Greif Matthew D, Currah Randolph S
Department of Biological Sciences, University of Alberta, Edmonton, Alberta, T6G 2E9, Canada.
Mycol Res. 2003 Jan;107(Pt 1):77-81. doi: 10.1017/s0953756202007104.
Auxarthron conjugatum (Onygenaceae) and Myxotrichum deflexum (Myxotrichaceae) are distantly related cleistothecial (gymnothecial) ascomycetes that form ascomata with strikingly similar peridia in which rigid, branched and anastomosed, thick-walled hyphae create a cage- or mesh-like enclosure (reticuloperidium). We tested the hypothesis that the reticuloperidium plays a role in dispersal mediated by arthropods by enclosing ascomata of these fungi together with flies from the family Sarcophagidae. Gymnothecia of both fungi were picked up easily when the stiff hairs of the flies impaled the ascomata by passing through the interhyphal spaces of the reticuloperidium. Ascospore release from the gymnothecia then occurred during grooming activities during which the limbs of the flies caught the ascoma appendages causing the peridium to be torn apart. This adaptation to arthropod morphology and behaviour is interpreted as the driving force behind the evolution of reticuloperidia in unrelated groups of cleistothecial ascomycetes.
共轭副节菌(节担菌科)和弯曲粘丝菌(粘丝菌科)是亲缘关系较远的闭囊壳(裸囊壳)子囊菌,它们形成的子囊果具有极为相似的包被,其中坚硬、分支且相互吻合的厚壁菌丝形成了笼状或网状的包被结构(网状包被)。我们通过将这些真菌的子囊果与麻蝇科的苍蝇放在一起,来检验网状包被在节肢动物介导的传播中发挥作用这一假说。当苍蝇坚硬的刚毛刺穿子囊果,穿过网状包被的菌丝间隙时,两种真菌的裸囊壳都很容易被捡起。随后,在梳理活动过程中,子囊孢子从裸囊壳中释放出来,在此过程中,苍蝇的肢体抓住子囊果附属物,导致包被被撕开。这种对节肢动物形态和行为的适应性被解释为不相关的闭囊壳子囊菌群体中网状包被进化背后的驱动力。