Water regulation dynamics of lichens as functional traits could predict future climate change scenarios in an elevational gradient from Central Argentina

IF 0.8 4区 生物学 Q4 PLANT SCIENCES
Raúl Díaz Dominguez, D. Stanton, Mariana Peralta, J. M. Rodríguez
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引用次数: 1

Abstract

Abstract. Mountain top environments are particularly vulnerable to climate change effects, given that biological organisms in these systems live at specific temperature conditions. The poikilohydric nature of lichens emphasizes variables like water holding capacity (WHC) and the hydrophobicity of the thallus to understand the species occupational patterns in altitudinal gradients and microsites. WHC and hydrophobicity were measured in 3 saxicolous species with 2 different morphologies in an elevational mountain gradient of Central Argentina: Usnea amblyoclada, Parmotrema reticulatum and Parmotrema warmingii. We measured WHC in three elevations corresponding to the distribution range of the species, and 3 microsite conditions: north (equatorial-facing)/south (polar-facing) aspect with high steep inclination >70° and rock outcrops with low steep inclination <20°. Results show differences between U. amblyoclada, P. reticulatum, and P. warmingii for measured traits. Hydrophobicity and WHC of U. amblyoclada showed a significant interaction between microsite and elevation. WHC of P. reticulatum was greater at 900 m.a.s.l. while its hydrophobicity was higher at 1800 m.a.s.l. WHC and hydrophobicity of P. warmingii are higher in samples from south-facing rocks. Results suggest that P. reticulatum can acclimate at microsite level without the ability to cope with more drastic environmental demands, losing the possibility to migrate to higher elevations in a climatic change scenario, while U. amblyoclada show higher intraspecific water retention variations, hence a wider potential distribution. P. warmingii could migrate to more protected microsites but will tend to disappear in an extreme scenario where temperature will increase.
地衣作为功能性状的水分调节动态可以预测阿根廷中部海拔梯度下的未来气候变化情景
摘要鉴于这些系统中的生物生活在特定的温度条件下,山顶环境特别容易受到气候变化的影响。地衣的吸水性强调了保水能力(WHC)和铊的疏水性等变量,以了解海拔梯度和微站点中的物种职业模式。在阿根廷中部的海拔梯度上,对3种具有2种不同形态的萨克斯管属物种进行了WHC和疏水性的测量:蓝枝乌松、网状Parmotrema reticulatum和温暖Parmotremai。我们在与物种分布范围相对应的三个海拔高度和3个微观站点条件下测量了WHC:北(面向赤道)/南(面向极地),高陡倾角>70°,岩石露头,低陡倾角<20°。结果表明,蓝枝假丝酵母、网纹假丝酵母和暖明假丝酵母在测定性状上存在差异。蓝枝藻的疏水性和WHC表现出微位点与海拔高度之间的显著相互作用。网状P.reticulatum的WHC在900 m.a.s.l.时更大,而其疏水性在1800 m.a.s.l.时更高。在来自朝南岩石的样品中,P.warmingii的WHC和疏水性更高。结果表明,P.reticulatum可以在微型站点水平上适应,而无法应对更激烈的环境需求,在气候变化的情况下失去了迁移到更高海拔地区的可能性,而a.amblyoclada表现出更高的种内保水变化,因此潜在分布范围更广。暖明氏P.warmingii可能会迁移到更受保护的微型站点,但在温度升高的极端情况下,它往往会消失。
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来源期刊
Bryologist
Bryologist 生物-植物科学
CiteScore
2.40
自引率
11.10%
发文量
40
审稿时长
>12 weeks
期刊介绍: The Bryologist is an international journal devoted to all aspects of bryology and lichenology, and we welcome reviews, research papers and short communications from all members of American Bryological and Lichenological Society (ABLS). We also publish lists of current literature, book reviews and news items about members and event. All back issues of the journal are maintained electronically. The first issue of The Bryologist was published in 1898, with the formation of the Society. Author instructions are available from the journal website and the manuscript submission site, each of which is listed at the ABLS.org website. All submissions to the journal are subject to at least two peer reviews, and both the reviews and the identities of reviewers are treated confidentially. Reviewers are asked to acknowledge possible conflicts of interest and to provide strictly objective assessments of the suitability and scholarly merit of the submissions under review.
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