Temporal dynamics in the physico-chemistry of a high-alpine stream network in the Swiss National Park

IF 0.7 4区 环境科学与生态学 Q4 BIODIVERSITY CONSERVATION Eco Mont-Journal on Protected Mountain Areas Research Pub Date : 2022-01-01 DOI:10.1553/eco.mont-14-2s11
C. Robinson, C. Jolidon, Gabriele Consoli, Simon Bloem, C. Ebi
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引用次数: 2

Abstract

The Macun lakes form a high-alpine (> 2,600 m asl) cirque landscape (3.6 km 2 ) in the Swiss National Park, comprising 26 small lakes together with a number of temporary ponds. Streams interconnect the four largest lakes, forming the drainage network that flows into the Inn River at the town of Lavin. The drainage network of Macun consists of a north and a south basin that overlie an ortho-gneiss, meta-granitoid bedrock. The south basin is influenced by various rock glaciers. The physico-chemistry of surface waters at 10 sites has been monitored annually in mid-summer since 2001. Further, an YSI EXO2 Multiparameter Sonde (Exosonde) with various water quality sensors has been employed since 2016 at the last lake in the network to examine seasonal and diel patterns in physico-chemistry. Results showed clear physico-chemical differences between the two basins, which mostly reflect rock-glacier inputs in the south basin. Nitrogen values were two-fold higher and particulate phosphorus values two-fold lower in the south basin than in the north basin. Over time, the physico-chemistry in the two basins became more homogeneous, with a reduction in rock-glacial inputs in the south basin and an overall decrease in nitrogen in the catchment. Data from 30 springs and tributaries sampled in 2002 and 2017 reflected the basin differences and temporal changes observed at the primary study sites. Continuous temperature records showed north basin streams to be ca. 3°C warmer than south-basin streams, but with high inter-annual variation that reflected annual differences in weather and no evidence of a general change over time (increase or decrease). Exosonde data revealed strong seasonality in measured parameters as well as seasonality in diel patterns (e. g., dissolved oxygen, temperature, chlorophyll-a); diel fluctuations were most pronounced in summer and least in winter. The results highlight the importance of long-term monitoring for understanding ecosystem state changes in alpine freshwaters, especially during periods of rapid environmental change.
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瑞士国家公园高高山河流网络的物理化学时间动态
马昆湖在瑞士国家公园内形成了一个高海拔(海拔> 2600米)的马戏团景观(3.6平方公里),由26个小湖泊和一些临时池塘组成。溪流连接着四个最大的湖泊,形成了一个排水网络,流入拉文镇的因河。Macun的水系网络由一个北部和一个南部盆地组成,该盆地位于正片麻岩、变质花岗岩基岩之上。南部盆地受各种岩石冰川的影响。自2001年以来,每年在仲夏对10个地点的地表水进行物理化学监测。此外,自2016年以来,YSI EXO2多参数探空仪(Exosonde)与各种水质传感器一起在网络中的最后一个湖泊使用,以检查物理化学的季节性和日变化模式。结果表明,两个盆地之间存在明显的物理化学差异,这主要反映了南部盆地的岩石-冰川输入。南缘盆地氮值比北缘盆地高2倍,颗粒磷值比北缘盆地低2倍。随着时间的推移,两个盆地的物理化学变得更加均匀,盆地南部的岩石-冰川输入减少,集水区的氮含量总体减少。2002年和2017年采样的30条泉水和支流数据反映了主要研究点的流域差异和时间变化。连续的温度记录显示,盆地北部河流比盆地南部河流的温度高约3°C,但年际变化很大,反映了天气的年度差异,没有证据表明随着时间的推移发生了普遍变化(增加或减少)。外探空数据显示,测量参数和昼夜模式(如溶解氧、温度、叶绿素-a)具有很强的季节性;昼夜波动在夏季最明显,冬季最小。这些结果强调了长期监测对了解高山淡水生态系统状态变化的重要性,特别是在环境快速变化时期。
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来源期刊
Eco Mont-Journal on Protected Mountain Areas Research
Eco Mont-Journal on Protected Mountain Areas Research BIODIVERSITY CONSERVATION-ECOLOGY
CiteScore
1.20
自引率
0.00%
发文量
1
审稿时长
>12 weeks
期刊介绍: eco.mont offers a platform specifically for scientists and practitioners working in and on protected mountain areas in Europe and overseas.Target audiences of the journal are scientists from all related disciplines, managers of protected areas and an interested public including practitioners, visitors, teachers, etc.
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