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Conservation Service

Ecological site R243XY404AK

Alpine dwarf scrub gravelly limestone slopes

Last updated: 5/29/2025
Accessed: 10/19/2025

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General information

Provisional. A provisional ecological site description has undergone quality control and quality assurance review. It contains a working state and transition model and enough information to identify the ecological site.

MLRA notes

Major Land Resource Area (MLRA): 243X–Western Brooks Range Mountains, Foothills, and Valleys

Boundaries and important features:

The Western Brooks Range Mountains, Foothills, and Valleys MLRA (MLRA 243X) encompasses the southern slopes of the De Long Mountains, the Baird Mountains, the Noatak River drainage, and the lower Kobuk River drainage. The southern limit of the area includes the western Lockwood Hills, Sheklukshuk and Waring Mountains, and Kiana and Igichuk Hills. MLRA 243 makes up 22,705 square miles. This MLRA shares boundaries with MLRAs 242X, 244X, and 245X. MLRA 242X (Northern Seward Peninsula-Selawik Lowlands) has nearly level to rolling plains, river deltas, and extended mountain footslopes. MLRA 244X (Northern Brooks Range Mountains) has steep, rugged, high mountains and narrow valleys. MLRA 245X (Arctic Foothills) has broad, rounded hills and nearly level uplands at the base of the Brooks Range. MLRA 243X shares a less apparent boundary with MLRAs 233 (Upper Kobuk and Koyukuk Hills and Valleys) and 234X (Interior Brooks Range Mountains), where a continental subarctic climate prevails.

Kobuk Valley National Park is located in the south-central portion of MLRA 243X, along the Kobuk River. Kobuk Valley National Park has an area of around 1.75 million acres and was designated to preserve the 100 ft high Great Kobuk Sand Dunes and the surrounding area which includes the Onion Portage caribou migration route. The Noatak National Preserve is located in the north-central portion of the MLRA, along the Noatak River corridor. The Noatak River is the nation’s largest unaltered river basin, and the preserve is around 6.5 million acres. 5.7 million acres of the preserve are designated as wilderness. The Noatak River is also a designated National Wild and Scenic River.

The Red Dog Mine is located in the northwestern portion of the MLRA. The Red Dog Mine is the world’s largest producer of zinc and has the world’s largest zinc reserves. The mine is the primary economic driver of the Northwest Arctic Borough. The Northwest Arctic Borough was formed in 1986 on the economic basis of taxing the mine.

Geology:

The entire area was glaciated during the Early and Middle Pleistocene, except for possibly small portions of the Baird Mountains. By the Late Pleistocene, glaciers had retreated from most of the area, except for the central, upper-elevation portions of the De Long Mountains in the northern part of the MLRA. The valley of the upper Noatak River was likely covered by extensive proglacial lakes during parts of the Pleistocene Epoch. In the mountains, glacial deposits have eroded away or been buried by mountain colluvium and alluvium, which accumulated during the Holocene Epoch across about 60 percent of the present landscape.

Glacial moraines, drift, and outwash deposits are extensive on the lower mountain slopes and in valleys at the mid and lower elevations. These deposits cover about 18 percent of the MLRA. Flood plains, stream terraces, and alluvial fans have recent and Pleistocene fluvial deposits. The underlying bedrock geology consists almost entirely of stratified sedimentary rocks of Paleozoic and Precambrian age and, in some cases, Cretaceous age.

This area is in the zone of continuous permafrost. In the mountains, permafrost is most evident in unconsolidated materials. In the valleys, thick layers of permafrost occur in both fine textured and coarse textured materials. Depth to the base of the permafrost layer may be 1,000 feet (305 meters) or more. In close proximity to water bodies, it may be 600 feet (185 meters) or more. Periglacial features, such as pingos, thermokarst pits, thaw lakes, solifluction lobes, and high- and low-center polygons, are common on-stream terraces, on the lower mountain slopes, and in swales on foothills.

