Caballo Mountains

Caballo Mountains
Highest point
Coordinates	32°57′47″N 107°13′50″W / 32.9631°N 107.2306°W / 32.9631; -107.2306
Dimensions
Length	32 mi (51 km) NNW-SSE
Width	4 mi (6.4 km) WSW-ENE
Geography
Caballo Mountains Caballo Mountains in New Mexico
Country	United States
State	New Mexico
Counties	Sierra and Doña Ana
Range coordinates	32°57′47″N 107°13′50″W / 32.9631°N 107.2306°W / 32.9631; -107.2306
Borders on	Truth or Consequences, Rio Grande, Caballo Reservoir, McLeod Hills and Jornada del Muerto

The Caballo Mountains, (Spanish: "horse") are a mountain range located in Sierra and Doña Ana Counties, New Mexico, United States. The range is located east of the Rio Grande and Caballo Lake, and west of the Jornada del Muerto; the south of the range extends into northwest Doña Ana County. The nearest towns are Truth or Consequences and Hatch.

Most of the Caballo Mountains are located on land owned by the Bureau of Land Management. The mountains are unusual, and perhaps unique in New Mexico, for the relatively complete geologic history revealed by their rocks. Vehicular access to the range is by Interstate 25 from the west, by New Mexico State Road 51 from the north, and by several dirt roads from the east.

Geography

The Caballo Mountains trend north and south, with a length of approximately 32 miles (50 km). The width of the range varies from 3–6 miles (5–10 km). The highest point on the range, Timber Mountain (7,565 feet), has a topographic prominence of approximately 3,400 feet.

The types, sizes, and profiles of the Caballo watersheds vary significantly according to the part of the range that they drain. No perennial streams flow through the mountains, although the course of the Rio Grande is close to the north, west, and south margins of the range. The northern part of the Caballos drains into the Rio Grande through Ash Canyon and Mescal Canyon. The confluences of those two intermittent streams are just below Elephant Butte Dam. Water falling on the precipitous west face of the range drains directly into the Rio Grande by means of numerous first order canyons with high gradients. All are ephemeral and less than 3 miles in length.

In contrast, the eastern side has only two primary drainages, each with a much lower gradient than those to the north and west. Water falling on the southern half of the east side flows into Barbee Draw. After joining another tributary near Point of Rocks to form Rincon Arroyo, this ephemeral drainage flows southward before joining the Rio Grande near Rincon, New Mexico. The length of this drainage is over 25 miles. The north portion of the east side is drained by Jornada Draw. This drainage, however, is endorheic and has no surface connection to the Rio Grande.

Geology

The geological importance of the Caballo Mountains lies in the variety and scope of their exposed rocks. Geologists can assess exposed rock formations in several ways. Relative dating compares the formation's bedding location in comparison with other formations nearby. This allows not only the identification of the older and younger formations, but conclusions about unusual local conditions, such as folding, a fault displacement, or an unconformity. Absolute dating measures the presence and ratios of chemicals within the rocks to determine the number of years since they were deposited. The conditions existing when the rock was deposited can be determined by examining its type (igneous, metamorphic, or sedimentary), the orientation and size of crystals or sediments within it, and the orientation of the formation within its larger regional setting. By studying plant and animal fossils that may exist in the formation, it may be possible to determine not only its relative age, but the climate at the time of deposition.

Weathering and erosion remove any rock that is exposed at the surface of the Earth. Consequently, there are no sites where all rocks deposited at that location have been preserved. Certain sites, however, may have more complete geological histories because of differences in the timing and circumstances of rock removal. The Caballo Mountains are essentially unique in New Mexico because their section of exposed rocks begins in Precambrian time, and runs through every geological period of the Phanerozoic eon with the exceptions of the Triassic and Jurassic. This provides an unparalleled picture of the geological history of southern New Mexico.^[1]

Stratigraphy

The basement rocks of the Caballos include plutons of granite, and metamorphic amphibolite and gneiss. These rocks date from the Early to Middle Proterozoic, and are found along the base of the larger fault blocks.

