by comparatively thin shale beds, with minor sandstone. Ledgeforming limestone beds in the unit are typically more closely spaced than in the overlying
Sol se Mete Member of the Wild Cow Formation. The contact with the underlying Sandia
Formation is poorly exposed in the map area, suggesting that limestone beds of the Los
Moyos Limestone grade downward into shale beds of the uppermost Sandia Formation.
6
Surface exposures of bedrock in the map area belong for the most part to the
Madera Group. The Middle to Upper Pennsylvanian (Desmoinian-Virgilian) and lower
Permian (?) (Wolfcampian) Madera Group includes marine and marginal-marine carbonate
and clastic sediments consisting of interbedded limestone, shale, sandstone, and minor
conglomeratic sandstone. The thickness of the Madera Group in the vicinity of the Sandia
and Manzano Mountains ranges from about 400 m (Kelley and Northrop, 1975) to
perhaps 580 m (Read et al., 1944, measured section 14), or more, and has traditionally
been divided (e.g. Read et al., 1944; Kelley and Northrop, 1975) into a lower unit
containing a large proportion of limestone (“lower gray limestone”), and an upper unit
containing a large proportion of clastic sediments (“upper arkosic limestone”). The
Madera Group gradationally overlies rocks of the Middle Pennsylvanian (Atokan) Sandia
Formation, which is also marine to marginal-marine in origin and is dominated by clastic
sediments. Small, poorly exposed exposures of the Sandia Formation occur in the
southwestern corner of the map area. The Sandia Formation generally overlies
Proterozoic crystalline rocks in the area, although a thin (up to 20m thick) sequence of
limestone and shale deposited during the Missisippian (?) occurs between the Sandia
Formation and Proterozoic crystalline rocks at several localities in the Sandia and
Manzanita Mountains (Kelley and Northrop, 1975). The Madera Group is overlain by
Permian redbeds of the Abo Formation, or, to the south of the map area, is gradationally
overlain by the Bursum Formation (Virgilian-Wolfcampian) which is overlain by the Abo
Formation. In the map area, the upper part of the Madera Group and overlying units have
been removed by erosion.
Subdivision of the Madera Group in the Manzano and Manzanita Mountains was
formalized by Myers (1973), who elevated the Madera to group status and designated
three formations within the Madera- the Los Moyos Limestone, the overlying Wild Cow
Formation, and, in the southern Manzano Mountains, the Bursum Formation. The Los
106°15'0"W
CHILILI
Magnetic Declination
1997
10º 5' East
At Map Center
34°52'30"N
34°52'30"N
106°17'30"W
Base map from U.S. Geological Survey 1951, from photographs taken 1993, partial field checked in 1995 by U.S. Forest Service.
1927 North American datum, UTM projection -- zone 13N
1000-meter Universal Transverse Mercator grid, zone 13, shown in red
EDGEWOOD
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106°20'0"W
MILBOURN RANCH
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TAJIQUE
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BOSQUE PEAK
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|Pwp- Pine Shadow Member. Approximately 60 to 90 m (200 to 300 ft) thick.
The upper 25 to 30 m (80 to 100 ft) generally consists of ledge-forming limestone
beds and calcareous shale, with relatively thin, poorly exposed clastic interbeds.
These clastic interbeds thicken and coarsen laterally in the map area, and locally
appear to be the dominant lithology. The upper limestone interval is underlain by
two to three, comparatively thick (up to 10 m or more) clastic intervals separated
by beds of ledge-forming limestone. The Kinney brick quarry (sec. 18, T9N,
R6E), known for its abundant fish and terrestrial plant fossils, is located in one of
the clastic intervals within the lower part of the Pine Shadow Member. The base
of the Pine Shadow Member over much of the northwestern part of the map area is
marked by a red- to yellow-weathering, arkosic sandstone, up to several meters
thick, that generally lies on ledge-forming limestone beds of the upper Sol se Mete
Member. This sandstone bed appears to be absent towards the east. Large pieces
of petrified wood and limestone beds containing abundant fusulinids are commonly
present above the basal contact in the map area.
