The results of real-time PCR targeting on DMSO/DMS degrading popu

The results of real-time PCR targeting on DMSO/DMS degrading populations, including Hyphomicrobium and Thiobacillus spp., indicated that a higher DMSO oxidation efficiency occurred at a higher Hyphomicrobium spp. abundance in the systems, suggesting that Hyphomicrobium spp. may be more important for complete DMSO oxidation to sulfate compared with Thiobacillus spp. Furthermore, Thiobacillus spp. was more abundant

during poor nitrification, while Hyphomicrobium spp. was more abundant during good nitrification. It is suggested selleck compound that microbial population of DMSO/DMS degrading bacteria is closely linking to both DMSO/DMS degradation efficiency and nitrification performance. (C) 2013 Elsevier Ltd. All rights reserved.”
“This study evaluated the hypothesis that fermentative hydrogen production

from organic-rich feedstock could be enhanced by supplementing with waste materials such as cattle manure that could provide nutritional needs, buffering capacity, and native hydrogen-producing organisms. This hypothesis was tested in batch reactors fed with sucrose blended with cattle manure run at 25 degrees C without any nutrient supplements, pH adjustments, buffering, or gas-sparging. Hydrogen production rates in these reactors ranged 16-30 mL H(2)/g Delta COD-day, learn more while hydrogen content in the biogases ranged 50-59%. Compared to literature studies conducted at higher temperatures, hydrogen yields

found in this study at 25 degrees C were higher in the range of 3.8-4.7 mol H(2)/mol sucrose added, with higher positive net energy yields (>14 kJ/L). This study demonstrated that cattle manure as a supplement could not only provide hydrogen-producing seed, nutritional needs, and buffering capacity, but also increase hydrogen yield by similar to 10%, improving SB203580 solubility dmso the economic viability of fermentative biohydrogen production from sugary wastes. (C) 2010 Elsevier Ltd. All rights reserved.”
“To clarify the relationship between pollen density and gametophytic competition in Pyrus pyrifolia, gametophytic performance, gibberellin metabolism, fruit set, and fruit quality were investigated by modifying P. pyrifolia pollen grain number and density with Lycopodium spores. Higher levels of pollen density improved seed viability, fruit set, and fruit quality. Treatments with the highest pollen density showed a significantly increased fruit growth rate and larger fruit at harvest. High pollen density increased germination rate and gave a faster pollen tube growth, both in vivo and in vitro. Endogenous gibberellin (GA) concentrations increased in pollen tubes soon after germination and the concentration of two growth-active GAs, GA(3), and GA(4), was positively correlated to final fruit size, cell numbers in the mesocarp, and pollen tube growth rate.

Related posts:

  1. Background The advent of antiangiogenic therapies targeting the v
  2. Alternatively, these proteins might represent insulin-degrading e
  3. Alternatively, these proteins might represent insulin-degrading e
  4. GAs have proven to be powerful optimization tools These are popu
  5. A typical characterization of a real OFMSW can be observe in Tabl
This entry was posted in Antibody. Bookmark the permalink.

Comments are closed.