Structure and function of biological soil crusts from Antarctica with a special respect to their microtopography and UV-B sensitivity

IF 0.5 Q4 ECOLOGY

Czech Polar Reports Pub Date : 2020-02-04 DOI:10.5817/cpr2019-2-20

K. Trnková, Nele Tschense

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引用次数: 0

Abstract

Although an extensive professional literature exists on biological soil crusts (BSCs), especially on the species composition of hetero- and autotrophs forming the micro-biological comunity, micromorphological information on BSCs is extremely scarce. In our study, we focused on microstructure of the BSCs from the James Ross Island (Antarctica). We combined the approach of digital microscopy to study surface roughness of the BSCs with taxonomy of BSC-forming autotrophs and chlorophyll fluorescence study focused on the photosynthetic functioning of BSCs when exposed to controlled UV-B stress. Microprofiling of BSCs resulted in the finding that the examined BSCs might be classified as fine-grained surface with roughness characteristics: Ra (37.9 μm) and Rz (136.9 μm). The BSCs were rich in microautotrophs, both algae and cyanobacteria, however, Microcoleus sp. was found dominating species. It formed multifilament ropes on and inside the BSCs. Under UV-B stress, Microcoleus- and Nostoc-dominated BSC parts showed similar sensitivity and acclimatory response so long-term UV-B treatment, however, Microcoleus seemed to be slightly more sensitive to UV-B. Microcoleus-dominated parts of BSCs showed less pronounced acclimation to UV-B treatment than Nostoc-dominated parts. It was reflected in lower values of maximum (FV/FM) and effective (FPSII) quantum yields recorded after 6 d exposition.

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南极生物结皮的结构和功能及其微观形貌和UV-B敏感性

尽管有大量关于生物土壤结皮的专业文献，特别是关于形成微观生物群落的异养生物和自养生物的物种组成，但关于生物土壤结皮的微观形态信息极其匮乏。在我们的研究中，我们重点研究了詹姆斯·罗斯岛（南极洲）BSC的微观结构。我们将数字显微镜方法与BSC形成自养生物的分类法和叶绿素荧光研究相结合，研究BSC在受控UV-B胁迫下的光合功能。对BSC进行微剖面分析后发现，所检测的BSC可能被归类为具有粗糙度特征的细粒表面：Ra（37.9μm）和Rz（136.9μm）。BSC富含微自养菌，包括藻类和蓝细菌，但发现Microcleus sp.是主要物种。它在BSC上和BSC内部形成了复丝绳索。在UV-B胁迫下，Microcleus和Nostoc占主导地位的BSC部分表现出相似的敏感性和适应反应，因此长期UV-B处理，但Microcleus似乎对UV-B更敏感。BSC中微细胞占主导地位的部分对UV-B处理的适应不如Nostoc占主导地位。这反映在暴露6天后记录的最大（FV/FM）和有效（FPSII）量子产率的较低值中。

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来源期刊

Czech Polar Reports Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)

CiteScore

1.30

自引率

10.00%

发文量

期刊介绍： Czech Polar Reports is an international, multidisciplinary, peer-reviewed journal. It is issued 2 times a year. The journal is dedicated to provide original research papers for sciences related to the polar regions and other planets with polar analogues. Czech Polar Reports covers the disciplines listed below. polar paleontology, geology, geochemistry, geomorphology, glaciology, climatology, hydrology, pedology, biochemistry, ecology, environmental science, microbiology, plant and animal biology including marine biology.