HomeMy WebLinkAbout1.15 Geohaz ReportArticle 4-203.G.4
Geologic and Soils Hazard
Report
Ursa Operating Company
and Battlement Mesa Partners
Major Impact Review Application
Battlement Mesa PUD Phase I
BMC B
OAProject No. 014-1829
NATURAL AND GEOLOGIC HAZARDS
ASSESSMENT REPORT
URSA OPERATING COMPANY
BMC B PAD SITE - COUNTY ROAD 307
SW 1/4, NW 1/4, SECTION 18, T7S, R95W, 6TH P.M.
GARFIELD COUNTY, COLORADO
PREPARED FOR
URSA OPERATING COMPANY
1050 17TH STREET, SUITE 2400
RIFLE, COLORADO 81650
PREPARED BY
OLSSON ASSOCIATES
4690 TABLE MOUNTAIN DRIVE, SUITE 200
GOLDEN, COLORADO 80403
SEPTEMBER 2014
PROJECT No. 014-1829
O\OLSSON
ASSOCIATES
Natural and Geologic Hazard Report Preface
Garfield County, Colorado, finalized the Land Use and Development Code (LUDC) with an
effective date of July 15, 2013, last amended September 2, 2014. According to Section 7-108
Use of Land Subject to Natural Hazards of the Garfield County LUDC "Land subject to identified
Natural and Geologic Hazards, such as falling rock, landslides, snow slides, mud flows,
radiation, flooding, or high water tables, shall not be developed unless it has been designed to
eliminate or mitigate the potential effects of hazardous site conditions as designed by a qualified
professional engineer and as approved by the County."
The LUDC requires a Natural and Geologic Hazard Study be prepared by a qualified
professional geologist and submitted with a development plan or plat. The LUDC defines a
geologic hazard as "A geologic phenomenon that is so adverse to past, current, or foreseeable
construction or land use as to constitute a significant hazard to public health and safety or to
property.
The LUDC defines a Hazard Area as "An area that contains or is directly affected by a geologic
hazard, including but not limited to the following types of areas."
A. Avalanche Area. "A mass of snow or ice and other material that may become
incorporated therein as such mass moves rapidly down a slope."
B. Landslide Area. "An area with demonstrably active mass movement of rock and
soil where there is a distinct surface rupture or zone of weakness that separates
the landslide material from more stable underlying material."
C. Mudflow Debris Area. "An area subject to rapid mud and debris movement or
deposit occurring after mobilization by heavy rainfall or snowmelt runoff. Such
areas are formed by successive episodes of deposition of mud and debris."
D. Radioactive Area. "An area subject to various types of radiation emission from
radioactive minerals that occur in natural or manmade deposits of rock, soil, or
water."
E. Potentially Unstable Soils. "An area of land identified as having soils that may
cause damage to structures, such as buildings and roadways, as a result of over
saturation or some other outside influence."
According to the Garfield County LUDC Section 4-203 Description of Submittal Requirements,
the professional qualifications for preparation and certification of certain documents required by
this Code are as follows:
"Geologist. Geology reports shall be prepared by either a member of the American
Institute of Professional Geologists, a member of the Association of Engineering
Geologists, or a qualified geotechnical engineer licensed in the State of Colorado."
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
Olsson Associates
Golden, Colorado
October 2014
Currently, the State of Colorado does not require licensure or registration of geologists;
however, Colorado Revised Statutes do require that geologic reports be prepared or
authorized by a professional geologist, and the term "Professional Geologist" is defined in
Colorado Statutes.
The references for these Statutes are shown here:
34-1-201. Definitions. As used in this part 2, unless the context otherwise requires:
(1) "Geologist" means a person engaged in the practice of geology.
(2) "Geology" means the science which treats of the earth in general; the earth's
processes and its history; investigation of the earth's crust and the rocks and other
materials which compose it; and the applied science of utilizing knowledge of the
earth's history, processes, constituent rocks, minerals, liquids, gases, and other
materials for the use of mankind.
(3) "Professional geologist" is a person who is a graduate of an institution of higher
education which is accredited by a regional or national accrediting agency, with a
minimum of thirty semester hours (forty-five quarter) hours of undergraduate or
graduate work in a field of geology and whose post baccalaureate training has been in
the field of geology with a specific record of an additional five years of geological
experience to include no more than two years of graduate work.
(4) 34-1-202. Reports containing geologic information. Any report required by law or by
rule and regulation, and prepared as a result of or based on a geologic study or on
geologic data, or which contains information relating to geology, as defined in Section
34-1-201 (2), and which is to be presented for any state agency, political subdivision
of the state, or recognized state or local board or commission, shall be prepared or
approved by a professional geologist as defined in Section 34-1-201(3).
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
ii
Olsson Associates
Golden, Colorado
October 2014
Professional Geologist Certification
By means of this certification, I attest that:
am qualified to prepare a Natural and Geologic Hazard Study in accordance with
the provisions of Section 7-207 of the Garfield County LUDC, and that I am a
member of the American Institute of Professional Geologists per LUDC 4-203.
Although I have not visited the proposed site, I am familiar with the geology and have
performed field work in the area of the proposed Ursa Operating Company LLC BMC
B Pad Well located in the SW 'A NW'A Section 18, Township 7 South, Range 95
West, 6th Principal Meridian in Garfield County, Colorado.
