Jump to content

Otero Mesa

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Citation bot (talk | contribs) at 20:56, 27 September 2023 (Removed parameters. | Use this bot. Report bugs. | #UCB_CommandLine). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

Map

Otero Mesa is a plateau in the Trans-Pecos. The plateau extends north from Hudspeth County, Texas into Otero County, New Mexico.[1] Otero Mesa is the dominant landform in Hudspeth County, composing 70% of its land area.[1][2] Otero Mesa has a more limited extant in Otero County, NM. Overall, 2/3 of Otero Mesa are in Texas, but the colloquial usage of "Otero Mesa" is restricted to the component of the plateau in New Mexico.[1][3][4] This is only a political distinction; Otero Mesa is physiographically continuous across the NM-TX state line.[1]

In the center of Otero Mesa, the plateau is interrupted by the Cornudas Mountains, a cluster of buttes that jut almost 2,000' above the plateau.[1] The Cornudas Mountains include Wind Mountain, the highest point on Otero Mesa at 7,282'.[1] The range is peppered with thousands of petroglyphs, complementing the well-known Hueco Tanks site farther west.[5][6]

Otero Mesa is the northernmost part of the Chihuahuan Desert at its longitude.[7] While the Chihuahuan Desert extends another 200 miles north along the Pecos and Rio Grande River Valleys, the high backslopes of the Sacramento, White, and Manzano Mountains between the basins are too mesic to support Chihuahuan Desert vegetative sites.[7][1] These areas are instead classified as Southwestern Tablelands.[7][8]

Grassland is the predominant landcover on Otero Mesa.[9] These semi-arid grasslands are a remnant of a much larger network of Chihuahuan Desert steppes that carpeted uplands and bajadas 150 years ago.[10][11][12][13][14][15][16][17][18][19][20][21][3] Overgrazing and fire suppression has degraded large swaths of this ecoregion into scrubland.[10][11][12][13][14][15][16][17][18][19][20][21][3] Consequently, conservation organizations have recognized Otero Mesa as a significant ecosystem deserving protection.[22][23][4]

In Texas, Otero Mesa is divided into private ranches. North of the state line, Otero Mesa is a patchwork of Bureau of Land Management, New Mexico State Land Office, and private lands.[24] Livestock grazing is the primary land use here as well, but most of it is authorized under federal and state permits.[24][25] Extensive federal ownership makes this area easier to protect; thus, for the sake of expediency, conservationists have defined "Otero Mesa" as the part of Otero Mesa in New Mexico.

McGregor Range, a U.S. Army installation, includes approximately 300,000 acres of withdrawn BLM land on Otero Mesa.[1] Livestock grazing is allowed on most of this acreage, but a Fort Bliss Training Complex (FBTC) Recreational Access Permit is still required to visit the range when it is not in use.[26][27]

Ecology

Before the introduction of domesticated livestock in the late 19th century, virgin grassland carpeted Otero Mesa. It was far from homogeneous, however: differences in soil composition, climate, and surface runoff created a patchwork of unique plant communities, or ecological sites. Specifically,

"[a]n ecological site is defined as a distinctive kind of land with specific soil and physical characteristics that differ from other kinds of land in its ability to produce a distinctive kind and amount of vegetation and its ability to respond similarly to management actions and natural disturbances."[28]

Scrublands on Otero Mesa are not considered unique ecological sites. Instead, they are classified as degraded states of other ecological sites whose historic climax plant communities (HCPCs) were grassland. Black grama, blue grama, tobosa, alkali sacaton, vine mesquite, bush muhly, and dropseeds were the dominant species in these HCPCs; the dominant species in non-riparian, degraded flatland ecological sites are now creosote bush and honey mesquite.

