Understanding the Sodium Results on a Soil Analysis

Feb 1, 2014

Understanding the Sodium Results on a Soil Analysis

Feb 1, 2014

I am writing this in response to the questions at yesterday's mineral nutrition meeting regarding the two different outputs on laboratory soil analyses for sodium. Pretty tough gig standing in front of about 70 of your peers and not having the answer right away, but so it goes.

The questions pertained to the difference between a reading of “exchangeable sodium” measured in parts per million (ppm) or mg/kg, and sodium measured in meq/l (milliequivalents per litre) from saturated paste. The photos below of three different soil samples tested by a local analysis provider shows the “exchangeable sodium” output in mg/kg (also read as ppm) on the right, and sodium measured in meq/L from saturated paste on the left.

Let's summarize a recent communication of mine with Dr. Tim Hartz from UC Davis in order to understand what these mean to us:

1. The extract from NH4OAc method is the "exchangeable sodium" a minority of which is considered to be ‘active' -meaning what the plant root could encounter- in the soil solution.  The "exchangeable sodium percentage" (ESP) for coastal soils is around 2.5% of the base saturation on average, and one shouldn't run into trouble until this percentage of exchangeable sodium gets in the range of 7 or 8%.

2. To see what is ‘active' and what the plant root is facing, one needs to look at the saturated paste analysis which measures soluble sodium.  Numbers around 3 or 4 meq/liter are good and don't indicate a problem; numbers much higher than these figures would be point to a sodium problem.

 

Let's go to the analyses below from some soils and practice with these numbers for exchangeable sodium and saturated paste extracts measuring soluble sodium.