Although Colorado does not currently have a licensing board or registration program
for professional geologists practicing in the state of Colorado, there are requirements
within local and State statutes that require that geologic reports be prepared by a
professional geologist. I attest that I meet the requirements of the Colorado
Geological Survey's definition of a professional geologist having completed and met
the educational requirements of the Colorado Geological Survey definition.
I am a licensed Professional Geologist and Professional Geoscientist in other States,
including Texas, Utah, and Wyoming which do have licensing programs for
professional geologists.
- I have reviewed published geologic maps and reports applicable to this area and
have considered the implications of these conditions in the context of the proposed
development.
- This report has been prepared in accordance with good scientific principles and
engineering practices including consideration of applicable industry standards, and
with consideration of the requirements of the National Association of State Boards of
Geology. The conclusions and recommendations contained in this report are based
on information available and known to me at the time of this report. Good scientific
principles and standard engineering practices were taken into consideration to in
arriving at the conclusions and recommendations made in this report.
Prepared by
-*—Vilo4P/12.6 4a .1(4,
James W. Hix, PG
Senior Geologist
Date: 10/03/2014
Note: The PG's certification does not relieve the owner/operator of the facility of the duty to review this report or fully implementing
the recommendations in accordance with all applicable Federal, State, and local requirements in order to achieve the desired goals
or objectives.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
Olsson Associates
Golden, Colorado
October 2014
TABLE OF CONTENTS
Natural and Geologic Hazard Report Preface
Professional Geologist Certification
TABLE OF CONTENTS iv
FIGURES iv
1.0 EXECUTIVE SUMMARY 1
2.0 GENERAL SITE LOCATION AND BACKGROUND 2
2.1 Project and Site Description 2
2.2 Structural Geology 2
2.3 Site Geology 3
2.4 Soil 3
2.5 Hydrologic Setting 4
2.6 Aquifers 4
3.0 NATURAL AND GEOLOGIC HAZARD ASSESSMENT 5
3.1 Utilities 5
3.2 Avalanche Hazard Area 5
3.3 Landslide Areas or Potential Landslide Hazard Areas 5
3.4 Rockfall Areas 6
3.5 Alluvial Fan Hazard Areas 6
3.6 Unstable or Potentially Unstable Slopes 6
3.7 Corrosive or Expansive Soils and Rock 7
3.8 Mudflow and Debris Fan Areas 7
3.9 Development Over Faults and Risk of Seismic Activity 7
3.10 Flood Prone Areas 8
3.11 Collapsible Soils 8
3.12 Mining Activity 8
3.13 Radioactivity 9
4.0 CONCLUSIONS AND RECOMMENDATIONS 10
5.0 REFERENCES 11
FIGURES
List of Figures
Adjacent Land Use Map
Geology Map
NRCS Soils Map
Topographic Map Showing Surface Water Map
Floodplain Map
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
iv
Olsson Associates
Golden, Colorado
October 2014
1.0 EXECUTIVE SUMMARY
Olsson Associates (Olsson) was contracted by Ursa Operating Company to assess natural and
geologic hazards potentially present in the area of the proposed BMC B production well pad
located in the SW 1/4 NW 14 Section 18, Township 7 South, Range 95 West, of the 6th Principal
Meridian, Garfield County, Colorado. The site is at an elevation of about 5,090 feet above mean
sea level (amsl). The site setting is shown on the attached BMC B Pad Adjacent Land Use
Map.
The purpose of this report is to identify geologic conditions that may pose hazards to a land
development project in order that appropriate mitigation or avoidance techniques may be
implemented as described in the Garfield County LUDC. According to the Garfield County
LUDC, Section 7-207, the types of natural and geologic hazards identified pertain to the
following:
A. Utilities;
B. Development in Avalanche Hazard Areas;
C. Development in Landslide Hazard Areas;
D. Development in Rock -fall Hazard Areas;
E. Development in Alluvial Fan Hazard Areas;
F. Slope Development;
G. Development on Corrosive or Expansive Soils and Rock;
H. Development in Mudflow Areas; and
I. Development Over Faults.
This report presents Olsson findings following an evaluation of these and other geologic
hazards potentially affecting the site and proposed development. The Ursa Operating Company
site was found to be suitable for the proposed development with consideration of the following
identified geologic hazards.
The soils in the vicinity of the site are corrosive to both steel and concrete due to high
salt content and the subsoil layers have a high shrink -swell potential.
According to the Preliminary Geologic Map of the Grand Valley Quadrangle, Garfield
County, the proposed site is located on Quaternary age (Holocene) alluvium, terrace
deposits, and underlain by "pre -historic" mudflow and fan gravel deposits.
The site is not mapped as being in an Alluvial Fan Hazard area, but is located on alluvial
fan deposits associated with Monument Gulch and unnamed intermittent drainages.
The site is not mapped within the FEMA 100 -year flood plain, but is located within 400
feet of the Colorado River. It is about 1,000 feet northeast of Monument Gulch and 300
feet southwest of an unnamed intermittent drainage. These drainages are prone to flash
floods.
The BMC B Pad can be constructed to compensate for these limitations and potential hazards.
This report should be read in its entirety, including but not limited to the conclusions and
recommendations in section 4.0.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
2.0 GENERAL SITE LOCATION AND BACKGROUND
Ursa Operating Company LLC (Ursa) contracted Olsson Associates (Olsson) to conduct a
natural and geologic hazards assessment as part of the proposed development of the BMC B
well pad. The proposed facility will be used to drill for and produce natural gas. The following
sections provide information about the proposed development and the site geologic setting.
