Control of cyanobacterial growth with potassium; implications for bloom control in nuclear storage ponds

IF 5.5 1区生物学 Q1 MARINE & FRESHWATER BIOLOGY Harmful Algae Pub Date : 2024-06-07 DOI:10.1016/j.hal.2024.102654

Kejing Zhang, Lynn Foster, Christopher Boothman, Naji M. Bassil, Jon K. Pittman, Jonathan R. Lloyd

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Abstract

Microbial blooms have been reported in the First Generation Magnox Storage Pond at the Sellafield Nuclear Facility. The pond is kept alkaline with NaOH to minimise fuel rod corrosion, however alkali-tolerant microbial blooms dominated by the cyanobacterium Pseudanabaena catenata are able to thrive in this hostile environment. This study assessed the impact of alternative alkali-dosing regimens (KOH versus NaOH treatment) on biomass accumulation, using a P. catenata dominated mixed culture, which is representative of the pond environment. Optical density was reduced by 40–67 % with KOH treatment over the 3-month chemostat experiment. Microbial community analysis and proteomics demonstrated that the KOH-dependent inhibition of cell growth was mostly specific to P. catenata. The addition of KOH to nuclear storage ponds may therefore help control growth of this pioneer photosynthetic organism due to its sensitivity to potassium, while maintaining the high pH needed to inhibit the corrosion of stored nuclear fuel.

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用钾控制蓝藻生长；对控制核储存池中的藻华的影响

据报道，塞拉菲尔德核设施的第一代 Magnox 储存池中出现了微生物繁殖。该池塘使用 NaOH 保持碱性，以尽量减少燃料棒的腐蚀，但以蓝藻假单胞菌（Pseudanabaena catenata）为主的耐碱微生物藻华却能在这种恶劣的环境中茁壮成长。本研究利用一种能代表池塘环境的、以 P. catenata 为主导的混合培养物，评估了其他碱处理方案（KOH 与 NaOH 处理）对生物量积累的影响。在为期 3 个月的恒温实验中，KOH 处理的光密度降低了 40-67%。微生物群落分析和蛋白质组学研究表明，KOH 对细胞生长的抑制作用主要是针对 P. catenata 的。因此，在核贮存池中添加 KOH 有助于控制这种对钾敏感的先锋光合生物的生长，同时保持抑制核燃料贮存腐蚀所需的高 pH 值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Harmful Algae 生物-海洋与淡水生物学

CiteScore

12.50

自引率

15.20%

发文量

122

审稿时长

7.5 months

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.