Sf. Wright et al., Changes in aggregate stability and concentration of glomalin during tillage management transition, SOIL SCI SO, 63(6), 1999, pp. 1825-1829
Improvement in structure of degraded soils or prevention of degradation of
structure in healthy soils requires an understanding of processes contribut
ing to aggregate stability. The impact of cropping systems on a specific mo
lecule that contributes to aggregate stability is part of the process that
has not been elucidated. The relationship between aggregate stability and g
lomalin, a glycoprotein produced by arbuscular mycorrhizal (AM) fungi, was
studied during the first 3 yr in transition from plow tillage (PT) to no ti
llage (NT) maize (Zea mays L). Results showed a high linear correlation (r(
2) = 0.78, n = 32) between glomalin concentration in aggregates and aggrega
te stability. Increases in both aggregate stability and glomalin were measu
rable from gear to year in NT plots, but NT was significantly higher than P
T after 2 or 3 Sr (P < 0.05). Comparison of NT plots after 3 yr with nearby
soil in grass cover indicated that there was 20% greater stability and 45%
higher concentration of glomalin in the grass-covered soil. Comparison of
PT and NT (3 yr) interrow samples with intrarow samples indicated that plan
t roots and NT management may have a synergistic effect on aggregate stabil
ization, These results show that cropping systems should be evaluated for t
he impact on production of glomalin by AM fungi.