The site surface and bedrock geology is shown on the Geology Map.
2.1 Project and Site Description
The proposed BMC B well pad is located to the south of the town of Parachute, Colorado off of
County Road 300. The site is located in the SW 1/4 NW 1/4 Section 18, T7S, R95W, 6th P.M. and
is located in parcel # 240913406004. The surface land is owned by Battlement Mesa Partners.
The site is located west of the intersection of Stone Quarry Road (County Road 300) and River
Bluff Road (County Road 307), in the community of Battlement Mesa.
2.2 Structural Geology
The BMC B well pad site is located in the southeastern part of the Piceance Basin. The
Piceance Basin is an irregularly-shaped elongated basin formed by tectonic forces associated
with the Laramide orogeny. These forces down warped the earth's crust and formed the
Piceance Basin as a result of the uplift of the surrounding Colorado Rocky Mountains and the
Colorado Plateau.
The Piceance Basin is the major structural geologic feature in the region. It is bound to the east
by the Grand Hogback monocline, the White River Uplift to the northeast, the Gunnison Uplift to
the south, the Uncompahgre Uplift to the south and southwest, the Douglas Creek Arch to the
west-northwest, and the axial basin uplift to the north (Grout and Verbeek, 1992).
Sedimentary rocks in the southwestern Piceance Basin gently dip to the north - northeast
except where this regional dip is interrupted by low -amplitude folds. Numerous small sub -
parallel northwest trending folds have been identified in the Green River Formation within the
basin.
There are no mapped faults shown in the area of the site on the Geologic and Structure Map of
the Grand Junction Quadrangle, Garfield County, Colorado (Cashion, 1973) or on the
Preliminary Geologic Map of the Grand Valley Quadrangle, Garfield County, Colorado (Donnell,
Yeend, Smith, 1986). A fault is a fracture in rock along which movement has occurred.
Mountains are bound by faults and are a visible indication of a structural weakness in the earth's
crust. The Colorado Rocky Mountains are bound by faults; however, these faults are not always
visible at the ground surface either because the fault trace is `blind' meaning that the fault does
not have surface expression since it does not cut across overlying sedimentary bedrock units, or
that it has been buried and concealed by unconsolidated sediments deposited over the area
where the faults are present. There are no known major faults that have been mapped in the
area of the site.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
2.3 Site Geology
According the Preliminary Geologic Map of the Grand Valley Quadrangle (Donnell, Yeend,
Smith, 1986), bedrock mapped to the east of the project area consists of the Eocene and
Paleocene -age Shire Member of the Wasatch Formation which consists of purple, lavender,
gray, and brown claystone, with minor beds of fine- to medium -grained sandstone. The
maximum exposed thickness of the Wasatch is approximately 1,200 feet.
The bedrock in the area of the site is covered with unconsolidated sediments of Quaternary age
consisting of mud flow and fan gravel deposits. Weak claystone in the upper Wasatch
Formation are responsible for the slope failure which resulted in slides and debris flows during a
time when the climate was much wetter. These mudflow and fan gravel deposits consist of
pebble, cobble, and boulder gravel in a gray matrix of coarse sand. The unit is poorly sorted and
contains angular to subangular clasts of primarily unweathered basalt, but contains some
sandstone, marlstone, siltstone, and claystone. The unit was largely derived from solifluction
deposits located to the east of the quadrangle.
Modern alluvium, alluvial, and floodplain deposits consisting of mud, silt, sand, and gravel are
also present along the Colorado River drainage covering the fan gravel deposits in the vicinity of
the site. The alluvial and floodplain sediments are locally derived from coalescing fan deposits
and sheet -wash deposits form terraces along the active Colorado River drainage, and also
contain well-rounded, well -sorted, non -locally derived crystalline rocks transported from areas to
the east. The gravel commonly ranges in thickness from 10 feet to 60 feet thick; however, it is
locally up to 100 feet thick, especially near the Colorado River (Yeend, 1969).
Alluvial terrace and fan gravel deposits are present to the southwest of the site and in the
northeast corner of Section 18. These deposits consist of grayish brown sandy -gravel consisting
primarily of basalt and locally derived slabby siltstone, marlstone, and sandstone clasts that are
moderately to poorly sorted, poorly stratified. The maximum thickness of this unit reaches 200
feet.
2.4 Soil
The Natural Resources Conservation Service (NRCS) Soils Map shows the area soil types.
Soils, consisting of the following units, are within the study area around BMC B well pad:
Arvada Loam, 6% to 20% slopes, Map Symbol 4: The Arvada loam is a deep, well
drained, sloping soil formed on fans and high terraces at elevations between 5,100 feet
and 6,200 feet above mean sea level. Typically the surface layer is a moderately
alkaline, pale brown loam about three inches thick and the substratum is light brown to
brown silty clay loam to a depth of 60 inches. Permeability is very slow, and available
water capacity is high. Surface runoff is moderately rapid, and the erosion hazard is
severe.
The Arvada loam soil is corrosive to steel and concrete due to the large amounts of clay and
salts. Community development is limited by high shrink -swell potential, salinity, and steep
slopes. Buried piping and structures onsite will need to have adequate cathodic protection to
prevent corrosion due to the high salinity of these soils.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
2.5 Hydrologic Setting
The site is located on a terrace above the Colorado River flood plain. The Colorado River is
located approximately 400 feet to the north. The Monument Gulch creek drainage is located
approximately 1,000 feet to the southwest. There is an unnamed intermittent drainage 300 feet
to the east northeast of the site. These surface water features are shown on the Surface Water
Map.
