磷
活力测定
细胞内
异养
细胞器
小球藻
细胞生长
细胞破裂
细胞
藻类
生物化学
生物
化学
营养物
植物
细菌
生态学
有机化学
遗传学
作者
Qingcheng Li,Liang Fu,Yue Wang,Dandan Zhou,Bruce E. Rittmann
标识
DOI:10.1016/j.biortech.2018.07.148
摘要
Abstract A high phosphorus concentration is widely accepted as favorable for enhancing both microalgae growth and lipid accumulation; however, excessively high P could be counter-productive. In this study, we investigated the effects of increasing P levels (5.4, 25, 45, 150, and 250 mg-P L−1) on the heterotrophic cultivation of Chlorella regularis. Microalgae growth was inhibited and cells were severely damaged in response to highly excessive P levels (≥150 mg-P L−1). In particular, 250 mg-P L−1 resulted in a ∼40% decrease in cell density and a ∼70% loss of cell viability. Microalgae damage induced by excessive phosphorus included enlarged cell size, deformation of cell walls, and disorganization of organelles. These negative effects were associated with the over-accumulation of polyphosphates within cells, which may further cause binding of P to intracellular components. Although P is an essential nutrient, excessive P lowers cell growth and viability.
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