Marengo County contains a wide variety of soil types, providing a challenge to homeowners selecting landscape plants. Soil types in Marengo include clayey, alkaline Black Belt soils; sandy, well-drained coastal plain soils; clayey acidic Black Belt soils; river terraces and wetlands. This publication contains detailed descriptions of each soil type and a color-coded map of the county and also includes tips for tree and plant selection.
Homes are found throughout rural Marengo County and urban development in the Demopolis area occurs on a diversity of soils. Soils in Marengo County include sandy and loamy upland soils of the Coastal Plain (43%), alluvial terraces and floodplains of the Tombigbee and Warrior rivers and its tributaries (17%), and alkaline (14%) and acid (21%), clayey soils of the Black Belt prairie region. The remaining 5% are wetlands and water.
New residents in homes on some of these soils may find challenges when selecting landscape plants that will do well on their particular soil. This map and plant selection information may help homeowners and gardeners select the best landscape plants for their site and soil. It will also alert homeowners to challenges such as poor drainage, potential septic tank failures, and home foundation cracking.
Clayey, Alkaline Black Belt Soils (14%)
Soils in this group have a surface soil pH above 7.0. They may have shallow, dark, olive gray, clayey topsoil overlying Selma chalk. Selma chalk is a soft, limestone containing calcium carbonate and clay. Runoff can be very rapid on slopes resulting in a high erosion hazard. These soils have moderately slow to slow infiltration and permeability and moderately high capacity for holding available moisture. They swell when wet and shrink when dry, resulting in large cracks forming during dry periods. This presents problems for home foundations. Septic tank filter fields may need special attention because the soils percolate water very slowly. However, these soils are very good for small pond construction.
Native vegetation includes grasses, deciduous shrubs, red cedar (juniper), and mixed hardwood trees. Trees other than red cedars do poorly on sites where the chalk is within 12 inches of the surface. Pines do not grow well on these soils. Trees that do well include eastern red cedar, live oak, white oak, pecan, ash, hackberry, crabapple, redbud, and crapemyrtle.
Bermudagrass is an excellent lawn grass for sunny areas. Zoysia and St. Augustine will tolerate some shade. In the landscape, avoid acid-loving plants such as azalea, blueberry, hydrangea, gardenia, camellia, and centipedegrass. Landscape plants that do well include most junipers, ornamental grasses, Chinese hollies, yaupon hollies, nandinas, euonymuses, ligustrums, wax myrtles, oleanders, eleagnuses, buddleias, and winter honeysuckles. Raised beds aid drainage and prevent drowning of young plants during wet weather.
Clayey, Acidic Black Belt Soils (21%)
These soils have a natural surface pH below 7.0. There may be several feet of acid, clayey soil overlying alkaline Selma chalk bedrock. For garden vegetables and some ornamentals, ground agricultural limestone may be needed if the soil pH is below 5.5. These soils have slow water infiltration and slow permeability but a high water- holding capacity. They may be very sticky during wet weather. Like the clayey-alkaline soils, they may swell in wet weather and shrink in dry weather, forming large cracks. These soils present problems for septic tank filter fields and structural foundations, but are well suited to pond construction.
Plants such as azaleas and blueberries that have a shallow root system and require well-drained soils do not grow well on these soils. All warm-season, perennial turfgrasses grow well. Pine trees grow well on the better-drained sites, but live oaks, white oaks, red oaks, pecans and other deciduous trees make better landscape trees. Most landscape plants and gardens benefit from raised beds.
Care should be taken when setting out new landscape plants grown in containers. Avoid digging a hole and putting the new plant in it. This can create what is known as the bathtub effect. The hole can fill with water that will not drain, and the new plant will die. Mix amendments with the clayey soil and take care to spread the roots of the container-grown plant. Plant high and mulch well. Keep new plants watered in dry weather.
Cultivation may be difficult because of the plastic-like nature of these soils. They dry out slowly and become very hard when dry. Spring tillage is often difficult because of wet soils. Therefore, use a minimum amount of tillage once raised beds are formed. Lots of organic amendments help drainage. Don’t add sand as this only makes these soils more concrete-like in dry weather.
Sandy, Well-Drained, Coastal Plain Soils (43%)
These soils are naturally acidic and will require ground limestone and fertilizing according to a soil test for most landscape plants and garden crops. A reddish orange subsoil color is one indication of a well-drained soil.
Surface soils can be very sandy, loamy, or clayey, but all are low in soil organic matter and benefit from generous and frequent applications of organic matter, compost, and mulches. Frequent cultivation or tilling can actually destroy surface soil structure so that hard crusts form after a rain. Plow pans or traffic pans can form 4 to 8 inches deep, which prevent roots from growing deeply and can perch water during wet weather. Farmers use subsoiling to break up these hard pans. Gardeners can use a spade to cut slits into the subsoil or double digging to break through these dense hard pans. Raised beds may not be necessary if the soil has good drainage. If raised beds are used, additional irrigation during dry weather will be needed.
Erosion may be a high risk if the land is cleared and cultivated because many of these soils are on slopes. Soils have no limitations or only slight limitations for small structures, streets, landscaping, and septic tank filter fields.
Most landscape, orchard, and garden plants associated with the southern United States will grow well if properly cultivated. Acid-loving plants requiring a well-drained soil do well with reasonable management. These plants include azalea, blueberry, camellia, gardenia, hydrangea, centipedegrass, magnolia, and pine trees.
River Terraces and Soils That May Flood (17%)
These soils are mostly level and may range from sandy to clayey. They can be saturated for long periods of time and may have a risk of flooding. Most are in the flood plains of major rivers and streams. Excessive wetness limits the use of these soils, but they provide excellent forests and habitat for wildlife. Drainage is required for most uses other than woodland and wildlife habitat. Some of the better drained river terrace soils have been used for crop production. Most of these soils are unsuitable for home construction due to wetness, flooding, and septic tank failures. Try to protect riparian areas near streams to prevent stream bank erosion and to protect water quality.
Wetlands and Other Soils (5%)
These are small areas with mixed soils of the first three groups, poorly drained floodplain soil, or wetlands. The nature of a soil at any location may be identified by digging a hole about 3 feet deep and observing changes in the soil horizons (layers). A simple percolation test
for internal drainage can be done by filling the hole with water and observing how fast the water drains out of the hole. Sites where water moves down an inch or more per hour is a well-drained soil. A surface soil test will determine if the soil is acid (pH lower than 7.0) or alkaline (pH higher than 7.0). Consulting a detailed soil map of Marengo County will be helpful for large tracts of land.
Double digging is a technique used to break up hard, compacted soils, relieve hardpans, and create a deep rooting environment in sandy to loamy soils. Double digging is ideal for creating small beds or for working up rows of garden crops for sandy or loamy soils. This technique is not necessary for cracking clays. Vegetable gardeners will find it easier to double dig directly under the row and maintain this row for several years without additional tillage.
The technique consists of digging a trench the depth of the shovel where the row is to be and placing the topsoil from the trench to one side of the row. Once the trench is dug, add ground limestone to the bottom of the trench, usually about 2 pounds per 20 feet of trench, if needed. In the bottom of the trench, force the shovel into the subsoil as deep as possible and turn this subsoil over in the trench. Continue doing this the length of the trench. This is the double dig. Now place the original topsoil back into the trench.
Use this opportunity to build a raised bed on top of the trench if needed. Smooth the bed, and set out plants or plant seed. Depending upon the final width of the bed and crop to be grown, one or two rows can be planted on top of the same trench.
Plant Selection & Soil Types