Soils:

The dominant soil orders in this MLRA are Gelisols, Entisols, Inceptisols, and Mollisols. The soils in the area have a gelic soil temperature regime and an aquic or udic soil moisture regime. The Gelisols are shallow or moderately deep to permafrost, occur on fine to gravelly textured sediments, and are very poorly to moderately well drained. Common Gelisol suborders are Histels, Orthels, and Turbels. The Histels have thick accumulations of surface organic material and occur in depressions, lake margins, and shallow basins. The Orthels and Turbels have comparably thinner surface organic material with the Turbels being cryoturbated. These widespread soils occur on slopes of mountains, hills, and plains across the MLRA. Inceptisols (suborder Gelepts), Mollisols (suborder Gelolls), and Entisols (suborder Gelents) occur on upper mountain slopes and ridges formed in loamy to stony colluvium and residuum. These soils are shallow to deep and are generally well drained. Entisols (suborder Cryofluvents) on flood plains formed in stratified loamy, sandy, and gravelly alluvium and are somewhat poorly to well drained.

Vegetation Dynamics:

The mountain slopes and ridges in this area generally support dwarf scrub dominated by Dryas, ericaceous shrubs including crowberry, and dwarf willow. Lichens and scattered herbs dominate the ground layer on shallow, rocky soils and exposed sites. There are extensive areas of bare soil and bedrock. On the more mesic sites, sedges, forbs, and mosses cover most of the surface. Areas at the lower elevations and areas of the deeper soils on nearly level uplands, terraces, and basins generally support low willow and ericaceous shrub scrub and mesic graminoid herbaceous communities, commonly with extensive areas of tussock-forming sedges. Saturated sites support wet sedge meadows and wet sedge-moss meadows. Flood plains support a mixture of tall and low scrub dominated by various willows, shrub birch, and alder.

Climate:

Short, generally cool summers and long, very cold winters characterize the continental arctic climate of the area. The average annual precipitation ranges from about 10 to 15 inches (255 to 380 millimeters) at the lower elevations in the western part of this MLRA and along the central Noatak River and from about 20 to 40 inches (510 to 1,015 millimeters) in the mountains. The average annual snowfall is about 35 to 100 inches (90 to 255 centimeters). The average annual temperature ranges from about 8 to 16 degrees F (-13 to -9 degrees C). Snow and freezing temperatures can occur in any month of the year, particularly at the higher elevations.

LRU notes

This area supports two life zones defined by the physiological limits of plant communities along an elevational gradient: arctic lowlands and alpine. In this MLRA, the arctic lowland life zone typically occurs below 1000 feet elevation on average and is the elevational band where lowland vegetation dominates. For this MLRA, certain vascular plant species are common in the lowlands and much less common in the alpine (i.e. Betula nana, Salix pulchra, Ledum palustre ssp. decumbens). Above the arctic lowlands band of elevation, alpine vegetation dominates. For this MLRA, certain vascular plant and lichen species are common in the alpine and much less common in the lowlands (i.e. Dryas octopetala, Saxifraga oppositifolia, Alectoria nigricans). The transition between arctic and alpine vegetation can occur within a range of elevations, and is highly dependent on latitude, slope, aspect, and shading from adjacent mountains.

Classification relationships

Landfire Biophysical Settings – 6716890 - Alaska Arctic Non-Acidic Dryas Dwarf-Shrubland (Landfire 2009)

Viereck Communities:

Dryas tundra – II.D.1.A (Viereck et al. 1994)

Ecological site concept

• Occurs on the tops and flanks of rugged mountains. Circles, stripes, and solifluction lobes are all common periglacial microfeatures.
• Associated with the alpine. Elevation ranges between 1000 and 5750 feet. Slopes are strongly sloping to steep and occur on all aspects.
• Soils formed in silty loess and gravelly colluvium. The colluvium is derived from carbonate rich bedrock like limestone and marble.
• Soils are moderately deep to deep, with soil depth controlled by bedrock contact. These gravelly soils do not have permafrost.
• These dry soils are considered well drained and do not pond or flood.
• Soils range from slightly alkaline to moderately alkaline.
• The reference plant community is characterized as Dryas dwarf shrub tundra (Viereck et al., 1992) that is a highly diverse assemblage of shrubs, forbs, graminoids, and lichen. This ecological site has no known associated disturbance regimes and has one plant community within the reference state.