References Cited
Bedrock Map Units
General
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Qcr- Alluvium, colluvium, and residuum on valley backslopes and interfluvial summits in
bedrock uplands. Holocene to middle Pleistocene (?). Predominantly silt, clay, and sand.
Derived from weathering of the Madera Group (residuum on relatively flat-laying areas),
and from downslope transport of weathering products. Generally mapped where
accumulations cover extensive areas and are sufficiently thick to support large areas of
grass cover. Includes areas of unmapped bedrock exposures. Unit ranges from less than
one to several meters in thickness.
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Qva / Qvac- Upland valley alluvium and colluvium. Holocene to middle Pleistocene (?).
Predominantly silt, sand, and gravel grading into relatively coarse-grained colluvium along
valley backslopes. Along higher-order drainages unit consists of eroded older deposits
and younger inset fills. Includes unmapped bedrock exposures along valley backslopes.
Thickness ranges from a few meters or less over bedrock highs, to an estimated 10 m or
more along trunk drainages. Unit Qvac is mapped where alluvial and colluvial deposits
form a relatively thin mantle (generally less than 3m thick) over underlying bedrock.
3
|Pwc- La Casa Member. Approximately 25 m (80 ft) of the La Casa Member is
exposed in the northwestern part of the map area. These basal beds are
predominantly clastic sediments, although thin (<5 m thick) intervals containing
limestone beds are present. Inflated forms of Triticites, which characterize
fusulinid assemblages in the La Casa Member (Myers, 1988, Plates 8-12), exist in
stratigraphically higher beds just to the north of the map area (sec. 13, T9N, R5E)
in a sequence of interbedded shale and nodular-weathering limestone. The basal
clastic beds of the La Casa Member in the northwestern map area contain beds of
resistant, gray-, red-, and yellow-weathering arkosic sandstone and sandy siltstone,
and overlie ledge-forming limestone beds of the upper part of the Pine Shadow
Member.
5
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Qa- Valley floor alluvium. Holocene. Predominantly silt, sand, and clay in modern
drainages and underlying floodplains. Coarser grained materials occur in some areas.
Unit is inset into older deposits of units Qva and Qvac, and interfingers with younger
deposits of Qva and Qvac along drainage foot slopes. Includes unmapped bedrock
exposures in scoured channel reaches. Generally less than 3 m thick.
Qva
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Description of Map Units
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Surface deposits in the map area consist of upland valley alluvium and colluvium
derived from weathering of shale, limestone, and sandstone of the Pennsylvanian Madera
Group. The drainage divide between the Rio Grande basin (west) and the Estancia basin
(east) runs north-south through the map area. Sediment transport from the western side
of the map area is towards Hell Canyon, a major east-west drainage on the eastern
piedmont of the Rio Grande basin. Major drainages to the east of the map area are
Woodman and Bachelor Draws. Mapping units consist of valley-floor alluvium associated
with modern drainages (Qa), upland valley alluvium and colluvium (Qva and Qvac), and
alluvium, colluvium, and residuum on valley backslopes and bedrock uplands (Qcr).
Unconsolidated deposits are generally on the order of 5 m thick or less, but may be 10 m
thick or more along higher-order drainages in the eastern part of the map area. Thin to
moderately deep, well-drained soils cover extensive areas mapped as bedrock, and belong
to the Seis-orthids soil association in the western part of the map area, and the SilverWitt-Laporte soil association in the eastern part of the map area (Hacker, 1977).
3867000
3867000
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General
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|Pw- Wild Cow Formation. Upper Pennsylvanian to Lower Permian (?). Approximately
180 m (600 ft) of the Wild Cow Formation is partially exposed in the map area. Outcrops
are largely restricted to limestone ledges and resistant sandstone beds; exposures of shale
are limited to roadcuts and the walls of arroyos.
