表面疏水性使地衣具有耐二氧化硫性。

Surface hydrophobicity causes SO2 tolerance in lichens.

作者信息

Hauck Markus, Jürgens Sascha-René, Brinkmann Martin, Herminghaus Stephan

机构信息

Albrecht von Haller Institute of Plant Sciences, Dept. Plant Ecology, University of Göttingen, Untere Karspüle 2, D-37073 Göttingen, Germany.

出版信息

Ann Bot. 2008 Mar;101(4):531-9. doi: 10.1093/aob/mcm306. Epub 2007 Dec 12.

DOI:10.1093/aob/mcm306

PMID:18077467

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2710189/

Abstract

BACKGROUND AND AIMS

The superhydrophobicity of the thallus surface in one of the most SO(2)-tolerant lichen species, Lecanora conizaeoides, suggests that surface hydrophobicity could be a general feature of lichen symbioses controlling their tolerance to SO(2). The study described here tests this hypothesis.

METHODS

Water droplets of the size of a raindrop were placed on the surface of air-dry thalli in 50 lichen species of known SO(2) tolerance and contact angles were measured to quantify hydrophobicity.

KEY RESULTS

The wettability of lichen thalli ranges from strongly hydrophobic to strongly hydrophilic. SO(2) tolerance of the studied lichen species increased with increasing hydrophobicity of the thallus surface. Extraction of extracellular lichen secondary metabolites with acetone reduced, but did not abolish the hydrophobicity of lichen thalli.

CONCLUSIONS

Surface hydrophobicity is the main factor controlling SO(2) tolerance in lichens. It presumably originally evolved as an adaptation to wet habitats preventing the depression of net photosynthesis due to supersaturation of the thallus with water. Hydrophilicity of lichen thalli is an adaptation to dry or humid, but not directly rain-exposed habitats. The crucial role of surface hydrophobicity in SO(2) also explains why many markedly SO(2)-tolerant species are additionally tolerant to other (chemically unrelated) toxic substances including heavy metals.

摘要

背景与目的

在最耐二氧化硫的地衣物种之一——针叶石蕊（Lecanora conizaeoides）中，其叶状体表面的超疏水性表明表面疏水性可能是地衣共生体控制其对二氧化硫耐受性的一个普遍特征。本文所述的研究对这一假设进行了验证。

方法

将雨滴大小的水滴放置在50种已知二氧化硫耐受性的地衣物种的风干叶状体表面，并测量接触角以量化疏水性。

主要结果

地衣叶状体的润湿性范围从强疏水性到强亲水性。所研究的地衣物种对二氧化硫的耐受性随着叶状体表面疏水性的增加而增强。用丙酮提取细胞外地衣次生代谢产物会降低但不会消除地衣叶状体的疏水性。

结论

表面疏水性是控制地衣对二氧化硫耐受性的主要因素。它可能最初是作为对潮湿生境的一种适应而进化的，可防止因叶状体被水过度饱和而导致净光合作用下降。地衣叶状体的亲水性是对干燥或潮湿但不直接暴露于雨水的生境的一种适应。表面疏水性在二氧化硫耐受性方面的关键作用也解释了为什么许多明显耐二氧化硫的物种还能耐受其他（化学性质无关的）有毒物质，包括重金属。

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