Salinity adaption and toxicity of harmful algal blooms in three bays of Great Salt Lake (USA)

IF 4.5 1区生物学 Q1 MARINE & FRESHWATER BIOLOGY

Harmful Algae Pub Date : 2025-08-25 DOI:10.1016/j.hal.2025.102959

W.A. Wurtsbaugh , Malin Olofsson , Gregory L. Boyer , Amy M. Marcarelli

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Abstract

Cyanobacterial blooms can be harmful to animals and humans exposed to their toxins; however, their environmental drivers and boundaries still need to be elucidated. Salinity has been demonstrated to be an important driver of community composition that sets boundaries of species migration and survival. The filamentous cyanobacteria Nodularia spumigena forms dense blooms in estuaries around the world, produces the hepatotoxin nodularin, and has been thought to not survive or fix nitrogen (N) in high salinities. From 2005–2009 we studied three bays of Great Salt Lake (USA), two of which are estuaries with salinities ranging from 0 to >90 g l^-1 while the third, Gilbert Bay, had a salinity near 160 g l^-1. Bear River Bay and the larger Gilbert Bay were meso‑eutrophic, while Farmington Bay, which receives direct inputs of secondary-treated sewage, was hypereutrophic with mean chlorophyll concentrations of 149 µg l^-1 and dense blooms of N. spumigena. Cell densities were >500 times those of Nodularia studied in the Baltic Sea. In Farmington Bay blooms occur at salinities ranging from 8–50 g l^-1, which are much higher than usually reported for this taxon. Concentrations of the cyanotoxin nodularin reached 660 µg l^-1 (mean = 41 µg l^-1), far above critical thresholds for contact recreation and above those causing bird mortalities elsewhere. The mean N₂ fixation rate of Nodularia measured over a salinity range of 14 to 52 g l^-1 was 47 mg N m^-2 d^-1, which is among the highest reported values for freshwater and marine ecosystems. The local adaptation of Nodularia to the extreme salinity conditions in Great Salt Lake furthers our understanding of salinity adaptation and the potential spread of this species to new regions.

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美国大盐湖三个海湾有害藻华的盐度适应及毒性研究

蓝藻的大量繁殖可能对接触其毒素的动物和人类有害；然而，它们的环境驱动因素和边界仍然需要阐明。盐度已被证明是群落组成的重要驱动因素，它设定了物种迁移和生存的界限。丝状藻蓝藻结核菌在世界各地的河口形成密集的水华，产生肝毒素结核素，并且被认为不能在高盐度中生存或固定氮(N)。2005-2009年，我们研究了美国大盐湖的三个海湾，其中两个是盐度在0到90 g -1之间的河口，而第三个吉尔伯特湾的盐度接近160 g -1。熊河湾和较大的吉尔伯特湾为中富营养化，而法明顿湾则为富营养化，平均叶绿素浓度为149µg l-1，藻华密集。细胞密度是波罗的海结核菌的500倍。在法明顿湾，水华发生在8 - 50g -1的盐度范围内，这比通常报道的这个分类单元要高得多。蓝藻毒素结核素的浓度达到660µg -1（平均值为41µg -1），远远高于接触娱乐的临界阈值，也高于其他地方导致鸟类死亡的阈值。在14 ~ 52 g -1的盐度范围内，结核菌的平均固氮率为47 mg N - m-2 - d-1，是淡水和海洋生态系统中报告的最高值之一。大盐湖极端盐度条件下结节藻的局部适应进一步加深了我们对盐度适应和该物种向新地区传播的潜在认识。

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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.