调节伊利湖西部蓝藻藻华的营养物质和环境因素

IF 0.8 4区 环境科学与生态学 Q4 ENVIRONMENTAL SCIENCES Aquatic Ecosystem Health & Management Pub Date : 2024-05-01 DOI:10.14321/aehm.026.04.63
Hounshell A.G., Johnson L.T., Stumpf R.P.
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引用次数: 0

摘要

在过去的二十年中,伊利湖西部经常出现夏季蓝藻藻华,对人类、动物和生态健康造成了 严重的负面影响。先前的研究发现,每年蓝藻水华的强度与伊利湖西部最大的支流 Maumee 河春季(3 月至 7 月)的磷负荷之间存在很强的相关性。然而,莫米河春季磷负荷并不能解释不同年份水华严重程度的所有变化。考虑其他环境参数可能有助于更好地捕捉调节水华严重程度的物理和生物地球化学过程,最终改进蓝藻预测,为伊利湖利益相关者提供预警。我们汇总了可能影响伊利湖西部蓝藻水华的各种环境参数,以研究这些因素对年度水华严重程度的潜在预测作用。这些参数包括来自 Maumee 河的氮和磷负荷、主要河流和支流(底特律河、休伦河、Raisin 河、Maumee 河和 Portage 河)的淡水排放量、季节性湖面水温(冬季、春季和夏季平均温度)以及 2002-2022 年伊利湖冬季结冰范围和持续时间。经验模型结果表明,来自 Maumee 河的春季磷负荷(即生物可利用的总磷)仍是控制蓝藻藻华的主要 环境因素。然而,其他环境因素(如莫米河冬季磷负荷、伊利湖冬季结冰范围和时间)也可能对蓝藻藻华的严重程度有重要影响,尤其是在磷负荷适中的年份。最后,除了经验模型外,我们还建议采用机理模型或基于规则的模型,以更好地理解和预 测年度蓝藻水华的严重程度。更新后的模型不仅可以提高季节性预测的准确性,为伊利湖利益相关者提供藻华严重程度的预警,还有助于确定我们可以更好地管理哪些因素,以减少严重藻华的发生频率。
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Nutrient and environmental factors regulating western Lake Erie cyanobacterial blooms
Over the past two decades, western Lake Erie has experienced recurring summer cyanobacterial blooms that pose severe negative impacts on human, animal, and ecological health. Previous research has identified a strong correlation between annual cyanobacterial bloom intensity and preceding spring (March-July) phosphorus loading from the Maumee river, the largest tributary to western Lake Erie, which is used to predict upcoming summer bloom severity. Maumee river spring phosphorus load, however, does not explain all the variation of bloom severity between years. Considering additional environmental parameters may help to better capture the physical and biogeochemical processes that regulate bloom severity, eventually leading to improved cyanobacterial forecasts which serve as an early warning for Lake Erie stakeholders. We aggregated various environmental parameters that may influence western Lake Erie cyanobacterial blooms to examine these factors as potential predictors for annual bloom severity. These included nitrogen and phosphorus loading from the Maumee river, freshwater discharge from the primary rivers and tributaries (Detroit, Huron, Raisin, Maumee, and Portage rivers), seasonal lake surface water temperature (mean winter, spring, and summer temperature), and Lake Erie winter ice extent and duration from 2002-2022. Empirical model results show that spring phosphorus loading, as total bioavailable phosphorus, from the Maumee river remains the dominant environmental factor controlling cyanobacterial blooms. However, additional environmental factors, such as Maumee river winter phosphorus loads and Lake Erie winter ice extent and timing, are likely important in modulating bloom severity, particularly in years with moderate phosphorus loads. Finally, we suggest incorporating mechanistic or rule-based models, in addition to empirical models, to better understand and predict annual cyanobacterial bloom severity. The updated models not only improve seasonal forecast accuracy which provides advanced warning of bloom severity to Lake Erie stakeholders, but also helps identify which factors we can better manage to reduce the frequency of severe blooms.
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来源期刊
Aquatic Ecosystem Health & Management
Aquatic Ecosystem Health & Management 环境科学-海洋与淡水生物学
CiteScore
1.70
自引率
0.00%
发文量
1
审稿时长
18-36 weeks
期刊介绍: The journal publishes articles on the following themes and topics: • Original articles focusing on ecosystem-based sciences, ecosystem health and management of marine and aquatic ecosystems • Reviews, invited perspectives and keynote contributions from conferences • Special issues on important emerging topics, themes, and ecosystems (climate change, invasive species, HABs, risk assessment, models)
期刊最新文献
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