Natural Resources
Conservation Service
Ecological site F105XY009WI
Sandy Upland
Last updated: 2/23/2024
Accessed: 12/03/2024
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): 105X–Upper Mississippi River Bedrock Controlled Uplands and Valleys
The Northern Mississippi Valley Loess Hills area corresponds closely to the Western Coulees and Ridges and Southwest Savanna Ecological Landscapes. Some of the following brief overview is borrowed from the Wisconsin Department of Natural Resources Ecological Landscape publication (2015).
Fifty-two percent of the Upper Mississippi River Bedrock Controlled Uplands and Valleys MLRA is in Wisconsin; Iowa, Minnesota, and Illinois contain the rest. This region is the only area in Wisconsin that has not been covered by glaciers within the past 2.4 million years. The Wisconsin portion of this MLRA is approximately 7.4 million acres (11,600 square miles). The landscape is characterized by dissected topography with deeply-incised, steep-walled valleys between bedrock controlled ridges.
Though it’s called the “Driftless Region”, some glacial drift is found in the major river valleys of this region in the form of outwash, deposited by proglacial streams of glacial meltwater. Wisconsin’s most recent glaciations also impacted the sediment of the area through the deposition of loess. After the glacier receded and before vegetation established, the bare surfaces of the glaciated areas were highly susceptible to wind erosion. As a result, a veneer of loess (wind-blown silt) was deposited over the entire region. The thickest deposits—nearly five meters—are on ridges near the Mississippi River and gradually thin moving eastward. The loess caps in Dane and Green counties are generally 0.5-1.5 meters deep. Much of the loess has eroded downslope and collected in floodplains.
Bedrock is shallow throughout this MLRA and is a major influence on topography and hydrology. Most of the MLRA has bedrock within two meters, except in the deep river valleys that are filled with outwash and alluvium materials. Sandstone is the dominant bedrock type in MLRA 105, but the southernmost portion is dominated by dolomite. Military Ridge is an escarpment that straddles the boundary between sandstone and dolomite bedrock. The sandstone north of the ridge is weaker than the erosion-resistant dolomite south of the ridge. The sandstone is deeply cut and dissected into steep slopes and valleys. The dolomite-controlled ridges tend to be less dissected and broader with more gentle, south sloping topography. Geomorphic and fluvial processes formed these landscapes by way of sheet wash, soil creep, and flowage. These processes eroded the hillslopes, cut into bedrock, and transported the debris to streams, forming floodplains and terraces.
Underfit streams are common in MLRA 105, especially in the southern portion. These streams currently occupy large river valleys—especially those of the Black, Chippewa, Mississippi, and Wisconsin Rivers—that were carved by proglacial meltwater streams carrying much larger quantities of water than what’s present today. As the climate dried, waterflow decreased and the valleys filled with alluvial sediment. Narrow meanders were formed by the shrinking streams and are often dissimilar to the meanders of the larger valleys they occupy. Fluvial landforms – including terraces, oxbow lakes, sandbars, eroding bluffs, and large floodplain complexes – are found within these large valleys and are subject to varying flooding frequencies, intensities, and durations.
Karst topography formed in this region from dissolution of carbonate bedrock by surface and groundwater. Dolomite and limestone are more easily affected by dissolution, but karst topography also formed in sandstone. Erosion by water (stream meanders, rain/runoff, and groundwater), wind, and frost weaken joints and bedding planes that can cause collapse. In addition, sandstone materials collapse into cavities in underlying dolomite or limestone.
Historically, MLRA 105 was dominated by oak forests and oak openings making up more than 50% of the area. Prairies were significant and covered 32% of the area south of Military Ridge. Maple-basswood forests covered 19% of the are north of Military Ridge. Dominant tree species were white oak (Quercus alba), bur oak (Quercus macrocarpa), black oak (Quercus velutina), and sugar maple (Acer saccharum).
Classification relationships
Relationship to Established Framework and Classification Systems:
Habitat Types of S. Wisconsin (Kotar, 1996): Pinus/Vaccinium-Rubus hispidus [PVRh], Pinus strobus/Vaccinium-Cornus racemose [PVCr], Pinus/Vaccinium-Hamamelis [PVHa], and Pinus strobus/Vaccinium-Gaylussacia [PVGr].
