Influence of laboratory maintenance,relative humidity and coprophagy on [14C]lignin degradation by Nasutitermes exitiosus

¹⁴C](lignin)-Acer rubrum L. was produced by infusing stems of A. rubrum with ¹⁴C](3′-side chain)-cinnamic acid. Groups (1g) of Nasutitermes exitiosus (Hill) were placed in sealed flasks which were aspirated over a 2-week period. These released up to 8.3% of the ¹⁴C](lignin)-A. rubrum as ¹⁴CO₂. Termites maintained under standard conditions as 50 g non-breeding groups for 4 months or more showed diminished ability to degrade lignin. Optimal lignin degradation and survival of N. exitiosus was at 90 and 96% relative humidity (r.h.). At 75, 80 and 85% r.h., fungal growth in bioassay flasks was seen, but lignin degradation did not increase. At 100% r.h. where bacterial growth in faeces may have been encouraged due to the development of free water, termite survival was poor and lignin degradation decreased. Starved termites contained much more radioactivity (21.8 and 30.8%) than fed termites (1.6% radioactivity), probably due to greater coprophagy on deprivation of food. However, lignin degradation was only marginally higher in starved termites, suggesting lignin becomes progressively more resistant to termite degradation after passage through the gut.