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Transcript 
Laboratory Update: August 9, 2011
Transitioning to the Loss
on Ignition Method of
Determining Organic Matter.
By Oscar F. Ruiz Jr D.P.M.
_________________________________________
INTRODUCTION
As of August 9, 2011 A&L Analytical
Laboratories, Inc. will transition to the Loss
On Ignition (LOI) method of determining soil
organic matter for routine analyses. This
change is imperative due to the mounting
regulatory issues concerning the handling
and disposal of Walkley-Black (WB) method
reagents which can have potentially
hazardous environmental and human health
effects. Compared to WB, LOI typically
produces slightly higher results on soils low
in organic matter and is able to determine
higher levels of organic matter in organic
soils.
WB vs. LOI
LOI, otherwise known as organic matter by
combustion, differs from the previously
utilized modified WB method in that LOI is a
gravimetric method (determines OM by a
change of weight in the sample) versus the
colorimetric (change in color) of the latter.
While both methods are widely accepted,
LOI will produce a different and higher OM
percentage for the exact same soil sample
(see Tables 1 and 2). There are several
reasons for this. WB is only adequate for
measuring low organic matter levels of
mineral soil. Whereas LOI is capable of
determining both the high OM levels typical
in organic soils and the low OM levels in
mineral soils. WB measures oxidized forms
of carbon (i.e. carbon in organic matter that
is in a highly decomposed state) versus LOI
that will measure the loss of the sum of
decomposed and undecomposed organic
matter. LOI will therefore produce slightly
higher results on low OM mineral soils and
will be capable of more accurately
determining the higher OM percentages in
organic soils.
LOI results are also affected by other
factors. Soils that contain high levels of
carbonates and bicarbonates, such as
calcareous soils, and soils with highly
weathered clay mineralogy containing
trapped moisture within the interlayer
spaces will show slightly to highly
exaggerated percentages of OM depending
on the proportion of those minerals. These
samples, in actuality, contain lower levels of
OM, however during the process of heating
the sample, bicarbonates and carbonates
are lost as CO2 and moisture is lost as
water, thus increasing the OM percentage.
Conclusion
LOI is a widely accepted method of
measuring OM. Currently, the majority of
agricultural laboratories participating in the
Agricultural Laboratory Proficiency Program
(ALP) and the North American Proficiency
Testing Program (NAPT) perform LOI as
their default method. Due to the
environmental and human health concerns
of the WB method more laboratories are
transitioning to the LOI method. A&L
Analytical Laboratories, Inc. will still be able
to perform the WB method; however this will
be performed solely on a per request basis,
and will incur an additional charge for
environmental waste handling.
_________________________________________
A & L Analytical Laboratories • 2790 Whitten Rd • Memphis, TN • 38133 • 800-213-2400 • www.allabs.com
Laboratory Update: August 9, 2011
__________________________________________
Table 1. Agricultural Laboratory Proficiency Program 2011 Round #14
Std. Ref. Soil
Species/Texture/Location
pH
LOI %
WB %
1101
Harrington, PEI, Canada
Fine sandy loam
4.90
3.75
3.21
1102
Cass Cty, MI, USA
Kalamazoo loam
6.27
0.87
0.73
1103
Lebanon Cty, TN, USA
Bradyville silt loam
6.43
1.80
1.84
1104
Webster Cty, IA, USA
Webster silty clay loam
7.43
4.13
2.56
1105
Merced Cty, CA, USA
Atwater loamy sand
7.78
2.01
1.69
Table 2. North American Proficiency Testing Program 4th Quarter 2010
Std. Ref. Soil
Species/Texture/Location
pH
LOI %
WB %
116
Fresno Cty, CA, USA
Ciervo clay
8.1
1.7
0.8
117
Harris Cty, TX, USA
Hockley fine sandy loam
6.24
2.40
2.44
118
Centre Cty, PA, USA
Hagerstown silt loam
7.03
6.140
4.740
119
Wellsville, UT, USA
Greenson loam
7.62
2.76
2.27
120
Kankakee Cty, IL, USA
Ade loam
5.29
3.34
3.2
_________________________________________
A & L Analytical Laboratories • 2790 Whitten Rd • Memphis, TN • 38133 • 800-213-2400 • www.allabs.com
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