Abstract
Festulolium hybrids are forage grasses used worldwide in temperate climates. They are associated with the fungal endophyte Epichloë uncinata, which aids in nutrient uptake, drought tolerance, and production of metabolites that protect against parasites and herbivores. Epichloë uncinata produces loline alkaloids, which can deter insect pests. Festulolium has not been widely studied for susceptibility to plant-parasitic nematodes, so Festulolium lines, with and without fungal endophytes, were tested in the greenhouse for host status to the root-knot nematode Meloidogyne incognita. All were poor hosts, regardless of line or endophyte status. Pepper seedlings planted into soil following removal of the Festulolium plants were infected by nematodes, likely because of surviving nematodes from the original inoculation combined with some reproduction on Festulolium. Lolines were found in shoots and roots of all endophyte-associated lines, and some types of lolines in roots increased after nematode infection. Methanolic extracts from roots and shoots of a tested Festulolium line did not inhibit egg hatch, but killed nearly a third of second-stage juveniles whether an endophyte was present or not. Further studies would indicate whether these Festulolium lines aid in suppressing field populations of M. incognita.
Highlights
Cool-season grasses are often associated with claviceptaceous endophytic fungi in the genus Epichloë (Schardl et al, 2004; König et al, 2018)
The biocontrol benefits that loline alkaloids provide to pastoral agriculture farming systems have led to the commercialization of many loline-producing endophyte strains of E. uncinata, including the U2 endophyte strain used in the current study
Results from assays of eggs and J2 in extracts were analyzed for the highest concentrations: 200 and 400 μg/ml. Both E+ and E− plants from all five of the Festulolium lines were tested for N-formylloline (NFL), N-acetylloline (NAL), N-acetylnorloline (NANL), and N-methylloline (NML)
Summary
Cool-season grasses (family Poaceae) are often associated with claviceptaceous endophytic fungi in the genus Epichloë (Schardl et al, 2004; König et al, 2018). Asso ciations have been developed with fungal endophytes that produce little or no ergot alkaloids or the indolediterpene alkaloid lolitrem B (Timper and Bouton, 2012; Young et al, 2013; Fletcher et al, 2017). One such association occurs with the fungal endophyte Epichloë uncinata Host status of tall fescue ‘Jesup’ to M. incognita did not depend on fungal colonization; the cultivar was a nonhost regardless of endophyte status (Nyczepir and Meyer, 2010)
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