Ecological site group R009XG430WA
Loamy, Bunchgrass, 15-18" ppt.
Last updated: 11/22/2023
Accessed: 12/05/2024
Ecological site group description
Key Characteristics
None specified
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.
Physiography
Hierarchical Classification
Major Land Resource Area (MLRA): 9 – Palouse Prairie
LRU – Common Resource Areas (CRA):
9.3 - Dissected Loess Uplands
9.4 - Deep Loess Foothills
Site Concept Narrative:
Diagnostics:
Loamy, bunchgrass, 15-18” ppt. is an upland grassland site in the loess hills portion of MLRA 9 (Common Resource Areas 9.3 dissected loess uplands and 9.4 deep loess foothills). This site also occurs within Daubenmire’s Agropyron-Fescue vegetative zone. The Agropyron-Fescue zone is dissected by the lower Snake River. The Agropyron-Poa zone along the Snake River is included in MLRA 8 and not MLRA 9. Note that the genus Agropyron is now Pseudoroegneria.
The loamy soils are moderately deep (20-40”) to deep (40-60”) inches with limited rock fragments in the root-growing portion of the soil profile. Silt loam is the most common texture. This site occurs on all aspects except north to northeast.
Loamy, bunchgrass, 15-18” ppt. is a classic bunchgrass site. Perennial bunchgrasses dominate the reference state, while rabbitbrush and forbs are only a minor presence. Cool-season bunchgrasses form two distinct layers. Bluebunch wheatgrass, and less frequently, Idaho fescue, form the top layer, while Sandberg bluegrass is the major grass of the lower layer. The shrub layer consists of few, scattered rabbitbrush plants, typically knee- to waist-high. Forbs are only a minor component on this ecological site.
Loamy, bunchgrass, 15-18” ppt. has rabbitbrush but no sagebrush, no snowberry and little to no rose. This ecological site differs from shrub steppe with the absence of sagebrush. But some sage occurs on the lee slopes of the Blue Mountains, a remnant of the Pleistocene climate (Daubenmire, 1970).
Principle Vegetative Drivers:
The moderately deep to deep silt loam soils and the warmest temperatures in MLRA 9 drive the vegetative expression of this site. Most species have unrestricted rooting on this site. The warm temperatures favor bluebunch wheatgrass over Idaho fescue.
Influencing Water Features:
A plant’s ability to grow on a site and overall plant production is determined by soil-water-plant relationships
1. Whether rain and melting snow run off-site or infiltrates into the soil
2. Whether soil condition remain aerobic or become saturated and anaerobic
3. Water drainage and how quickly the soil reaches wilting point
The Loamy, bunchgrass, 15-18” ppt. site consists of deep soils and occurs for the most part on gently sloping landforms with little limitations for water infiltration. On steeper slopes and localized high silt or sodic soils, infiltration may be limited. Calcic and petrocalcic horizons may be present indicating long-term moisture penetration. There is generally no run-in moisture from surrounding sites or long-term soil moisture saturation.
Physiographic Features:
The landscape is part of the Columbia basalt plateaus and Northern Rocky foothills. MLRA 9 is south of the Okanogan Highlands and Spokane Valley, east of the Columbia Basin, includes only the wet end of the Channeled Scablands and forms a horseshoe around the Blue Mtns.
MLRA 9 has three distinct geographical types:
(1) the Palouse Hills on the east side
(2) the loess hills to the south and west
(3) the Channeled Scabland-loess islands in the northwest
Note for MLRA 9 there are four ecological sites with “Loamy” in the name:
1. Cool loamy, channeled scabland occurs on the Channeled Scablands
2. Loamy, dwarf shrub, 18-24” ppt. occurs in the Palouse Hills
3. Loamy, bunchgrass, 15-18” ppt. occurs in the loess hills
4. Loamy Bottom occurs on bottomland sites
The ecological site description below is for the Loamy, bunchgrass, 15-18” ppt. which occurs only in the loess hills.
