Frog Virus 3: Tracking Viral Spread using Molecular Tools

Abstract

Understanding the maintenance and spread of invasive diseases is critical in evaluating threats to biodiversity and how to best minimize their impact, which can by done by monitoring disease occurrences across time and space. I sought to apply existing and upcoming molecular tools to assess fluctuations in both presence and strain variation of frog virus 3 (FV3), a species of Ranavirus, across Canadian waterbodies. I explored the temporal patterns and spatial distribution of ranavirus presence across multiple months and seasons using environmental DNA techniques. Results indicate that ranavirus was present in approximately 72.5% of waterbodies sampled on a fine geographical scale (<10km between sites, 7,150 km2), with higher detection rates in later summer months than earlier. I then explored the sequence variability at the major capsid protein gene (MCP) and putative virulence gene (vIF-2α) of FV3 samples from Ontario, Alberta, and the Northwest Territories, with the premise of understanding pathogen movement across the landscape. However, a lack of genetic diversity was found across regions, likely due to a lack of informative variation at the chosen genetic markers or lack of mutation. Instead, I found a novel FV3-like ranavirus and evidence for a recombinant between FV3 and a ranavirus of another lineage. This thesis provides a deeper understanding into the spatio-temporal distribution of FV3, with an idea of how widespread and threatening ranaviruses are to amphibian diversity.

Keywords: ranavirus, frog virus 3, amphibians, environmental DNA, phylogenetics, wildlife disease, disease surveillance, major capsid protein, vIF-2α

Author Keywords: amphibians, environmental DNA, frog virus 3, phylogenetics, ranavirus, wildlife disease

    Item Description
    Type
    Contributors
    Thesis advisor (ths): Kyle, Christopher J
    Thesis advisor (ths): Brunetti, Craig R
    Degree committee member (dgc): Wilson, Chris C
    Degree granting institution (dgg): Trent University
    Date Issued
    2018
    Date (Unspecified)
    2018
    Place Published
    Peterborough, ON
    Language
    Extent
    114 pages
    Rights
    Copyright is held by the author, with all rights reserved, unless otherwise noted.
    Local Identifier
    TC-OPET-10577
    Publisher
    Trent University
    Degree
    Master of Science (M.Sc.): Environmental and Life Sciences