Verheyen Julie, Temmerman Katleen, De Block Marjan, Stoks Robby
Evolutionary Stress Ecology and Ecotoxicology, University of Leuven, Charles Deberiotstraat 32, 3000, Louvain, Belgium.
Oecologia. 2018 Apr;186(4):919-929. doi: 10.1007/s00442-018-4079-5. Epub 2018 Feb 20.
Species that span large latitudinal gradients face strong differences in voltinism and in winter conditions within their range. Latitudinal gradients in winter survival and especially their underlying mechanisms and association with voltinism patterns are poorly studied. We tested in the damselfly Enallagma cyathigerum whether high-latitude populations were better in dealing with the longer winters compared to central- and low-latitude populations and whether this was associated with changes in voltinism. We thereby evaluated whether higher initial levels and/or lower reductions during winter of energy storage (measured as fat content) and investment in immune function [measured as the activity of phenoloxidase (PO)], and/or stronger compensatory responses in food intake contributed to the higher winter survival in high-latitude populations. To this end, we simulated a long high-latitude winter at 4 °C under manipulated food conditions. Across food levels, winter survival was highest in Swedish larvae, intermediate in Belgian larvae, and lowest in Spanish larvae, indicating latitude-specific thermal adaptation that could be partly linked to differences in voltinism. The semi-voltine Swedish larvae were growing slower before winter and as a result accumulated the highest fat content and PO activity when the winter started compared to the univoltine, faster growing Belgian, and Spanish larvae. Fat content and PO activity declined during the winter, yet equally across latitudes, and were not buffered by compensatory food intake. Our data identified possible underlying physiological mechanisms of winter survival and support the hypothesis that widespread latitude-associated voltinism shifts may be a selective factor contributing to latitudinal shifts in winter survival.
跨越较大纬度梯度的物种在其分布范围内,化性和冬季条件存在显著差异。冬季存活率的纬度梯度,尤其是其潜在机制以及与化性模式的关联,目前研究较少。我们以蓝纹豆娘(Enallagma cyathigerum)为研究对象,测试了高纬度种群相较于中低纬度种群,是否更能应对更长的冬季,以及这是否与化性变化有关。我们据此评估了能量储备(以脂肪含量衡量)在冬季的初始水平较高和/或减少幅度较低、免疫功能投入(以酚氧化酶(PO)活性衡量),以及/或者食物摄入量更强的补偿性反应,是否有助于高纬度种群在冬季具有更高的存活率。为此,我们在可控食物条件下,于4°C模拟了高纬度地区漫长的冬季。在不同食物水平下,瑞典幼虫的冬季存活率最高,比利时幼虫次之,西班牙幼虫最低,这表明存在特定纬度的热适应性,且可能部分与化性差异有关。与单化性、生长较快的比利时和西班牙幼虫相比,半化性的瑞典幼虫在冬季前生长较慢,因此在冬季开始时积累了最高的脂肪含量和PO活性。脂肪含量和PO活性在冬季下降,但在各纬度间下降程度相同,且未因补偿性食物摄入而得到缓冲。我们的数据确定了冬季存活可能的潜在生理机制,并支持了以下假设:广泛存在的与纬度相关的化性变化可能是导致冬季存活率纬度变化的一个选择因素。