Physiographic Division: Intermontane Plateau
Physiographic Province: Columbia Plateau
Physiographic Sections: Walla Walla Plateau
Landscapes: hills and foothills
Landform: Dominantly hills, plateaus, canyons
Elevation: Dominantly 1,200 to 4,000 feet
Slope: Total range: 0 to 90 percent
Aspect: Can occur on all aspects
Geology:
MLRA 9 is almost entirely underlain by Miocene basalt flows. Columbia River basalts are covered by wind-blown loess and volcanic ash with a thickness up to 250 feet thick. The oldest layer of loess accumulated between 2 and 1 million years ago, while the uppermost layers of Palouse Loess accumulated between 15,000 years ago and modern times. The mid layers of loess were deposited episodically between 77,000 years and 16,000 years ago. During the Pleistocene era the channeled scablands, the northwest portion of MLRA 9, were scoured of topsoil by the Lake Missoula Floods about 15,000-17,000 years ago. Flows removed topsoil from exposed ridges and basalt rims in canyons.
Climate
The loess hills are drier and warmer than the Palouse Hills and warmer than the channeled scabland. The climate across MLRA 9 is characterized by moderately cold, wet winters, and relatively dry summers.
Mean Annual Precipitation:
Range: 15 to 18 inches
Winter precipitation, primarily snow, occurs during low-intensity, Pacific-frontal storms. During winter these storms produce occasional rains that fall on frozen or thawing ground surfaces. High intensity, convective thunderstorms produce some rain during the growing season. Precipitation is evenly distributed throughout fall, winter and spring.
Mean Annual Air Temperature:
Range: 42 to 52 F
Central Tendency: 47 to 50 F
Freezing temperatures generally occur from late-October through early-April. Temperature extremes are -10 degrees in winter and 110 degrees in summer. Winter fog is variable and often quite localized, as the fog settles on some areas but not others.
Frost-free Period (days):
Total range: 90 to 180
Central tendency: 110 to 150
The growing season for Loamy, bunchgrass, 15-18” ppt. is generally March through mid-July
Soil features
Edaphic:
Loamy, bunchgrass, 15-18” ppt. ecological site commonly occurs with North aspect, bunchgrass, 15-18” ppt., and Shallow Stony ecological sites. The soils are formed in loess on hills, or in loess and colluvium from basalt with minor amounts of volcanic ash in the surface layers. Soils are moderately deep to deep.
Representative Soil Features:
This ecological site components are dominantly Pachic, Calcic and Typic taxonomic subgroups of Argixerolls and Haploxerolls taxonomic great group of the Mollisols taxonomic order. Soils are dominantly very deep but can range to moderately deep. Average available water capacity of about 5.8 inches (14.8 cm) in the 0 to 40 inches (0-100 cm) depth range.
Soil parent material is dominantly loess, colluvium and residuum derived from basalt.
The associated soils are Asotin, Athena, Neissenberg, Palouse, Peola, Tucannon and similar soils.
Dominate soil surface is silt loam to loam.
Fragments on surface horizon > 3 inches (% Volume):
Minimum: 0
Maximum: 0
Fragments within surface horizon > 3 inches (% Volume):
Minimum: 0
Maximum: 5
Average: 1
Fragments within surface horizon ≤ 3 inches (% Volume):
Minimum: 0
Maximum: 20
Average: 10
Subsurface fragments > 3 inches (% Volume):
Minimum: 0
Maximum: 20
Average: 5
Subsurface fragments ≤ 3 inches (% Volume):
Minimum: 0
Maximum: 25
Average: 10
Drainage Class: Dominantly well drained
Water table depth: Dominantly greater than 60 inches, but can range to 40 inches
Flooding:
Frequency: None
Ponding:
Frequency: None
Saturated Hydraulic Conductivity Class:
0 to 10 inches: Moderately high
10 to 40 inches: Moderately high
Depth to root-restricting feature (inches):
Minimum: Dominantly greater than 60, but bedrock can occur up to 40 inches occurrences
Maximum: greater than 60
Electrical Conductivity (dS/m):
Minimum: 0
Maximum: dominantly 0
Some soils with natric horizons have been included in this site. In those cases, the range for EC would be 0-3
Sodium Absorption Ratio:
Minimum: 0
Maximum: dominantly 0
Some soils with natric horizons have been included in this site. In those cases, the range for SAR would be 0-25
Calcium Carbonate Equivalent (percent):
Minimum: 0
Maximum: dominantly 0
Some soils with calcic horizons have been included in this site. In those cases, the range for CaCO3 would be 0-50
Soil Reaction (pH) (1:1 Water):
0 - 10 inches: 5.6 to 8.4
10 - 40 inches: 5.6 to 9.0
Available Water Capacity (inches, 0 – 40 inches depth):
Minimum: 2.8
Maximum: 9.6
Average: 5.8
Vegetation dynamics
Ecological Dynamics:
Loamy, bunchgrass, 15-18” ppt. in MLRA 9 produces about 1100-1500 pounds/acre of biomass annually.
