Project description:diversity of the diazotrophs community

Project description:Microbial community diversity under different rotation

Project description:The diversity of diazotrophs in forest soil

Project description:Diversity of diazotrophs associated with scleractinian corals

Project description:Diversity of diazotrophs associated with scleractinian corals

Project description:Diazotrophs provide the main source of reactive nitrogen to the ocean, sustaining primary productivity and CO2 uptake. Climate change is raising temperatures, decreasing pH and reducing nutrient availability. How microbes respond to these changes is largely unexplained. Similarly, the role of DOM in the growth and survival of certain diazotrophic organisms is poorly understood. Moreover, growing evidence indicates some diazotrophs are capable of utilizing distinct DOM compounds via osmotrophy providing them with additional metabolic plasticity and ecological advantages compared to other non-diazotrophic microbes. We aimed to understand how osmotrophy could modify carbon uptake and alleviate energy stress in diazotrophs under ongoing climate change perturbations. We hypothesized that Crocosphaera preferentially uses DOM when labile as a carbon source in present pH conditions, as compared to future more acidic scenarios with higher access to inorganic carbon. Alternatively, the lower pH may cause Crocosphaera to be energy limited when trying to maintain intracellular homeostasis which would favour DOM uptake as an extra source of energy.

Project description:Diazotrophs rhizosphere bacterial diversity of different sugarcane species

Project description:The diversity of diazotrophs in grassland of China

Project description:Diversity of marine diazotrophs in the North Pacific

Project description:The kinase nmo is required for proper ommatidial rotation in the developing Drosophila compound eye. It has been suggested to regulate gene expression by phosphorylating transcription factors. We used microarray analysis to identify genes which expression is regulated by nmo during ommatidial rotation.