REQUIMTE/CQFB, Chemistry Dpt., FCT, Universidade Nova de Lisboa, 2829-516 Caparica, Portugal.
Bioresour Technol. 2013 Nov;148:474-9. doi: 10.1016/j.biortech.2013.09.010. Epub 2013 Sep 11.
This work studied the possibility of operating a viable polyhydroxyalkanoate (PHA) producing photosynthetic mixed culture (PMC) under dark/light periods without aeration. The culture was subjected to a feast and famine regime, being fed in the dark phase and entering into famine during the light phase. Throughout consecutive feast and famine dark/light periods, the PMC became enriched in PHA accumulating organisms, where non-PHA producing algae that can grow under continuous illumination were out-competed. The very low algae levels enabled greater light and carbon source availability for PHA accumulating bacteria, leading to higher metabolic rates and PHA levels. The PMC reached a PHA content of 30% PHA/VSS, and doubled its specific PHA production rate in relation to PMCs operated previously under continuous illumination. This new process takes a further step towards operating a more cost effective PMC system for PHA production, opening up the possibility for direct sunlight utilization in the future.
本工作研究了在黑暗/光照周期内无需通气的情况下运行可行的聚羟基烷酸酯 (PHA) 产生光合混合培养物 (PMC) 的可能性。该培养物经历了饱食和饥饿期,在黑暗期进食,在光照期进入饥饿期。在连续的饱食和饥饿黑暗/光照周期中,PMC 中富含 PHA 积累生物,而非 PHA 产生的藻类可以在连续光照下生长,从而被淘汰。非常低的藻类水平为 PHA 积累细菌提供了更多的光照和碳源,从而导致更高的代谢率和 PHA 水平。PMC 达到了 30% PHA/VSS 的 PHA 含量,并使其比以前在连续光照下运行的 PMC 提高了两倍的特定 PHA 生产速率。该新工艺朝着运行更具成本效益的 PHA 生产 PMC 系统迈出了进一步的一步,为未来直接利用阳光创造了可能性。
