In this study, we evaluated the low-doses loading effects of magnesium aminoclay (MgAC) on Microcystis sp. KW cultures. In the presence of MgAC at concentrations ranging from 0.01 to 0.1 g/L, the cell growth of Microcystis sp. KW was enhanced relative to a non-MgAC case. At these low concentrations, MgAC also showed the capability of improving microalgal metabolite accumulation. Additionally, the amount of MgAC remaining in the culture media could be reused in the re-cultivation process just by adding a minimal amount of additional MgAC. And in fact, after reuse, the microalgal cultures maintained their growth efficiency. Therefore, integrated MgAC-aided microalgae cultivation is herein recommended as a promisingly efficient method for microalgae biorefinery applications.

在这项研究中，我们评估了氨基脲镁（MgAC）对微囊藻sp。的低剂量负载作用。KW文化。在浓度为0.01至0.1 g / L的MgAC存在下，微囊藻的细胞生长。相对于非MgAC病例，KW有所增强。在这些低浓度下，MgAC还显示出改善微藻代谢物积累的能力。另外，仅通过添加最小量的额外的MgAC，可以将培养基中剩余的MgAC的量在再培养过程中再利用。实际上，再利用后，微藻培养物保持了其生长效率。因此，在本文中推荐将集成的MgAC辅助微藻培养作为一种有前途的有效方法，用于微藻生物精炼应用。