Effects of multiple climate change factors on the tall fescue-fungal endophyte symbiosis: infection frequency and tissue chemistry
- PMID: 21070246
- DOI: 10.1111/j.1469-8137.2010.03532.x
Effects of multiple climate change factors on the tall fescue-fungal endophyte symbiosis: infection frequency and tissue chemistry
Abstract
• Climate change (altered CO(2) , warming, and precipitation) may affect plant-microbial interactions, such as the Lolium arundinaceum-Neotyphodium coenophialum symbiosis, to alter future ecosystem structure and function. • To assess this possibility, tall fescue tillers were collected from an existing climate manipulation experiment in a constructed old-field community in Tennessee (USA). Endophyte infection frequency (EIF) was determined, and infected (E+) and uninfected (E-) tillers were analysed for tissue chemistry. • The EIF of tall fescue was higher under elevated CO(2) (91% infected) than with ambient CO(2) (81%) but was not affected by warming or precipitation treatments. Within E+ tillers, elevated CO(2) decreased alkaloid concentrations of both ergovaline and loline, by c. 30%; whereas warming increased loline concentrations 28% but had no effect on ergovaline. Independent of endophyte infection, elevated CO(2) reduced concentrations of nitrogen, cellulose, hemicellulose, and lignin. • These results suggest that elevated CO(2) , more than changes in temperature or precipitation, may promote this grass-fungal symbiosis, leading to higher EIF in tall fescue in old-field communities. However, as all three climate factors are likely to change in the future, predicting the symbiotic response and resulting ecological consequences may be difficult and dependent on the specific atmospheric and climatic conditions encountered.
© 2010 The Authors. New Phytologist © 2010 New Phytologist Trust.
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References
-
- Afkhami ME, Rudgers JA. 2008. Symbiosis lost: imperfect vertical transmission of fungal endophytes in grasses. The American Naturalist 172: 405-416.
-
- Ahlholm JU, Helander M, Lehtimaki S, Wali P, Saikkonen K. 2002. Vertically transmitted fungal endophytes: different responses of host-parasite systems to environmental conditions. Oikos 99: 173-183.
-
- Arechavaleta M, Bacon CW, Hoevland CS, Radcliffe DE. 1989. Effect of the tall fescue-endophyte on plant response to environmental stress. Journal of Agronomy 81: 83-90.
-
- Arechavaleta M, Bacon CW, Plattner RD, Hoveland CS, Radcliffe DE. 1992. Accumulation of ergopeptide alkaloids in symbiotic tall fescue grown under deficits of soil-water and nitrogen-fertilizer. Applied and Environmental Microbiology 58: 857-861.
-
- Ball DM, Pederson JF, Lacefield GD. 1993. The tall fescue endophyte. American Scientist 81: 370-379.
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