Biophysical Settings (Landfire, 2014): This ES is largely mapped as Laurentian-Acadian Northern Pine Forest, Laurentian Pine Barrens, North-Central Interior Oak Savanna, North-Central Interior Dry-Mesic Oak Forest and Woodland, North-Central Interior Maple-Basswood Forest, North-Central Interior Sand and Gravel Tallgrass Prairie, Paleozoic Plateau Bluff and Talus Herbaceous, Eastern Cool Temperate Pasture and Hayland, Eastern Cool Temperate Row Crop, and Developed-Low Intensity
WDNR Natural Communities (WDNR, 2015): This ES is most closely described as the Southern Dry Forest by the Wisconsin DNR.
Hierarchical Framework Relationships:
Major Land Resource Area (MLRA): Upper Mississippi River Bedrock Controlled Uplands and Valleys (105)
USFS Subregions: Menominee Eroded Pre-Wisconsin Till (222La), Melrose Oak Forest and Savannah (222Lb)
Wisconsin DNR Ecological Landscapes: Western Coulee and Ridges
Ecological site concept
The Sandy Uplands ecological site occupies approximately 45,000 acres in MLRA 105, or about 0.7% of total land area. It is found in upland positions on diverse landforms throughout the MLRA. It is most common to landscapes dominated by sandy valley trains and sandstone hills. 91% of the acreage of this site is north of the Wisconsin River.
This site is characterized by very deep, moderately well to somewhat excessively drained soils comprised of sandy materials. Most sites in the east-central portion of this MLRA (mainly Monroe, Jackson, and Lacrosse counties) formed in siliceous sandy alluvium deposits weathered and reworked from silica-cemented sandstone. Other sites formed in sandy outwash deposits and sandy eolian (wind-blown) deposits.
Associated sites
F105XY002WI |
Wet Sandy Floodplain These sites form in deep, sandy alluvium and outwash deposits in floodplains, especially those along the Chippewa, Black, and Wisconsin rivers. They support vegetation tolerant of seasonal flooding. They are sometimes saturated enough for hydric conditions to occur. They may be found in floodplains adjacent to Sandy Uplands. |
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F105XY004WI |
Wet Sandy Lowland These sites form in depressions and drainageway in deep, sandy outwash deposits. They are very poorly or poorly drained and are saturated long enough for hydric conditions to occur. They may be found on similar landforms as Sandy Uplands in lower landscape positions. |
F105XY006WI |
Moist Sandy Lowland These sites form in sandy outwash deposits along major waterways. They are somewhat poorly drained. They may be found on similar landforms as Sandy Uplands in lower landscape positions. |
R105XY018WI |
Dry Mollic or Umbric Upland These sites form in sandy materials deposited by wind, water, or weathered from sandstone bedrock. They have deep, dark surfaces. They are moderately well to excessively drained. They may be adjacent to Sandy Uplands in higher landscape positions. |
F105XY019WI |
Dry Upland These sites form in sandy materials deposited by wind, water, gravity, or weathered from sandstone bedrock. They are well drained to excessively drained. They may be adjacent to Sandy Uplands in higher landscape positions. |
Similar sites
F105XY013WI |
Loamy-Silty Upland These sites form in loamy to silty materials, often silty loess and residuum. They are moderately well to well drained. They are found in similar landscape positions as Sandy Uplands but have finer textures and a higher nutrient status. |
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F105XY019WI |
Dry Upland These sites form in sandy materials deposited by wind, water, gravity, or weathered from sandstone bedrock. They are well drained to excessively drained. They are drier than to Sandy Uplands. |
Table 1. Dominant plant species
Tree |
(1) Pinus strobus |
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Shrub |
(1) Prunus serotina |
Herbaceous |
(1) Parthenocissus quinquefolia |
Click on box and path labels to scroll to the respective text.
Ecosystem states
T1A | - | Stand replacing disturbance e.g., blow-down and fire, or clear-cutting followed by fire. Regeneration by natural seeding or planting. |
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R2A | - | Fire control, time, natural succession. |
T2A | - | Grazing by livestock. Disruption of tree regeneration and ground vegetation. |
T2B | - | Removal of natural vegetation, plowing, fertilizing, irrigating, planting agricultural crops. |
R3A | - | Removal of livestock from stands. |
T3A | - | Removal of natural vegetation, plowing, fertilizing, irrigating, planting agricultural crops. |
State 1 submodel, plant communities
1.1A | - | Light to moderate intensity fires, blow-downs, ice storms. |
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1.2A | - | Disturbance-free period 30+ years |
State 2 submodel, plant communities
2.1A | - | Immigration and establishment of white pine and red maple. |
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2.2A | - | Immigration and establishment of white pine and red maple. |
2.3A | - | Immigration and establishment of white pine and red maple. |