Associated sites

R243XY301AK	Alpine scrub gravelly swales Occurs downslope on swales with shrubby vegetation.
R243XY302AK	Alpine scrub gravelly frozen slopes Occurs downslope on wet and frozen soils.

R243XY301AK

Alpine scrub gravelly swales

Occurs downslope on swales with shrubby vegetation.

R243XY302AK

Alpine scrub gravelly frozen slopes

Occurs downslope on wet and frozen soils.

Similar sites

R243XY403AK	Arctic dwarf scrub gravelly slopes Site 403 has acidic soils resulting in different kinds and amounts of vegetation.

R243XY403AK

Arctic dwarf scrub gravelly slopes

Site 403 has acidic soils resulting in different kinds and amounts of vegetation.

Table 1. Dominant plant species

Tree	Not specified
Shrub	(1) Dryas octopetala ssp. octopetala (2) Rhododendron lapponicum
Herbaceous	(1) Carex scirpoidea (2) Saxifraga oppositifolia

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Physiographic features

This alpine dwarf scrub ecological site (R243XY404AK) occurs on the tops and flanks of rugged mountains. Circles, stripes, and solifluction lobes are all common periglacial microfeatures. Representative elevation ranges between 1000 and 5750 feet but this ecological site occurs at lower elevations on exposed, windswept positions. Slope ranges from strongly sloping to steep and show no preference for north-facing or south-facing aspects. Flooding and ponding do not occur. These dry soils do not have a seasonal water table in the soil profile. There is very low to medium amounts of runoff to adjacent, downslope ecological sites.

Solifluction lobes

Solifluction lobes are a type of patterned ground that develop from the slow, viscous downslope flow of water-saturated soil (Schoeneberger and Wysocki 2017). A solifluction lobe is an isolated tongue-shaped feature that can be commonly 25 feet or more wide and 300 feet or more long. This feature commonly has a steep front and a relatively smooth upper surface (Schoeneberger and Wysocki 2017).

Circles and Stripes

Circles and stripes are a type of patterned ground. On gentle slopes, these patterned features are roughly round and considered circles. The diameter of circles commonly ranges from 1.5 to 10 feet or more and are mounded above the surrounding vegetation. As steepness increases, these features become elongated forming stripes. Nonsorted circles and stripes are defined by an absence of coarse rock fragments on their borders with these patterned features having vegetation that outlines their patterns (Schoeneberger and Wysocki 2017). Nonsorted circles include mud boils and frost boils. Sorted circles and stripes often have a boarder of coarse fragments surrounding finer material (Schoeneberger and Wysocki 2017).

Table 2. Representative physiographic features

Geomorphic position, mountains	(1) Mountaintop (2) Mountainflank
Hillslope profile	(1) Summit (2) Backslope
Landforms	(1) Mountains > Mountain slope (2) Mountains > Mountain slope > Circle (3) Mountains > Mountain slope > Stripe (4) Mountains > Mountain slope > Solifluction lobe (5) Mountains > Mountain slope > Nonsorted circle
Runoff class	Very low to medium
Flooding frequency	None
Ponding frequency	None
Elevation	305 – 1,753 m
Slope	5 – 25%
Aspect	W, NW, N, NE, E, SE, S, SW

Table 3. Representative physiographic features (actual ranges)

Runoff class	Negligible to medium
Flooding frequency	Not specified
Ponding frequency	Not specified
Elevation	6 – 1,753 m
Slope	0 – 50%

Climatic features

MLRA 243X is characterized by an arctic continental climate having short, warm summers and long, cold, dark winters. The average annual mean temperature is 20.1 degrees Fahrenheit. The warmest months span June through August, with normal maximum temperature ranging from 57 to 61 degrees Fahrenheit. The coldest months are December through February, with normal minimum temperature ranging from -15 to -10 degrees Fahrenheit. This MLRA receives high annual precipitation with the summer months being the wettest. Average annual precipitation ranges from 9 to 32 inches. Approximately 40 percent of the annual precipitation occurs during the months of July through September.

