Guzmán-Franco Ariel W, Clark Suzanne J, Alderson Peter G, Pell Judith K
Department of Plant and Invertebrate Ecology, Harpenden, Hertfordshire, UK.
Mycol Res. 2009 Nov;113(Pt 11):1312-21. doi: 10.1016/j.mycres.2009.08.016. Epub 2009 Sep 16.
The entomopathogenic fungi Zoophthora radicans and Pandora blunckii co-occur in field populations of Plutella xylostella and, therefore, are likely to interact during the infection process. We have investigated the possible outcomes of these interactions in the laboratory. Using four isolates, two of each fungal species, inter-specific interaction experiments were done in Petri dishes and on intact plants. In Petri dish experiments, larvae were inoculated directly using sporulating mats of mycelium, both species had the same opportunity to infect and only the relative concentration of conidia of each pathogen species applied was manipulated. In the intact plant experiments, larvae were placed onto fungus-contaminated plants, inoculation was passive and the probability of infection by either or both species of fungi depended on larval activity and proximity to inoculum. In the Petri dish experiment, the species with the largest concentration of conidia out-competed the other regardless of virulence, and results were similar in the intact plant experiment. The ecological implications for competition or co-existence of these two pathogens in the field are discussed.
昆虫病原真菌根虫瘟霉(Zoophthora radicans)和布氏潘多拉菌(Pandora blunckii)在小菜蛾田间种群中共同存在,因此在感染过程中可能会相互作用。我们在实验室中研究了这些相互作用可能产生的结果。使用四个分离株,每种真菌各两个,在培养皿中和完整植株上进行了种间相互作用实验。在培养皿实验中,使用产孢菌丝垫直接接种幼虫,两种真菌有相同的感染机会,并且仅控制每种病原菌孢子的相对浓度。在完整植株实验中,将幼虫放置在被真菌污染的植株上,接种是被动的,任一或两种真菌的感染概率取决于幼虫的活动以及与接种体的接近程度。在培养皿实验中,孢子浓度最高的真菌种类无论其毒力如何都会胜过另一种,完整植株实验的结果也类似。本文讨论了这两种病原菌在田间竞争或共存的生态学意义。