Throughout the early and middle Paleozoic southern New Mexico alternated between being flooded by shallow tropical seas, and being exposed to erosion. Sedimentary deposits of early and middle Paleozoic age include:

• Bliss Formation of arkosic sandstone and siltstone (Cambrian to Ordovician).
• El Paso Formation of dolomites and limestones (Ordovician)
• Montoya Formation of dolomites and cherty dolomites (Ordovician)
• Fusselman Dolomite (Silurian)
• Percha Shale (Devonian)
• Lake Valley Formation of limestones and cherty limestones (Mississippian)

An unconformity exists above the Lake Valley Formation, and appears to include the middle Mississippian through the early Pennsylvanian periods. During the Pennsylvanian and Permian periods, a major deformation created a series of uplifts and intermontane basins. This event is often referred to as the Ancestral Rocky Mountains. Associated with this event is the Magdalena Group, which includes deposits of both marine and non-marine sources. The thickness of these strata is greater than that of all earlier Paleozoic rocks. Above the Magdalena Group is the Red House Formation of packstone and shale, the Nakaye Formation of limestone, the Bar B Formation of interbedded limestone, dolomite, shale, and conglomerate, and the red shale beds of the Abo Formation. All of those strata are Pennsylvanian in age. Above them is the Permian Yeso Formation, which consists of sandstones, siltstone-dolomites, and limestones. The Paleozoic strata are completed by the Meseta Blanca Sandstone Member.

Most of the Mesozoic rocks are missing from the Caballo geological history. A second unconformity lies above the Meseta Blanca Sandstone, and includes all of the Triassic and Jurassic periods. The next oldest rocks are of Cretaceous age and include:

• Dakota Sandstone
• Rio Salado Tongue Member of Mancos Shale
• Tres Hermanos Formation of sandstones
• Cross Tongue Member of Mancos Shale
• Gallup Sandstone
• Crevasse Canyon Formation of sandstones and mudstones
• McRae Formation of sandstones, tuff, and conglomerate

The Mesozoic rocks terminate below another unconformity. Above that is the Love Ranch Formation of conglomerate, mudstone and sandstone, which was deposited in the Paleocene to early Eocene. During the Eocene, a wave of arc volcanism was felt across southern New Mexico. In the Caballo Mountains, this can be seen in the Palm Park Formation, a thick layer of andesitic or tuffaceous mudstones, sandstones, and breccia. Next is the Bell Top Formation, which consists of rhyolite, basalt flows, and tuffaceous sandstones. In the southern part of the Caballo Mountains, there are remnants of a region wide sheet of flood basalts and andesite, which was laid during the Oligocene. Of similar age is the Thurman Formation of white sandstone. The Santa Fe Group (geology) was deposited during the Miocene and Pliocene. This thick layer consists of the Hayner Ranch Formation (conglomerate, sandstone and shale), the Rincon Valley Formation (conglomerate, sandstone, and mudstone), the Selden basalts, and the Camp Rice/Palomas Formations (ash fall deposits, basalts, and pumice-clast conglomerates). Quaternary and Holocene deposits consist of alluvium. On the west side of the range along the Rio Grande, the alluvial fill consists of unconsolidated fluvial deposits of boulders, cobble, and gravel. In the closed basin on the east side of the range, there are relatively few fluvial deposits. Instead, the sediment includes a flat, thin veneer of sand and gravel.^[1]

Tectonics

The Rio Grande Rift is a continental rift zone, which extends approximately 680 miles (~1,100 km) from central Colorado in the north to the state of Chihuahua, Mexico in the south.^[2] It is the product of extensional tectonic (or divergent) forces that formed a series of basins between the Colorado Plateau and the North American craton^[3] Thin continental crust, normal fault block topography, high regional elevation, and volcanism is found over the course of the rift.^[1]

The following five timelines show the geologic time scale to scale. The first shows the entire time from the formation of the Earth to the present, but this gives little space for the most recent eon. The second timeline shows an expanded view of the most recent eon. In a similar way, the most recent era is expanded in the third timeline, the most recent period is expanded in the fourth timeline, and the most recent epoch is expanded in the fifth timeline.