Otero Mesa Ecological Sites[29]
Ecological Site Code Historic Climax Plant Community (HCPC) Dominant Species
Gravelly R042XD007NM[30] Bush Muhly; Black Grama; Creosote Bush; Dropseed[30]
Loamy R042XB014NM[30] Bush Muhly; Black Grama; Creosote Bush; Dropseed[30]
Loamy Sand R042XD008NM[31] Black Grama[31]
Loamy R042XD001NM[32] Blue Grama; Tobosa[32]
Deep Sand R042XB011NM[33] Dropseeds; Black Grama; Bush Muhly[33]
Draw R042XB016NM[34] Tobosa; Alkali Sacaton; Vine Mesquite; Blue Grama[34]
Limy R042XB019NM[35] Black Grama[35]
Limestone Hills R042XB021NM[36] Black Grama; Tobosa[36]
Gravelly R042XC001NM[37] Black Grama[37]
Shallow Sandy R042XC002NM[38] Black Grama[38]
Gyp Upland R042XC006NM[39] Alkali Sacaton; Black Grama; Blue Grama; Burrograss; Tobosa; Gypsum (Chino) Grama; Gypsum Dropseed; Saltbush; Ephedra; Coldenia[39]
Loamy R042XC007NM[40] Tobosa; Black Grama; Blue Grama; Burrograss[40]
Limestone Hills R042XC020NM[41] Black Grama; Sideoats Grama; Curlyleaf Muhly[41]
Sandhills R042XC022NM[42] Sand Bluestem; Giant Dropseed; Spike Dropseed; Sand Dropseed; Mesa Dropseed[42]
Limy R042XC030NM[43] Black Grama; Blue Grama; Sand Dropseed; Threeawn[43]
Clay Flat, Desert Grassland R042XC241TX[44] Tobosa; Vine Mesquite; Grama[44]
Igneous Hill and Mountain, Desert Grassland R042XC247TX[45] Black Grama; Sideoats Grama; Cane Bluestem; Tanglehead[45]
Limestone Hill and Mountain, Desert Grassland R042XC249TX[46] Black Grama; Sideoats Grama; Cane Bluestem; Tanglehead[46]
Sandstone Hill and Mountain, Desert Grassland R042XC255TX[47] Black Grama; Sideoats Grama[47]
Loamy Bottom R042XD002NM[48] Alkali Sacaton[48]
Draw R042XD003NM[49] Sideoats Grama[49]
Limy R042XD004NM[50] Black Grama; Blue Grama[50]
Clay Loam Upland R042XD005NM[51] Alkali Sacaton; Blue Grama[51]
Gravelly, Desert Grassland R042XC244TX[52] Bush Muhly; Black Grama; Slim Tridens; Threeawn; Blue Grama[52]
Shallow Sandy R042XD006NM[53] Black Grama; Blue Grama[53]
Limestone Hill, Dry Mixed Prairie R042XD744TX[54] Black Grama; Blue Grama; Sideoats Grama; Curlyleaf Muhly[54]
Limestone Hill and Mountain, Mixed Prairie R042XE278TX[55] n/a[55]

Geography

The only major throughway on Otero Mesa is U.S. Route 180, which crosses the plateau to between El Paso and Guadalupe Mountains National Park.[1] There are no towns on Otero Mesa.[1] The western edge of Otero Mesa in New Mexico is defined by an abrupt escarpment.[1] McGregor Range, a U.S. Army installation, extends from U.S. Route 54 over this escarpment and onto Otero Mesa proper.[1] While access is restricted on McGregor Range, the public can use the Owen Prather Highway (New Mexico State Road 506) to cross it. This is the only way onto Otero Mesa from the west in New Mexico. NM-506 experiences temporarily closures during some military exercises.

Otero Mesa slopes gently eastward into Crow Flats and Salt Flats. These two playas drain most of the plateau. The western edge of Otero Mesa is an escarpment continuous with the Sacramento Mountains. In the vicinity of El Paso, Hueco Mountains separate Otero Mesa from the Rio Grande Valley. Until Van Horn, the border of Otero Mesa is a series of steep escarpments and bajadas. At its southwest corner, Otero Mesa dramatically rises to form the Sierra Diablo, which tower over Salt Flats. Otero Mesa fades into the lowlands for 40 miles before it reaches the tablelands of the southern Sacramento Mountains.