2.6 Aquifers
The Wasatch Formation locally yields water to wells in some areas, but is generally considered
a confining unit. The Tertiary sedimentary rocks in the Piceance Basin are generally fine-
grained and well cemented resulting in very small hydraulic conductivity in the rock matrix.
Sandstone and siltstone generally occur in lenticular bodies and locally have moderate hydraulic
conductivities which range from 0.001 to 0.01 foot per day. These lenses of sandstone and
siltstone are often widely spaced and not interconnected which further limits the volumes of
groundwater the formation can yield to wells. In some areas, fracturing during the structural
deformation that occurred when the Piceance Basin was uplifted and through dissolution of
cementing minerals has enhanced the permeability and hydraulic conductivity in parts of the
Piceance Basin aquifer system (Topper et al, 2003).
Water well depths in the area typically range from 50 feet to 150 feet below ground surface
along the Colorado River and 151 feet to 300 feet below ground surface (bgs) in areas further
south of the Colorado River. Static water levels reportedly range between 40 feet and 60 feet
bgs based on a review of permitted water wells in the vicinity of the site.
Surficial aquifers are present in the alluvium along the Colorado River and its major tributaries.
The depth to groundwater is expected to be less than 20 feet in close proximity to the Colorado
River. This alluvium is typically too thin, narrow, and discontinuous to be considered a major
aquifer, although in some areas the alluvium is locally important as surficial aquifers (Banta and
Robson, 1995). Groundwater within the unconsolidated sediments in the area of the proposed
site is controlled by the thickness of the sediments and the depth to the top of the Wasatch
bedrock. The estimated groundwater flow direction in the vicinity of the site is likely to be sub -
parallel with the Colorado River, flowing north-northwest toward the Colorado River through the
center and northern part of the proposed site. These deposits are shown on the Geology Map.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
3.0 NATURAL AND GEOLOGIC HAZARD ASSESSMENT
The following sections present the assessment of geologic hazards in the vicinity of the
proposed Water Impoundment. The Adjacent Land Use Map shows the location of the BMC B
Well Pad site in relation to the affected parcel and local roads.
3.1 Utilities
Above -ground utility facilities located in Hazard Areas are to be protected by barriers or
diversion techniques approved by a qualified professional engineer. The determination to locate
utility facilities above ground will be based upon the recommendation and requirements of the
utility service provider and approved by the County. Except for potential flooding, above -ground
utilities, such as transformers, are not expected to be affected by geologic or other natural
hazards.
Trenches for water pipelines, natural gas pipelines, and electrical lines are expected to be
associated with the proposed development. The slopes and corrosive soil may pose technical
challenges to the installation of these utilities; however, it is expected that these limitations can
be overcome with proper design and installation.
There are existing natural gas wells in the area, the Battlement Mesa waste water treatment
facility to the west of the site and River Bluff Road (County Road 307) to the south. A boat
storage facility is located to the south and houses are located to the east and southeast of the
site.
3.2 Avalanche Hazard Area
Winters are cold in the mountainous areas of Garfield County, and valleys are colder than the
lower parts of adjacent mountains due to cold air drainage. Average seasonal snowfall in
Garfield County is 50 inches. The greatest snow depth at any one time during the period of
record from 1951 to 1974 was 29 inches recorded at Rifle, Colorado approximately 25 miles to
the east-northeast of the proposed site.
Avalanches are not expected to affect the proposed natural well site since it is located at an
elevation of approximately 5,160 feet amsl. Areas in eastern Garfield County are at higher
elevations, receive more snow pack, and are, therefore, more prone to avalanches in certain
years.
Avalanches are the most dangerous geologic hazard in Colorado resulting in injuries, loss of
life, and about $100,000 in direct property damage, and indirect economic losses in the millions
of dollars annually. However, the avalanche prone areas include the Park Range and Flat Tops
in northeastern Garfield County, Colorado, to the north of Glenwood Springs. Glenwood
Springs, near the east edge of the area, averages about one degree cooler than Rifle and
receives about five inches more precipitation per year (Harman and Murray, 1985).
3.3 Landslide Areas or Potential Landslide Hazard Areas
The site is located on mudflow and fan gravel deposits overlain by younger terrace deposits,
alluvial, and floodplain deposits. There are earthflow and soil creep deposits mapped to the
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
south of the site in southern half of Section 19, but these deposits are not mapped in Section
18, Township 7 South, Range 95 West. Movement of the extensive earthflow and soil creep
slopes has ceased, except for local occurrences of very recent slumps and mudflows.
Solifluction deposits are extensive in the Rulison 7.5 -minute quadrangle located to the east, but
are only found in a small area on the east side of the Parachute (Grand Valley) 7.5 -minute
quadrangle (Yeend, Donnell, Smith, 1986).
According to Map 24 — Surface Geology map, Geologic Hazards Identification Study (Lincoln
Devore, 1975-1976), there are no landslides shown to the south of Interstate 70 in the
Parachute — Battlement Mesa area. Landslide areas are shown to the northwest of the town of
Parachute (Garfield County, Surface Geology, 2007).
