[Effects of Short-term Exogenous Nitrogen and Carbon Input on Soil Respiration Under Changing Precipitation Pattern].

The responses of soil respiration to exogenous carbon (C) and nitrogen (N) inputs under changing precipitation patterns were explored via in-situ field experiments. In 2014, a typical temperate grassland on the Xilin River of Inner Mongolia was taken as the research site, and soil respiration was measured in the following treatments:addition of water alone (CK), addition of water + N fertilizer[CN, 2.5 g·(m2·a)-1], addition of water + labile C[CG, 24 g·(m2·a)-1], and addition of water + N fertilizer+ labile C[CNG, 2.5 g·(m2·a)-1+24 g·(m2·a) -1], and the correlations of soil respiration with soil temperature, soil moisture, soil dissolved organic C (DOC), and soil microbial biomass C (MBC) were analyzed. During the first water application event (FWE) with the frequency of natural precipitation, cumulative CO2 efflux over 168 hours significantly increased in the CG and CNG treatments, whereas there was no such change in the CN treatment. In addition, soil MBC contents in the CG and CNG treatments were significantly higher than that in the CK and CN treatments, and the correlation of average soil respiration rate with soil MBC content among these treatments was positively significant (P<0.05). In contrast with during the FWE, cumulative CO2 efflux over 168 hours and soil MBC content significantly decreased during the second water application event (SWE) with no natural precipitation (P<0.05), whereas soil DOC content significantly increased (P<0.05). The cumulative CO2 efflux over 168 hours significantly decreases in the CN and CG treatments (P<0.05).During both the water application events, soil respiration rate had a positive relationship with soil temperature and soil volume water content (P<0.05). Therefore, it is proposed that the distribution of natural precipitation influences soil water content, which controls the effects of exogenous C and N on soil respiration in semiarid grassland ecosystems.

[Comparative clinical observation of the short-term bone fusion effect of composite biosynthetic bone and ilium auto-grafting].

OBJECTIVE: To evaluate the short-term bone fusion after implantation of composite biosynthetic bone made of coralline hydroxyapatite composite (CHC) as a substitute for autologous bone grafting. METHODS: A clinical sequential trial was designed and the biosynthetic bone and the patient's ilium were respectively used in the treatment of femoral nonunions and interbody fusion. X-ray examinations were performed 10 weeks after the operations and the bone fusion was graded according to Lane-Sandhu's method. RESULTS: The biosynthetic bone was capable of bone fusion as observed in this experiment. Sequential analysis found that the upper bound was reached when the X-ray examination scores of 15th pairs were transcribed in the chart with 2 pairs of cases dismissed for having the same grade. CONCLUSION: The bone fusion effect of CHC is better than auto-grafting judging from the present observation at 10 weeks after operation.