«This is a tremendous innovation for in situ studies as a new means to interrogate the chemical language of
microbial system interactions, as well as being relative to the discovery and development of new electrode materials for energy storage,» said Dr. Louis Terminello, who leads chemical imaging work at PNNL.
Not exact matches
This is also the goal of many other current research projects of the Department of Computational
Systems Biology, which focuses on research on pathogens,
microbial communities and molecular
interactions between species adopting a
system - oriented approach.
Trean, by understanding the complex
interactions among no - till, crop diversity, crop synergism, and the soil
microbial community, one can develop cropping
systems that yield more, but do not necessarily require more inputs.
Together, these
interactions — from enzymes to minerals to populations — represent
microbial networks as ever - changing
systems, much like what's observed in experiments.