3.4 Rockfall Areas
The site is not located within an area that has been mapped as having rockfall or potential for
rockfall. Potential rockfall areas are present along the steep drainages incised by Monument
Creek to the south and southeast or at higher elevations to the south on Battlement Mesa.
3.5 Alluvial Fan Hazard Areas
The site is located in an area that is not mapped as being in an alluvial fan hazard area
according to the Garfield County Surficial Geology, 2007. The site is located on alluvium,
floodplain, alluvial terrace, and fan gravel deposits and is underlain by older mudflow and fan
gravels according to the Preliminary Geologic Map of the Grand Valley Quadrangle (Donnell,
Yeend, Smith, 1986). The site is on the northeastern part of an alluvial fan created by
Monument Gulch and other unnamed intermittent drainages. These deposits lie about 100 feet
above the Colorado River flood plain.
3.6 Unstable or Potentially Unstable Slopes
According to the Garfield County Slope Hazard Study Areas 1, 2, & 3 map, parts of the area
north of the Colorado River and the town of Parachute, Colorado have been mapped as being in
an area of major slope hazard. The map does not show the area south of the Colorado River
and in the vicinity of the site as being identified in a slope hazard area.
The slope hazard map recommends that site specific investigations should be conducted to
assess active landslide areas. Geologic studies may include intensive drilling and sophisticated
strength testing, stability analyses, and monitoring of soil, rock, and groundwater conditions.
Mitigation may be possible, but likely will be expensive, may require special siting, and will
involve some risk. Avoidance may be recommended for projects of lower economic value
(Garfield County, Slope Hazard Study 2002).
The Arvada Loam soils are found on 6% to 20% slopes. Engineering, design, and construction
practices of the proposed development are expected to mitigate the limitation of slopes at the
site since the site is located within an area developed for other land uses, including
development of natural gas well pads. The site may require mitigation for slope, and will be
graded and constructed for this purpose. The site is in an area near the Colorado River with
slopes that are not as steep as surrounding areas.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
3.7 Corrosive or Expansive Soils and Rock
According to the Soil Survey of the Rifle Area, the Arvada loam soils are corrosive to both steel
and concrete. Sedimentary rock containing high salt content, such as chloride or sulfate, and
soils derived from these rock types, may also be corrosive to concrete or metal, causing
damage to structures built upon them. The Arvada loam is alkaline with pH greater than 7.8 to
more than 8.4 standard units. The salinity in the Arvada loam is typically less than 4 millimhos
per centimeter; however salinity may increase with depth. These conditions are a potential
hazard present in the vicinity of the site.
Some Tertiary and Cretaceous age sedimentary rocks with high clay content are capable of
accepting water into their chemical structure and expanding many times their volume when dry.
These sedimentary rocks, and soils formed from these rock types, may expand or contract as
they become wet and then dry out resulting in damage to structures built upon them.
The substrate of Arvada loam soils have a high shrink -swell potential which pose a limitation for
some community and recreational development, but are not expected to adversely impact the
proposed well construction.
3.8 Mudflow and Debris Fan Areas
The site is located in an area of mud flow and fan gravel deposits overlain by alluvium and flood
plain deposits, and alluvial terrace deposits. The site is located on a terrace near the Colorado
River drainage. These deposits are Holocene in age and future mud slides are a potential
hazard if the area were to receive heavy rains. These flows are expected to originate from
higher elevations to the south and would follow the drainages to lower elevations closer to the
Colorado River floodplain.
Wetter conditions at the end of the last ice age were most likely responsible for the development
of the extensive mudflows and fan deposits peripheral to Battlement Mesa. Glacial conditions
that existed on the Grand Mesa during the Pleistocene did not exist on Battlement Mesa at this
time. Abundant annual runoff is suspected in creating high pore -water pressures within the
Wasatch Formation shale and claystone to cause slope failure, especially on north -facing
slopes where evaporation was at a minimum (Yeend, 1968). More recent slumps and mud flows
that have occurred south of Plateau Creek near Collbran developed in glacial till.
The proposed BMC B Pad is located on a parcel developed for outdoor storage, and there is
other development in the area including a public works yard to the west and River Bluff Road
(County Road 307) to the south and east. The Battlement Mesa waste water treatment facility
is located further to the west of the site. There are housing developments located to the
northeast and southeast of the site.
3.9 Development Over Faults and Risk of Seismic Activity
There are no major faults shown in the Grand Valley area on the Geologic and Structure Map of
the Grand Junction Quadrangle, Colorado and Utah (Cashion, 1973). There are no mapped
faults shown on the Preliminary Geologic Map of the Grand Valley Quadrangle, Garfield County,
Colorado (Donnell, Yeend, and Smith, 1986) in the immediate vicinity of the site.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
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Olsson Associates
Golden, Colorado
October 2014
The Piceance Basin and other Tertiary age basins of the Colorado Plateau are defined by
monoclines, at least along one margin. The Grand Hogback, to the east near the town of Rifle,
is such a monocline which is thought to have formed by reactivation of pre-existing, steeply
dipping fault zones in the Precambrian basement rock. Recent seismic data suggests that
some of the monoclines, especially in the Rocky Mountain foreland near the boundary with the
Colorado Plateau, overlie a west-, southwest-, or south -directed thrust fault system. These
blind thrust faults transect older Mesozoic and Paleozoic sedimentary rocks that resulted from
two major deformational events associated with the uplift of the ancestral Rocky Mountains.
The Grand Hogback monocline formed above the tip of a blind, Precambrian basement rock
thrust fault wedge which moved southwest and west-southwest into the Piceance basin (Grout
and Verbeek, 1992).
