Clay Soils of the Champlain Valley: Caroline Alves, NRCS
Transcript of Clay Soils of the Champlain Valley: Caroline Alves, NRCS
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Clay Soils of the Champlain
Valley
Clay Symposium – Middlebury College - June 2012
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What to expect…
• Soils 101: particle size, soil structure, clay characteristics
• Formation of Clay/Silt Lacustrine Deposits
• Champlain Valley Clays (as mapped by NRCS)
• Improving Soil Maps - using modern technology
• Use & management of clays – potential pitfalls
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Clay soils in the Champlain Valley make up some of the
best farmland in Vermont
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There are some very significant
agronomic / engineering challenges
with clay soil
• compaction if worked when wet – causing
damage to the structure of the soil
• drainage problems –
Small particles impede water movement
The surface can become sealed when compacted
• In dry summers, it can turn into concrete-like
material
• cracking can cause damage to foundations, etc.
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How do you know when you are looking at clay soil?
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Particle size –
causes different
lengths of time for
suspension in
water
Sand sinks
Clay stays
suspended
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To rate as a “clay” in the USDA textural system there
needs to be > 40% of clay sized particles
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Clays often have platly structure
at the micro scale… And the macro scale
kaolinite
Platy structure
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Compaction will further eliminate pore space in
clay dominated soils
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Significance of Soil Structure:
Soil structure determines the amount
and arrangement of empty spaces in
the soil, influencing on how readily
water moves through the soil and
where plant roots can grow.
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Soil structure = the grouping of individual soil particles into
clusters or aggregates, called peds.
The development of structure is an indication of soil formation.
Soil structure
effects water
movement in
soils
In our region
clays often have
platy or massive
structure
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Understanding Soil Maps
& Formation of Clay / Silt
Lacustrine Deposits in VT
In the deeper, quieter water
successive layers of clay (and silt)
were deposited
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The landscape as a whole…
Monkton - Addison County, Vermont
Till on hills – above
glacial lake level
An old
beach –
Stetson
series
Old Lake bed -
lacustrine soils
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Soil maps have an
attribute “Parent
Material” allows
the Lacustrine (in
green) influenced
soils to jump out
from the Till (in
pink & magenta)
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In 3-D -- Drape of Parent Material over topography –
where lucustrine deposits meet glacial till (in Johnson,
Vermont)
Legend for Soil
Parent Material
Parent material = The unconsolidated & more or less chemically
weathered mineral or organic matter from which the solum (upper part
of soil horizons A, E, B) of soils is developed by pedogenic processes
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Proglacial Lake, Iceland
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Imagine a very different landscape from the present –
glaciers melting – glacial lakes forming
Size & depth of these lakes changed constantly
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Huge amounts of sediment washed into glacial
lakes from the largely denuded landscape
the result : thick lake-laid sediments of varying
particle size -- both silt and clay
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Varves-
“silt- clay
couplets”
Annual depositional
cycle
Silty summer layers (more inflow)
Clay-rich winter layers – surface ice
encourages settling of clay size
particles by reducing wind shear &
surface mixing
Photo by G. Springston
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G. Springston
Close-up of
varved silty
clay and silt
One
Year
Finer
materials
Clays – may take
many months to
settle a thin layer
Silts – may
get many
inches of
sediment in
short time
period
Note year to year
variation in
thickness
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What was lake bed
& sea floor is now
dry land
Champlain Sea
– we need a digital
version of this map –
produced by GIS & on-
the ground evidence
(research need)
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For a period of
time salt water
intruded into what
is now Lake
Champlain
This map is based on GIS
modeling & not all geologists
are happy with this particular
configuration of land / water
As the iced melted the surface of the
earth slowly rebounded…
in between melting & rebound of
the crust – sea water from the
Atlantic flooded the St.
Lawrence & the Champlain
lowlands
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Proof of the
salt water
intrusion
Whales in
Vermont?
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Vermont Surficial Geologic Map from 1970
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Middlebury is definitely under water
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From Ridge, J.C.,
2003, unpublished
handout
The ice damming the water
at the north end, at what is
now Warwick, Quebec,
failed catastrophically about
10,000 years ago. The lake
dropped 300 feet (91 m) in a
matter of days.
