Project description:Microbial Bioremediation at Oil and Gas sites in Nova Scotia Laurentian sub-basin, Atlantic Ocean

Project description:A significant part of the heavier petroleum fraction resulting from offshore oil-spills sinks to the deep-sea. Its fate and biodegradation by microbial communities is unclear. In particular, the physiological and metabolic features of hydrostatic pressure (HP) adapted oil-degraders have been neglected. In this study, hydrocarbon-free sediment from 1km below surface water (bsl) was incubated at 0.1, 10 and 20MPa (equivalent to surface waters, 1 and 2km bsl) using triacontane (C30) as sole carbon source for a 3-month enrichment period. HP strongly impacted biodegration, as it selected for microbial communities with small cells, high O2 respiration and nutrients requirements, but low biomass and C30-degradation yields. The alkane-degrading metaproteome linked to β-oxidation was detected but its expression was reduced under HP contrary to several housekeeping genes. This was reflected in the enriched communities, as atmospheric pressure was dominated by hydrocarbonoclastic bacteria while non-specialized or previously unrecognized oil-degrading genera were enriched under HP.

Project description:Seafloor sediment bacterial community profiling for a multi-year environmental baseline at a deep-sea oil production site offshore Nova Scotia, Canada

Project description:Bathymodiolin mussels are a group of bivalves associated with deep-sea reducing habitats, such as hydrothermal vents and cold seeps. These mussels usually engage in an obligatory symbiosis with sulfur and/or methane oxidizing Gammaproteobacteria. In addition to these bacteria, Bathymodiolus heckerae that inhabit gas and oil seeps in Campeche Bay, the southern Gulf of Mexico, host bacteria phylogenetically with the Cycloclasticus genus. We recently discovered the capability for short-chain alkane degradation in draft genomes of symbiotic Cycloclasticus. With proteomics, we investigated whether the genes required for this process are expressed by the symbionts.

Project description:Yeast communities from Nova Scotia vineyards before and after spontaneous fermentation

Project description:Impact of lime amendment on the soil microbiome in Nova Scotia

Project description:Analysis of Fungal Communities in Apple Replant Disease in Nova Scotia

Project description:Analysis of Bacterial Communities in Apple Replant Disease in Nova Scotia

Project description:Analysis of Oomycetal Communities in Apple Replant Disease in Nova Scotia

Project description:The arctic ecosystems are increasingly exposed to pollution particularly from offshore petroleum extraction-related activities. The objective of the study is to map transcriptome responses in copepods of the arctic region in response to PAHs phenanthrene (Phe) and benzo[a]pyrene (BaP) found in crude-oil contaminants.