Alpine plant communities differ in their seed germination requirements along a snowmelt gradient in the Caucasus

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Sergey Rosbakh, Eduardo Fernández-Pascual, Andrea Mondoni, Vladimir Onipchenko
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引用次数: 1

Abstract

Mesoscale heterogeneity of alpine landscapes generates snowmelt gradients resulting in a distinct vegetation zonation from almost snow-free fellfields to long-lasting snowbeds. Although the vegetative trait variation along such gradients has been intensively studied, little is known about whether and how seed germination is adapted to the variable snowpack duration. Here, we compare the seed germination niches of 18 characteristic plant species occurring in four distinct plant communities (alpine lichen heath—Festuca varia grassland—Geranium-Hedysarum meadow—snowbed) along an alpine snowmelt gradient in the North Caucasus (Russia). In a fully factorial experiment, we tested seed germination responses to temperature (10/2, 14/6, 18/10, 22/14, 26/18 and 30/22 °C) and water potential (0, − 0.2, − 0.4, − 0.6 and − 0.8 MPa) gradients, reflecting the full spectrum of seedling establishment conditions in the study system. Community-specific germination niches were identified by generalised mixed model with Bayesian estimation. Our study revealed that the species from the four focal communities significantly differed in their temperature requirements for germination, whereas soil moisture was found to be a limiting factor for seedling establishment along the entire gradient. The snowbed germination was constrained to comparatively high temperatures above 10 °C, whereas seed germination in alpine lichen heaths occurred under a wide range of experimental conditions. The seed germination patterns of species from Festuca varia grasslands and Geranium-Hedysarum meadows reflected their intermediate position along the snowmelt gradient. We conclude that seed germination niche is affected by the environmental filtering along the snowmelt gradient thus departing from the general alpine germination syndrome.

Abstract Image

高加索地区融雪梯度沿线的高山植物群落对种子发芽的要求不同
高山景观的中尺度异质性产生了融雪梯度,导致了从几乎无雪的Fellfield到长期积雪的独特植被带。尽管已经对沿着这种梯度的营养性状变化进行了深入的研究,但对于种子发芽是否以及如何适应可变的积雪持续时间知之甚少。在这里,我们比较了北高加索(俄罗斯)高山融雪梯度上四个不同植物群落(高山地衣石南——高羊茅草原——老鹳草草甸——雪床)中18种特征植物的种子萌发生态位。在全因子实验中,我们测试了种子发芽对温度(10/2、14/6、18/10、22/14、26/18和30/22°C)和水势(0, − 0.2, − 0.4, − 0.6和-0.8MPa)梯度,反映了研究系统中幼苗建立条件的全谱。利用贝叶斯估计的广义混合模型确定了群落特有的发芽生态位。我们的研究表明,来自四个重点群落的物种对发芽的温度要求存在显著差异,而土壤湿度是整个梯度上幼苗建立的限制因素。雪床发芽被限制在10°C以上的相对较高的温度下,而高山地衣石南的种子发芽发生在广泛的实验条件下。高羊茅草原和老鹳草草地物种的种子发芽模式反映了它们在融雪梯度上的中间位置。我们得出的结论是,种子发芽生态位受到沿融雪梯度的环境过滤的影响,从而偏离了一般的高山发芽综合症。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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