Mf. Cotrufo et al., Decomposition and nutrient dynamics of Quercus pubescens leaf litter in a naturally enriched CO2 Mediterranean ecosystem, FUNCT ECOL, 13(3), 1999, pp. 343-351
1. The chemical composition (i.e. N, P, C, lignin and polyphenol concentrat
ions) of Quercus pubescens leaf litter derived from a natural CO2 spring in
Tuscany (Italy) was analysed and compared to litter from a nearby referenc
e site. Litter was incubated for 25 months at both the natural CO2 spring a
nd the reference site, and monitored for decomposition rates, nutrient and
lignin concentrations.
2. Long-term exposure to elevated CO2 concentrations from the natural sprin
g was associated with a change in the chemical composition of the Oak leaf
litter, with decreases in P and polyphenol concentrations and increases in
lignin. No differences in N concentrations were observed between the enrich
ed CO2 litter from the natural spring and the reference litter.
3. Decomposition was reduced in the CO2 spring, with the lower P concentrat
ion of the native litter, combined with the lack of soil fauna observed at
that site, being the factors most probably responsible for the measured dec
reases in mass loss. However, litter from the CO2 spring and reference litt
er decomposed at the reference site showed similar rates of decomposition.
4. All litter showed similar N concentrations during decomposition, with N
being mineralized throughout the incubation period from both litter regardl
ess of the site of incubation. In contrast, P dynamics differed between lit
ter, with P being immobilized in the litter derived from the spring, and mi
neralized from the reference litter. When the litter from the spring was in
cubated at the reference site, there was a trend for net P uptake from the
surrounding environment. The chemical composition of decomposing litter fro
m the spring appeared to match that of the reference litter after 3 months
of incubation at the reference site.
5. The results from the CO2 spring suggest that litter decomposition may be
retarded under elevated levels of atmospheric CO2. However, results from f
ield surveys around CO2 vents should be viewed with caution because differe
nces may relate to factors other than the known differences in CO2 concentr
ations.