Colorado is considered a region of minor earthquake activity; however, there is uncertainty due
to the relatively short historic record. According to the USGS Colorado Earthquake History
online, newspaper accounts were the primary source of earthquake data in Colorado prior to
1962. Few earthquakes have been reported in this part of Colorado. A very minor earthquake
occurred in the northwestern part of Colorado on November 22, 1982 at 3:09 a.m. MST. The
magnitude 2.9 earthquake was located about 18 miles northeast of the town of Rifle and was
felt at a fish hatchery in the area.
The largest quake in the area occurred on April 22, 1984 and had a magnitude of 3.1 on the
Richter scale. The quake was felt in Carbondale and in Glenwood Springs. Of the hundreds of
quakes that occurred in the Carbondale area during that time period, 12 were reported as felt.
3.10 Flood Prone Areas
The facility is not shown within the FEMA 100 year flood hazard zone based on the Flood Plain
Map in the Vicinity of the Town of Parachute, Garfield County, Colorado, or a Firmette Map
generated from the FEMA data. The Colorado River flood plain is located approximately 400
feet to the north of the site. The unnamed drainage and the Monument Gulch drainage are
shown as having Zone A — 100 -year flood plains located along their banks These areas are
also prone to flash floods. The flood plain along the Colorado River is shown in relation to the
BMC B Pad on the attached Flood Plain Map.
3.11 Collapsible Soils
Collapsible soils are another type of subsidence that occurs in parts of western Colorado where
unconsolidated sediments are present. This ground settlement can damage man-made
structures such as foundations, pavements, concrete slabs, utilities, and irrigation works.
Collapsible soils have not been mapped in the area and are not expected to be encountered in
the vicinity of the site.
3.12 Mining Activity
A review of the Grand Valley 7.5 -minute quadrangle did not show any significant mining
activities in close proximity to the proposed BMC B Pad site. Oil shale mining was conducted
north of the town of Parachute, and there are sand and gravel operations along the Colorado
River. There are no mining activities shown in the immediate area of the site. Natural gas wells
are shown in the surrounding areas of the proposed BMC B Pad site.
Geologic Hazard Report 8 Olsson Associates
Ursa Operating Company BMC B Pad Golden, Colorado
Garfield County, CO October 2014
3.13 Radioactivity
Naturally occurring radioactive materials are not expected to be an issue at the site. Colorado
oil and gas operations are not known to have a significant problem with naturally occurring
radioactive materials (NORM) or technologically enhanced naturally occurring radioactive
materials (TENORM); however, there have been some instances where pipe scale has
contained radium and associated radon gas. A NORM survey including site specific testing
could be performed to further assess the radon potential at the site to serve as a baseline
assessment if used pipe or pipe scale is to be disposed offsite in the future.
Olsson reviewed the Colorado Bulletin 40, Radioactive Mineral Occurrences of Colorado which
states that nearly all of Garfield County's uranium production came before 1954, and most of
that came from the Rifle and Garfield mines. Both of these mines were located along the same
ore body near the town of Rifle. These occurrences were all hosted in the Jurassic Morrison
and Entrada Formations, and the Triassic -Jurassic Navajo Sandstone, or the Triassic Chinle
Formation which are known to contain uranium and vanadium deposits in the county and in the
Colorado Plateau in general (Nelson -Moore, Collins, and Hornbaker, 1978). These formations
lie at great depth in the vicinity of the site and are stratigraphically below the depth of the
Wasatch Formation.
The Colorado Department of Public Health and Environment (CDPHE) has posted a statewide
radon potential map on their website based on data collected by the EPA and the U.S.
Geological Survey. Garfield County and most of Colorado has been mapped as being within
Zone 1 — High Radon Potential, or having a high probability that indoor radon concentrations will
exceed the EPA action level of 4 picocuries per liter (pCi/L).
Radon is not expected to be a significant problem at the proposed site since the development
will not include any permanent structures, personnel will not be onsite for extended periods, and
the site will not be developed with structures containing basements or substructures in which
radon can accumulate.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
9
Olsson Associates
Golden, Colorado
October 2014
4.0 Conclusions and Recommendations
The following conclusions and recommendations were made following a review of the available
site data for natural and geologic hazards in the vicinity of BMC B Pad site located in Garfield
County, Colorado.
Geological hazards are not expected to be associated with the installation of buried
utilities at the BMC B Pad. Corrosive soil may be a limitation to this construction, but this
limitation should be able to be overcome with proper engineering, design, and
construction. Cathodic protection for buried piping may reduce corrosion resulting from
salts in these soils.
Avalanche conditions are not expected to be a hazard in the area of the site.
The site is located on alluvium and terrace gravels overlying pre -historic mud flow and
fan gravel deposits. The site is within the town limits for Battlement Mesa and there are
existing wells and other structures in the area including the Battlement Mesa waste
water treatment facility and housing developments to the northeast and southeast of the
site. The mud flow, terrace, and fan gravels are not expected to constitute a geologic
hazard for the BMC B Pad development.
Rockfall areas are not present in the area of the site and are not expected to be a
geologic hazard affecting the site.
The site is not in an area mapped as an alluvial fan hazard area; however, the site is
underlain by alluvium and fan gravels, and the floors of creeks on the northwest side of
Battlement Mesa are mantled with alluvial gravel. Alluvial fans have been deposited at
the mouths of Monument Gulch and other nearby streams.
