Recently developed methods for the accurate measurement of surface cha
rge components and the points of zero charge in soils containing both
permanent- and variable-charge constituents were applied to a Haplorth
od that is typical of podzolized soils in North America, Scandinavia,
and Russia. Independently measured values of the density of structural
surface charge, net proton charge, and net adsorbed ion charge were o
btained for soil samples from the E2 and Bhs horizons suspended in LiC
l or Li2SO4 solutions of ionic strength 1 or 10 mmol kg(-1). Data take
n across the pH range 2 to 6 tested successfully for conformity to the
law of surface charge balance. Relationships between the point of zer
o net proton charge and the point of zero net charge were consistent w
ith the fact that, at any pH, increasing ionic strength favored an inc
rease in the net adsorbed ion charge, whereas changing from Cl- to SO4
2- favored a decrease in the net adsorbed ion charge. The methodology
and charge balance analysis are applicable to any podzolized soil.