Isotopic fractionation by saprotrophic microfungi: Effects of species, temperature and the age of colonies

Saprotrophic fungi represent an important resource for a number of fungivorous and omnivorous soil animals, but little is known about the patterns of isotopic fractionation by soil fungi. We grew five common species of saprotrophic microfungi in laboratory cultures on simple artificial substrate based on carbohydrates derived either from C3 or C4 plants. Fungal cultures were kept at 15, 20 or 25 degrees C. Isotopic composition of carbon ((13)C/(12)C) and nitrogen ((15)N/(14)N) in bulk fungal tissue was determined after 11, 21 and 32 days. The fractionation of carbon and nitrogen stable isotopes was species-specific, but generally did not differ in C3- and C4-based growth media. The Zygomycete Mucor plumbeus did not differ in delta(13)C from the carbon source used, though Ascomycetes (Alternaria alternata, Cladosporium cladosporioides, Trichoderma harzianum and Ulocladium botrytis) were depleted in heavy carbon relative to the carbon source by 0.5-0.9 parts per thousand. Three species were significantly depleted in (15)N relative to the sodium nitrate that was used as a single source of nitrogen. In all species, delta(15)N but not delta(13)C tended to increase with the age of fungal colonies. The effect of temperature on delta(15)N was weak and inconsistent in different species. In contrast, all fungi except T. harzianum accumulated more (13)C at 25 degrees C than at 15 degrees C. The overall variation in the isotopic signatures of saprotrophic fungi growing in identical conditions reached 8 parts per thousand for delta(15)N and 2.5 parts per thousand for delta(13)C due to species-specific differences in the isotopic fractionation and the age of individual fungal colonies. This variation should be incorporated into the interpretation of the isotopic composition of fungivorous soil animals. (C) 2009 Elsevier GmbH. All rights reserved.