 id:phanerozoic value:rgb(0.604,0.851,0.867)
 id:cenozoic value:rgb(0.949,0.976,0.114)
 id:quaternary value:rgb(0.976,0.976,0.498)
 id:neogene value:rgb(1,0.902,0.098)
 id:paleogene value:rgb(0.992,0.604,0.322)
 id:mesozoic value:rgb(0.403,0.773,0.792)
 id:cretaceous value:rgb(0.498,0.776,0.306)
 id:jurassic value:rgb(0.204,0.698,0.788)
 id:triassic value:rgb(0.506,0.169,0.573)
 id:paleozoic value:rgb(0.6,0.753,0.553)
 id:permian value:rgb(0.941,0.251,0.157)
 id:carboniferous value:rgb(0.403,0.647,0.6)
 id:devonian value:rgb(0.796,0.549,0.216)
 id:silurian value:rgb(0.702,0.882,0.714)
 id:ordovician value:rgb(0,0.573,0.439)
 id:cambrian value:rgb(0.498,0.627,0.337)
 id:precambrian value:rgb(0.969,0.263,0.439)
 id:proterozoic value:rgb(0.969,0.208,0.388)
 id:neoproterozoic value:rgb(0.996,0.702,0.259)
 id:ediacaran value:rgb(0.996,0.851,0.416)
 id:cryogenian value:rgb(0.996,0.8,0.361)
 id:tonian value:rgb(0.996,0.749,0.306)
 id:mesoproterozoic value:rgb(0.992,0.706,0.384)
 id:stenian value:rgb(0.996,0.85,0.604)
 id:ectasian value:rgb(0.992,0.8,0.541)
 id:calymmian value:rgb(0.992,0.753,0.478)
 id:paleoproterozoic value:rgb(0.969,0.263,0.439)
 id:statherian value:rgb(0.973,0.459,0.655)
 id:orosirian value:rgb(0.969,0.408,0.596)
 id:rhyacian value:rgb(0.969,0.357,0.537)
 id:siderian value:rgb(0.969,0.310,0.486)
 id:archean value:rgb(0.941,0.016,0.498)
 id:neoarchean value:rgb(0.976,0.608,0.757)
 id:mesoarchean value:rgb(0.969,0.408,0.663)
 id:paleoarchean value:rgb(0.957,0.267,0.624)
 id:eoarchean value:rgb(0.855,0.012,0.498)
 id:hadean value:rgb(0.682,0.008,0.494)
 id:black value:black
 id:white value:white

 align:center textcolor:black fontsize:8 mark:(line,black) width:25 shift:(0,-5)

 bar:supereon

 from: start till: -538.8 text:Precambrian color:precambrian

 bar:eon

 at:       0 align:right $markred
 at:    -538.8 align:left  $markred shift:(2,3)
 from:  -538.8 till:    0  text:Phanerozoic color:phanerozoic   
 from: -2500 till: -538.8  text:Proterozoic color:proterozoic   
 from: -4031 till: -2500 text:Archean     color:archean   
 from: start till: -4031 text:Hadean      color:hadean

 bar:era

 from: -66 till: 0     text:C color:cenozoic        
 from: -251.902  till: -66 text:Mesozoic color:mesozoic        
 from: -538.8  till: -251.902  text:Paleozoic color:paleozoic 
 from: -1000 till: -538.8  text:Neoproterozoic color:neoproterozoic   
 from: -1600 till: -1000 text:Mesoproterozoic color:mesoproterozoic  
 from: -2500 till: -1600 text:Paleoproterozoic color:paleoproterozoic 
 from: -2800 till: -2500 text:Neoarchean color:neoarchean       
 from: -3200 till: -2800 text:Mesoarchean color:mesoarchean      
 from: -3600 till: -3200 text:Paleoarchean color:paleoarchean     
 from: -4031 till: -3600 text:Eoarchean color:eoarchean
 from: start till: -4031 color:white

 bar:period

 fontsize:8
 from: -2.58 till: 0        color:quaternary
 from: -23.03 till: -2.58 color:neogene
 from: -66 till: -23.03 text:Pg color:paleogene
 from: -145 till: -66.0 text:K color:cretaceous
 from: -201.3 till: -145 text:J color:jurassic
 from: -251.902 till: -201.4 text:T  color:triassic
 from: -298.9 till: -251.902 text:P   color:permian
 from: -358.9 till: -298.9 text:Cf  color:carboniferous
 from: -419.2 till: -358.9 text:D  color:devonian
 from: -443.8 till: -419.2  color:silurian fontsize:7
 from: -485.4 till: -443.8 text:O color:ordovician
 from: -538.8 till: -485.4 text:C  color:cambrian
 from: -635  till: -538.8  text:Ed. color:ediacaran
 from: -720  till: -635  text:Cr. color:cryogenian
 from: -1000 till: -720  text:Tonian color:tonian
 from: -1200 till: -1000 text:Stenian color:stenian
 from: -1400 till: -1200 text:Ectasian color:ectasian
 from: -1600 till: -1400 text:Calymmian color:calymmian fontsize:7
 from: -1800 till: -1600 text:Statherian color:statherian fontsize:7
 from: -2050 till: -1800 text:Orosirian color:orosirian
 from: -2300 till: -2050 text:Rhyacian color:rhyacian
 from: -2500 till: -2300 text:Siderian color:siderian
 from: start till: -2500 color:white