Snow persists in the alpine and arctic lowland life zones throughout much of the year. A lack of trees and tall shrubs also means that this site is subject to strong winds, further exacerbating cold temperatures. This site has a much shorter growing season than sites in lower elevation areas and the growing season is significantly colder for associated vegetation.

Table 4. Representative climatic features

Frost-free period (characteristic range)	55-85 days
Freeze-free period (characteristic range)	40-70 days
Precipitation total (characteristic range)	356-660 mm
Frost-free period (actual range)	45-90 days
Freeze-free period (actual range)	30-75 days
Precipitation total (actual range)	229-813 mm
Frost-free period (average)	69 days
Freeze-free period (average)	54 days
Precipitation total (average)	508 mm

Characteristic range

Actual range

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Figure 1. Monthly precipitation range

Characteristic range

Actual range

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Figure 2. Monthly minimum temperature range

Characteristic range

Actual range

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Figure 3. Monthly maximum temperature range

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Figure 4. Monthly average minimum and maximum temperature

Figure 5. Annual precipitation pattern

Figure 6. Annual average temperature pattern

Influencing water features

Due to its landscape position, this site is neither associated with or influenced by streams or wetlands. Precipitation and throughflow are the main source of water for this ecological site. Surface runoff and throughflow contribute some water to downslope ecological sites.

Wetland description

not a wetland

Soil features

• Soils formed in loess and gravelly colluvium. The colluvium is derived from limestone, marble, and other carbonate rich bedrock. Soils are cryoturbated.
• Rock fragments on the soil surface range between 0 and 45 percent cover.
• Capped with up to one inch of organic material.
• The surface mineral horizons are very channery loams with the silty material being derived from loess or loamy colluvium.
• These gravelly soils have subsurface rock fragments ranging between 45 and 60 percent of the mineral soil profile by volume.
• Soils are moderately deep to deep, with soil depth controlled by bedrock contact (between 28 and 45 inches). On occasion, bedrock occurs at very deep depth (60 or more inches).
• Soil restrictions include strong contrasting textural stratification (between 2 and 8 inches) and bedrock (between 28 and 45 inches). The strong contrasting textural stratification does not perch water or impact the growth of vegetation. Permafrost does not occur in the soil profile.
• Soils range from slightly alkaline to moderately alkaline.
• These dry soils are considered well drained.

Table 5. Representative soil features

Parent material	(1) Eolian deposits (2) Colluvium – limestone (3) Colluvium – marble
Surface texture	(1) Very channery loam
Family particle size	(1) Loamy-skeletal
Drainage class	Well drained
Permeability class	Moderately rapid
Depth to restrictive layer	5 – 114 cm
Soil depth	71 – 114 cm
Surface fragment cover <=3"	0 – 10%
Surface fragment cover >3"	0%
Available water capacity (25.4-101.6cm)	11.94 – 13.97 cm
Calcium carbonate equivalent (25.4-101.6cm)	0 – 12%
Clay content (0-50.8cm)	10 – 15%
Electrical conductivity (25.4-101.6cm)	0 – 9 mmhos/cm
Sodium adsorption ratio (25.4-101.6cm)	0
Soil reaction (1:1 water) (25.4-101.6cm)	7.6 – 8.2
Subsurface fragment volume <=3" (0-152.4cm)	35 – 45%
Subsurface fragment volume >3" (0-152.4cm)	10 – 15%

