瑞典酸敏感湖泊水化学的长期趋势表明，其正从历史酸化状态缓慢恢复。

Long-term trends in water chemistry of acid-sensitive Swedish lakes show slow recovery from historic acidification.

作者信息

Futter Martyn N, Valinia Salar, Löfgren Stefan, Köhler Stephan J, Fölster Jens

机构信息

Department of Aquatic Sciences and Assessment, Swedish University of Agricultural Sciences (SLU), P.O. Box 7050, 750 07, Uppsala, Sweden,

出版信息

Ambio. 2014;43 Suppl 1(Suppl 1):77-90. doi: 10.1007/s13280-014-0563-2.

DOI:10.1007/s13280-014-0563-2

PMID:25403971

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4235927/

Abstract

Long-term (1987-2012) water quality monitoring in 36 acid-sensitive Swedish lakes shows slow recovery from historic acidification. Overall, strong acid anion concentrations declined, primarily as a result of declines in sulfate. Chloride is now the dominant anion in many acid-sensitive lakes. Base cation concentrations have declined less rapidly than strong acid anion concentrations, leading to an increase in charge balance acid neutralizing capacity. In many lakes, modeled organic acidity is now approximately equal to inorganic acidity. The observed trends in water chemistry suggest lakes may not return to reference conditions. Despite declines in acid deposition, many of these lakes are still acidified. Base cation concentrations continue to decline and alkalinity shows only small increases. A changing climate may further delay recovery by increasing dissolved organic carbon concentrations and sea-salt episodes. More intensive forest harvesting may also hamper recovery by reducing the supply of soil base cations.

摘要

对瑞典36个酸敏感湖泊进行的长期（1987 - 2012年）水质监测显示，湖泊从历史酸化状态中恢复缓慢。总体而言，强酸阴离子浓度下降，主要是硫酸盐浓度下降所致。如今，氯化物是许多酸敏感湖泊中的主要阴离子。碱性阳离子浓度的下降速度比强酸阴离子浓度慢，导致电荷平衡酸中和能力增加。在许多湖泊中，模拟的有机酸度现在大约等于无机酸度。水化学中观察到的趋势表明湖泊可能无法恢复到参考状态。尽管酸沉降减少，但这些湖泊中有许多仍处于酸化状态。碱性阳离子浓度继续下降，碱度仅略有增加。气候变化可能会通过增加溶解有机碳浓度和海盐事件进一步延迟恢复。更密集的森林采伐也可能通过减少土壤碱性阳离子的供应来阻碍恢复。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/bac7/4235927/ef032f1080c9/13280_2014_563_Fig1_HTML.jpg

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瑞典酸敏感湖泊水化学的长期趋势表明，其正从历史酸化状态缓慢恢复。

Long-term trends in water chemistry of acid-sensitive Swedish lakes show slow recovery from historic acidification.

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