EAGER: High-throughput, culture-independent technique identifying cyanobacteria infections to improve understanding of carbon biogeochemical cycling

EAGER: High-throughput, culture-independent technique identifying cyanobacteria infections to improve understanding of carbon biogeochemical cycling

Authors
Sarah Preheim
Discipline
Oceanography
Funder
National Science Foundation (NSF)
Field
Natural Sciences
Organization
Johns Hopkins University; Working Group on NIH DMSP Guidance
Location
United States
Description
This DMP aims to collect data on viruses and viral infections in the ocean to better understand which bacteria viruses infect. To do this, the researchers are developing a "high-throughput technique to identify cultures in the environment."
Date Last Modified
2017
Keywords
images
DNA
genomics
software development