Geography and associated bioclimatic factors differentially affect leaf phenolics in three ivy species (Hedera L.) across the Iberian Peninsula

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Angélica Gallego-Narbón , Eduardo Narbona , Marina Coca-de-la-Iglesia , Virginia Valcárcel
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Abstract

The biosynthesis of secondary metabolites in plants, especially that of phenolic compounds, is stimulated to protect against several environmental stress factors such as cold temperatures, drought, and UV-irradiance. As a result, when a species occurs under different climatic conditions, differences in phenolic accumulation are expected across species distribution in response to the environmental cues. However, our understanding of phenolic compounds' natural variation is limited, as most of our knowledge on secondary metabolite biosynthesis stems from experimental studies conducted under controlled conditions. In this study we analyze phenolic content and its relation to climatic and geographic variation in three closely related Hedera species (H. helix, H. hibernica and H. iberica) across their southwestern range limits in the Iberian Peninsula (82 populations, 401 individuals). The Iberian Peninsula concentrates the highest global species richness of Hedera, with the three species sharing range boundaries along the latitudinal and longitudinal climatic gradient of the region. We found that the three species exhibited different climatic and geographic patterns of phenolic content variation in the study area. The phenolic production in H. helix increased with elevation in relation to the decrease of temperature and the increase of temperature contrast, whereas in H. hibernica varies with latitude in relation to summer temperature and precipitation regimes, increasing in areas with no summer drought. In contrast, we did not find any environmental variables associated with phenolic content in H. iberica, likely due to its narrow geographic and climatic range and a higher influence of microclimatic conditions. Although the three Hedera species are closely related, our results suggest that leaf phenolic production may be triggered by different environmental conditions in each species. Our study underscores the species-specific nature of phenolic compounds' role in plant stress response.

地理和相关生物气候因素对伊比利亚半岛三种常春藤(Hedera L.)叶片酚类物质的不同影响
植物次生代谢物的生物合成,尤其是酚类化合物的生物合成,是为了抵御低温、干旱和紫外线照射等环境胁迫因素。因此,当一个物种出现在不同的气候条件下时,酚类物质的积累预计会因环境线索的不同而在物种分布上出现差异。然而,我们对酚类化合物自然变化的了解是有限的,因为我们对次生代谢物生物合成的了解大多来自受控条件下进行的实验研究。在这项研究中,我们分析了伊比利亚半岛西南部分布区(82 个种群,401 个个体)中三个密切相关的 Hedera 物种(H. helix、H. hibernica 和 H. iberica)的酚含量及其与气候和地理变化的关系。伊比利亚半岛集中了全球物种丰富度最高的 Hedera,三个物种沿着该地区的纬度和纵向气候梯度共享分布区边界。我们发现,在研究地区,这三个物种的酚含量变化呈现出不同的气候和地理模式。螺旋芹的酚含量随着海拔的升高而增加,这与温度的降低和温度反差的增大有关;而冬眠芹的酚含量则随着纬度的变化而变化,这与夏季温度和降水情况有关,在夏季没有干旱的地区,酚含量会增加。相比之下,我们没有发现任何环境变量与 H. iberica 的酚含量有关,这可能是由于其地理和气候范围较窄,受微气候条件的影响较大。虽然这三个 Hedera 物种关系密切,但我们的研究结果表明,每个物种的叶片酚类物质的产生可能是由不同的环境条件引发的。我们的研究强调了酚类化合物在植物胁迫响应中作用的物种特异性。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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