Abstract
Epichloë endophytes are biotrophic fungi that establish mutualistic symbiotic relationship with grasses and affect performance of the host under different environments. Wild barley (Hordeum brevisubulatum) is an important forage grass and often infected by Epichloë bromicola, thus showing tolerances to stresses. Since the plant growth correlates with both microbial infection and nutrient stoichiometry, this study was performed to investigate whether the function of Epichloë bromicola endophyte to improve host growth depend upon the nitrogen (N), phosphorus (P) fertilization. Epichloë-infected (E+) and Epichloë-free (E−) wild barley plants were subjected to nine types of mixed N (0.2 mM, 3 mM, 15 mM) and P (0.01 mM, 0.1 mM, 1.5 mM) levels treatments for 90 d to collect plant samples and determine multiple related indexes. We found that E. bromicola and N, P additions positively affected seed germination. Further, E. bromicola significantly enhanced chlorophyll content and root metabolic activity under N-deficiency, and meanwhile, might alter allocation of photosynthate under different conditions. The contents of N, P and stoichiometry of C:N:P of E+ plants were significantly higher than that of E− under nutrient deficiency, but contrary results were observed under adequate nutrients. Therefore, we propose that the growth-promoting ability of E. bromicola is closely correlated with N and P additional levels. Under low N, P additions, positive roles of endophyte are significant as opposed to negative roles under high N, P additions.
Highlights
Nitrogen (N) and phosphorus (P) are two crucial nutrient elements considered to influence the plant survival
The interaction endophyte showed no significant differences in seed interaction of of N, P, and endophyte germination
We investigated the possible roles of interaction between Epichloë endophytes infection and N and P supplements on wild barley germination, plants growth, chlorophyll content, root metabolic activity, nutrient contents and stoichiometry
Summary
Nitrogen (N) and phosphorus (P) are two crucial nutrient elements considered to influence the plant survival. Previous studies suggested that nutrient stoichiometry and allocation are related to the plant strategies including the balance of multiple key elements, growth, vegetation composition, and nutrient condition at the community level [2]. As the principal elements of plants, the carbon (C), N, P, and their ratios (C:N:P). Dynamic balance of soil fertility, alteration of competitive relationship, and capabilities of growth and development can be reflected by the ratios of C:N, C:P, and N:P [4,5,6]. N and P play essential roles in fungal survival [7], and besides providing the requirements of growth as other organisms, they are important in regulating metabolism. Nitrogen catabolite produced by endophyte depends on a nitrogen source and nutrient utilization
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