Istiak Hossain , Briana Mays , Sydney L Hanhart , John Hubble , Pedram Azizihariri , T.I. McLean , Richard Pierce , Vince Lovko , Vijay T John
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引用次数: 0
摘要
我们利用过氧化钙灭藻剂,在絮凝和下沉卡伦氏藻的同时,有针对性地消灭卡伦氏藻。该方法的特殊之处在于将灭藻剂加入絮凝物中,以迅速杀死鳊鱼甲,从而最大限度地减少细胞从絮凝物中逃逸并重新进入水体。CaO₂ 会逐渐产生 H₂O₂,通过细胞膜扩散,诱发氧化应激,形成过量活性氧 (ROS) 导致细胞死亡。利用脉冲幅度调制荧光测定法测量了不同剂量的过氧化钙对 K. brevis 细胞的影响,结果表明,低至 30 毫克/升的剂量加入絮凝物中可有效抑制光合作用。细胞活力测定也表明,这种低剂量足以在 3-6 小时内导致细胞死亡。因此,在阳离子絮凝剂(聚合氯化铝,PAC)中加入过氧化钙的拟议技术是一种成本低廉、可扩展的技术,可用于缓解 K. brevis 的有害藻华。
An effective algaecide for the targeted destruction of Karenia brevis
We address the targeted destruction of Karenia brevis using the algaecide calcium peroxide, in tandem with the flocculation and sinking of the species. The specific aspect of the approach is the incorporation of the algaecide within the floc to rapidly kill K. brevis, thus minimizing escape of cells from the floc and reentry to the water column. CaO₂ gradually produces H₂O₂, which diffuses through cell membranes and induces oxidative stress, leading to cell death via excessive reactive oxygen species (ROS) formation. The effect of varying doses of calcium peroxide on K. brevis cells was measured with pulse amplitude modulated fluorometry and indicated that doses as low as 30 mg/L when integrated into flocs are effective in suppressing photosynthesis. Cell viability assays also indicate that such low levels are sufficient to cause cell death in a 3-6 hour time period. Thus, the proposed technology involving the incorporation of calcium peroxide in a cationic flocculating agent (polyaluminum chloride, PAC) leads to an inexpensive and scalable technology to mitigate harmful algal blooms of K. brevis.
期刊介绍:
This journal provides a forum to promote knowledge of harmful microalgae and macroalgae, including cyanobacteria, as well as monitoring, management and control of these organisms.