Modelling N2O production and emissions

Abstract

N 2 O is a powerful greenhouse gas contributing both to global warming and ozone depletion. While fungi have been identified as a putative source of N 2 O, little is known about their production of this greenhouse gas. Here we investigated the N 2 O-producing ability of a collection of 207 fungal isolates. Seventy strains producing N 2 O in pure culture were identified. They were mostly species from the order Hypocreales order - particularly Fusarium oxysporum and Trichoderma spp. - and to a lesser extent species from the orders Eurotiales, Sordariales, and Chaetosphaeriales. The N 2 O 15 N site preference (SP) values of the fungal strains ranged from 15.8‰ to 36.7‰, and we observed a significant taxa effect, with Penicillium strains displaying lower SP values than the other fungal genera. Inoculation of 15 N 2 O-producing strains into pre-sterilized arable, forest and grassland soils confirmed the ability of the strains to produce N 2 O in soil with a significant strain-by-soil effect. The copper-containing nitrite reductase gene (nirK) was amplified from 45 N 2 O-producing strains, and its genetic variability showed a strong congruence with the ITS phylogeny, indicating vertical inheritance of this trait. Taken together, this comprehensive set of findings should enhance our knowledge of fungi as a source of N 2 O in the environment.