Bruce D. Allen
May, 2002
Qcr
Qva
Qva
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2
&ws
&wp
Qcr
Description of Map Units to Accompany
Geologic Map of the Escabosa 7.5-Minute Quadrangle
3870000
3870000
Qva
Qvac
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Proterozoic crystalline rocks, undifferentiated (cross-sections).
Pennsylvanian
Qvac
Qcr
Xqs- Exposed crystalline rocks in the map area consist of gray- to red-weathering
quartzite, and brown-weathering, schistose, metasedimentary rocks. Primary fabric
consisting of centimeter-scale cross bedding is preserved in the quartzite. Isoclinal folding
of foliation is apparent in the schist. The distribution of outcrops and the apparent
thinness of the overlying Sandia Formation in the vicinity of the outcrops suggest localized
areas of relatively high relief just prior to burial by the Sandia Formation.
Description of Map Units
&wp
Qvac
3
&wp
Qva
3
Proterozoic
&wp
Qvac
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Qvac
|Ps- Sandia Formation. Middle Pennsylvanian. Approximately 35 m (120 ft) or more
exposed in the map area; unit apparently thins locally to approximately 25 m (80 ft) or less
in the vicinity of exposed Proterozoic rocks. The basal beds of the unit in the map area
consist of brown pebbly sandstone, and directly overlie Proterozoic crystalline rocks.
Poor exposures of green-weathering silty sandstone are present above the basal sandstone
beds, and overlying units, presumably dominated by shale, are commonly covered by
blocks of limestone derived from the overlying Los Moyos Limestone.
3871000
3871000
3
2
Moyos Limestone and Wild Cow Formation generally correspond to the earlier,
lithostratigraphic concept of lower gray limestone and upper arkosic limestone members
of the Madera "Formation". Myers (1988) determined that most of the Los Moyos
Limestone lies within the fusulinid zone of Beedeina, indicating that the unit is correlative
to Desmoinian strata of the mid-continent. The overlying Wild Cow Formation lies within
the zone of Triticites, and was subdivided by Myers (1973) into three members. The three
members in ascending order are the Sol se Mete, Pine Shadow, and La Casa. Each of the
three members conceptually consists of a basal sequence containing clastic beds, which
grade upward into carbonate shelf limestones. Regional correlation of fusulinid
assemblages in the Wild Cow Formation suggest that the Sol se Mete is correlative to
Missourian, the Pine Shadow lower Virgilian, and the La Casa upper Virgilian to
Wolfcampian strata of the mid continent (Myers, 1988, Fig. 4). As noted by Myers
(1973), the Los Moyos and Wild Cow Formations are probably equivalent to the Gray
Mesa and Atrasado Members, respectively, of the Madera “Formation” as defined by
Kelley and Wood (1946) in the vicinity of the Lucero uplift. Recent recommendations to
simplify the stratigraphic nomenclature of Pennsylvanian rocks in New Mexico (Kues,
2001) suggest that the formation names Los Moyos and Wild Cow may eventually be
abandoned in favor of the names Gray Mesa and Atrasado, which have precedence.
Subdivision of the Madera Group on the geologic map uses the nomenclature of
Myers (1973). Only the basal beds of the La Casa Member of the Wild Cow Formation
are exposed in the map area, thus, unresolved issues related to the stratigraphy of the
uppermost beds of the Madera (e.g. Lucas et al., 2000) are not addressed in this
compilation.
Xu-
Qvac
&ws
1
Qcr
1
Qva
&wp
&wp
3872000
3872000
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Qvac
Qvac
Qvac
47
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Qa
3868000
&wp
&wp
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Qa
3873000
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3
Qvac
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Qa
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5
3872000
1
&wp
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&wc
2
Qa
Bruce D. Allen*
May, 2002
3873000
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&wc
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&wc
3870000
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3
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&ws
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2
4
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Qa
35°0'0"N
35°60'0"N
1
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3
Qva
Qva
Qvac
Qvac
Qva
Qva
&wp
4
4
&wp &wp
Qa
Qva
Qa
Qvac
Qvac
Description of Map Units to Accompany
Geologic Map of the Escabosa 7.5-Minute Quadrangle
4
8