Ecological dynamics

Overview
This site occurs on summits of mesas, hills, and ridges, and dipslopes of cuestas. Loamy and Savannah Ecological Sites often occur as areas of deeper soils interspersed or adjacent to the Shallow Sandstone site. This is a moderately productive site characterized by a mixture of warm- and cool-season grasses, shrubs, and scattered trees. Sideoats grama, blue grama, galleta, little bluestem, Indian ricegrass, and New Mexico feathergrass are characteristic grasses. Bigelow sagebrush and fourwing saltbush are shrubs common to this site, while pinyon pine and juniper species characterize the tree aspect. Climate change, loss of grass cover and the associated decrease in resource competition by grasses are believed to facilitate the encroachment of woody species and may initiate the transition to the Pinyon-juniper State. A decrease in fire frequency may also facilitate this transition. Brush control, in conjunction with prescribed grazing, is necessary to remove the competitive advantage of shrubs and trees and reestablish grass dominance.

Reference State:
Reference Plant Community. Grasses are the dominant component of the reference plant community, accounting for as much as 75 to 85 percent of the annual production. Sideoats grama is the dominant grass with lesser amounts of blue grama. Little bluestem, Indian ricegrass, New Mexico feathergrass, and galleta also typically occur in significant amounts. Bigelow sagebrush and fourwing saltbush are shrubs that frequently occur scattered across the site. Other shrubs such as sand sagebrush, rubber rabbitbrush, winterfat, and mountain mahogany may also occur on this site. Sand sagebrush may be more common on coarse-textured soils while rubber rabbitbrush is favored on soils with finer-textured surface- or subsurface horizons. Winterfat may be more common on sites with calcareous soils. Mountain mahogany is favored on cooler or wetter sites. Pinyon and juniper are scattered across the site, with juniper being more common on warmer or dryer sites (lower elevation/southerly aspect) and pinyon pine more common on cooler or wetter sites (higher elevation/northerly aspect). Sideoats grama, little bluestem, many cool-season grasses, mountain mahogany, and winterfat typically decrease in response to overgrazing. A community dominated by blue grama with subdominant galleta (Community 1.2) may result.

Diagnosis: Grasses are dominant and cover is fairly uniform with few large bare areas present. Scattered shrubs and trees comprise a canopy cover averaging 10%. Evidence of erosion such as pedestalling of grasses, rills and gullies is infrequent.
Additional States:

Pinyon-juniper State. This state is characterized by an increase of pinyon-juniper. Other woody species such as Bigelow sagebrush, broom snakeweed, sand sagebrush, or rabbitbrush may also increase. Blue grama is typically the dominant grass species.

Diagnosis: Pinyon and juniper are found at higher densities relative to the Reference State. Grass cover is patchy with large bare areas present. Blue grama is typically the dominant grass species. Evidence of erosion, such as pedestalling of plants, elongated water flow patterns, litter dams, and rills may be common.

Transition to Pinyon-juniper State (T1A) Favorable climatic periods, persistent loss of grass cover, associated decreased competition by grasses, and lack of fire are believed to facilitate the encroachment of pinyon and juniper (1, 2, 3, 5, 7). Climatic periods of mild winters and wet summers may produce conditions favorable to juniper establishment and result in episodic events of juniper expansion (5). Loss of herbaceous cover due to overgrazing and drought can provide competition-free areas for pinyon and juniper seedling establishment and afford a competitive advantage to established woody species. The natural spatial variability of ground cover may also allow woody species to establish on existing bare areas (4). As pinyon-juniper canopy cover increases, total herbaceous biomass decreases (6). Loss of herbaceous cover can also reduce fuel levels beyond the point capable of carrying fire. Where fire was historically important in the development of plant communities on Shallow Sandstone Ecological Sites by suppressing pinyon-juniper seedlings, then disruption of natural fire frequency may facilitate pinyon-juniper encroachment (2, 5).

Key indicators of approach to transition
--Decrease or change in composition or distribution of grass cover
--Increase in size and frequency of bare patches
--Increase in amount of juniper, pinyon, and shrub seedlings

Restoration Pathway to the Reference State (R2A) Brush control is necessary to reduce the competitive influence of pinyon-juniper and facilitate grass recovery. Prescribed grazing will help ensure adequate rest following brush control and will assist in the establishment and maintenance of grass cover.

References
1. Brockway, D.G., R.G. Gatewood, and R.B. Paris. 2002. Restoring grassland savannas from degraded pinyon-juniper woodlands: effects of mechanical overstory reduction and slash treatment alternatives. Journal of Environmental Management. 64: 179-197.

2. Fuchs, E.H. 2002. Historic increases in woody vegetation in Lincoln County, New Mexico. Albuquerque, NM, USA: Vanguard Printing Company. 115 p.

3. Johnsen, T.N., Jr. 1962. One-seeded juniper invasion of northern Arizona grasslands. Ecological Monographs. 32:187-207.

4. Jurena, P.N. and S. Archer. 2003. Woody plant establishment and spatial heterogeneity in Grasslands. Ecology 84: 907-919.

5. Miller, R.F., and R.J. Tausch. 2001. The role of fire in pinyon and juniper woodlands: a descriptive analysis. Pages 15–30 in K.E.M. Galley and T.P. Wilson (eds.). Proceedings of the Invasive Species Workshop: the Role of Fire in the Control and Spread of Invasive Species. Fire Conference 2000: the First National Congress on Fire Ecology, Prevention, and Management. Miscellaneous Publication No. 11, Tall Timbers Research Station, Tallahassee, FL.

6. Pieper, R.D. 1990. Overstory-understory relations in pinyon-juniper woodlands in New Mexico. Journal of Range Management. 43: 413-415.

7. Richardson, D.M. and W.J. Bond. 1991. Determinants of plant distribution: Evidence from pine invasions. The American Naturalist. 137: 639-668.