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Additional Potential Testing - Bulk Density
Bulk density tests measure the level of compaction of a soil, which is an indicator of a soil's ability to absorb rain-
fall. Developed and urbanized sites often have very high bulk densities and, therefore, possess limited ability to
absorb rainfall (and have high rates of stormwater runoff). Vegetative and soil improvement programs can lower the
soil bulk density and improve the site's ability to absorb rainfall and reduce runoff.
Macropores occur primarily in the upper soil horizons and are formed by plant roots (both living and decaying), soil
fauna such as insects, the weathering processes caused by movement of water, the freeze -thaw cycle, soil shrinkage
due to desiccation of clays, chemical processes, and other mechanisms. These macropores provide an important
mechanism for infiltration prior to development, extending vertically and horizontally for considerable distances.
It is the intent of good engineering and design practice to maintain these macropores when installing infiltration
BMPs as much as possible. Bulk density tests can help determine the relative compaction of soils before and after
site disturbance and/or restoration and should be used at the discretion of the designer/reviewer.
Soil Test Pit Log Sheet
Project:
Name:
Location:
Test Pit #
Date:
Soil Series:
Other.
Horizon
Depth
(In.)
Color
Redox
Features
Texture
Notes
(if applicable)
Boundary
channery very channery extremely channery
Many... > 20%
cobbly very cobbly extremely cobbly
Contrast
flaggy very flaggy extremely flaggy
faint
stony very stony extremely stony
hue & chroma of matrix
and redox are closely related.
BOUNDARY
distinct
Distinctness
matrix & redox features vary
abrupt ...< 1" (thick) gradual 2 5 - 5"
1 - 2 units of hue and several unites
clear... 1 - 2.5" diffuse..? 5
of chroma & value.
Topography
prominent
smooth - boundary is nearly level
Matrix & redox features
wary - pockets with width > than depth
vary several units in hue, value & chroma
irregular- pockets with depth > than width
NOTES: REDOX FEATURES
COARSE FRAGMENTS (% of profile)
Abundance
15-35% 35-65% >65%
Few ....... < 2%
gravelly very gravelly extremely gravelly
Common.. 2 - 20%
channery very channery extremely channery
Many... > 20%
cobbly very cobbly extremely cobbly
Contrast
flaggy very flaggy extremely flaggy
faint
stony very stony extremely stony
hue & chroma of matrix
and redox are closely related.
BOUNDARY
distinct
Distinctness
matrix & redox features vary
abrupt ...< 1" (thick) gradual 2 5 - 5"
1 - 2 units of hue and several unites
clear... 1 - 2.5" diffuse..? 5
of chroma & value.
Topography
prominent
smooth - boundary is nearly level
Matrix & redox features
wary - pockets with width > than depth
vary several units in hue, value & chroma
irregular- pockets with depth > than width
HORIZONS
O - organic layers of decaying plant and
B (subsoil) - mineral horizon with evidence of
animal tissue (must be greater than 12-
pedogenesis or Illuviation (movement into the
18% organic carbon, excluding live roots).
horizon).
A (topsoil) - mineral horizon at or near
C (substratum) - the un -weathered geologic
the surface in which an accumulation of
material the soil formed in. Shows little or no
humified organic matter is mixed with the
sign of soil formation.
mineral material.
E - mineral horizon which the main feature is loss of silicate clay,
iron, aluminum. Must be underlain by a B (alluvial) horizon.
LID Manual For'Michigan —Appendix E Page �3
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ATTACHMENT F