Cornudas Mountains & Sierra Tinaja Pinta Elevations
Peak Elevation
Deer Mountain 5791'[1]
Flat Top 6135'[1]
Alamo Mountain 6679'[1]
Cornudas Mountain 5724'[1]
Wind Mountain 7282'[1]
Black Mountain 5350'[1]
San Antonio Mountain 7010'[1]
Washburn Mountain 5689'[1]
Chatfield Mountain 6364'[1]
Dog Mountain 5731'[1]
Sierra Tinaja Pinta (1) 5683'[1]
Sierra Tinaja Pinta (2) 5665'[1]
Cerro Diablo 5709'[1]

Geology

Otero Mesa is the southern extension of the eastward-dipping Sacramento Mountains fault block. The extension of the Rio Grande rift has gradually uplifted the fault block over the last 25 million years. Several exposed sedimentary formations compose the bedrock of the Mesa. From west to east, these are the Hueco Formation, Yeso Group, and San Andres Formation.[56] This is also the relative chronology of the formations, from oldest to youngest. All are Permian marine carbonate sequences deposited during the Cisuralian epoch.

Sacramento Mountains Bajada

In contrast to their abrupt western escarpment, the southern margin of the Sacramento Mountains is a gently sloping bajada. The bajada is formed by three alluvial fans emerging from the mouths of Wildcat Canyon, El Paso Canyon, and the Sacramento River Canyon. The superficial alluvium of the bajada was deposited between 126,000 kya and the present day.

Along with the outflow of Piñon Creek onto Crow Flats, the Sacramento Mountains Bajada is the primary groundwater recharge zone in the Salt Basin.

Cornudas Mountains

The Cornudas Mountains are field of igneous intrusions on the New Mexico-Texas state line. Rising dramatically from the plains of Otero Mesa, these plutons "represent the northern extent of the Trans-Pecos magmatic province."

The igneous intrusions that compose the Cornudas Mountains were emplaced between 37.4 mya to 31.6 mya. This corresponds to the end of the Laramide Orogeny and the "progressive shallowing of the subduction of the Farallon plate beneath the North American plate." In the succeeding time, the plutons were exhumed by erosion, being more resistant to weathering than the surrounding sedimentary rock.

Lithology

In the Cornudas Mountains, "the predominant lithology is porphyritic nepheline syenite," though other alkalic rocks, including "nepheline-bearing augite syenite,...nepheline-bearing trachyte,...syenite,...nepheline syenite,...phonolite,... foliated porphyritic nepheline syenite,...quartz-bearing syenite,...quartz-bearing trachyte" and nepheline-bearing augite syenite are present.

Mining

"The Cornudas Mountains have been examined for potential economic deposits of gold, silver, beryllium, rare-earth elements, niobium,...uranium, [and nepheline,] but no production has occurred."

Minerals

Windmountainite

Wind Mountain is the type locality of windmountainite, a novel mineral there discovered in a phonolite dike. Windmountainite was formally described in 2020.

Georgechaoite

Wind Mountain is the type locality of georgechaoite, where it occurs in miarolitic cavities in nepheline syenite. Georgechaoite was formally described in 1985.

Brokeoff Mountains

The Brokeoff Mountains are a series of southeast-dipping fault blocks that form a disjunct the Guadalupe Mountains. Three major formations are exposed in the Brokeoff Mountains: the Yeso, San Andres, and Grayburg formations (listed from oldest to youngest). All are composed of Cisuralian marine deposits.

The rugged terrain of the Brokeoffs and southern Guadalupe Mountains escarpment form a distinct, northward-opening "V." Big Dog, Upper Dog, and Middle Dog Canyons lead to the apex of the V, the uplands of Guadalupe Mountains National Park.

Description

Otero Mesa is a 1.2 million acre (4,900 km2) area in northern Chihuahuan Desert region of southern New Mexico. Between 1954 and 1965 the U.S. Army expanded its McGregor Range facilities at Fort Bliss onto Otero Mesa by purchasing ranches.[57][58] In 2005, the Bureau of Land Management approved the area for exploratory drilling for oil and gas,[59] but that approval is currently being litigated[citation needed] by the state of New Mexico and environmental groups who want the mesa to be recognized as protected wilderness.

