Abstract
Holm oak trees (Quercus ilex L.) mortality is increasing worryingly in the Mediterranean area in the last years. To a large degree this mortality is caused by the oomycete Phytophthora spp., which is responsible for forest decline and dieback in evergreen oak forest areas of the southwestern Iberian Peninsula. This study is based on the possibility of applying chemical elicitors or filtered oomycete extracts to holm oak somatic embryos (SE) in order to induce epigenetic memory, priming, that may increase tolerance to the pathogen in future infections. To this end, we first examined the effect of priming treatments on SE development and its oxidative stress state, to avoid elicitors that may cause damage to embryogenic tissues. Both, the sterile oomycete extracts and the chemical elicitor methyl jasmonate (MeJA) did not produce any detrimental effect on SE growth and development, unlike the elicitors benzothiadiazole (BTH) and p-aminobenzoic acid (PABA) that reduced the relative weight gain and resulted in necrotic and deformed SE when were applied at high concentrations (25 µM BTH or 50 µM PABA) in accordance with their high malondialdehyde content. No significant differences among elicitation treatments were found in dual culture bioassays, although those SEs elicited with 50 µM MeJA increased H2O2 production after challenged against active oomycete indicating the activation of stress response. Since this elicitation treatment did not produce any adverse effect in the embryogenic process we suggest that could be used in further priming experiments to produce holm oak plants adapted to biotic stress.
Highlights
Holm oak trees (Quercus ilex L.) mortality is increasing worryingly in the Mediterranean area in the last years
Fresh weight increase was higher on globular somatic embryos (SE) elicited with methyl jasmonate (MeJA) at 5, 10 or 25 μM, as well as for those elicited with 5 or 10 μM BTH, but reduced on those SEs elicited with 25 μM BTH (Fig. 1a)
The design of an effective strategy to induce tolerance to P. cinnamomi in holm oak must consider the effect of elicitation treatments on the embryogenic material, to avoid a decrease in somatic embryos proliferation that impede the plant r egeneration[36]
Summary
Holm oak trees (Quercus ilex L.) mortality is increasing worryingly in the Mediterranean area in the last years. This study is based on the possibility of applying chemical elicitors or filtered oomycete extracts to holm oak somatic embryos (SE) in order to induce epigenetic memory, priming, that may increase tolerance to the pathogen in future infections To this end, we first examined the effect of priming treatments on SE development and its oxidative stress state, to avoid elicitors that may cause damage to embryogenic tissues. A recent work[35], demonstrated that chestnut (Castanea sativa) seedlings of ink-diseased mother trees showed increased tolerance to P. cinnamomi; interestingly, this tolerance was not mediated by seed size, but probably as a consequence of seed priming during fruit development These inheritable variations could open doors for obtaining resistant or tolerant oak genotypes, which would be included in a recovery program in damaged areas, avoiding oak woodlands and dehesa dieback
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