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Nitrous Oxide (N2O) production by Rhizosphere fungi from Nitrogen fertilized grasslands

Poster Number: 
304
Presenter/Primary Author: 
Sara Lopez
Co-Authors: 
Robert Sinsabaugh
Co-Authors: 
David Hanson
Co-Authors: 
Andrea Porras-Alfaro

The use of nitrogen (N) fertilizers has created international concern as denitrification of fertilizer-derived nitrate could result in higher rates of N2O release to the atmosphere. The discovery that many eukaryotic fungi can transform N through nitrification and denitrification pathways is significant from both biochemical and ecological perspectives because fungi dominate microbial metabolism in many terrestrial ecosystems. Roots from semi-arid pastures are colonized by a diverse fungal community and suppression of such fungal biomass can cause a substantial reduction of N2O production. N2O production by 16 soil fungal species was estimated by analyzing gas samples from pure cultures isolated from the rhizosphere of the Blue grama grassland biome from the N-addition experiment at the Sevilleta Long-Term Ecological Research in Central New Mexico. Cultures were maintained in liquid medium containing nitrate as N source and incubated at 25°C for 10 days prior to sealing the flasks in order to limit aeration. CO2 production was recorded for normalizing N2O generation by fungal respiration. A repeated measures ANOVA showed significant differences in N2O production relative to species and sampling dates (F(21,44)=23.20; p<.00001 and F(8,352)=36.94; p<0.0001), respectively. Average total N2O production ranged from 6.3 to 12.7 nmol h-1 ml-1, and the highest values were observed in Monosporascus ibericus and in an unidentified group (best match Genbank DQ420786). N2O increased abruptly after day five leveling off until day 10. Finally, a significant interaction between species and sampling days was observed (F(168,352)=3.17; p<0.0001). Although previous studies emphasized the importance of fungi in N transformations and N2O production in arid ecosystems, our results indicate that only a few species are responsible for most of the total N2O emissions

Student Poster: 
Yes

 
 
Background Photo by: Nicole Hansen - Jornada (JRN) LTER