On Tuesday, April 28, 2009, the Court of Appeals for the Tenth Circuit ruled against the US Bureau of Land Management plan for leasing the Otero Mesa for oil and gas extraction. The court found that the BLM had failed to consider an alternative that would leave the Otero Mesa unleased, and also failed to examine potential impacts to the underlying groundwater. The oil company HEYCO had been granted a lease for extracting natural gas form Otero Mesa, pending the outcome of the litigation.[citation needed]

References

  1. ^ a b c d e f g h i j k l m n o p q r s t u v w x y "The National Map - Advanced Viewer". apps.nationalmap.gov. Retrieved 2021-08-16.
  2. ^ "U.S. Census Bureau QuickFacts: Hudspeth County, Texas". www.census.gov. Retrieved 2021-08-17.
  3. ^ a b c Whitford, Walt, and Kevin Bixby. The Last Desert Grasslands. Southwest Environmental Center, 2006.
  4. ^ a b "Explore Otero Mesa: The Last Desert Grassland". www.wildmesquite.org. Retrieved 2021-08-16.
  5. ^ Solveig, Turpin; Turpin, Jeff (2013). "Rock Art and Site Distribution in the Cornudas Mountains: A Reconnaissance on University Lands Hudspeth County, Texas". TAS, Inc. – via Academia.
  6. ^ Seymour, Deni J. Pasaron Por Aquí, 2012. Prepared for New Mexico Wilderness Alliance and The Wilderness Society.
  7. ^ a b c "Level III Ecoregions of the Continental United States" (PDF). United States Environmental Protection Agency.
  8. ^ "Primary Distinguishing Characteristics of Level III Ecoregions of the Continental United States". Level III and IV Ecoregions of the Continental United States. United States Environmental Protection Agency. September 2013.
  9. ^ "MRLC Viewer". www.mrlc.gov. Retrieved 2021-08-16.
  10. ^ a b Grover, Herbert D.; Musick, H. Brad (1990-12-01). "Shrubland encroachment in southern New Mexico, U.S.A.: An analysis of desertification processes in the American southwest". Climatic Change. 17 (2): 305–330. Bibcode:1990ClCh...17..305G. doi:10.1007/BF00138373. ISSN 1573-1480. S2CID 153791113.
  11. ^ a b Buffington, Lee C.; Herbel, Carlton H. (1965). "Vegetational Changes on a Semidesert Grassland Range from 1858 to 1963". Ecological Monographs. 35 (2): 140–164. doi:10.2307/1948415. ISSN 0012-9615. JSTOR 1948415.
  12. ^ a b Branscomb, Bruce L. (May 1958). "Shrub Invasion of a Southern New Mexico Desert Grassland Range". Journal of Range Management. 11 (3): 129–132. doi:10.2307/3893715. hdl:10150/553887. ISSN 0022-409X. JSTOR 3893715.
  13. ^ a b Brown, Albert L. (July 1950). "Shrub Invasion of Southern Arizona Desert Grassland". Journal of Range Management. 3 (3): 172–177. doi:10.2307/3894118. ISSN 0022-409X. JSTOR 3894118.
  14. ^ a b Bahre, Conrad J.; Shelton, M. L. (September 1993). "Historic Vegetation Change, Mesquite Increases, and Climate in Southeastern Arizona". Journal of Biogeography. 20 (5): 489. doi:10.2307/2845722. ISSN 0305-0270. JSTOR 2845722.
  15. ^ a b Humphrey, Robert R. (April 1958). "The desert grassland a history of vegetational change and an analysis of causes". The Botanical Review. 24 (4): 193–252. doi:10.1007/bf02872568. ISSN 0006-8101. S2CID 21410270.
  16. ^ a b Gibbens, R. P.; Tromble, J. M.; Hennessy, J. T.; Cardenas, M. (March 1983). "Soil Movement in Mesquite Dunelands and Former Grasslands of Southern New Mexico from 1933 to 1980". Journal of Range Management. 36 (2): 145. doi:10.2307/3898148. hdl:10150/646090. ISSN 0022-409X. JSTOR 3898148.
  17. ^ a b Hennessy, J. T.; Gibbens, R. P.; Tromble, J. M.; Cardenas, M. (May 1983). "Vegetation Changes from 1935 to 1980 in Mesquite Dunelands and Former Grasslands of Southern New Mexico". Journal of Range Management. 36 (3): 370. doi:10.2307/3898490. hdl:10150/645947. ISSN 0022-409X. JSTOR 3898490.
  18. ^ a b Wooton, E.O. (1908). "The range problem in New Mexico". New Mexico Agricultural Experiment Station. Bulletin No. 66.
  19. ^ a b Parker, Kenneth W. (1952). The mesquite problem on southern Arizona ranges (PDF). U.S. Dept. of Agriculture. OCLC 5193888.
  20. ^ a b Bahre, Conrad Joseph (1991). A Legacy of Change : Historic Human Impact on Vegetation in the Arizona Borderlands. University of Arizona Press. ISBN 978-0-8165-3639-9. OCLC 962149316.
