Project description:Nitrate reducers and nitrous oxide consumers in acidic peatlands

Project description:DNA-seq of nitrous oxide reducers and bacterial ammonia-oxidizers: layered soil treatment areaas

Project description:Salt marshes provide many key ecosystem services that have tremendous ecological and economic value. One critical service is the removal of fixed nitrogen from coastal waters, which limits the negative effects of eutrophication resulting from increased nutrient supply. Nutrient enrichment of salt marsh sediments results in higher rates of nitrogen cycling and, commonly, a concurrent increase in the flux of nitrous oxide, an important greenhouse gas. Little is known, however, regarding controls on the microbial communities that contribute to nitrous oxide fluxes in marsh sediments. To address this disconnect, we generated microbial community profiles as well as directly assayed nitrogen cycling genes that encode the enzymes responsible for overall nitrous oxide flux from salt marsh sediments. We hypothesized that communities of microbes responsible for nitrogen transformations will be structured by nitrogen availability. Taxa that respond positively to high nitrogen inputs may be responsible for the elevated rates of nitrogen cycling processes measured in fertilized sediments. Our data show that, with the exception of ammonia-oxidizing archaea, the community composition of organisms responsible for production and consumption of nitrous oxide was altered under nutrient enrichment. These results suggest that elevated rates of nitrous oxide production and consumption are the result of changes in community structure, not simply changes in microbial activity.

Project description:This data was generated to identify the molecular pathways responsible for nitrous oxide synthesis by the green algae Chlamydomonas reinhardtii, when supplied with nitrite under aerobic conditions (oxia). RNA samples were collected at three time points, 15 min, 3 hours, and 24 hours after the start of the experiment. The control and treatment groups were grown under the same conditions, except treatment group was supplied with 10mM nitrite at time 0. Illumina TruSeq stranded RNA libraries were synthesised from the resulting RNA before sequencing on a HiSeq2500 (125bp). The resulting sequence run generated 241,151,809 paired-end 125bp reads, of which 200,946,839 remained following quality filtering. The short data was mapped to the published genome and read counts were generated with HT-Seq count with the default settings. The raw read count data was analysed by DESeq2 in order to identify genes differentially expressed during nitrous oxide production.

Project description:The majority of potent greenhouse gas nitrous oxide (N2O) emissions originate from microbially mediated reactions. The enzyme N2O reductase is the only known biological N2O sink and has evolved in two phylogenetically distinct lineages (clades I and II). Clade II is of particular interest for biotechnology as it is often associated with non-denitrifying N2O reducers. In this study, Laureni et al. investigated the environmental conditions that select for clade II. To do so, we enriched two N2O-respiring communities at low dilution rates, under both electron donor (acetate) and electron acceptor (N2O) limitations, in order to assess the impact of substrate affinity and N2O cytotoxicity on community assembly. We used a combination of genome-resolved metagenomics and shotgun metaproteomics to identify the taxonomy and metabolic potential of the steady-state community members. Corresponding author: Michele Laureni, contact: m.laureni@tudelft.nl

Project description:Nitrous oxide production system

Project description:Biofilms grown in nitrous oxide reducing biofilter using wastewater as inoculum

Project description:This study was developed to test the hypothesis that the risk of colorectal cancer recurrence was similar in patients who were randomly assigned to 65% nitrous oxide or nitrogen during colorectal surgery.

Project description:To further explore the biotoxicity mechanisms of zinc oxide nanoparticles (ZnO NPs) and the recovery strategies of the accordingly impaired Nitrosomonas europaea (N. europaea, ATCC 19718) cells, a genome-sequenced model ammonia-oxidizing bacterium (AOB) commonly detected in the activated sludge of biological wastewater treatment plants, whole-genome microarray analysis was applied to retrieve the induced transcriptional responses, after their physiological and metabolic activities were revealed.

Project description:Consortium enrichment for nitrous oxide reduction