Drivers and mechanisms of harmful algal blooms across hydrologic extremes in hypereutrophic grand lake st marys (Ohio)

IF 5.5 1区 生物学 Q1 MARINE & FRESHWATER BIOLOGY Harmful Algae Pub Date : 2024-07-03 DOI:10.1016/j.hal.2024.102684
Silvia E. Newell , Jason C. Doll , Morgan C. Jutte , Joseph L. Davidson , Mark J. McCarthy , Stephen J. Jacquemin
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Abstract

Grand Lake St. Marys (GLSM) is a large, shallow, hypereutrophic lake situated in an agricultural watershed with high-nutrient, non-point source runoff. The resulting harmful algal blooms (HABs) are typically dominated by Planktothrix, which can produce microcystin, a potent cyanobacterial toxin that has varied in concentration over the past decade. Some drivers of bloom biomass and toxicity in GLSM are described, but recent years (2019–2022) have exhibited anomalous combinations of winter ice cover and spring runoff, suggesting that additional factors contribute to variability in HAB severity and toxicity. 2020 and 2022 were typical water years, with normal tributary runoff volumes occurring primarily in late winter and spring after either little to no ice cover (2019–2020) or heavy/prolonged ice cover (2021–2022). However, 2021 exhibited prolonged winter ice and low winter/spring runoff. 2020 and 2022 were typical bloom years, with near monoculture, Planktothrix-dominated biomass (11 to 405 μg/L total chlorophyll) and high total concentrations of microcystins (<0.3 to 65 μg/L). However, the first half of 2021 exhibited lower biomass (18 to 65 μg/L chlorophyll a) and toxin concentrations (0.4 to 2.0 μg/L). While biomass returned to bloom levels when external tributary loading increased, ammonium uptake and regeneration rates and microcystin concentrations remained low throughout 2021 (in contrast to other years). Overall, potential ammonium uptake rates strongly correlated with chlorophyll and microcystin concentrations (Bayesian R2 = 0.59; 95% CI = 0.44 to 0.65). Phytoplankton diversity was higher in 2021 than other years, especially in spring/early summer, with increased dinoflagellates and diatoms in spring, followed by a mixed cyanobacterial assemblage in summer. These results suggest that lower external nutrient loads can drive immediate positive impacts on water quality, such as reduced HAB biomass and toxicity and higher phytoplankton diversity, even in hypereutrophic, shallow lakes.

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超富营养化大湖圣玛丽湖(俄亥俄州)水文极端条件下有害藻类大量繁殖的驱动因素和机制
圣玛丽大湖(GLSM)是一个大型浅水高营养湖泊,位于高营养、非点源径流的农业流域。由此产生的有害藻华(HABs)通常以 Planktothrix 藻类为主,这种藻类可产生微囊藻毒素(microcystin),在过去十年中,微囊藻毒素是一种毒性很强的蓝藻毒素,其浓度各不相同。GLSM 中描述了藻华生物量和毒性的一些驱动因素,但最近几年(2019-2022 年)显示出冬季冰盖和春季径流的异常组合,表明还有其他因素导致了 HAB 严重性和毒性的变化。2020 年和 2022 年是典型的丰水年,正常的支流径流量主要出现在几乎没有冰覆盖(2019-2020 年)或严重/长时间冰覆盖(2021-2022 年)之后的冬末和春季。然而,2021 年冬季冰封时间较长,冬季/春季径流量较低。2020 年和 2022 年是典型的水华年,生物量接近单一,以 Planktothrix 为主(总叶绿素为 11 至 405 微克/升),微囊藻毒素总浓度较高(0.3 至 65 微克/升)。然而,2021 年上半年的生物量(叶绿素 a 为 18 至 65 微克/升)和毒素浓度(0.4 至 2.0 微克/升)较低。当外部支流负荷增加时,生物量恢复到藻华水平,但在整个 2021 年,铵吸收和再生率以及微囊藻毒素浓度仍然很低(与其他年份不同)。总体而言,潜在的铵吸收率与叶绿素和微囊藻毒素浓度密切相关(贝叶斯 R2 = 0.59;95% CI = 0.44 至 0.65)。2021 年的浮游植物多样性高于其他年份,尤其是在春季/初夏,春季甲藻和硅藻增多,夏季蓝藻混杂。这些结果表明,较低的外部营养负荷可对水质产生立竿见影的积极影响,如减少有害藻华生物量和毒性,提高浮游植物多样性,即使在高富营养化的浅水湖泊中也是如此。
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来源期刊
Harmful Algae
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.
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