Physiographic features

The representative map unit is on hills and alluvial fans, as well as on higher lying sideslopes on hills. Slope ranges from 2 to 15%. The unit is characterized by fine sandy loam, sandy loam, or loamy soil textures and are generally deep and well drained, although the soil can be shallow in some areas. The alluvium is generally derived from sandstone. Overall, the terrain appears to be gentle rolling hills, with or without distinctive drainage patterns. Aspect can vary, as well as influence diversity and density of vegetation. Areas can be irregular in shape. These map units vary in elevation which also influences species composition and site potential. It does vary from wetter and colder positions on the landscape to drier and lower landscapes, characterized by different species densities and dominance.

The associated mapping units are similar to Map Unit (MU) 340 in several respects but there exists minor differences in elevation, landform, and possibly differences in microclimate (precipitation and temperature regimes). The associated soils depict the range of variability of the pinyon-juniper plant communities in this region. These other soils are likely to react in similar fashion as MU 340 to biological, climatic, and human influences with slight variations due to individual soil characteristics, relative precipitation zones, or their position on the landscape. These differences may be expressed in variations of species composition, (overstory or understory) and tree density.

Table 2. Representative physiographic features

Climatic features

The representative weather station is located near Quemado, NM, Catron County, within 40 miles to sites sampled. The weather station is within the climatic division NM-04, Southwestern Mountains. According to Catron County Soil Survey, this map unit is within a precipitation zone of 12-15 inch average annual precipitation. Average annual air temperature is 47 to 54 degrees (F). Due to elevation and latitude, this landscape is prone to winter and summer moisture with summer moisture exceeding winter. Summer precipitation is typically derived from convective showers with snow- and rain-mixed winter storms. Frost-free days are based on >=32.5 degrees (F); freeze-free days based on >= 30 degrees (F).

Table 3. Representative climatic features

Influencing water features

None, except downslope runoff and slope retention of snow-pack on North slopes.
This unit is not influenced by wetlands or free-flowing streams or seeps.

Soil features

The site is supported by the Flugle series and typic ustorthents on hills and alluvial fans in map unit 340 of the Catron County, Northern Part, Soil Survey. Other soils supporting this site are the Loarc, Datil, Majada, Lapdun, Ralphston, Amenson, Manzano, Celsosprings, Dioxice, Motoqua, Faraway, Guy, Celacy, Joachem, Abrazo, Apache, Diatee, Hiarc, Telescope, Mion, Travessilla, and Royosa series.

In map unit 340, the Flugle soil component comprises 40% of the map unit with 2 to 15% slopes and contains a fine sandy loam texture. The typic ustorthents comprise 35% of the unit with 5 to 15% slopes derived from sandstone.

The Flugle soil is deep and well drained and formed in alluvium. The typic Ustorthents are shallow to deep and well-drained and derived mostly from sandstone. This map unit has variable slope and aspect characteristics and varies elevationally with comparable differences in temperature and precipitation regimes. Some sites are dominated by pinyon pine with codominant oneseed juniper, while other sites contain ponderosa pine and alligator juniper co-occurring with the pinyon/juniper, indicative of variable climatic conditions. Lower-elevation sites are prone to being drier and dominated by oneseed juniper.

This site also occurs in map units 335, 580, and 655; ranging in slope from 1 to 20%, with soil textures of fine sandy loam to gravelly or cobbly loam; on hills, alluvial fans, slopes and ridges.

Table 4. Representative soil features

Animal community

These areas are grazed by livestock. Slopes are gentle enough to allow livestock unlimited access over most of the terrain. There are no naturally occurring water sources (springs or streams) in any of the map units. Livestock use depends on the development of man-made watering facilities (wells or stock tanks). Livestock have been in various parts of these map units for over a century, and their influence on the land and vegetation is evident (decreased herbaceous plant diversity, sheet or gully erosion, broken fire cycle, lack of fine fuels for natural fires). Currently stocking capacity for these map units is low due to low production of almost a homogenous stand of blue grama. Plant diversity could be sustained through all three states if livestock are managed properly, reduced stocking rates, planned grazing systems that afford substantial growing season rest and recovery after a grazing event, and reintroduction of fire into the ecosystem for nutrient cycling and maintain an open canopy level. The deteriorated condition in the woodland/savannah plant communities (States 2 and 3) requires a substantial amount of effort to rebuild the plant community structure and diversity while livestock grazing is ongoing.

Wildlife such as deer and elk utilize these areas for forage, escape cover, and thermal cover. It has been observed that cool-season species are mostly utilized by wildlife during fall, winter, and early spring. Competition for forage between livestock and wildlife can occur on this site, especially for cool-season grasses and shrubs.

Hydrological functions

Coarse fragments occur in very minimal amounts, except on a few soil map units. Soils are either sandy loam or fine sandy loam. A few soils contain gravelly, cobbly, or stony surface textures. Most soils are well drained and allow for water to filter through the profile and recharge the water table. Excessive moisture contributes to surface flow and subsequent soil erosion (sheet or gully).

