Project description:Dissolved organic matter and leaf leachate incubations

Project description:Microbes incubated Microplastics-derived dissolved organic matter Raw sequence reads

Project description:Direct injection mass spectrometry data for publication titled: "Drought reduces release of plant matter into dissolved organic matter potentially restraining ecosystem recovery"

Project description:Non-targeted LC-MS/MS-based Metabolomics from PPL solid phase extracts from Kelp Forest Dissolved Organic Matter and Algae extracts.

Project description:Marine Dissolved Organic Matter analysed by reversed phase LCMS on C18 with data dependent analysis, positive and negative mode.

Project description:Coastal marine sediments, as locations of substantial fixed nitrogen loss, are very important to the nitrogen budget and to the primary productivity of the oceans. Coastal sediment systems are also highly dynamic and subject to periodic natural and anthropogenic organic substrate additions. The response to organic matter by the microbial community involved in nitrogen loss processes was evaluated using mesocosms of Chesapeake Bay sediments. Over the course of a 50-day incubation, rates of anammox and denitrification were measured weekly using 15N tracer incubations, and samples were collected for genetic analysis. Rates of both nitrogen loss processes and gene abundances associated with them corresponded loosely, probably because heterogeneities in sediments obscured a clear relationship. The rates of denitrification were stimulated more by the higher organic matter addition, and the fraction of nitrogen loss attributed to anammox slightly reduced. Furthermore, the large organic matter pulse drove a significant and rapid shift in the denitrifier community as determined using a nirS microarray, indicating the diversity of these organisms plays an essential role in responding to anthropogenic inputs. We also suggest that the proportion of nitrogen loss due to anammox in these coastal estuarine sediments may be underestimated due to temporal dynamics as well as from methodological artifacts related to conventional sediment slurry incubation approaches.

Project description:Non-targeted 2D LC-MS/MS analysis (pos/neg ESI) of PPL solid phase extracted Dissolved Organic Matter from the NEHLA pipeline.

Project description:Non-targeted LC-MS/MS-based Metabolomics Analysis of PPL extracted (SPE) Marine Dissolved Organic Matter from the ARCS / ARMS Artificial Coral Reef Project

Project description:Coastal marine sediments, as locations of substantial fixed nitrogen loss, are very important to the nitrogen budget and to the primary productivity of the oceans. Coastal sediment systems are also highly dynamic and subject to periodic natural and anthropogenic organic substrate additions. The response to organic matter by the microbial community involved in nitrogen loss processes was evaluated using mesocosms of Chesapeake Bay sediments. Over the course of a 50-day incubation, rates of anammox and denitrification were measured weekly using 15N tracer incubations, and samples were collected for genetic analysis. Rates of both nitrogen loss processes and gene abundances associated with them corresponded loosely, probably because heterogeneities in sediments obscured a clear relationship. The rates of denitrification were stimulated more by the higher organic matter addition, and the fraction of nitrogen loss attributed to anammox slightly reduced. Furthermore, the large organic matter pulse drove a significant and rapid shift in the denitrifier community as determined using a nirS microarray, indicating the diversity of these organisms plays an essential role in responding to anthropogenic inputs. We also suggest that the proportion of nitrogen loss due to anammox in these coastal estuarine sediments may be underestimated due to temporal dynamics as well as from methodological artifacts related to conventional sediment slurry incubation approaches. Two color array (Cy3 and Cy5): the universal standard 20-mer oligo is printed to the slide with a 70-mer oligo (an archetype). Environmental DNA sequences (fluoresced with Cy3) within 15% of the 70-mer conjugated to a 20-mer oligo (fluoresced with Cy5) complementary to the universal standard will bind to the oligo probes on the array. Signal is the ratio of Cy3 to Cy5. Three replicate probes were printed for each archetype. Two replicate arrays were run on duplicate targets.

Project description:Phytoplankton are significant producers of dissolved organic matter (DOM) in marine ecosystems but the identity and dynamics of this DOM remain poorly constrained. Knowledge on the identity and dynamics of DOM are crucial for understanding the molecular-level reactions at the base of the global carbon cycle. Here we apply emerging analytical and computational tools from metabolomics to investigate the composition of DOM produced by the centric diatom Thalassiosira pseudonana. We assessed both intracellular metabolites within T. pseudonana (the endo-metabolome) and extracellular metabolites released by T. pseudonana (the exo-metabolome). The intracellular metabolites had a more variable composition than the extracellular metabolites. We putatively identified novel compounds not previously associated with T. pseudonana as well as compounds that have previously been identified within T. pseudonana’s metabolic capacity (e.g. dimethylsulfoniopropionate and degradation products of chitin). The resulting information will provide the basis for future experiments to assess the impact of T. pseudonana on the composition of dissolved organic matter in marine environments.