Effect of laboratory containment on the nitrogen metabolism of termites

Abstract

When Nasutitermes exitiosus, Nasutitermes walkeri and Coptotermes lacteus were brought into the laboratory they rapidly lost, within 24–48 hr, their ability to fix dinitrogen. With N. exitiosus and N. walkeri the loss was linear over the first 26–32 hr at a rate of about 3–4% per hour. N. walkeri completely lost its ability to fix dinitrogen and did not recover it during a further 11 days in the laboratory, whereas N. exitiosus and C. lacteus partially recovered their dinitrogen fixing ability to about 25–50% of the original rate. During laboratory storage of up to 60 days both C. lacteus and N. exitiosus gradually lost total nitrogen, while at the same time their uric acid content increased. The uric acid content of N. walkeri increased during 17 days in the laboratory while total nitrogen remained essentially constant. Xanthine dehydrogenase was not detected in freshly-collected N. walkeri but was detectable after two days of laboratory storage and reached a maximum activity in 8–10 days. The rate of dinitrogen fixation, total nitrogen and uric acid of field populations of N. exitiosus and N. walkeri (tested within 2 hr of collection) remained within close limits over a 6–8 week period, indicating that the changes in these parameters observed in populations kept in the laboratory did not occur in field populations. In field populations of N. walkeri the total nitrogen was about 1.4% of the fresh weight (6.7% of the dry weight) and the uric acid content was about 1.3% of the fresh weight (6.6% of the dry weight), with the amount of total nitrogen present as uric acid being about 31%. In N. exitiosus these values were: total nitrogen about 1.6% of the fresh weight (7.4% of the dry weight), uric acid about 0.6% of the fresh weight (2.9% of the dry weight), with uric acid accounting for about 13% of total nitrogen. When workers of N. walkeri were stored in a container near their nest they lost dinitrogen fixing ability to the same extent as workers brought into the laboratory, indicating that disruption of the nest was sufficient to affect dinitrogen fixation.