DYNAMICS OF WET AND DRY AGGREGATE STABILITY FROM A THREE-YEAR MICROALGAL SOIL CONDITIONING EXPERIMENT IN THE FIELD

Abstract

Palmelloid, unicellular green microalgae in the genus Chlamydomonas were inoculated onto replicated plots at rates calculated to approximate feasibility through sprinklers (5 .times. 1011 log phase cells ha-1 yr-1) and with an airplane (5 .times. 107 ha-1 yr-1) to test their value as soil-conditioning agents. Applications were made to the same parcels of a Quincy loamy sand for three consecutive growing seasons. High-rate plots consistently showed significantly greater (5% level) stability to slaking of 0.92- to 1.68-mm sized aggregates from the surface (2 to 3 mm) algal veneer compared with low-rate and control plots, which were not different. This ranged from about 11 to 27% increased stability at the end of each season. After the 3rd yr, a significant difference of almost 12% was measured for wet aggregate stability of high-rate plot samples from the first 30 cm. Low-rate and control plots were never different. Dry aggregate stability to disruption by a Chepil-style rotary sieve was significantly greater (by 37%) for veneer samples from the high-rate plots after the second and third seasons. Low rate and control plots were not different. Similarly, dry stability of aggregates from the first 30 cm of the high-rate plots was significantly greater than comparable samples from the low-rate and control plots after the 2nd and 3rd yr (by 13%). Low-rate and control plots were not significantly different, suggesting a commercial potential for microalgal soil conditioners on light soils to which large inocula can be applied.