M. Tuomela et al., Biodegradation of radiolabelled synthetic lignin (C-14-DHP) and mechanicalpulp in a compost environment, APPL MICR B, 55(4), 2001, pp. 492-499
Mineralization of radioactive synthetic lignin (C-14-DHP) was studied in a
compost environment at 35, 50 and 58 degreesC. Compost samples were success
ively extracted with water, dioxane and alkali, and the molecular weight di
stribution of some extracts was determined by gel permeation chromatography
(GPC). Biodegradation of lignin-containing spruce groundwood (SGW) and pin
e sawdust was concurrently determined in controlled composting tests by mea
suring evolved CO2. The temperatures were the same as in the C-14- DHP mine
ralization experiment and bleached kraft paper, with a lignin content of 0.
2%. was used as a reference. The mineralization of C-14-DHP was relatively
high (23-24%) at 35 degreesC and 50 degreesC, although the mixed population
of compost obviously lacks the most effective lignin degraders. At 58 degr
eesC the mineralization of 14C-DHP, as well as the biodegradation of SGW an
d sawdust, was very low, indicating that the lignin-degrading organisms of
compost were inactivated at this temperature. SGW was poorly biodegradable
(< 40%) in controlled composting tests compared with kraft paper (77-86%) a
t all temperatures, which means that lignin inhibits the degradation of car
bohydrates. During the incubation. water-soluble degradation products, main
ly monomers and dimers, and the original 14C-DHP were either mineralized or
bound to humic substances. A substantial fraction of C-14-DHP was incorpor
ated into humin or other insolubles.