Nitrogen Physiological Communities and Biochemical Activities of Planting Mixture Mixed with Brackish Dredged Sediment, Caustic Sludge and Coal Ash

HUANG Ming-yong1,2, WANG Huai-feng3, LU Fu-ping1, YANG Jian-fang1 (1. Tianjin Key Lab of Industrial Microbiology, College of Biotechnology, Tianjin University of Science and Technology, Tianjin 300457, China; 2. Tianjin Salina Eco-landscaping Engineering Center, Tianjin 300457, China; 3. Zhejiang Police College, Tianjin 300072, China)

brackish dredged sediment; caustic sludge; coal ash; artificial soil; physiological communities; biochemical activities

There were great quantity of solid wastes -caustic sludge, coal ash, and dredged sediment in Tianjin coastal area. Previous research has showed that the mixture mixed with these trashes could be used to landscape and became successful in afforestation through combination proportions screens in pot and field experiments. Compared with coastal solonchak and foreign soil, the nitrogen physiological communities of ammonifying bacteria, aerobic nitrogen-fixing bacteria, nitrifying bacteria, denitrifying bacteria and cellulose-decomposing bacteria were studied after the artificial soil was desalinated, ameliorated and planted Populus tomentosa Carr, Robinia pseudoacacia Linn,Fraxinus pennsylvanica ar.toumeyiehd,Loniccra macckii. Maxim and Medicago sativa L.. Also the intensity of respiration, ammonification and their correlation with the amount of microorganisms, physical and chemical properties were analyzed. The results showed that the CFU of ammonifying bacteria etc. in the mixture was more or equal to foreign soil, and markedly more than that in coastal solonchak. The respiration of the mixed soil was the highest among three soil samples, with ammonification equal to foreign soil. These indicated the nitrogen translation, organic matters mineralization and holistic metabolism of this artificial soil were better than those of foreign soil. Respiration intensity had a very significantly negative correlation with soil salt and significantly positive correlation with the number of bacteria. There existed very significantly positive correlations between ammonification intensity with the content of total nitrogen, total phosphate and organic matters, bacteria quantity, while there was a remarkably positive correlation between ammonification intensity with actinomyces, and a remarkably negative correlation with salt.