  21. ^ a b Leopold, Luna B. (April 1951). "Vegetation of Southwestern Watersheds in the Nineteenth Century". Geographical Review. 41 (2): 295–316. doi:10.2307/211025. ISSN 0016-7428. JSTOR 211025.
  22. ^ CEC and TNC. 2005. North American Central grasslands priority conservation areas: technical report and documentation. Eds. J.W. Karl and J. Hoth. Commission for Environmental Cooperation and The Nature Conservancy. Montreal, Quebec.
  23. ^ World Wildlife Fund et al. 2000. Ecoregion-Based Conservation in the Chihuahuan Desert: A Biological Assessment. Eds. Eric Dinerstein et al. http://awsassets.panda.org/downloads/wwfbinaryitem2757.pdf
  24. ^ a b "ArcGIS Web Application". www.arcgis.com. Retrieved 2021-08-17.
  25. ^ "NMSLO Land Status". mapservice.nmstatelands.org. Retrieved 2021-08-17.
  26. ^ "Programs: Natural Resources: Rangelands and Grazing: Livestock Grazing: McGregor Range Grazing Contracts | Bureau of Land Management". www.blm.gov. Retrieved 2021-08-17.
  27. ^ "McGregor Range | Bureau of Land Management". www.blm.gov. Retrieved 2021-08-17.
  28. ^ "Ecological site descriptions". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  29. ^ "EDIT". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  30. ^ a b c d "Ecological site R042XB010NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  31. ^ a b "Ecological site R042XD008NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  32. ^ a b "Ecological site R042XD001NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  33. ^ a b "Ecological site R042XB011NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  34. ^ a b "Ecological site R042XB016NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  35. ^ a b "Ecological site R042XB019NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  36. ^ a b "Ecological site R042XB021NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  37. ^ a b "Ecological site R042XC001NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  38. ^ a b "Ecological site R042XC002NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  39. ^ a b "Ecological site R042XC006NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  40. ^ a b "Ecological site R042XC007NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  41. ^ a b "Ecological site R042XC020NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  42. ^ a b "Ecological site R042XC022NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  43. ^ a b "Ecological site R042XC030NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  44. ^ a b "Ecological site R042XC241TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  45. ^ a b "Ecological site R042XC247TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  46. ^ a b "Ecological site R042XC249TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  47. ^ a b "Ecological site R042XC255TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  48. ^ a b "Ecological site R042XD002NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  49. ^ a b "Ecological site R042XD003NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  50. ^ a b "Ecological site R042XD004NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  51. ^ a b "Ecological site R042XD005NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  52. ^ a b "Ecological site R042XC244TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  53. ^ a b "Ecological site R042XD006NM". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  54. ^ a b "Ecological site R042XD744TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  55. ^ a b "Ecological site R042XE278TX". edit.jornada.nmsu.edu. Retrieved 2021-08-17.
  56. ^ "Macrostrat". Macrostrat.
  57. ^ BLM1990. Resource management plan amendment: McGregor Range, New Mexico. BLM-NM-PT-90-033-4410, U.S. Bur. Land Manage Las Cruces. One Vol. with Parts, various p.
  58. ^ Ludwig, J.A., Muldavin, E., Blanche, K.R. "Vegetation Change and Surface Erosion in Desert Grasslands of Otero Mesa, Southern New Mexico: 1982 to 1995." The American Midland Naturalist, 144(2):273-285. 2000
  59. ^ Stuart, Hans (June 6, 2005). "BLM's Next Oil and Gas Lease Sale to Include Otero Mesa Parcel". Bureau Of Land Management. Archived from the original on 2012-10-08. Retrieved 2014-02-13.