Department of Chemical Engineering and Applied Chemistry, University of Toronto, Toronto, Ontario, Canada.
Appl Environ Microbiol. 2010 Aug;76(16):5423-31. doi: 10.1128/AEM.00076-10. Epub 2010 Jun 18.
The growth kinetics of Hyphomicrobium spp. and Thiobacillus spp. on dimethyl sulfide (DMS) and methanol (in the case of Hyphomicrobium spp.) in an enrichment culture created from a biofilter cotreating DMS and methanol were studied. Specific growth rates of 0.099 h(-1) and 0.11 h(-1) were determined for Hyphomicrobium spp. and Thiobacillus spp., respectively, growing on DMS at pH 7. These specific growth rates are double the highest maximum specific growth rate for bacterial growth on DMS reported to date in the literature. When the pH of the medium was decreased from pH 7 to pH 5, the specific growth rate of Hyphomicrobium spp. decreased by 85%, with a near 100-fold decline in the yield of Hyphomicrobium 16S rRNA gene copies in the mixed culture. Through the same pH shift, the specific growth rate and 16S rRNA gene yield of Thiobacillus spp. remained similar. When methanol was used as a substrate, the specific growth rate of Hyphomicrobium spp. declined much less over the same pH range (up to 30%) while the yield of 16S rRNA gene copies declined by only 50%. Switching from an NH(4)(+)-N-based source to a NO(3)(-)-N-based source resulted in the same trends for the specific growth rate of these microorganisms with respect to pH. This suggests that pH has far more impact on the growth kinetics of these microorganisms than the nitrogen source. The results of these mixed-culture batch experiments indicate that the increased DMS removal rates observed in previous studies of biofilters cotreating DMS and methanol are due to the proliferation of DMS-degrading Hyphomicrobium spp. on methanol at pH levels not conducive to high growth rates on DMS alone.
从同时处理二甲基硫(DMS)和甲醇的生物滤池中富集培养的微生物中研究了 Hyphomicrobium spp. 和 Thiobacillus spp. 对 DMS 和甲醇(对于 Hyphomicrobium spp. 而言)的生长动力学。在 pH 值为 7 的条件下,Hyphomicrobium spp. 和 Thiobacillus spp. 分别以 DMS 为唯一碳源时的比生长速率确定为 0.099 h(-1) 和 0.11 h(-1)。这些比生长速率是迄今为止文献中报道的 DMS 上细菌最高比生长速率的两倍。当培养基的 pH 值从 7 降低到 5 时,Hyphomicrobium spp. 的比生长速率下降了 85%,混合培养物中 Hyphomicrobium 16S rRNA 基因拷贝的产量下降了近 100 倍。通过相同的 pH 值变化,Thiobacillus spp. 的比生长速率和 16S rRNA 基因产量保持相似。当甲醇作为底物时,Hyphomicrobium spp. 的比生长速率在相同的 pH 范围内下降幅度较小(最高达 30%),而 16S rRNA 基因拷贝的产量仅下降 50%。从基于 NH(4)(+) -N 的源切换到基于 NO(3)(-) -N 的源时,这些微生物的比生长速率对 pH 的变化趋势相同。这表明 pH 对这些微生物的生长动力学的影响远大于氮源。这些混合培养物批量实验的结果表明,先前研究中观察到的同时处理 DMS 和甲醇的生物滤器中 DMS 去除率的增加是由于在不利于 DMS 单独高生长速率的 pH 值下,DMS 降解 Hyphomicrobium spp. 在甲醇上的增殖所致。