Low sediment redox promotes cyanobacteria blooms across a trophic range: implications for management

IF 1.1 4区 环境科学与生态学 Q4 LIMNOLOGY
L. Molot, S. Schiff, J. Venkiteswaran, H. Baulch, S. Higgins, A. Zastepa, M. Verschoor, D. Walters
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引用次数: 12

Abstract

Abstract Molot LA, Schiff SL, Venkiteswaran JJ, Baulch HM, Higgins SN, Zastepa A, Verschoor MJ, Walters D. 2021. Low sediment redox promotes cyanobacteria blooms across a trophic range: implications for management. Lake Reserv Manage. 37:120–142. Field observations and experimental manipulations with different oxidizing agents including nitrate demonstrate that high sediment redox prevents cyanobacteria blooms in eutrophic freshwaters. Conversely, low sediment redox caused by depletion of dissolved oxygen and nitrate allows blooms to form. This explains why bloom risk increases with phosphorus levels: Higher productivity increases the spatial and temporal extent of low sediment redox. The intermediate link between low redox and cyanobacteria blooms appears to be internal loading of ferrous iron (Fe2+) from reduced sediments with diffusion to depths accessible to migrating cyanobacteria, providing a source for their high iron demand. Regardless of whether Fe2+ release is the intermediate link, the concept of “low sediment redox as promoter” has major potential to improve bloom management if managers consider the impact of their nutrient management choices, nutrient targets, and in-lake methods on sediment redox. Phosphorus input targets can be adjusted as climate change alters the extent of anoxia, and short-term bloom prediction models that incorporate the sediment redox concept could predict onset of blooms earlier than current models that depend on detection of photosynthetic pigments associated with blooms.
低沉积物氧化还原促进蓝藻在营养范围内的繁殖:对管理的影响
摘要Molot LA、Schiff SL、Venkiteswaran JJ、Baulch HM、Higgins SN、Zastepa A、Verschoor MJ、Walters D.2021。低沉积物氧化还原促进蓝藻在营养范围内大量繁殖:对管理的启示。湖泊保护区管理。37:120–142.包括硝酸盐在内的不同氧化剂的现场观察和实验操作表明,高沉积物氧化还原可以防止富营养化淡水中的蓝藻水华。相反,溶解氧和硝酸盐的消耗导致的低沉积物氧化还原使水华形成。这解释了为什么水华风险随着磷水平的增加而增加:更高的生产力增加了低沉积物氧化氧化还原的空间和时间范围。低氧化还原和蓝藻水华之间的中间联系似乎是还原沉积物中亚铁(Fe2+)的内部负载,并扩散到迁移蓝藻可到达的深度,为其高铁需求提供了来源。无论Fe2+的释放是否是中间环节,如果管理者考虑到他们的营养管理选择、营养目标和湖内方法对沉积物氧化还原的影响,“低沉积物氧化还原作为促进剂”的概念在改善水华管理方面具有重大潜力。磷输入目标可以随着气候变化改变缺氧程度而调整,而结合沉积物氧化还原概念的短期水华预测模型可以比目前依赖于检测与水华相关的光合色素的模型更早地预测水华的发生。
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来源期刊
Lake and Reservoir Management
Lake and Reservoir Management 环境科学-海洋与淡水生物学
自引率
6.70%
发文量
22
期刊介绍: Lake and Reservoir Management (LRM) publishes original, previously unpublished studies relevant to lake and reservoir management. Papers address the management of lakes and reservoirs, their watersheds and tributaries, along with the limnology and ecology needed for sound management of these systems. Case studies that advance the science of lake management or confirm important management concepts are appropriate as long as there is clearly described management significance. Papers on economic, social, regulatory and policy aspects of lake management are also welcome with appropriate supporting data and management implications. Literature syntheses and papers developing a conceptual foundation of lake and watershed ecology will be considered for publication, but there needs to be clear emphasis on management implications. Modeling papers will be considered where the model is properly verified but it is also highly preferable that management based on the model has been taken and results have been documented. Application of known models to yet another system without a clear advance in resultant management are unlikely to be accepted. Shorter notes that convey important early results of long-term studies or provide data relating to causative agents or management approaches that warrant further study are acceptable even if the story is not yet complete. All submissions are subject to peer review to assure relevance and reliability for management application.
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