Several of the soil map units do not have well defined drainage patterns, and springs or sustained stream flows are not expected to occur on these soils map units. Some of the soils have very good water holding capacity while others do not. The deeper soils at higher elevation and precipitation zones have the ability to produce greater tree densities and larger diameter trees, whereas other sites at lower elevation appear to be harsher (shallow soil or drier) resulting in stunted tree growth.

Recreational uses

These map units collectively are conducive to recreational opportunities such as camping and firewood gathering. The woodland/savannah plant communities also provide thermal and nesting cover for wildlife and may provide hunting opportunities at certain times of the year.

Most map units are not steep and are readily accessible to vehicles or off-road vehicles. There is sufficient grade on the landscape that proper road placement and construction would be prudent to avoid accelerating soil erosion. Scenic values are not that high, and changing the vegetative patterns across the landscape would not change the scenic rating significantly.

Wood products

Many of the sites produce a substantial amount of wood fiber, both in the HCPC or in the PNC deteriorated states. The map units are readily accessible making them a good source for both commercial and individual firewood gathering. The sites also produce sufficient seedling, saplings in State 2, which may provide an opportunity for commercial harvesting of root stock for commercial landscaping. Some sites may produce up to 2 cords of firewood per acre per year, based on a 150-year rotation cycle, harvesting only the old growth age class trees in the stand.

Wood posts and stays could also be derived from the woodland/savannah plant communities but the volume and quality may vary significantly between soil map units due to varying height, density, and age class of trees across the landscape. Few of the oneseed juniper are straight enough for posts, but generally good enough for stays. Limited amounts of alligator and Rocky Mountain junipers are available on certain soil map units (340, 341, 700) but harvesting
opportunities may be restricted by the lack of sustained volume.

Other products

n areas where ponderosa pine exists as an anomaly in the stands, selective cutting could provide additional firewood volume, as well as incidental sawtimber or vigas for commercial sale. The potential revenues drawn from the sale of the trees may not substantiate the cost for creating access to remove the trees as well as the added soil disturbance associated with road building and harvesting. Ponderosa pines do serve as raptor and cavity nesting platforms in addition to providing a vegetative diversity on the landscape.

Other information

Historical and current grazing impacts have significantly altered the plant composition on many of the soil mapping units. Restoration efforts will entail a long-term recovery process to restore the native plant structure in any of the states desired. Reseeding will be an integral part of the recovery process.

Inventory data references

Interpretive Plant Community: Four soil map units were sampled to determine stand density, age structure, and tree species dominance (by frequency and canopy cover). This data was used to estimate HCPC plant composition and stand structure. The data was summarized and collectively used to estimate successional pathways as well. The four map units sampled are #340, 580, 335, and 655, with a total of 10 plots sampled, varying in aspect and elevation.

This ESD is derived from interpretation of 4 selected study sites within 4 soil map units, all occurring on BLM lands. Fixed study plots were measured in each of the study sites as well as understory vegetation sampling conducted in association with the study plots. MU 340 contained 5 study plots, MUs 335 and 580 contained two study plots each, and MU 655 contained three study plots. The data gathered was summarized and averaged to extrapolate its relevance across all of the remaining soil mapping units considered in this ESD. Each study plot had one 0.1-acre plot measured and the data summarized per study site. Sites were not selected randomly. They were selected based on best representation of the landscape and to maintain consistency within the soil mapping unit.

Other references

Barger, R.L. and P.F. Folliott. (1972) Physical characteristics and utilization of major woodland tree species in Arizona. USDA Forest Service Research Paper RM-83, Rocky Mountain Forest and Range Experiment Station, Fort Collins, CO.

Brown, J.K. and J.K. Smith. 2000. Wildland fire in ecosystems: effects of fire on flora Gen. Tech. Rep. RMRS-GTR-42-vol. 2. Ogden, UT: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 257 p.

Howell, J., Jr. 1940. Pinyon and juniper – A preliminary study of volume, growth, and yield, USDA Soil Conservation Service, Region 8, Bulletin 71, Albuquerque, NM.

McPherson, G.R. and J.F. Weltzin. 2000. Disturbance and climate change in United States/Mexico borderland plant communities: a state-of-the-knowledge review. Gen. Tech. Rep. RMRS-GTR-50. Fort Collins, CO: U.S. Department of Agriculture, Forest Service, Rocky Mountain Research Station. 24 p.

USDI-BLM. 2005. Fire Regime Condition Class (FRGG) Interagency Handbook Reference Condition. April 6. Draft document. Modeler: Doug Havlina.

USDA Forest Service. 2000. Vegetative Structural Stages, Southwestern Region, RMSTAND data. March (updated January 3, 2003).

USDA-NRCS. 1988. Soil Survey of Socorro County Area, New Mexico. 328 p.

Contributors

Michael Carpinelli
Noe Gonzalez, USDI-BLM, Woodland Ecologist