HomeMy WebLinkAbout5.03 Geologic_Hazard_Report_N23CDP
Geologic Hazards Assessment
Caerus Piceance LLC
BJU N23‐496 Central Delivery Point
Garfield County, Colorado
Administrative Review
Project Number 021‐173
March 1, 2022
Entrada Consulting Group
330 Grand Ave, Suite C
Grand Junction, CO 81501
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BJU N23‐496 Central Delivery Point
Geological Hazards Assessment
Table of Contents
1.0 INTRODUCTION ............................................................................................................................. 3
2.0 SITE GEOLOGY – LUDC Section 4‐203 (G).4. .................................................................................. 3
2.1 SITE OVERVIEW .......................................................................................................................... 3
2.2 STRUCTURAL GEOLOGY ............................................................................................................. 3
2.3 BEDROCK GEOLOGY ................................................................................................................... 3
2.4 SOILS .......................................................................................................................................... 4
3.0 GEOLOGIC HAZARDS ..................................................................................................................... 4
3.1 UTILITIES – LUDC Section 7‐207.A. ............................................................................................. 4
3.2 AVALANCHE HAZARD – LUDC Section 7‐207.B. ......................................................................... 5
3.3 LANDSLIDE HAZARD – LUDC Section 7‐207.C. ............................................................................ 5
3.4 ROCKFALL HAZARD– LUDC Section 7‐207.D............................................................................... 5
3.5 ALLUVIAL FAN HAZARD – LUDC Section 7‐207.E. ....................................................................... 5
3.6 SLOPE DEVELOPMENT – LUDC Section 7‐207.F. ........................................................................ 5
3.7 CORROSIVE OR EXPANSIVE SOILS OR ROCK – LUDC Section 7‐207.G. ....................................... 5
3.8 MUDFLOW OR DEBRIS FLOW HAZARD – LUDC Section 7‐207.H. ............................................... 5
3.9 DEVELOPMENT OVER FAULTS – LUDC Section 7‐207.I. ............................................................. 6
3.10 RADIOACTIVE HAZARDS – LUDC Section 4‐203(G)6.d. ............................................................. 6
4.0 CONCLUSIONS AND SUMMARY ............................................................................................ 6
5.0 REFERENCES ......................................................................................................................... 6
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330 Grand Ave, Suite C
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BJU N23‐496 Central Delivery Point
Geological Hazards Assessment
1.0 INTRODUCTION
Caerus Piceance LLC (Caerus) retained Entrada Consulting Group, Inc. (Entrada) to develop a
Geological Hazards Report for submittal to the Garfield County Community Development Department
for the proposed BJU N23‐496 Central Delivery Point (N23 CDP). The following assessment addresses
the requirements for the Article 4 Section 203.G. 4 Geology and Hazard, Section 4‐203(G)6.d., and
Section 7‐207. Natural and Geological Hazards of the Garfield County Land Use and Development Code
(LUDC).
2.0 SITE GEOLOGY – LUDC Section 4‐203 (G).4.
2.1 SITE OVERVIEW
The Site is located on the Roan Plateau which lies within the Piceance Creek Basin and the Colorado
Plateau physiographic region. The topography of the area consists of rolling hills atop a plateau that is
bounded by cliffs and cut by deeply incised, steep walled canyons. The Site is located on topographic
high‐ground approximately 15.25 miles north of Parachute, Colorado at an approximate elevation of
8,169 feet above mean sea level. The Site is located in the SESW Section 23, Township 4 South, Range
96 West, 6th P.M. Latitude and Longitude for the Site are 39.680578° and ‐108.138397° respectively.
Due to wildlife timeframe stipulations set forth by CPW, COGCC, and the BLM, Caerus obtained a
grading permit from Garfield County prior to the submittal of the land use change application. Grading
activities were completed in the 3rd quarter of 2021.
2.2 STRUCTURAL GEOLOGY
The Piceance Creek Basin is a large structural and depositional basin that is bounded by the Yampa
Plateau, Axial Basin Arch, White River Uplift, Gunnison Uplift, Uncompagre Uplift, and Douglas Creek
Arch. The Piceance Creek Basin was formed during the Laramide Orogeny and structural formation of
the basin lasted from Late Cretaceous through the Tertiary. The sediments within the basin were
sourced from surrounding highlands and were subsequently lithified and structurally deformed.
There are no major faults in the area, however there are a series of grabens (normal faults) located
0.85 miles northeast of the Site and another series located 1.25 miles southwest of the Site.
2.3 BEDROCK GEOLOGY
The bedrock geology underlying the Site is composed of the Uinta Formation which is underlain by the
Green River Formation. The Green River formation can be subdivided into the lower Green River and
the Parachute Creek Member. The Lower Green River can be further subdivided into Anvil Points,
Garden Gulch, and Douglas Creek Members. Both the Uinta and Green River formations are Eocene in
age.
