Diatoms are unicellular photosynthetic algae, or phytoplankton, and account for approximately 20% of global primary production. The diatom Pseudo-nitzschia can produce a neurotoxin called domoic acid (DA) that builds up in the tissues of shellfish when this diatom blooms. DA poisoning causes life-threatening conditions in mammals and humans when these shellfish are ingested. Parameters such as shellfish exposure length and bloom toxicity can be found by understanding what regulates diatom communities. One mechanism of bloom regulation that we know little about is that of viral infection, despite viruses being the most abundant predator in the ocean. My lab is isolating and characterizing viruses to develop a model system. After a toxic Pseudo-nitzschia bloom at Sunset Beach, Oregon was sampled in 2009, the first Pseudo-nitzschia infecting virus was isolated by infecting the host P. multiseries Clnn-16. This virus was named PmDNAV and was characterized by its burst size, latent period, host range, morphology, and nucleic acid content. I hypothesize that there are many different viruses that can infect diatoms of the genus Pseudo-nitzschia in addition to the PmDNAV. My project focuses on isolating and characterizing more viruses, in order to compare them to the PmDNAV. I have samples from 4 different blooms and 43 different hosts in culture to test these lysates on. I found that the host Clnn-16 dies when inoculated with lysates from the Sunset Beach sampling. I repeated this experiment to prove that my lysates could infect a new healthy host. I am working to prove that this death is due to a virus by looking for small pinpricks of light on a slide after staining the nucleic acids of the putative viruses. After that, I will make the virus clonal and work to characterize this virus, later repeating this process with as many viruses as possible.