Climatic effects on a cold stenotherm species Lepidurus arcticus (Branchiopoda, Notostraca) on the southern outreach of its distribution range

Q3 Agricultural and Biological Sciences Fauna Norvegica Pub Date : 2018-12-19 DOI:10.5324/FN.V38I0.2598
T. Qvenild, E. Fjeld, A. Fjellheim, S. Rognerud, Åsmund Tysse
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引用次数: 4

Abstract

On the Norwegian mainland, the Arctic tadpole shrimp Lepidurus arcticus is a typically alpine species mainly co-occurring with fish. The Hardangervidda mountain plateau is the main area of the southernmost L. arcticus populations. Here L. arcticus is widely distributed, especially in the central and eastern parts of the plateau. Lepidurus arcticus has a univoltine life cycle emerging from resting eggs at ice break-up and fulfil development during the short mountain summer, before they reproduce and die. The main goal in this study was to investigate the thermal thresholds for L. arcticus. Timing of ice break-up and the proceeding water temperature are hypothesized to constitute the primary drivers of L. arcticus's development and growth. Stomach analyses of brown trout is the most sensitive method for sampling L. arcticus, especially at low densities. Analyses of 4 460 brown trout stomachs revealed that at least 400 degree-days are needed for development and growth from hatching in to adults. It is a significant gradient in climatic conditions on Hardangervidda with a coastal impact in the western part of the plateau with a three - to fourfold winter deposition compared to a dryer inland region in the east. The snow deposits have increased since the 1980s and snow rich winters have been more frequent. An additional increase is projected. This may give lower water temperature and shorter ice-free seasons. Thus, the cold western lakes could be even more hostile habitats for L. arcticus. During the same period, an abrupt increase in spring-summer temperatures was detected. This has improved the conditions for L. arcticus in many lakes. However, as a cold stenotherm species a further increase in temperature may be detrimental. Especially in shallow lakes in the central and eastern parts this may be a problem even without reaching critical levels by inducing life cycle mismatches.
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气候对冷热动物北方鳞虱分布范围南缘的影响
在挪威大陆,北极蝌蚪虾Lepidurus arcticus是典型的高山物种,主要与鱼类共存。哈当厄山地高原是最南端北极冰原种群的主要区域。在这里,以高原中部和东部地区分布最为广泛。北极鳞龙有一个单行的生命周期,从冰破裂时休眠的卵开始,在短暂的山地夏季完成发育,然后繁殖和死亡。本研究的主要目的是研究北极乳杆菌的热阈值。假设冰的崩解时间和随后的水温是北极乳藻发育和生长的主要驱动力。褐鳟鱼胃分析是最敏感的取样方法,特别是在低密度情况下。对4460个褐鳟胃的分析表明,从孵化到成鱼的发育和生长至少需要400华氏度。这是哈当厄高原气候条件的显著梯度,高原西部受沿海影响,冬季沉积量是东部干燥内陆地区的三到四倍。自20世纪80年代以来,积雪量有所增加,富雪冬季更加频繁。预计还会增加。这可能会降低水温,缩短无冰季节。因此,寒冷的西部湖泊可能对北极乳杆菌更加不利。在同一时期,发现春夏气温突然升高。这改善了许多湖泊中北极乳杆菌的生存条件。然而,作为一种低温恒温物种,温度的进一步升高可能是有害的。特别是在中部和东部的浅湖,即使没有达到临界水平,也可能会引起生命周期不匹配。
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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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