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温度影响急性蜉蝣对高盐度的反应:对道路融雪盐毒性的影响。

Temperature affects acute mayfly responses to elevated salinity: implications for toxicity of road de-icing salts.

机构信息

Stroud Water Research Center, 970 Spencer Road, Avondale, PA 19311, USA

Stroud Water Research Center, 970 Spencer Road, Avondale, PA 19311, USA.

出版信息

Philos Trans R Soc Lond B Biol Sci. 2018 Dec 3;374(1764):20180081. doi: 10.1098/rstb.2018.0081.

DOI:10.1098/rstb.2018.0081
PMID:30509923
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6283955/
Abstract

Salinity in freshwater ecosystems has increased significantly at numerous locations throughout the world, and this increase often reflects the use or production of salts from road de-icing, mining/oil and gas drilling activities, or agricultural production. When related to de-icing salts, highest salinity often occurs in winter when water temperature is often low relative to mean annual temperature at a site. Our study examined acute (96 h) responses to elevated salinity (NaCl) concentrations at five to seven temperature treatments (5-25°C) for four mayfly species (Baetidae: , ; Heptageniidae: ; Leptophlebiidae: ) that are widely distributed across eastern North America. Based on acute LC50s at 20°C, was most sensitive (LC50 = 767 mg l, 1447 µS cm), followed by (2755 mg l, 5104 µS cm), (2760 mg l, 5118 µS cm) and (4588 mg l, 8485 µS cm). Acute LC50s decreased as temperature increased for all four species ( = 5-7, = 0.65-0.88, = 0.052-0.002). Thus, acute salt toxicity is strongly temperature dependent for the mayfly species we tested, which suggests that brief periods of elevated salinity during cold seasons or in colder locations may be ecologically less toxic than predicted by standard 20 or 25°C laboratory bioassays.This article is part of the theme issue 'Salt in freshwaters: causes, ecological consequences and future prospects'.

摘要

淡水生态系统中的盐度在世界各地的许多地方都显著增加,这种增加通常反映了道路除冰、采矿/石油和天然气钻探活动或农业生产中盐的使用或产生。当与除冰盐有关时,最高盐度通常出现在冬季,此时水温通常低于该地点的年平均温度。我们的研究调查了五种至七种温度处理(5-25°C)下五种蜉蝣物种(蜉蝣科: , ;毛翅目: ;Leptophlebiidae: )对升高盐度(NaCl)浓度的急性(96 h)反应,这些物种广泛分布于北美东部。基于 20°C 时的急性 LC50 值,最敏感(LC50 = 767 mg l,1447 µS cm),其次是 (2755 mg l,5104 µS cm), (2760 mg l,5118 µS cm)和 (4588 mg l,8485 µS cm)。对于所有四个物种,急性 LC50 值随温度升高而降低( = 5-7, = 0.65-0.88, = 0.052-0.002)。因此,我们测试的蜉蝣物种的急性盐毒性强烈依赖于温度,这表明在寒冷季节或较冷地区短暂的高盐度时期可能比标准 20 或 25°C 实验室生物测定预测的生态毒性要小。本文是主题为“淡水中的盐:成因、生态后果和未来展望”的特刊的一部分。

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