作为地中海生物群落生物地理特征替代物的高扩散能力生物

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Dušan Senko , Marek Svitok , Marek Slovák , Zuzana Fačkovcová , Luca Paoli , Jaromír Kučera , Silvana Munzi , Joelle Breidy , Hiba Dokmak , Anna Guttová
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引用次数: 0

摘要

地中海生物群落拥有多种多样的栖息地,尤其是岩石环境,以其长期稳定性和持久性而闻名。由于适应了这些岩石表面,岩浆植物在这一地区蓬勃发展,减少了竞争和人为干扰。耐压隐花植物的分布通常具有广泛的生态位,这是该地区生物地理学中的一个重要空白。本研究探讨了具有远距离传播潜力的复杂共生生物是否可以作为生物地理指标,用于划定地中海生物群落的边界。通过全面的脉络学数据研究,绘制了整个地中海盆地(作为示范区)的Solenopsora地衣属同源植物分布图。环境预测因子(气候和地质)被用来预测适宜的栖息地,从而揭示地衣的生态位。栖息地适宜性模型与地中海地理区域一致,表明地衣分布与地中海气候分类之间存在紧密联系。虽然气候变化可能会带来脆弱性,但预计地中海纬度范围以外的地区不会出现明显的范围转移。尽管存在重叠的气候壁龛,但在所研究的分类群中,对日照的微生境偏好存在差异。研究还发现了在未来情景下栖息地可能减少的脆弱地区,强调了环境异质性在确保当地物种持续存在方面的重要性。这项研究支持了这些地衣共生系统仅限于地中海盆地的假设,强调了它们反映地中海气候、环境稳定性和指示地中海生物群落边界的潜力。我们的调查表明,基于采集的研究可以为当前的生物地理学做出重大贡献。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Organisms with high dispersal ability as a proxy for biogeographical characterisation of the Mediterranean biome
The Mediterranean biome offers a diverse range of habitats, particularly rocky environments, known for their long-term stability and persistence. Adapted to these rocky surfaces, chasmophytes thrive in this region, benefiting from reduced competition and human interference. The distribution of stress-tolerant cryptogams with generally broad niches represents a significant gap in the biogeography of the region. This study investigates whether complex symbiotic organisms with a potential for long-distance dispersal could serve as biogeographic indicators for delimitation of the Mediterranean biome's boundaries. Through comprehensive chorology data research, saxicolous lichen congeners of the genus Solenopsora were mapped across the Mediterranean Basin as a model area. Environmental predictors (climate and geology) were employed to predict suitable habitats, shedding light on the lichens' ecological niches. Habitat suitability models consistently aligned with the Mediterranean's geographical area, indicating a tight link between lichen distribution and Mediterranean climate classification. While climate change may pose vulnerabilities, no significant range shifts beyond the latitudinal limit of the Mediterranean were predicted. Despite overlapping climatic niches, differences in microhabitat preferences in terms of insolation were observed among studied taxa. Vulnerable regions with potential habitat decreases were identified under future scenarios, emphasizing the importance of environmental heterogeneity in securing local species persistence. This study supports the hypothesis that these lichen symbiotic systems are restricted to the Mediterranean Basin, highlighting their potential to reflect Mediterranean climate, environmental stability, and indicate the boundaries of the Mediterranean biome. Our investigation demonstrates that collection-based research can yield significant contributions to current biogeography.
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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