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I NONPOINT SOURCE SUCCESS STURY
Adding Agricultural Best Management Practices Reduced Sediment
Loads and Decreases Suspended Solids in Soldier Creek
Waterbody Improved So,dier Creek>in northeast Kansas, was historically affected by
excessive sedimentation caused by erosion from conventional
farming practices in the watershed. Full-tillage row cropping on highly erodible lands, cattle with
unfettered access to streams, and winter feeding of cattle near streams were common. The resulting
sedimentation negatively affected aquatic life in Soldier Creek. Surveys conducted by Kansas
Department of Health and Environment (KDHE) biologists documented losses in the diversity and
abundance of stream-dwelling insects and mollusks. In 1998, KDHE determined the upper portion
of Soldier Creek was impaired for aquatic life use due to excessive sedimentation, and the stream
was listed as impaired under section 303(d) of the Clean Water Act (CWA). Since then, suites of
agricultural conservation and soil health practices have been installed in the watershed, resulting in
decreased total suspended solids (TSS) levels in Soldier Creek.
Problem
The Soldier Creek watershed is in the Western Corn
Belt Plains ecoregion of northeast Kansas and is a
tributary of the Kansas River. Most of the Prairie
Band Potawatomi Nation reservation and the town of
Soldier, Kansas, lie within the watershed. Soldier Creek
flows north to south and empties into the Kansas
River at Topeka, Kansas (Figure 1). The watershed is
characterized by rolling hills with a 3%-6% slope. Soils
are generally glacial till, highly erodible, and exhibit
a high clay content. Land use is primarily native and
nonnative grass pasture, hay lands, and bottomland
crop fields. The watershed is interspersed with mature
oak-hickory forest areas hugging steeper hillsides and
along creek bottoms.
Conventional farming practices within the Soidier
Creek watershed have decreased the ability of soils to
infiltrate water, thus increasing runoff and soil ero-
sion from row crop fields during rain events. In some
areas, farming to the edge of stream banks has also
contributed to Soldier Creek receiving heavy sediment
loads during moderate-to-heavy rain events. As these
sediment loads settle, they can reduce the quality of
aquatic habitats and even smother aquatic organisms.
Figure 1. Water quality monitoring station on Soldier
Creek in the Kansas River watershed.
In 1998, the upper portion of Soldier Creek was listed
on the CWA section 303(d) list for failing to meet its
aquatic life use due to excessive sedimentation. KDHE
developed a total maximum daily load (TMDL) for
TSS, which was approved by the U.S. Environmental
Protection Agency in 2005.
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Figure 2. Herbaceous cover planting water quality buffer
strips were added in the Soldier Creek watershed.
Story Highlights
Ninety-nine sediment-reducing best management
practice (BMP) projects were implemented in the
Soldier Creek watershed between 2012 and 2022.
This included 64 cover crop projects on 4,656 acres
of cropland. Cover crops between rows of cash crops
improve soil health and aggregation by covering the
soil with foliage and anchoring the soil with living
roots. Cover crop foliage provides shade to buffer soil
temperatures and reduces the impact of raindrops.
Living roots physically hold soils in place, and their
exudates encourage the growth and proliferation of
beneficial soil organisms. Other sediment-reducing
BMPs included one riparian herbaceous cover plant-
ing, one critical area planting, one sediment basin, one
diversion, nine grassed waterways, and 21 terraces
(Figure 2). Together, these practices are estimated to
have prevented nearly 7,590 tons of sediment from
entering Soldier Creek.
Results
Sediment loading rates in Soldier Creek are evaluated
using a water quality test that measures TSS. This test
measures the amount of solid materials, such as soil
and clay particles, that are carried in the water column
of a lake or stream. Data collected between 1980 and
2021 show a marked decrease in TSS levels in Soldier
Median TSS by Decade
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1980s
1990s
2000s
2010s
Figure 3. Soldier Creek TSS concentrations by decade.
The 2010s data bar includes 2010-2021.
Creek near Delia, Kansas. Average TSS levels at stream
flows less than 1,000 cubic feet/second (cfs) decreased
75% from the 1980s to the post-2010s—from 204 mil-
ligrams/liter (mg/L) to 50 mg/L. The desired endpoint
stated in the 2005 TMD-L was average TSS levels below
100 mg/L at flows less than 1,000 cfs. The avail-
able data would suggest that this endpoint has been
achieved. However, KDHE TMDLs currently consider
median TSS values less than 50 mg/L as a desired
endpoint. Median TSS decreased 86% from the 1980s
to the post 2010s—from 94 mg/L to 13 mg/L (Figure
3). This long-term improvement in TSS will ultimately
benefit aquatic life in Soldier Creek and could eventu-
ally return it to supporting status.
Partners and Funding
This improvement in water quality has been a result
of a partnership between the Kansas Alliance for
Wetlands and Stream's Middle Kansas River Watershed
Restoration Protection Strategy (WRAPS), Prairie Band
Potawatomi Nation, Jackson County Conservation
District, Farmer-to-Farmer coaches, and KDIHE's Kansas
WRAPS program. Since 2006, Mlddie Kansas WRAPS
has used $1,534,430 in section 319 funds; $197,977 in
state/in-kind funds; and $977,590 in local in-kind funds
to address water quality impairments in the middie
Kansas River watershed, including Soldier Creek.
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U.S. Environmental Protection Agency
Office of Water
Washington, DC
EPA 841-F-24-001L
April 2024
For additional information contact:
Clint Goodrich
Kansas Department of Health and Environment
785-383-4281 • clint.goodrich@ks.gov
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