Physiographic features

This ecological site occurs on nearly level to strongly sloping sedimentary plains, terraces and fans.

Table 2. Representative physiographic features

Climatic features

Major Land Resource Area (MLRA) 58AC in Montana is considered to have a continental climate characterized by cold winters, hot summers, low humidity, light rainfall, and much sunshine. Extremes in temperature are typical. The climate is the result of this MLRA’s location in the geographic center of North America. There are few natural barriers on the northern Great Plains and the winds move freely across the plains and account for rapid changes in temperature. Seasonal precipitation is often limiting for plant growth. Annual fluctuations in species composition and total production are typical depending on the amount and timing of rainfall.
Temperatures can be very extreme in this part of Montana. Summer daytime temperatures are typically quite warm, generally averaging in the mid to upper 80º’s F for July and August. Summertime temperatures will typically reach in the 100º’s F at some point during the summer, and can reach 90º F any month between May and September. Conversely, winter temperatures can be cold, averaging in the mid teens to mid 20º’s F for December and January. There will typically be several days of below zero temperatures each winter. It is not uncommon for temperatures to reach 30–40º F below zero, or even colder, most any winter.

Spring can be windy throughout this MLRA, with winds averaging over 10 mph about 15 percent of the time. Speeds of 50 mph or stronger can occasionally occur as a weather system crosses this part of Montana.

The majority of the rangeland in MLRA 58AC is within the 11 to 14 inch Mean Annual Precipitation (MAP) range. During an average year, 70 to 75 percent of the annual precipitation falls between April and September, which are the primary growing season months.

Snowfall is not heavy in the area, averaging 28 total inches in the Yellowstone Valley. Heavy snowfall occurs infrequently, usually late in the winter or early spring. Snow cover is typically 1 to 3 inches.

The frost-free (32º F.) season averages about 105 to 145 days each year in the uplands, to nearly 170 days along the Yellowstone River Valley.


For local climate station information, refer to http://www.wcc.nrcs.usda.gov/cgibin/state.pl?state=mt.

Table 3. Representative climatic features

Influencing water features

Soil features

These soils are over 20 inches deep and have a surface texture that can vary from fine sandy loam to clay loam. Within 2–8 inches of the surface is a hard to extremely hard clayey argillic horizon having strong columnar or prismatic structure. Salt and lime accumulations are often evident in the lower part of the B horizon. Root penetration is restricted by the argillic horizon, with the roots becoming flattened and tending to follow cracking in the subsoil.

Table 4. Representative soil features

Animal community

Livestock Grazing Interpretations:

Managed livestock grazing is suitable on this site as it has the potential to produce high quality forage. However, forage production can be severely limited by the soil properties. Management objectives should include maintenance or improvement of the plant community. Shorter grazing periods and adequate re-growth after grazing are recommended for plant maintenance and recovery. Heavy stocking and season-long use of this site can be detrimental and will alter the plant community composition and production over time.

Whenever Plant Community 2 (medium and short grasses and shrubs) occurs, grazing management strategies need to be implemented to avoid further deterioration. This community is still stable, productive, and healthy provided it receives proper management. This community will respond fairly quickly to improved grazing management, including increased growing season rest of key forage plants. Grazing management alone can usually move this community back towards the potential community.

Plant Communities 3 and 4 have substantially reduced forage production, and a high percentage of aggressive, non-palatable species. Once these plant communities become established, it will be much more difficult to restore the site to a community that resembles the potential with grazing management alone. Additional growing season rest is often necessary for re-establishment of the desired species and to restore the stability and health of the site. Practices such as range seeding or mechanical treatment are generally not recommended on this site.


Wildlife Interpretations:

The ClayPan ecological site occurs over large acreages on the Northern Great Plains. Conversion of ClayPan sites to cropland has caused habitat fragmentation in some areas, which may contribute to the decline of some “area sensitive” wildlife species, particularly such ground-nesting birds as the grasshopper sparrow. This site is home to a diverse native wildlife complex. Historically, huge herds of migratory bison and pronghorn as well as large numbers of sage grouse were probably the dominant “game” species in addition to a wide variety of ground-nesting songbirds, waterfowl and shorebirds, small mammals and mammalian predators. In the past, vast prairie dog towns provided habitat for such species as the black-footed ferret, burrowing owl, mountain plover and ferruginous hawk and swift fox. Invasive plant species such as leafy spurge, Canada thistle and several knapweeds are contributing to a loss of biodiversity within this ecological site. Wildlife water requirements are provided by shallow snowmelt and rainfall ponds on heavy clay pan spots, springs and seeps, intermittent and perennial streams and, in modern times, numerous artificial ponds and livestock pipelines. These areas are locally important for northern leopard frogs, tiger salamanders and a number of toad species, all of which feed on a variety of insects. Grazing, fire, drought cycles and insect population fluctuations create a shifting mosaic of wildlife habitats across this site.