The line between sagebrush steppe and true grasslands has been discussed and debated for many years. Rexford Daubenmire, a professor and plant ecologist at Washington State University for 29 years, in his 1970 book, Steppe Vegetation of Washington, makes the following conclusions. There is no evidence that the distribution of vegetative types is related to fire. And the line has nothing to do with pre-settlement as native ungulates played no significant role in the evolution of ecotypes. He also says there is no useful correlation between soil classification and the line between grasslands and sagebrush steppe.
Daubenmire states that the ecotones between grassland and sagebrush steppe can be defined on consistent differences in climate and consistent differences in vegetation. Higher spring precipitation, especially in March, favors grasses over sagebrush. Shrubs common to the most arid portion of this steppe rely on moisture deeper in the soil profile, particularly in summer after cool season grasses have gone dormant. The loess hills and Palouse Prairie regions of MLRA 9 have greater total precipitation, higher spring precipitation, and a longer growing season for grasses than the sagebrush steppe, leaving less of the deep moisture for the shrubs. This is consistent with Daubenmire’s findings.
Three grasses are especially important to the loess hills portion of MLRA 9. The breaks of the Snake River have both bluebunch wheatgrass and Snake River wheatgrass. Idaho fescue, the third important grass, is shorter and has a dense clump of shoots, while bluebunch and Snake River wheatgrass are taller and less dense. All three grasses are long-lived, mid-sized, cool-season bunchgrasses. Idaho fescue’s inflorescence is arranged in a panicle, while the inflorescence for bluebunch and Snake River is arranged in a spike. Snake River wheatgrass and Idaho fescue are awned while bluebunch wheatgrass can be awned or awnless.
On the Loamy, bunchgrass, 15-18” ppt. ecological site, bluebunch or Snake River wheatgrass are dominant, while Idaho fescue is sub-dominant. The ratio of Idaho fescue to bluebunch wheatgrass plants on any site can vary due to aspect and elevation.
In healthy communities, these mid-sized grasses provide a crucial and extensive network of roots to the upper portions (up to 48” deep in soils with no root-restrictive horizons) of the soil profile. This root-network stabilizes the soils, provides organic matter and nutrients, and helps to maintain soil pore space for water infiltration and retention in the soil profile. The extensive rooting system of mid-sized grasses leave very little space for invasion by other species. This drought resistant root mass can compete with, and suppress, the spread of exotic weeds.
The stability and resiliency of the reference communities is directly linked to the health and vigor of the mid-sized grasses listed above. Research has found, on similar rangeland, that communities remain resistant to medusahead if sites maintain at least 0.8 mid-sized bunchgrass plant/sq. ft. (K. Davies, 2008). The relationship between bunchgrasses and other invasive species should be similar. It is the mid-sized grasses that hold the system together. If we lose the mid-sized grasses the ecosystem begins to unravel.