The Uinta formation consists of tuffaceaous sandstones and siltstones, marlstones, oil shale,
conglomeratic sandstones, and limestones. The underlying Green River formation is approximately
2,100 feet thick and consists of oil shale, dolomitic shale, clay shale, limestone, siltstone, sandstone,
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BJU N23‐496 Central Delivery Point
Geological Hazards Assessment
and tuff. Intertounging between the Green River and Uinta formations is common in this area.
2.4 SOILS
A soils report from the Natural Resource Conservation Service (NRCS) indicates that within the area of
disturbance three soil types are present. NRCS Soils Report is provided in the Impact Analysis tab.
Table 1: Map Units Present within BJU N23‐496 CDP Perimeter
Map
Unit
Soil Type Percent
Slope
Description
38 Irigul‐Starman
channery loams
5 to 50 Percent
Slopes
Occurs on ridges and mountain sides from 7,800 to 9,000 feet. Parent
material is marl and/or residuum weathered from sandstone. Not
Prime Farmland
53 Parachute‐
Rhone loams
5 to 30 Percent
Slopes
Occurs on mountains slopes at an elevation of 7,600 to 8,600 feet.
Parent material is colluvium over residuum weathered from sandstone
and shale. Not Prime Farmland.
61 Rhone loam 30 to 70
Percent Slopes
Occurs on ridges and mountain sides from 7,600 to 8,600 feet. Parent
material is marl and/or residuum weathered from sandstone. Not
Prime Farmland
Table 2: Profile of Soil Types Present
Map
Unit
Soil
Composition Typical Profile
38
Irigul (55%) H1 – 0 to 6 inches:
channery loam
H2 ‐6 to 17 inches: extremely
channery sandy clay loam
H3 ‐ 17 to 21 inches: unweathered
bedrock
Starman
(30%)
H1 ‐ 0 to 3
inches: channery loam
H2 ‐ 3 to 13 inches: very
channery loam, extremely
channery loam
H2 ‐ 3 to 13 inches: unweathered
bedrock
53
Parachute
(55 %)
A ‐ 0 to 5 inches: loam Bw1 ‐ 5 to 18 inches: loam
Bw2 ‐ 18 to 29 inches:
extremely cobbly loam
R ‐ 29 to 59 inches: bedrock
Rhone
(30%)
A1 ‐ 0 to 8 inches: loam
A2 ‐ 8 to 28 inches:
sandy clay loam
C ‐ 28 to 52 inches: very
channery sandy clay loam
R ‐ 52 to 60 inches: bedrock
Irigul
(15%)
A1 ‐ 0 to 6 inches:
channery loam
A2 ‐ 6 to 13 inches: very
channery loam
R ‐ 13 to 60 inches: bedrock
61
Rhone
(85%)
H1 ‐ 0 to 8 inches: loam H2 ‐ 8 to 28 inches: sandy clay
loam
H3 ‐ 28 to 52 inches: very channery
sandy clay loam
H4 ‐ 52 to 56 inches: unweathered
bedrock
3.0 GEOLOGIC HAZARDS
3.1 UTILITIES – LUDC Section 7‐207.A.
Caerus is proposing overhead electrical power for this Site. This report did not find any Geologic
Hazards that would pose a threat to the proposed power source.
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BJU N23‐496 Central Delivery Point
Geological Hazards Assessment
3.2 AVALANCHE HAZARD – LUDC Section 7‐207.B.
The Site is not located in a known Avalanche Hazard Area. Furthermore, the Site is not within the
higher precipitation areas of Garfield County where avalanches tend to occur. The site is located on a
topographic high within a greater plateau.
3.3 LANDSLIDE HAZARD – LUDC Section 7‐207.C.
The Site is not located in a known Landslide Hazard area. However, removal of lateral support, altering
drainage, or the addition of moisture can increase the risk for landslides. Landslide
deposits have been mapped in nearby Garden Gulch, Cascade Canyon, Conn Creek Canyon, and other
unnamed canyons in the area.
3.4 ROCKFALL HAZARD– LUDC Section 7‐207.D.
The Site is not located in a known Rockfall Hazard area. The site is located on a ridge with no upslope
rock exposures.
3.5 ALLUVIAL FAN HAZARD – LUDC Section 7‐207.E.
The Site is not located in a known Alluvial Fan Hazard area. The Site is located on a topographic
high within a greater plateau.
3.6 SLOPE DEVELOPMENT – LUDC Section 7‐207.F.
The Site has been previously graded and is located on a relatively broad topographic high within a
greater plateau. Within the site perimeter the grade is less than 20%.
3.7 CORROSIVE OR EXPANSIVE SOILS OR ROCK – LUDC Section 7‐207.G.
The Irigul‐Starman channery loams (Map Unit 38) has a high corrosiveness rating for uncoated steel
and a low corrosiveness rating for concrete per the USDA Natural Resources Conservation Service.
The Parachute‐Rhone loams (Map Unit 53) and the Rhone loam (Map Unit 61) has a moderate
corrosiveness rating for uncoated steel and a low corrosiveness rating for concrete per the USDA
Natural Resources Conservation Service.