Eventually, when the glacier
retreated far enough north,
salt water swept in,
replacing the larger,
freshwater Lake Vermont
with the smaller,
saltwater Champlain Sea
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Different layers of sediment –
side view
Lake
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Many different glacial advances
& retreats over geologic time
Within various major glaciations - many mini advances, retreats &
re-advances
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Many lake levels – different
elevations for shorelines & ancient
lake beds >>> highly variable soils
• Clay on top of till
• Till on top of clay
• Alluvial deposits on top of clay
• Etc. etc. etc. – lots of variations
• Current day drainage incising through ancient clay plains
• Not a neat / clear cut pattern
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Champlain Valley Clays
(lake-laid sediment)
A close-up look at some
soil profiles & typical
landscapes
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Glacial Till & Alluvium
can be deposited on top
of clay deposits – Lewis
Creek
Chunks of varved clay
gouged out of streambed
during storm events are
washed downstream
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No this is not rock – but varved clay in streambed –
at 600 ft elevation
Lewis Creek
Addison
County, VT
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Varved clay exposure – 400 ft elevation –
old lake floor being incised by current day Lewis Creek
Addison County, VT
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Franklin County –
sometimes the clay
layers are below 6 feet
Soil Survey only looks
so far in terms of
depth – 6 feet Is where the Soil
Survey ends
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In the Champlain Valley
you find lots of
Vergennes clay –
those areas that were
under various lake
stages and the
Champlain Sea
Flat to rolling terrain in
Monkton – Addison
Co.
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Heavy clay soils catena in Addison County, Vermont
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Landscape position often dictates depth to water table but not
always! Especially in clays – can get lateral movement of water
Catena key
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Differences in Soil Drainage –
define different soil series
within the same type of clay
deposit
Covington / Panton
pd
Livingston
vpd
Vergennes
mwd
A catena of
clay soils:
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Vergennes Clay
• moderately well drained soils on glacial
lake plains
• the series is extensive - about 250,000
acres in VT & New York
• a benchmark series and is in the
“soil series Hall of Fame”
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Vergennes
Clay Soil
Profile
A
Bt1
Bt2
C1
C2
Hit varved
clay at 36
inches!
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Calcium Nodules – found throughout the pit
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Varved Clay
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Pedon ID: Pedon ID: S07VT007004 - Charlotte, Vermont
Sampled in 2007 P study along Lewis Creek
Horizon Field Texture Lab Texture
A C C
Bt1 C C
Bt2 C C
C1 C C
C2 C Cl
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Surface texture – low sand , medium silt
– high percentage of clay sized particles
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% clay is very high in Vergennes Clay soils
58VT001006 - Addison Co.,
Vermont
Wow!!!!!!!!!!!!!
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Pedon ID: S02VT-007-002 - Chittenden Co., Vermont
Impressive amounts of clay
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Mapping in the Champlain Valley
dates from the ‘40,‘50s &’60s
• Using GIS tools vast improvements could
be made to the consistency of the
mapping
• It is all now in digital format but no editing
was done to the content of the maps –
except glaring errors
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Vergennes Clay is in green – alluvial deposits
along Lewis Creek Corridor in other colors
See
anything
suspicious?
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Lidar Imagery for
the NEK – Soil
Mapping may soon
be done using
remote sensing
Compare 30 m DEM to
Lidar elevation data
Increases the ability to pick out
land forms
New Technology
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We need Lidar to improve the mapping in the Champlain Valley – VT Geologic al
Survey is using Lidar -- NRCS should be using this fantastic resource too
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Use & management clay is not for amateurs
BEWARE
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Incising smaller streams on clay soils are adding to the sediment load going in Lake Champlain
A serious
erosion
problem in
clays
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There is a raging debate as to the erosion rates of clays &
aggregate stability of clays for VT (& NY) clays
• Need for more studies with the clays found in our region
• To “harmonize” the data T values (acceptable soil loss for Conservation
Planning) need to match other regions
• Instead of planning for 2 T it could change to 5 T – net result more
continuous corn planted, more P going in the Lake
“little research has been completed
on the erosivity of clay soils…”
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The bottom line…
• We need definitive science based on
research (not estimates from nomo-graphs)
before changing K factors and Tolerable
Soil Loss Values -- which will have a huge
impact on water quality of Lake Champlain
• Hopefully we will be conducting studies on
this topic under the MLRA structure &
University research would be a plus
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Issues when trying to farm
lacustrine influenced soils
Sedimentation,
runoff, streambank
erosion
Plowing in a wet spring can
be a challenge!
Very fertile soils - but slow
to warm
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Engineering concerns – with
lacustrine influenced soils
Not always a great place to build a house
Photo Jim Kim –
VT Geological
Survey
Prone to
landslides
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Clay layers can impede water movement – the clay
itself or coarser material on top can become saturated
– then mass failures can occur
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All is not well in Vergennes
From GeoDesigns Inc
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Concerns – with lacustrine influened soils
Not always ideal for septic systems
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Questions / Comments…
Soil Characterization Data – Lincoln, NB National NRCS Lab:
http://ncsslabdatamart.sc.egov.usda.gov/default.htm
Email: [email protected]
Phone???? 865-7895 x203 – office has been closed to air quality problems - only
check phone once a day