 id:phanerozoic value:rgb(0.604,0.851,0.867)
 id:cenozoic value:rgb(0.949,0.976,0.114)
 id:quaternary value:rgb(0.976,0.976,0.498)
 id:neogene value:rgb(1,0.902,0.098)
 id:paleogene value:rgb(0.992,0.604,0.322)
 id:mesozoic value:rgb(0.403,0.773,0.792)
 id:cretaceous value:rgb(0.498,0.776,0.306)
 id:jurassic value:rgb(0.204,0.698,0.788)
 id:triassic value:rgb(0.506,0.169,0.573)
 id:paleozoic value:rgb(0.6,0.753,0.553)
 id:permian value:rgb(0.941,0.251,0.157)
 id:carboniferous value:rgb(0.403,0.647,0.6)
 id:devonian value:rgb(0.796,0.549,0.216)
 id:silurian value:rgb(0.702,0.882,0.714)
 id:ordovician value:rgb(0,0.573,0.439)
 id:cambrian value:rgb(0.498,0.627,0.337)
 id:black  value:black
 id:white  value:white
 id:darkgreen value:rgb(0,0.35,0)

 align:center textcolor:black fontsize:8 mark:(line,black) width:25 shift:(0,-5)

 bar:eon
 at:      0   align:right  $markred 
 at:   -538.8   align:left   $markred shift:(2,3)
 from: -538.8   till:    0   text:Phanerozoic color:phanerozoic

 bar:era
 at:   0     align:right $markgreen
 at:   -66 align:left  $markgreen shift:(2,3)
 from: -66 till: 0     text:Cenozoic color:cenozoic
 from: -251.902  till: -66 text:Mesozoic color:mesozoic
 from: -538.8  till: -251.902  text:Paleozoic color:paleozoic

 bar:period fontsize:8
 from: -2.58 till: 0 text:Q color:quaternary
 from: -23.03 till: -2.58 text:Neogene color:neogene
 from: -66 till: -23.03 text:Paleogene color:paleogene
 from: -145 till: -66 text:Cretaceous color:cretaceous
 from: -201.4 till: -145 text:Jurassic color:jurassic
 from: -251.902 till: -201.4 text:Triassic color:triassic
 from: -298.9 till: -251.902 text:Permian color:permian
 from: -358.9 till: -298.9 text:Carboniferous color:carboniferous
 from: -419.2 till: -358.9 text:Devonian color:devonian
 from: -443.8 till: -419.2 text:Silurian color:silurian
 from: -485.4 till: -443.8 text:Ordovician color:ordovician
 from: -538.8 till: -485.4 text:[[Cambrian] color:cambrian

 id:cenozoic value:rgb(0.949,0.976,0.114)
 id:quaternary value:rgb(0.976,0.976,0.498)
 id:holocene value:rgb(0.996,0.922,0.824)
 id:pleistocene value:rgb(1,0.937,0.686)
 id:neogene value:rgb(1,0.902,0.098)
 id:pliocene value:rgb(1,1,0.6)
 id:miocene value:rgb(1,1,0)
 id:paleogene value:rgb(0.992,0.604,0.322)
 id:oligocene value:rgb(0.996,0.753,0.478)
 id:eocene value:rgb(0.992,0.706,0.424)
 id:paleocene value:rgb(0.992,0.655,0.373)
 id:black value:black
 id:white value:white
 id:darkgreen value:rgb(0,0.35,0)

 align:center textcolor:black fontsize:8 mark:(line,black) width:25 shift:(0,-5)

 bar:era
 at:     0  align:right $markgreen 
 at: start  align:left  $markgreen shift:(2,3)
 from:start till:  0    text:Cenozoic color:cenozoic

