Abstract
Phytophthora plurivora causes severe damage on Fagus sylvatica and is responsible for the extensive decline of European Beech throughout Europe. Unfortunately, no effective treatment against this disease is available. Phosphite (Phi) is known to protect plants against Phytophthora species; however, its mode of action towards P. plurivora is still unknown. To discover the effect of Phi on root infection, leaves were sprayed with Phi and roots were subsequently inoculated with P. plurivora zoospores. Seedling physiology, defense responses, colonization of root tissue by the pathogen and mortality were monitored. Additionally the Phi concentration in roots was quantified. Finally, the effect of Phi on mycelial growth and zoospore formation was recorded. Phi treatment was remarkably efficient in protecting beech against P. plurivora; all Phi treated plants survived infection. Phi treated and infected seedlings showed a strong up-regulation of several defense genes in jasmonate, salicylic acid and ethylene pathways. Moreover, all physiological parameters measured were comparable to control plants. The local Phi concentration detected in roots was high enough to inhibit pathogen growth. Phi treatment alone did not harm seedling physiology or induce defense responses. The up-regulation of defense genes could be explained either by priming or by facilitation of pathogen recognition of the host.
Highlights
IntroductionPhytophthora plurivora is a hemibiotrophic root pathogen with worldwide distribution, attacking several plant species, in particular, Fagus sylvatica (European beech) [3,4]
Protecting plants from Phytophthora species is still a challenge
Inhibition of mycelial growth started at 5 mg/mL and reached 65% inhibition with 100 mg/mL of phosphite (Figure 1a and 1b)
Summary
Phytophthora plurivora is a hemibiotrophic root pathogen with worldwide distribution, attacking several plant species, in particular, Fagus sylvatica (European beech) [3,4]. In order to defend itself against these pathogen-derived effectors, plants have developed specific receptor (R) proteins as the second layer of defense. These R-proteins recognize effector proteins of the invader directly or indirectly leading to effector triggered immunity (ETI) [8]. Successful pathogens, including Phytophthora species, have the ability to subvert these defense mechanisms either by avoiding their recognition or by reprogramming host metabolism [9,10]. Supporting the recognition of the invader by the host might be a key-factor in managing Phytophthora diseases
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