Diatom Sedimentary Assemblages and Holocene pH Reconstruction from the Canadian Arctic Archipelago's Largest Lake

IF 1.3 4区 环境科学与生态学 Q3 ECOLOGY
Biljana Narancic, Émilie Saulnier‐Talbot, G. St‐Onge, R. Pienitz
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引用次数: 7

Abstract

ABSTRACT The Arctic has warmed significantly over the past decades. However, the evolution of Arctic climate during the Holocene remains to be clarified in more detail, and regional factors controlling aquatic ecosystem evolution need to be better defined to grasp the sensitivity of lakes to rapid environmental change. Nettilling Lake was studied for changes in sedimentary diatom assemblages over the last 5 000 years. Lake water pH was reconstructed by applying a diatom-based lake water pH inference model. We hypothesized that the changes in diatom assemblages were driven by variations in lake water transparency and attendant water turbidity associated with the input of fine suspended solids from glacial meltwaters. Reduced underwater light resulted in greater abundance of planktonic over benthic taxa from ca. 5 000 to 3 000 yrs. cal. BP, followed by less turbid conditions and proliferation of benthic taxa during regional cooling. The lake water was slightly alkaline throughout the Holocene, ranging between pH 7.1 and 7.7. Our results support the notion that hydrological processes, dependent on climate variations, have a first-order influence on the regulation of the lake water pH through glacial meltwater inputs, which will likely continue to control the lake's long-term chemical and biological evolution.
加拿大北极群岛最大湖泊的硅藻沉积组合和全新世pH重建
在过去的几十年里,北极显著变暖。然而,全新世北极气候的演变仍有待进一步明确,控制水生生态系统演变的区域因子也有待进一步明确,以掌握湖泊对快速环境变化的敏感性。研究了近5000年来Nettilling湖沉积硅藻组合的变化。采用基于硅藻的湖水pH推理模型,重构了湖水pH值。我们假设硅藻组合的变化是由湖水透明度的变化和随之而来的水浑浊度的变化驱动的,而浑浊度与冰川融水的细悬浮固体的输入有关。从大约5000年到3000年,水下光线的减少导致底栖生物类群上浮游生物的丰度增加。在区域变冷期间,浊度降低,底栖生物种类增加。全新世湖水呈微碱性,pH值在7.1 ~ 7.7之间。我们的研究结果支持这样一种观点,即依赖于气候变化的水文过程通过冰川融水的输入对湖水pH值的调节具有一级影响,这可能会继续控制湖泊的长期化学和生物进化。
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来源期刊
Ecoscience
Ecoscience 环境科学-生态学
CiteScore
2.80
自引率
0.00%
发文量
13
审稿时长
>36 weeks
期刊介绍: Écoscience, is a multidisciplinary journal that covers all aspects of ecology. The journal welcomes submissions in English or French and publishes original work focusing on patterns and processes at various temporal and spatial scales across different levels of biological organization. Articles include original research, brief communications and reviews.
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