 bar:period
 at:   0      align:right $markred 
 at:   -2.58 align:left  $markred shift:(2,3)
 from: -2.58 till: 0 text:Quaternary color:quaternary fontsize:6
 from: -23.03 till: -2.58 text:Neogene color:neogene
 from: start  till: -23.03 text:Paleogene color:paleogene

 bar:epoch
 from: -0.0117 till: 0  text:H color:holocene 
 from: -2.58 till: -0.0117 text:Pleistocene color:pleistocene fontsize:5
 from: -5.333 till: -2.58 text:Pliocene color:pliocene fontsize:7
 from: -23.03 till: -5.333 text:Miocene color:miocene
 from: -33.9 till: -23.03 text:Oligocene color:oligocene
 from: -56 till: -33.9 text:Eocene color:eocene
 from: start till: -56 text:Paleocene color:paleocene

 id:quaternary value:rgb(0.976,0.976,0.498)
 id:holocene value:rgb(0.996,0.922,0.824)
 id:meghalayan value:rgb(0.992,0.929,0.925)
 id:northgrippian value:rgb(0.992,0.925,0.894)
 id:greenlandian value:rgb(0.996,0.925,0.859)
 id:pleistocene value:rgb(1,0.937,0.686)
 id:late value:rgb(1,0.949,0.827)
 id:chibanian value:rgb(1,0.949,0.780)
 id:calabrian value:rgb(1,0.949,0.729)
 id:gelasian value:rgb(1,0.929,0.702)
 id:darkgreen value:rgb(0,0.35,0)

 align:center textcolor:black fontsize:8 mark:(line,black) width:25 shift:(0,-5)

 bar:period
 at: 0        align:right $markred 
 at: -2.58   align:left $markred shift:(2,3)
 from: -2.58 till: 0 text:Quaternary color:quaternary

 bar:epoch
 at: 0       align:right $markgreen
 at: -0.0117   align:left $markgreen shift:(2,3)
 from: -0.0117 till: 0      text:Holocene color:holocene
 from: -2.58 till: -0.0117 text:Pleistocene color:pleistocene

 bar:age fontsize:8
 from: -0.0042 till: 0      color:meghalayan
 from: -0.0082 till: -0.0042 color:northgrippian
 from: -0.0117 till: -0.0082 color:greenlandian
 from: -0.126 till: -0.0117 text:Late color:late
 from: -0.781 till: -0.126 text:Chibanian color:chibanian
 from: -1.806 till: -0.781 text:Calabrian color:calabrian
 from: -2.58 till: -1.806 text:Gelasian color:gelasian

 id:holocene value:rgb(0.996,0.922,0.824)
 id:meghalayan value:rgb(0.992,0.929,0.925)
 id:northgrippian value:rgb(0.992,0.925,0.894)
 id:greenlandian value:rgb(0.996,0.925,0.859)
 id:darkgreen value:rgb(0,0.35,0)

 align:center textcolor:black fontsize:8 mark:(line,black) width:25 shift:(0,-5)

 bar:epoch
 at: 0       align:right $markgreen
 at: -11.7   align:left $markgreen shift:(2,3)
 from: -11.7 till: 0      text:Holocene color:holocene

 bar:age fontsize:8
 from: -4.2 till: 0      text:Meghalayan color:meghalayan
 from: -8.2 till: -4.2 text:Northgrippian color:northgrippian
 from: -11.7 till: -8.2 text:Greenlandian color:greenlandian

The history of movement along the rift has been divided into three separate stages: an initial stage during the late Eocene to early Oligocene, a second stage during the late Oligocene to late Miocene, and a third stage beginning in the late Miocene or early Pliocene and continuing to the recent past. Activity in the vicinity of the Caballos during the first stage included explosive rhyolitic eruptions from cauldrons located to the northwest, west, and southeast. The earliest eruptions took place in the Dona Ana Mountains and Organ Mountains between 36.2 and 35.4 Ma. The Emory cauldron, located in the Black Range, was active approximately 34.9 Ma. What is now the San Mateo Mountains (Socorro County) contained at least two cauldrons, the Nogal Canyon cauldron (28.6 Ma) and the Mount Withington cauldron (27.4 Ma). Local subsiding appears to have begun around 34.9 Ma. The Caballo Mountains began to rise in the late Oligocene, and throughout the Miocene. Approximately 9.6 Ma, the eruption of basalts near Fort Selden signaled the renewal of crustal extension and volcanism in the southern part of the rift. Activity along both older and new faults increased the number, but decreased the width of basins along this portion of the rift.^[1]

