Environmental conditions limit the distribution of Lepidurus arcticus (Branchiopoda, Notostraca) in lakes on the Hardangervidda mountain plateau, Southern Norway

Q3 Agricultural and Biological Sciences Fauna Norvegica Pub Date : 2019-07-11 DOI:10.5324/FN.V39I0.2687
T. Qvenild, T. Hesthagen
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引用次数: 2

Abstract

The Arctic tadpole shrimp Lepidurus arcticus has a circumpolar distribution where the Hardangervidda mountain plateau in Norway marks its southernmost limit. Within this area, we searched for L. arcticus in 238 lakes in 27 catchments. On Hardangervidda, the distribution pattern of L. arcticus is highly skewed. In the 16 catchments located in the central and eastern parts, L. arcticus was recorded in 70% of all the lakes studied (n=191). The remaining 11 catchments located in western areas, are almost free of lakes with L. arcticus (n=47). The most striking difference between these two areas is the significantly higher level of snow deposition in the western areas. This delays the ice break-up, which results in lower water temperatures and a shorter growing season. The water of lakes in western areas (N=36) is also more dilute than those in the central and eastern areas (N=201), with mean calcium concentrations of 0.81±0.48 and 1.62±1.12 mg L-1, respectively. In the lakes in the central and eastern areas hosting L. arcticus (N=95), the mean value was slightly higher (1.67±1.14 mg L-1). The combination of low water temperature, a short growing season and dilute water low in calcium may explain the near total absence of L. arcticus in the western part of Hardangervidda. All lakes contain brown trout Salmo trutta, and as L. arcticus is heavily sought for as food, the analyses of fish stomachs are the most reliable method of detecting the species. However, this prey-predator relationship may severely reduce the population of L. arcticus, and their presence may also be a function of the proximity of species refugia. This is evident in the context of fish predation, but also of water quality. Hence, in the central and eastern parts of the plateau, where L. arcticus is common, their occurrence increased significantly with lake size, being found in 54% of the lakes <1.0 km2, as opposed to 97% in the bigger lakes. Furthermore, L. arcticus is most frequently found in lakes at altitudes between 1100 and 1299 m a.s.l. We conclude that environmental constraints limit the distribution of L. arcticus on Hardangervidda. The projected increase in temperature towards the end of this century may exterminate L. arcticus from the lower parts of Hardangervidda, especially in the most shallow lakes. Many of the lakes have water quality with pH <6.0 and calcium concentration <1.0 mg L-1. In such lakes L. arcticus is living on the edge of its survival, and the projected increase in precipitation may dilute the waters even further, pushing L. arcticus nearer to its extinction threshold.
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环境条件限制了挪威南部Hardangervidda山地高原湖泊中北方鳞蜥(Lepidurus arcticus, branchi足目,Notostraca)的分布
北极蝌蚪虾Lepidurus arcticus在挪威的Hardangervidda山高原标志着它的最南端的极地周围分布。在该区域内,我们在27个集水区的238个湖泊中搜索了北极乳杆菌。在哈当厄平原上,北极乳杆菌的分布格局呈高度偏态。在中东部的16个集水区中,有70%的湖泊(n=191)有北极乳鼠的记录。其余11个集水区位于西部地区,几乎没有北极乳杆菌湖泊(n=47)。这两个地区之间最显著的差异是西部地区的积雪水平明显较高。这延迟了冰的破裂,导致水温降低和生长季节缩短。西部地区(N=36)的湖水也比中部和东部地区(N=201)的湖水更稀,平均钙浓度分别为0.81±0.48和1.62±1.12 mg L-1。在中东部地区(N=95)的湖泊中,平均值略高(1.67±1.14 mg L-1)。水温低、生长期短、水稀、钙含量低,可能是哈当当河段西部几乎完全没有北极乳藻的原因。所有的湖泊都有褐鳟鱼,由于北极褐鳟鱼是大量寻找的食物,对鱼胃的分析是检测该物种最可靠的方法。然而,这种捕食关系可能会严重减少北极乳鼠的数量,它们的存在也可能是物种避难所附近的功能。这在鱼类捕食的背景下是显而易见的,但在水质方面也是如此。因此,在高原中部和东部地区,随着湖泊规模的增大,北极乳杆菌的出现率显著增加,在小于1.0 km2的湖泊中,有54%的湖泊出现了北极乳杆菌,而在较大的湖泊中,这一比例为97%。此外,在海拔1100 ~ 1299 m之间的湖泊中最常见。我们认为,环境因素限制了北极乳藻在哈当湖上的分布。据预测,到本世纪末,气温的升高可能会使哈当厄湖下游的北极夜蛾灭绝,尤其是在最浅的湖泊。许多湖泊的水质pH <6.0,钙浓度<1.0 mg L-1。在这些湖泊中,北极乳杆菌正处于生存的边缘,预计降水的增加可能会进一步稀释水,使北极乳杆菌更接近灭绝的门槛。
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来源期刊
Fauna Norvegica
Fauna Norvegica Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
1.10
自引率
0.00%
发文量
0
审稿时长
28 weeks
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