Modification of the Mehlich Lime Buffer Test

Modification of the Mehlich Lime Buffer Test

Routine use of the Shoemaker, McLean, and Pratt (SMP) lime buffer method resulted in chronic problems with electrode reference junction degradation, stability of readings relative to contact time, and generation of hazardous waste. During method recalibration, the Mehlich buffer was chosen for paral...

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Bibliographic Details
Published in:Communications in soil science and plant analysis Vol. 39; no. 15-16; pp. 2270 - 2281
Main Authors: Hoskins, B.R, Erich, M.S
Format: Journal Article
Language:English
Published: Philadelphia, PA Taylor & Francis Group, LLC 01-09-2008
Taylor & Francis
Subjects:
adverse effects
agricultural soils
Agronomy. Soil science and plant productions
analytical methods
Biological and medical sciences
buffering capacity
buffers
calcium carbonate
calibration
electrodes
Fundamental and applied biological sciences. Psychology
hazardous waste
laboratory techniques
Lime buffer test
lime incubations
liming
Mehlich buffer
methodology
SMP buffer
soil analysis
toxicity
Lime
Incubation
Lime buffer test
lime incubations
Buffer system
SMP buffer
Mehlich buffer
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Summary:Routine use of the Shoemaker, McLean, and Pratt (SMP) lime buffer method resulted in chronic problems with electrode reference junction degradation, stability of readings relative to contact time, and generation of hazardous waste. During method recalibration, the Mehlich buffer was chosen for parallel evaluation with SMP, with the goal of improving method performance and eliminating of hazardous waste. The Mehlich buffer was modified by substituting calcium (Ca) for barium (Ba). The modified Mehlich (MM) buffer was found to be identical to the original with respect to buffering power and linearity over an extended pH range of 3.0-6.6. Seven agronomic soils were incubated with eight rates of calcium carbonate for 90 days. Regression analysis was performed to predict lime requirement (LR) to several target pH levels, based on pH measured in each buffer alone or in both water and buffer. Slightly better predictability was obtained using multiple regressions, with R2>0.95 in all cases. Significant but minor differences occurred between the newly calibrated buffers in extended comparisons. The MM buffer was superior to the SMP during routine usage, with fewer adverse effects on electrodes and the elimination of hazardous waste.
ISSN:0010-3624
1532-2416
DOI:10.1080/00103620802289372