Economic Geology

The Caballo Mountains have few large intrusives, and as a result, hydrothermal mineralization is not extensive. Nevertheless, prospecting in the range began in about 1883, and several mines opened in the first decade of the 20th century. Production has been concentrated in three areas:

• Northern Red Hills - fluorspar
• Palomas Gap - copper, vanadium, lead, and fluorspar
• Southern Caballos - gold, fluorspar, barite, and manganese

It has been estimated that the total value of copper, silver, gold, and lead produced from the Caballos before 1952 did not exceed $200,000. At present, more fluorspar is produced than any other mineral. The largest fluorspar deposits are found in Precambrian granite, and jasperized Fusselman Dolomite.^[1]

Ecology

As is the case with many other mountain ranges in southern New Mexico, the Caballo Mountains impose extreme demands on ecological communities. With the exception of the intermittent streams in the northern part of the range, and the area in close proximity to the Rio Grande, there is very little permanent water. Precipitation quickly evaporates, runs off, or soaks into the ground, leaving little for plants or animals. Consequently, water management is a critical factor for both plants and animals.

Soils on the mountains are generally rocky and thin.

Plant communities can be generally characterized as Chihuahuan desert scrublands, creosotebush desert, and desert grasslands. Dominant shrub species include creosote bush (Larrea tridentata), honey mesquite (Prosopis glandulosa), soaptree yucca (Yucca elata), and four winged saltbush (Atriplex canescens). Common grasses include black grama (Bouteloua eriopoda), blue grama (Bouteloua gracilis), sideoats grama (Bouteloua curtipendula), and alkali sacaton (Sporobolus airoides).

The most common mammalian predators are mountain lions (Felis concolor) and coyotes (Canis latrans). Other common mammals are Black-tailed jackrabbit (Lepus californicus), desert cottontail, (Sylvilagus auduboni) and kangaroo rats (Dipodomys merriami and Dipodomys spectabilis).

Common birds of prey include golden eagles (Aquila chrysaetos), Swainson's hawk (Buteo swainsoni), Northern harrier (Circus cyaneus), and burrowing owl (Athene cunicularia). Other birds include roadrunner (Geococcyx californianus), quail (Callipepla gambelii and Callipepla squamata), doves (Zenaida macroura and Zenaida asiatica).

Common reptiles include Collared lizards (Crotaphytus collaris), Roundtail Horned Lizard (Phrynosoma modestum), Striped whipsnake (Masticophis taeniatus), and Western diamondback rattlesnake (Crotalus atrox).

Footnotes

Other sources

• Allred, Kelly W. (1997). A Field Guide to the Grasses of New Mexico (2d Ed.). Las Cruces: New Mexico State University.
• Carter, Jack L. (1997). Trees and Shrubs of New Mexico. Mimbres Publishing.
• Degenhardt, William G.; et al. (1996). Amphibians and Reptiles of New Mexico. Albuquerque: University of New Mexico Press.
• Dick-Peddie, William A. (2000). New Mexico Vegetation Past, Present, and Future. Albuquerque: University of New Mexico Press.
• Findley, James S. (1987). The Natural History of New Mexico Mammals. Albuquerque: University of New Mexico Press.
• Hawley, J.W. (1978). Guidebook to Rio Grande rift in New Mexico and Colorado. New Mexico Bureau of Mines and Mineral Resources. pp. 55-.
• Julyan, Bob (1998). New Mexico's Wilderness Areas: The Complete Guide. Westcliffe Publishers. p. 271.
• Mack, Greg J. (1997). The Geology of Southern New Mexico. Albuquerque: University of New Mexico Press.
• Seager, William R.; Mack, Greg H. (2003). Geology of the Caballo Mountains, New Mexico. Memoir. Vol. 49. Socorro: New Mexico Bureau of Geology and Mineral Resources. ISBN 978-1-883905-15-6.
• Sibley, David A. (2000). The Sibley Guide to Birds. New York: Alfred A. Knopf.
• The Roads of New Mexico. Shearer Publishing. 1998. p. 91.
• New Mexico Road and Recreation Atlas (3d ed.). Benchmark Maps. 1999. pp. 47–48.

External links

• Timber Mountain, Trails.com