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由系统真菌甘油内生真菌(Epichloë glyceriae)引起的感染会改变其禾本科宿主条纹甘油草(Glyceria striata)的克隆生长。

Infection by the systemic fungus Epichloë glyceriae alters clonal growth of its grass host, Glyceria striata.

作者信息

Pan Jean J, Clay Keith

机构信息

Department of Biology, Indiana University, Bloomington, IN 47405, USA.

出版信息

Proc Biol Sci. 2003 Aug 7;270(1524):1585-91. doi: 10.1098/rspb.2003.2428.

Abstract

Parasites and pathogens are hypothesized to change host growth, reproduction and/or behaviour to increase their own transmission. However, studies which clearly demonstrate that parasites or pathogens are directly responsible for changes in hosts are lacking. We previously found that infection by the systemic fungus Epichloë glyceriae was associated with greater clonal growth by its host, Glyceria striata. Whether greater clonal growth resulted directly from pathogen infection or indirectly from increased likelihood of infection for host genotypes with greater clonal growth could not be determined because only naturally infected and uninfected plants were used. In this study, we decoupled infection and host genotype to evaluate the role of pathogen infection on host development and clonal growth. We found that total biomass production did not differ for clones of the same genotype, but infected clones allocated more biomass to clonal growth. Disinfected clones had more tillers and a greater proportion of their biomass in the mother ramet. Infected clones produced fewer tillers but significantly more and longer stolons than disinfected clones. These results support the hypothesis that pathogen infection directly alters host development. Parasite alteration of clonal growth patterns might be advantageous to the persistence and spread of host plants in some ecological conditions.

摘要

寄生虫和病原体被假定会改变宿主的生长、繁殖和/或行为,以增加它们自身的传播。然而,目前缺乏明确证明寄生虫或病原体直接导致宿主发生变化的研究。我们之前发现,系统性真菌Epichloë glyceriae的感染与其宿主条纹甘油草(Glyceria striata)更强的克隆生长有关。由于仅使用了自然感染和未感染的植物,所以无法确定更强的克隆生长是直接由病原体感染导致的,还是间接由具有更强克隆生长能力的宿主基因型感染可能性增加导致的。在本研究中,我们将感染与宿主基因型分离开来,以评估病原体感染对宿主发育和克隆生长的作用。我们发现,相同基因型的克隆之间总生物量产量没有差异,但受感染的克隆将更多生物量分配到克隆生长上。经过消毒的克隆有更多的分蘖,且其生物量在母株分株中的占比更大。受感染的克隆产生的分蘖较少,但与经过消毒的克隆相比,其匍匐茎明显更多且更长。这些结果支持了病原体感染直接改变宿主发育的假说。在某些生态条件下,寄生虫对克隆生长模式的改变可能有利于宿主植物的存续和传播。

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