Plant Community 1: Tall Grasses/ Forbs/ Shrubs (HCPC):

Invertebrate diversity, including pollinator insects, is fairly high given the variety of forbs and shrubs in this community. Representative reptiles include the prairie rattlesnake, bull snake and sagebrush lizard. Common amphibians are Woodhouse’s toad, tiger salamanders and the western chorus frog. The higher percentage of bare ground, and correspondingly lower litter coverage, reduce the value of this site for ground-nesting birds compared to more productive communities in silty and sandy ecological sites. However, ground nesting bird habitat is still quite good when large acreages of this community occur in solid blocks. Sage grouse use this fairly open plant community for lek sites and for feeding on sagebrush, succulent forbs and insects. Common songbird species include lark buntings, Brewer’s sparrows and vesper sparrows. Small mammals are mainly seed-eating species such as deer mice and olive-backed pocket mice. The high proportion of cool season grasses on this site provides nutritious early to mid-season forage for grazers and mixed feeders such as bison and elk. Pronghorn also utilize these grasses as well as Nuttall’s saltbush, winterfat and big sagebrush, especially fall through spring.

Plant Community 2: Medium and Short Grasses / Forbs/ Shrubs:

The decline of green needlegrass and bluebunch wheatgrass cover reduces structural habitat diversity for small mammals and songbirds. A decrease in litter and residual vegetation adversely affects ground-nesting birds. The increase in big sagebrush cover may improve sage grouse nesting habitat and winter habitat value for sage grouse and pronghorn. Other sagebrush-grassland obligates, such as Brewer’s sparrows and sage thrashers, also may benefit from an increase in big sagebrush cover.

Plant Community 3: Shrubs and Half-shrubs / Short Grasses / Cactus:

Insect diversity suffers from the loss
of desirable forbs and ground cover. Amphibian habitat is degraded as the ground temperature rises and soil moisture is increasingly limited. When big sagebrush dominates the cover, sage grouse and pronghorn winter habitat and breeding season habitat for Brewer’s sparrows and the sage thrasher may be fairly good. However, the loss of herbaceous cover reduces habitat value for a variety of ground-nesting birds. Lark buntings and vesper sparrows will use greasewood cover for breeding habitat.

Plant Community 4: Shrubs & Half-Shrubs / Annuals/ Short Grasses / Cactus:

Insects may be very abundant during population highs (i.e., grasshoppers) but diversity is low, especially of pollinators. Amphibian habitat is very degraded; ephemeral pools evaporate rapidly and the soil surface is very dry and hot during summer. Ground nesting bird habitat value is poor because of the lack of litter cover and residual plant cover in early spring.
Sage grouse and Brewer’s sparrows may be fairly abundant in the heavier sagebrush cover but probably suffer heavy losses while nesting on the poorly protected ground surface. Mountain plovers prefer to nest in this community type if a somewhat pebbly surface is present. Mule deer and pronghorn may utilize sagebrush and fringed sagewort during winter in this community.

Hydrological functions

The runoff potential for this site is very high depending on slope and ground over/health. Runoff curve numbers generally range from 84 to 93. The soils associated with this ecological site are generally
in Hydrologic Soil Group D. The infiltration rates for these soils will normally be very slow.

Other information

The following is an example of how to calculate the recommended stocking rate. This example does not use production estimates from this specific ecological site. You will need to adjust the annual production values and run the calculations using total annual production values from the ecological sites encountered on each individual ranch/pasture. Before making specific recommendations, an on-site evaluation must be made.


Example of total annual production amounts by type of year:
Favorable years = 2200 lbs/acre
Normal years = 1480 lbs/acre
Unfavorable years = 1200 lbs/acre

It is recommended that on slopes of 30% or less, stocking rate should be derived from the total annual production pounds minus 500 pounds for residual dry matter and 25% harvest efficiency. On slopes over 30%, stocking rate is derived from total annual production pounds minus 800 pounds for residual dry matter and 25% harvest efficiency. Refer to the NRCS National Range and Pasture Handbook for a list of Animal Unit Equivalents.

Sample Calculations using Favorable Year production amounts:

< 30% slopes: AUM/AC = [(2200-500)(0.25)]/915 lbs/month for one AU = 0.46 AUM/AC
AC/AUM = (1.0 AU)/(0.46AUM/AC) = 2.2 AC/AUM

> 30% slopes: AUM/AC = [(2200-800)(0.25)]/915 lbs/month for one AU = 0.38 AUM/AC
AC/AUM = (1.0 AU)/(0.38 AUM/AC) = 2.6 AC/AUM

NOTE: 915 lbs/month for one Animal Unit is used as the baseline for maintenance requirements. This equates to 30 lbs/day of air-dry forage (1200 lb cow at 2.5% of body weight).

Contributors

MJR, REL, RSN POH
RSN

Approval

Kirt Walstad, 6/14/2023