Table 6. Representative soil features (actual values)

Drainage class	Not specified
Permeability class	Not specified
Depth to restrictive layer	5 – 152 cm
Soil depth	51 – 152 cm
Surface fragment cover <=3"	0 – 45%
Surface fragment cover >3"	Not specified
Available water capacity (25.4-101.6cm)	Not specified
Calcium carbonate equivalent (25.4-101.6cm)	Not specified
Clay content (0-50.8cm)	Not specified
Electrical conductivity (25.4-101.6cm)	Not specified
Sodium adsorption ratio (25.4-101.6cm)	Not specified
Soil reaction (1:1 water) (25.4-101.6cm)	Not specified
Subsurface fragment volume <=3" (0-152.4cm)	15 – 65%
Subsurface fragment volume >3" (0-152.4cm)	5 – 25%

Ecological dynamics

The Western Brooks Range MLRA (MLRA 243X) occurs in the arctic biome. This site is exposed to a variety of harsh environmental conditions. This area has cool, short summers and long cold winters. Limited warmth during the short summer months inhibits trees from occurring, and the expansive tundra is composed of a mosaic of low growing shrubs, sedges, moss, and lichen. Sites with greater than 25 percent lichen cover tend to be exposed to the wind and accumulate little winter snow (Viereck et al. 1992).

This is a common ecological site on non-acidic substrates in the alpine environments of arctic Alaska. Successional relationships are unclear and cryoturbation is the primary disturbance affecting this site.

State and transition model

More interactive model formats are also available. View Interactive Models
Click on state and transition labels to scroll to the respective text

Ecosystem states

1. Reference State

State 1 submodel, plant communities

1.1. eightpetal mountain avens - Lapland rosebay / singlespike sedge / purple mountain saxifrage

State 1
Reference State

The reference plant community is characterized as Dryas tundra (Viereck et al. 1992). This ecological site has no known associated disturbance regimes and has one plant community within the reference state. Circles, stripes, and solifluction lobes are all associated periglacial microfeatures. For this ecological site, no alternative state or plant communities were developed for these patterned features. One reason being that sorted circles and stripes are primarily barren rock. Nonsorted circles and solifluction lobes are small and uncommon features that are currently thought to lack a vegetation mosaic for this ecological site. All plant communities associated with this ecological site have limited data, so the state-and-transition model is provisional.

Dominant plant species

eightpetal mountain-avens (Dryas octopetala ssp. octopetala), shrub
Lapland rosebay (Rhododendron lapponicum), shrub
northern singlespike sedge (Carex scirpoidea), grass
purple mountain saxifrage (Saxifraga oppositifolia), other herbaceous

Community 1.1
eightpetal mountain avens - Lapland rosebay / singlespike sedge / purple mountain saxifrage

Plant community 1.1 is characterized as Dryas tundra (Viereck et al. 1992). Common plants include eightpetal mountain avens, Lapland rosebay, white arctic mountain heather, various willow, singlespike sedge, purple mountain saxifrage, and a highly diverse assortment of other shrubs, forbs, graminoids, and lichens. The vegetative strata with the highest cover are dwarf shrubs with lichen becoming more important as elevation or exposure increases.

Dominant plant species

eightpetal mountain-avens (Dryas octopetala), shrub
Lapland rosebay (Rhododendron lapponicum), shrub
white arctic mountain heather (Cassiope tetragona), shrub
arctic willow (Salix arctica), shrub
netleaf willow (Salix reticulata), shrub
entireleaf mountain-avens (Dryas integrifolia), shrub
northern singlespike sedge (Carex scirpoidea), grass
curly sedge (Carex rupestris), grass
purple mountain saxifrage (Saxifraga oppositifolia), other herbaceous
arctic lupine (Lupinus arcticus), other herbaceous
blackish oxytrope (Oxytropis nigrescens), other herbaceous
oneflower cinquefoil (Potentilla uniflora), other herbaceous
northern sweetvetch (Hedysarum boreale ssp. mackenziei), other herbaceous
purple wormwood (Artemisia globularia), other herbaceous
whiteworm lichen (Thamnolia vermicularis), other herbaceous
island cetraria lichen (Cetraria islandica), other herbaceous
(Flavocetraria), other herbaceous
witch's hair lichen (Alectoria nigricans), other herbaceous

