Assessing Virulence and Transmission Rates of White Spot Syndrome Virus (WSSV) in Two Ecologically Important Palaemonid Shrimp

Caeleighn Bernard1,2, Bradley Keesee3, Christy Philippoff1, Steve Curran3, Jeff Lotz3 and Eric Powell4, (1)Mississippi Gulf Coast Community College, Gautier, MS, United States, (2)University of Southern Mississippi, Gulf Coast Research Laboratory, Stennis Space Center, MS, United States, (3)University of Southern Mississippi, Gulf Coast Research Laboratory, Ocean Springs, MS, United States, (4)University of Southern Mississippi, Department of Coastal Sciences, Ocean Springs, MS, United States
Abstract:
Investigators, including three REU interns, conducted an experiment to quantify parameters for an epidemiological model designed to estimate disease transmission in marine invertebrates. White spot syndrome virus (WSSV) is a highly pathogenic disease affecting commercially important penaeid shrimp fisheries worldwide. The virus devastates penaeid shrimp but other varieties of decapods may serve as reservoirs for disease by being less susceptible to WSSV or refractory to disease. Non-penaeid crustaceans are less susceptible to WSSV, and different species have variable resistance to the disease leading to different potential to serve as reservoirs for transmission of the disease to coastal penaeid fisheries. This study investigates virulence and transmission rates of WSSV in two palaemonid shrimp which are keystone members of coastal food webs, and effects of species interactions on transmission rates of WSSV are estimated in a laboratory setting as a proxy for natural habitats. Two species of grass shrimp were exposed to a Chinese strain of WSSV through feeding the test individuals with previously prepared, inoculated penaeid shrimp. Replicated tanks containing 30 animals were exposed to the virus in arenas containing one or both species for 24 hours, then isolated in 1 liter tanks and monitored. During the isolation period moribund individuals were preserved for later analysis. After 7 days all test individuals were analyzed using qPCR to determine WSSV presence and load in DNA. From these data transmission rates, mortality, and viral concentration were quantified and used as parameters in a simple epidemiological model.