共生光合生物选择性导致地衣化真菌多态复合体中的生态耐受性和进化分歧。
Photobiont selectivity leads to ecological tolerance and evolutionary divergence in a polymorphic complex of lichenized fungi.
作者信息
Muggia Lucia, Pérez-Ortega Sergio, Kopun Theodora, Zellnig Günther, Grube Martin
机构信息
Department of Life Science, University of Trieste, Via Giorgieri 10, 34127 Trieste, Italy Institute of Plant Sciences, Karl-Franzens-University Graz, Holteigasse 6, 8010 Graz, Austria
Departamento de Biología Ambiental, Museo Nacional de Ciencias Naturales (CSIC), C/Serrano 115-dpdo, Madrid, Spain.
出版信息
Ann Bot. 2014 Sep;114(3):463-75. doi: 10.1093/aob/mcu146. Epub 2014 Aug 5.
BACKGROUND AND AIMS
The integrity and evolution of lichen symbioses depend on a fine-tuned combination of algal and fungal genotypes. Geographically widespread species complexes of lichenized fungi can occur in habitats with slightly varying ecological conditions, and it remains unclear how this variation correlates with symbiont selectivity patterns in lichens. In an attempt to address this question, >300 samples were taken of the globally distributed and ecologically variable lichen-forming species complex Tephromela atra, together with closely allied species, in order to study genetic diversity and the selectivity patterns of their photobionts.
METHODS
Lichen thalli of T. atra and of closely related species T. grumosa, T. nashii and T. atrocaesia were collected from six continents, across 24 countries and 62 localities representing a wide range of habitats. Analyses of genetic diversity and phylogenetic relationships were carried out both for photobionts amplified directly from the lichen thalli and from those isolated in axenic cultures. Morphological and anatomical traits were studied with light and transmission electron microscopy in the isolated algal strains.
KEY RESULTS
Tephromela fungal species were found to associate with 12 lineages of Trebouxia. Five new clades demonstrate the still-unrecognized genetic diversity of lichen algae. Culturable, undescribed lineages were also characterized by phenotypic traits. Strong selectivity of the mycobionts for the photobionts was observed in six monophyletic Tephromela clades. Seven Trebouxia lineages were detected in the poorly resolved lineage T. atra sensu lato, where co-occurrence of multiple photobiont lineages in single thalli was repeatedly observed.
CONCLUSIONS
Low selectivity apparently allows widespread lichen-forming fungi to establish successful symbioses with locally adapted photobionts in a broader range of habitats. This flexibility might correlate with both lower phylogenetic resolution and evolutionary divergence in species complexes of crustose lichen-forming fungi.
背景与目的
地衣共生关系的完整性与进化取决于藻类和真菌基因型的精确组合。地衣化真菌的地理分布广泛的物种复合体可出现在生态条件略有不同的栖息地中,目前尚不清楚这种变化与地衣中共生体选择模式之间的关联。为了回答这个问题,我们采集了全球分布且生态多样的地衣形成物种复合体黑瘤衣(Tephromela atra)以及与之密切相关的物种的300多个样本,以研究其遗传多样性及其光合共生体的选择模式。
方法
从六大洲的24个国家和62个地点采集了黑瘤衣以及密切相关物种——颗粒黑瘤衣(T. grumosa)、纳西黑瘤衣(T. nashii)和暗绿黑瘤衣(T. atrocaesia)的地衣叶状体,这些地点代表了广泛的栖息地。对直接从地衣叶状体中扩增的光合共生体以及在无菌培养中分离出的光合共生体进行了遗传多样性和系统发育关系分析。通过光学显微镜和透射电子显微镜研究了分离出的藻类菌株的形态和解剖特征。
主要结果
发现黑瘤衣属真菌与12个共球藻属(Trebouxia)谱系相关联。五个新分支表明地衣藻类仍存在未被认识的遗传多样性。可培养的、未描述的谱系也具有表型特征。在六个单系黑瘤衣分支中观察到了真菌共生体对光合共生体的强烈选择性。在分类尚不明确的广义黑瘤衣中检测到七个共球藻谱系,在单个叶状体中多次观察到多个光合共生体谱系的共存。
结论
低选择性显然使广泛分布的地衣形成真菌能够在更广泛的栖息地中与当地适应的光合共生体建立成功的共生关系。这种灵活性可能与壳状地衣形成真菌物种复合体中较低的系统发育分辨率和进化分歧有关。
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