Additional community tables

Interpretations

Animal community

Mammals common to MLRA 243X include brown bear, caribou, moose, musk ox, black bear, wolf, red fox, and rodents. Many species of migratory waterfowl and shore birds nest in the abundant ponds and wetlands. Raptors include gyrfalcon, peregrine falcon, golden eagle, hawks, and owls. Arctic char and Arctic grayling are in most of the rivers. Lake trout and northern pike are common in many lakes.

Hydrological functions

not available

Recreational uses

This remote area of Alaska is mostly undeveloped wildland and is sparsely populated. The area provides excellent opportunities for hunting and other kinds of wildland recreation. Most visitors are served by air taxi, guiding, and outfitting companies operating out of the major Alaska communities. Most of the communities are along the major rivers or lakes or on the coast. Kobuk Valley National Park is located within the Western Brooks Range MLRA. Visitors to Kobuk Valley NP typically fly in and camp / backpack in the park (USDA Agriculture Handbook 296).

Local residents use this area primarily for subsistence hunting, fishing, and gathering. In the Noatak Valley, many families leave their homes in villages in the spring and spend the summers at subsistence camps gathering salmon, caribou, and various wild greens and berries on the tundra.

Wood products

not available

Other products

not available

Other information

not available

Supporting information

Inventory data references

The vegetation modeled for this site has limited data and is considered provisional. The associated model was largely developed from NRCS staff with working knowledge of the area and literature review.

Other references

Alaska Interagency Coordination Center (AICC). 2024. http://fire.ak.blm.gov/

Higuera, Philip E., Melissa L. Chipman, Jennifer L. Barnes, Michael A. Urban, and Feng Sheng Hu. 2011. Variability of Tundra Fire Regimes in Arctic Alaska: Millennial-Scale Patterns and Ecological Implications. Ecological Applications 21, no. 8: 3211–26.

Jones, B. M., C. A. Kolden, R. Jandt, J. T. Abatzoglou, F. Urban, and C. D. Arp. 2009. Fire behavior, weather, and burn severity of the 2007 Anaktuvuk River Tundra Fire, North Slope, Alaska. Arctic, Antarctic, and Alpine Research 41:309-316.

Joly, K., F. S. Chapin, and D. R. Klein 2010. Winter habitat selection by caribou in relation to lichen abundance, wildfires, grazing, and landscape characteristics in northwest Alaska. Ecoscience 17:321-333.

LANDFIRE. 2009. Alaska Arctic Dwarf-Shrubland - Infrequent Fire. In: LANDFIRE National Vegetation Dynamics Models. USDA Forest Service and US Department of Interior. Washington, DC.

Racine, C. H., L. A. Johnson, and L. A. Viereck. 1987. Patterns of vegetation recovery after tundra fires in northwestern Alaska, U.S.A. Arctic and Alpine Research 19:461-469

Racine, C. H., J. L. Allen, and J. G. Dennis. 2006 Long-term monitoring of vegetation change following tundra fires in Noatak National Preserve, Alaska. NPS/AKRARCN/NRTR-2006/02, Arctic Network of Parks Inventory and Monitoring Program, National Park Service, Alaska Region. U.S. Department of the Interior, Washington, D.C., USA.

Schoeneberger, P.J., and D.A. Wysocki. 2012. Geomorphic Description System, Version 4.2. Natural Resources Conservation Service, National Soil Survey Center, Lincoln, Nebraska.