According to the USDA Natural Resource Conservation Service, the Irigul‐Starman channery loams
(Map Unit 38) has a value for linear extensibility percent (LEP) of 1.5, the Parachute‐Rhone loams
(Map Unit 53) has a value for LEP of 2.5, and the Rhone loam (Map Unit 61) has a value for LEP of 1.5.
According to the USDA Natural Resource Conservation Service values of LEP less than 3.0 are
considered within the “Low” shrink‐swell class.
3.8 MUDFLOW OR DEBRIS FLOW HAZARD – LUDC Section 7‐207.H.
The Site is not located in a known Mudflow or Debris Flow Hazard area. The Site is located on a
topographic high within a greater plateau.
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BJU N23‐496 Central Delivery Point
Geological Hazards Assessment
3.9 DEVELOPMENT OVER FAULTS – LUDC Section 7‐207.I.
The Site is not located immediately above any known mapped faults. However, small normal faults
exist nearby (See Section 2.2). The closest faults known to have shown surface deformation due to
large earthquakes in the last 1.6 million years are the Redlands Fault complex near Grand Junction and
the Grand Hogback Fault complex near Glenwood Springs. Earthquakes in Garfield County are likely to
measure 5.0 or less on the Richter Scale (Garfield County Hazard Mitigation Plan, 2017).
The United States Geological Survey (USGS) Earthquake Hazards Program online records were
researched for seismic activity dating back to 1867. Six earthquakes with magnitudes greater than 2.5
exist in the dataset within a 20 mile radius of the Site. The largest earthquake in the dataset was from
an Atomic Energy Commission Project Rio Blanco nuclear detonation (magnitude 5.4) in 1973, fourteen
miles northwest of the Site. The largest natural earthquake was a magnitude 4.3 that occurred
fourteen miles west‐northwest of the Site in 2018. The closest earthquake in the dataset was a
magnitude 2.6 that occurred in 2018 and was located 1.77 miles southwest of the Site. Earthquake
hazards at this Site are relatively low.
3.10 RADIOACTIVE HAZARDS – LUDC Section 4‐203(G)6.d.
Review of the Colorado Department of Public Health and Environment website for Radon
information indicates that Garfield County has high radon potential. It is anticipated that based
on the proposed project for the Site, that limited structures and buildings will be developed, and
workers will predominantly be outside during the normal work shifts; therefore, radon is not
expected to represent a significant geologic or worker exposure health hazard. Naturally occurring
radioactive minerals are common Garfield County. However, they are not anticipated in the geologic
section exposed at the surface at this Site.
4.0 CONCLUSIONS AND SUMMARY
Based on this Limited Desktop Geological Hazards Assessment of publicly available information, there
are no known Geological Hazards within or to the BJU N23‐496 Central Delivery Point Site.
5.0 REFERENCES
Coffin, D.L., Welder, F.A., and Glanzman, R.K., 1971, Geohydrology of the Piceance Creek
Structural Basin Between the White and Colorado Rivers, Northwestern Colorado, U.S.G.S.,
Atlas HA‐370, 2 sheets
Hail, W.J., 1975, Preliminary Geologic Map of the Cutoff Gulch Quadrangle, Rio Blanco and Garfield
Counties, Colorado, U.S.G.S., Map MF‐691; scale 1:24,000, 2 plates.
Hail, W.J., Jr., 1992, U.S.G.S. Bulletin 1787‐R, Geology of the Central Roan Plateau
Area, Northwestern, Colorado, 26 p.,
Hail, W.J., O’Sullivan, R.B., Smith, M.C., 1989, U.S.G.S. Miscellaneous Investigations Series,
Map 1‐1797‐C, Geologic Map of The Roan Plateau Area, Northwestern Colorado, 1 map sheet
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BJU N23‐496 Central Delivery Point
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Nelson‐Moore, J.L., Bishop C.D., and Hornbaker, A.L., 2005, Colorado Geologic
Survey, Bulletin 40, Radioactive Mineral Occurrences of Colorado, 1054 p.
White, J. L., and Greenman, C., 2008, EG‐14 Collapsible Soils in Colorado, Colorado
Geological Survey, Department of Natural Resources, 108p, 1 map sheet
Colorado Abandoned Mine Land Information Map
https://erams.com/aml
Colorado Department of Public Health and Environment – Radon
https://cdphe.colorado.gov/understanding‐radon
Colorado Oil and Gas Conservation Comission GIS Online
https://cogccmap.state.co.us/cogcc_gis_online/
Garfield County Land Use and Development Code
https://www.garfield‐county.com/community‐development/land‐use‐code/
Garfield County Natural Hazard Mitigation Plan, 2017
https://www.garfield‐county.com/emergency‐management/natural‐hazard‐mitigation‐plan/
Oregon State University ‐ Prism Climate Group
https://prism.oregonstate.edu/
USDA Natural Resources Conservation Service, Web Soil Survey
https://websoilsurvey.sc.egov.usda.gov/App/WebSoilSurvey.aspx
USGS Earthquake Hazards Program
https://earthquake.usgs.gov/
Sincerely,
S. Reed Johnson
Senior Project Geologist
Entrada Consulting Group
Phone: 720‐253‐2940
Email: rjohnson@entradainc.com