S. Saggar et al., CARBON TURNOVER IN A RANGE OF ALLOPHANIC SOILS AMENDED WITH C-14-LABELED GLUCOSE, Soil biology & biochemistry, 26(9), 1994, pp. 1263-1271
The influence of soil allophane (a short-range-order mineral) content
on organic-C turnover was determined with C-14-labelled glucose. Sampl
es from four soils, providing a range of allophane, organic C, clay co
ntents, and some other characteristics, were incubated with C-14-label
led glucose for 28 days. During incubation, microbial biomass C-12 and
C-14 were determined using the fumigation-extraction technique. The a
mounts of (CO2)-C-12 and (CO2)-C-14 evolved during incubation were als
o monitored, and residual C-14 concentrations determined. Biomass C-14
was highest in the soil with the highest allophane content (13%) and
least in the soil with least allophane content (<2%). In contrast, (CO
2)-C-14 production from the [C-14]glucose was highest (63%) in the soi
l with least allophane content and lowest (54%) in the soil with the m
ost allophane. It was concluded, from first-order decay rate constants
for residual C-14 and exponential decay rate constants for biomass C-
14, that allophane retards the turnover rates of C-14 derived from add
ed glucose by stabilization of microbial biomass, and also by protecti
on of microbial products. During a 28 day incubation, ca 0.8% more C w
as diverted from respired CO2 to new biomass with each 1% increase in
allophane content. For allophanic soils, inclusion of mineral surface
area rather than clay content should provide a better quantification o
f the organic matter turnover rate.