Schoeneberger, P.J., D.A. Wysocki, E.C. Benham, and W.D. Broderson, editors. 2012. Field book for describing and sampling soils. Version 3.0. U.S. Department of Agriculture, Natural Resources Conservation Service.

Soil Survey Division Staff. 2017. Soil survey manual. U.S. Department of Agriculture Handbook 18.

United States Department of Agriculture. 2024. Land Resource Regions and Major Land Resource Areas of the United States, the Caribbean, and the Pacific Basin.
(https://www.nrcs.usda.gov/resources/data-and-reports/major-land-resource-area-mlra)

United States Department of Agriculture-Natural Resources Conservation Service. 2016. U. S. General Soil Map (STATSGO2). Web Soil Survey. Available online at http://websoilsurvey.nrcs.usda.gov. Accessed May 8 2024.

Viereck, L.A., C.T. Dyrness, A.R. Batten, and K.J. Wezlick. 1992. The Alaska vegetation classification. U.S. Department of Agriculture, Forest Service, Pacific Northwest Forest and Range Experiment Station General Technical Report PNW-GTR-286

Contributors

Matthew J Mayer
Blaine T Spellman

Rangeland health reference sheet

Interpreting Indicators of Rangeland Health is a qualitative assessment protocol used to determine ecosystem condition based on benchmark characteristics described in the Reference Sheet. A suite of 17 (or more) indicators are typically considered in an assessment. The ecological site(s) representative of an assessment location must be known prior to applying the protocol and must be verified based on soils and climate. Current plant community cannot be used to identify the ecological site.

Author(s)/participant(s)	Matthew J Mayer Blaine T Spellman
Contact for lead author	matthew.mayer@usda.gov
Date	10/19/2025
Approved by	Blaine Spellman
Approval date
Composition (Indicators 10 and 12) based on	Annual Production

Indicators

Number and extent of rills:
Presence of water flow patterns:
Number and height of erosional pedestals or terracettes:
Bare ground from Ecological Site Description or other studies (rock, litter, lichen, moss, plant canopy are not bare ground):
Number of gullies and erosion associated with gullies:
Extent of wind scoured, blowouts and/or depositional areas:
Amount of litter movement (describe size and distance expected to travel):
Soil surface (top few mm) resistance to erosion (stability values are averages - most sites will show a range of values):
Soil surface structure and SOM content (include type of structure and A-horizon color and thickness):
Effect of community phase composition (relative proportion of different functional groups) and spatial distribution on infiltration and runoff:
Presence and thickness of compaction layer (usually none; describe soil profile features which may be mistaken for compaction on this site):
Functional/Structural Groups (list in order of descending dominance by above-ground annual-production or live foliar cover using symbols: >>, >, = to indicate much greater than, greater than, and equal to):

Dominant:

Sub-dominant:

Other:

Additional:
Amount of plant mortality and decadence (include which functional groups are expected to show mortality or decadence):
Average percent litter cover (%) and depth ( in):
Expected annual annual-production (this is TOTAL above-ground annual-production, not just forage annual-production):
Potential invasive (including noxious) species (native and non-native). List species which BOTH characterize degraded states and have the potential to become a dominant or co-dominant species on the ecological site if their future establishment and growth is not actively controlled by management interventions. Species that become dominant for only one to several years (e.g., short-term response to drought or wildfire) are not invasive plants. Note that unlike other indicators, we are describing what is NOT expected in the reference state for the ecological site:
Perennial plant reproductive capability:

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Natural ResourcesConservation Service

Ecological site R243XY404AK

Alpine dwarf scrub gravelly limestone slopes

Last updated: 5/29/2025 Accessed: 10/19/2025

General information

MLRA notes

LRU notes

Classification relationships

Ecological site concept

Associated sites

Similar sites

Table 1. Dominant plant species

Ecosystem states

State 1 submodel, plant communities

Natural Resources
Conservation Service

Last updated: 5/29/2025
Accessed: 10/19/2025