The natural disturbance regime for grassland communities is periodic lightning-caused fires. Ponderosa pine communities have the shortest Fire Return Interval (FRI) of about 10-20 years (Miller). The FRI increases as one moves to wetter forested sites or to drier shrub steppe communities. The FRI listed in research for sagebrush steppe communities is quite variable. Given the uncertainties and opinions of reviewers, a mean of 75 years was chosen for Wyoming sagebrush communities (Rapid Assessment Model). This would place the historic FRI for grassland steppe at 30-50 years perhaps, and even as short as 5-10 years in some locations.
The effect of fire on the community depends upon both the severity and season of the burn. See Vallentine’s Range Improvement for more detail. With a light to moderate fire there can be a mosaic of burned and unburned patches. The perennial grasses thrive as the fire does not get into the crown. With adequate soil moisture Idaho fescue, bluebunch wheatgrass and prairie junegrass can make tremendous growth the year after the fire. Largely, the community is not affected by lower intensity fire.
A severe fire puts stress on the entire community. Rabbitbrush is likely to increase by crown sprouting. Bluebunch wheatgrass and Snake River wheatgrass, both fire-resilient grasses, will have weak vigor for a few years but generally survive. Reduced vigor of these grasses allows weeds to become established. Some spots and areas can be completely sterilized. Under windy conditions, a fire can burn into the crown of Idaho fescue, leaving behind “black holes” or nothing but ash where fescue plants were incinerated. Sterilized spots and dead Idaho fescue plants makes the site vulnerable to exotic invasive species, so seeding should be strongly considered. Bluebunch wheatgrass keeps the site resistant to change, while Idaho fescue makes the site more at risk.
Spring burning can also be especially damaging to Idaho fescue.
Grazing is another common disturbance that occurs to this ecological site. Grazing pressure can be defined as heavy grazing intensity, or frequent grazing during reproductive growth, or season-long grazing (the same plants grazed more than once). As grazing pressure increases the plant community unravels in stages:
1. Idaho fescue declines while bluebunch & Snake River wheatgrasses, rabbitbrush yarrow, and other unpalatable forbs increase
2. All grasses decline while rabbitbrush and unpalatable forbs continue to increase. Invasive species such as cheatgrass and yellow star-thistle colonize the site
3. As grazing progressively thins the native perennials, the alien species take their place, finally becoming dominant.
For grazing management information refer to Range Technical Notes found in Section I Reference Lists of NRCS Field Office Technical Guide for Washington State.
In Washington, bluebunch wheatgrass communities provide habitat for
many / more upland wildlife species.
Supporting Information:
Associated Sites:
Loamy, bunchgrass, 15-18” ppt. is associated with other ecological sites in MLRA 9 including Very Shallow, North Aspect, bunchgrass. 15-18” ppt. ppt. and Shallow Stony.
Similar sites:
Loamy, bunchgrass, 15-18” ppt. is similar to the Loamy grassland (9-15” ppt.) site in MLRA 8 Columbia Plateau. Loamy, bunchgrass, 15-18” ppt. differs from shrub steppe sites with the absence of sagebrush.
Inventory Data References (narrative):
Data to populate Reference Community came from several sources: (1) NRCS ecological sites from 2004, (2) Soil Conservation Service range sites from 1980s and 1990s, (3) Daubenmire’s habitat types, and (4) ecological systems from Natural Heritage Program
Major Land Resource Area
MLRA 009X
Palouse and Nez Perce Prairies
Stage
Provisional
Contributors
Kevin Guinn, Technical Team: C. Smith, R. Fleenor, K. Paup-Lefferts
Click on box and path labels to scroll to the respective text.
T1 | - | grazing pressure |
---|---|---|
T2 | - | grazing pressure and precipitation |
R3 | - | seed desirable species, and post-seeding weed control and management |
T4 | - | grazing pressure |
State 1 submodel, plant communities
1.1a | - | grazing pressure |
---|---|---|
1.2a | - | rabbitbrush die-off |
State 2 submodel, plant communities
State 3 submodel, plant communities
3.1a | - | Precipitation |
---|---|---|
3.1b | - | Precipitation |