Showing 2 results for Dust.
M. Borji,
Volume 10, Issue 2 (7-2006)
Abstract
Recently, the use of microorganisms for conversion of plant biomass into many commercially valuable products has been studied. In this study, some soil samples, composting plant materials, and composted manure from different parts of Markazy province were collected to isolate and identify aerobic bacteria, which have been capable of utilizing lignin preparations as a sole source of carbon. Bacteria were isolated by using three types of lignin preparations and hot- water- extracted wheat stover and saw dusts. Two of the isolates, identified as Streptomyces sp. and Pseudomonades sp. were able to degrade wheat stover and saw dust lignin and polysaccharides. The growth rate of Streptomyces sp. and Pseudomonades sp. was higher in wheat stover fed cultures than the saw dust fed cultures. Results also showed that bacteria treatment of lignocelluloses and nitrogen supplementation of culture media had considerable effects on chemical composition of wheat stover and saw dust. All two bacteria genera increased crude protein, APPL, soluble lignin, and decreased carbohydrates and insoluble lignin of wheat stover and saw dust (P<0.01). Streptomyces showed more degradation ability than Pseudomonades, especially in culture media containing wheat stover. The utilization of yeast extract (as nitrogen source) improved degradation abilities of bacteria. The findings of this study indicate that these bacteria could be used for biological upgrading of agriculture residues in order to feed animals.
F. Jafari, H. Khademi,
Volume 18, Issue 70 (3-2015)
Abstract
Dust deposition occurs extensively in arid and semiarid regions of the world. Since dust particles are fine-sized, they have a high adsorption capacity and also high contamination potential. The objective of this study was to evaluate the temporal and spatial distribution of the rate of atmospheric dust deposition in different locations in Kerman urban area. Dust samples were collected monthly using glass traps installed on the roof of 35 one-story buildings in Kerman for 7 months from April 20 to Nov. 20, 2012 (a total of 245 samples). After each monthly sampling, traps were washed and dust samples transferred to the laboratory and weighed. The mean dust deposition rate of 7 months was mapped using the inverse distance weighting (IDW) approach. The wind rose of Kerman was drawn by WRPLOT 7.0.0. The results showed that the average rate of dust deposition decreased during the 7 months studied from 17.4 to 5 g/m2. month, which could be attributed to the decrease in wind velocity. The spatial distribution of the samples also showed that the dust deposition rate varied from 4.84 in the southern parts to 14.84 g/m2.month, mostly in the northern locations of the city. The wind rose based on the average wind speed of the 7 months of sampling indicated the prevailing wind blows from north, northeast and northwest and the dust spatial distribution well follows the wind direction. In general, the rate of dust deposition in Kerman city is high and therefore, the source of dust has to be well detected and proper management practices are necessary.