Slope is a not expected to be a geologic hazard affecting development of the BMC B
Pad site.
The Arvada loam soils are corrosive to both steel and concrete, and the subsoil has a
high shrink -swell potential. Corrosive and expansive soils are potentially present in the
vicinity of the proposed BMC B Pad site which is a limitation for some site development.
Collapsible soils are not present in the vicinity of the proposed BMC B Pad site.
No significant faults have been mapped or are known in the BMC B Pad site.
The site is not mapped as being within the 100 year flood plain. Flash flooding is a
hazard for lower elevations along Monument Gulch and areas along the Colorado River.
Areas immediately adjacent to these streams are located within the 100 year flood plain
and are prone to flood risks.
There are no mining activities shown in the vicinity of the site. Natural gas well drilling
has been conducted in the area since the 1960s.
There are no significant radioactive mineral deposits known in the immediate area of the
site. The presence of NORM may be an issue with exploration and production and could
be an issue with used pipe scale or used equipment. Radioactive materials are not
expected to pose a significant hazard at the site.
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
10
Olsson Associates
Golden, Colorado
October 2014
5.0 References
Cashion, W.B., 1973, Geologic and Structure Map of the Grand Junction Quadrangle,
Colorado and Utah, USGS, Map 1-736, scale 1:250,000
Donnell, J.R., Yeend W.E., Smith M.C., 1986, Preliminary Geologic Map of the Grand
Valley Quadrangle, Garfield County, Colorado, scale 1:24,000
Grout, M. A. and Verbeek, E.R., 1992, U.S.G.S. Bulletin 1787-Z, Fracture History of the
Divide Creek and Wolf Creek Anticlines and Its Relation to Laramide Basin -Margin
Tectonism, Southern Piceance Basin, Northwestern Colorado, 32 p.
Fischer, R.P., 1960, Vanadium -Uranium Deposits of the Rifle Creek Area, Garfield
County, Colorado, U.S.G.S. Bulletin 1101, 52 p.
Hail, W.J., Jr., 1992, U.S.G.S. Bulletin 1787-R, Geology of the Central Roan Plateau
Area, Northwestern, Colorado, 26 p.,
Harman, J.B. and Murray, D. J., 1985, Soil Survey of Rifle Area, Colorado, Parts of
Garfield and Mesa Counties, Colorado: U.S. Department of Agriculture, Soil
Conservation Service, in cooperation with the Colorado Agricultural Experiment Station,
149 p. two plates, and 20 map sheets.
Nelson -Moore, J.L., Bishop Collins, D., Hornbaker, A.L., 2005, Colorado Geologic
Survey, Bulletin 40, Radioactive Mineral Occurrences of Colorado, pp 154-158 (CD)
Robson, S.G. and Banta, E.R., 1995, U.S.G.S. Hydrologic Investigations Atlas 730-C,
Groundwater Atlas of the United States, Segment 2, Arizona, Colorado, New Mexico,
Utah, 32 p.
Topper, R., Spray, K. L., Bellis, W.H., Hamilton, J.L., Barkman, P.E., Ground Water Atlas
of Colorado, Colorado Geologic Survey, 2003, Special Publication 53, 210 p.
Yeend, W.E., 1969, Quaternary Geology of the Grand and Battlement Mesas Area,
Colorado, USGS Professional Paper 617, 50 p, 1 plate.
Online References
Colorado Oil and Gas Conservation Commission http://cogcc.state.co.us/
Natural Resources Conservation Service - Soil Survey http://www.nres.usda.gov/
Garfield County
• Slope Hazards: http://garfield-county.com/geographic-information-
systems/documents/6439291200422slopehaz.pdf
• Soil Hazards: http://garfield-county.com/geographic-information-
systems/documents/64335291200423soilhaz.pdf
• Surficial Geology of Garfield County: http://Barfield-county.com/geographic-
information-systems/documents/geologic-hazards/24surfgeo.pdf
Colorado Geological Survey website: http://geosurvev.state.co.us/hazards
Colorado Geological Survey website: http://geosurvey.state.us/land/Pages/Professional
Geologist
Colorado Department of Public Health and Environment: http://co-
radon.info/CO radon map.html
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
11
Olsson Associates
Golden, Colorado
October 2014
FIGURES
Geologic Hazard Report
Ursa Operating Company BMC B Pad
Garfield County, CO
Olsson Associates
Golden, Colorado
January 2014
ANT •
RE•
SIDENTIAV•
I
•
t ��'•�•
I LOTS - •••.
•
�
••
• VACANT
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j LOTS
•
EXEMPT -POLITICAL
SD -LAND
4 /
I
EXEMPT -POLITICAL
SD -LAND
EXEMPT STATE-LAND-NONRES
7S96W
EXEMPT -POLITICAL
SD -LAND
13
VACANT
COMMERCIAL
LOTS
7S
BMC B
Pad
SINGLE
FAM.RES.-LAND
SINGLE
SPEC.PURPOSE-LAND FAM.RES-IMPROVEMTS
95W
•
•
a SINGLE i
FAM.RES-IMPROVEMTS
18 t� D 1
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Adjacent Land Use
EXEMPT ALL OTHER LAND
EXEMPT -POLITICAL SD -LAND
EXEM PT -STATE -LAN D -NON RES
SINGLE FAM.RES-IMPROVEMTS
SINGLE FAM.RES.-LAND
SPEC.PURPOSE-LAND
VACANT COMMERCIAL LOTS
VACANT PUD LOTS
VACANT RESIDENTIAL LOTS
Proposed BMC B Pad County Road
Township
nSection
DISCLAIMER This Geographic Information System (GIS) and its
components are designed as a source of reference for answering 0
inquiries, for planning and for modeling. GIS is not intended, nor does it
replace legal description information in the chain of title and other
information contained in official government records such as the County
Clerk and Recorders office or the courts. In addition, the representations
of locations in this GIS cannot be substituted for actual legal surveys.
250 500
Feet
A
Project Number: 014-1829
Drawn By: JWH
Revision Date: 9/30/2014
Adjacent Land Use Map
Ursa Operating Company
BMC B Pad
Garfield County, CO
Sec 18, T7S, R95W, 6th PM
f?"djaTING
cent
Figure
ALU -1
I,
• /,
Proposed BMC B Pad County Road
=Township Hydrography
OSection ^r Perennial Stream
'�� -• Intermittent Stream
100/500 Year Combined Floodplain
DISCLAIMER This Geographic Information System (GIS) and its
components are designed as a source of reference for answering 0
inquiries, for planning and for modeling. GIS is not intended, nor does it
replace legal description information in the chain of title and other
information contained in official government records such as the County
Clerk and Recorders office or the courts. In addition, the representations
of locations in this GIS cannot be substituted for actual legal surveys.
250 500
Feet
A
Project Number: 014-1829
Drawn By: JWH
Revision Date: 9/30/2014
100/500 Year Floodplain Map
Ursa Operating Company
BMC B Pad
Garfield County, CO
Sec 18, T7S, R95W, 6th PM
c-?" COOPERATING
Figure
FP -1
HYDROGRAPHY:
FEATURE
PRESENT WITHIN 1,000 ft
Ditch
Floodplain
Groundwater Depth
Intermittent Stream
Perennial Stream
Riparian Area
Spring
No
Yes - 251 ft
Approx. 40 ft
Yes - 58 ft *
Yes - 335 ft
No
Yes -101 ft*
No
No
Yes-220ft •
Yes -67 ft*
Water Body
Watershed
Water Well
Wetland
Notes / Comments:
o 500 1,000
Feet
Ursa
OPERATING
COMPANY
Form 2A - Attachment E
Topographic Map Showing Surface Waters
BMC B
39.43894 -108.04647
Section 18, Township 7 South, Range 95 West
Proposed
Development
Proposed Access
Local Roads
County Roads
H0.L COMPLIANCE SOLUTIONS, INC.
Environmental Consultants
Author: M. Spinelli
Revision: 2
Date: 4/2/2015
0
0
NRCS SOILS KEY:
MAP SYMBOL SERIES NAME
3
Arvada loam (1-6% slopes)
A,"4411
`"- 1/2Mil�•
0,4r
Q0
NY
4
Arvada loam (6-20% slopes)
34
Ildefonso stony loam (25-45%)
51
Olney loam, (6-12% slopes)
55
Potts loam (3-6% slopes)
56
Potts loam (6-12% slopes)
58
Potts-Ildefonso complex (12-25%)
65
Torrifluvents (nearly level)
72
Wann sandy loam (1-3% slopes)
73
Wann sandy loam (3-6% slopes)
Notes / Comments:
0 500 1,000
Feet
Ursa
OPERATING
COMPANY
Form 2A - Attachment H
NRCS Soils Map
BMC B
39.43894 -108.04647
Section 18, Township 7 South, Range 95 West
E, Approx. Center
Proposed
Development
Proposed Access
County Roads
— Local Roads
HRL COMPLIANCE SOLUTIONS, INC
Environmental Consultants
Author: M. Spinelli
Revision: 1
Date: 4/2/2015
Attachment H — NRCS Soil Survey, Rifle Area
Map Symbol 4 — Arvada loam (6-20% slopes)
Deep, well drained, sloping soils found on fans and high terraces.
Elevation
5,100 to 6,200 feet
Average Annual
Precipitation
Approximately 12 inches
Average Annual Air Temp
Approximately 48 degrees F
Frost Free Days
Approximately 120 days
Permeability
Very Slow
Available Water Capacity
High
Effective Rooting Depth
60+ inches
Surface Runoff
Moderately Rapid
Erosion Hazard
Severe
Native Vegetation: Mainly sagebrush, greasewood, and wheatgrass.
Development is limited by the high shrink -swell potential, salinity, and steep slopes. This soil is in
capability subclass VIIs, nonirrigated.
Proposed
BMC B Pad
(INCLUDING
UNION
EQUIVALENT
Proposed BMC B Pad County Road
DTownship Hydrography
Section Perennial Stream
Intermittent Stream
DISCLAIMER This Geographic Information System (GIS) and its
components are designed as a source of reference for answering 0
inquiries, for planning and for modeling. GIS is not intended, nor does it
replace legal description information in the chain of title and other
information contained in official government records such as the County
Clerk and Recorders office or the courts. In addition, the representations
of locations in this GIS cannot be substituted for actual legal surveys.
250 500
Feet
A
Project Number: 014-1829
Drawn By: JWH
Revision Date: 10/10/2014
Geology Map
Ursa Operating Company
BMC B Pad
Garfield County, CO
Sec 18, T7S, R95W, 6th PM
UrsaCOMPANYG
Figure
G-1