Meeting Abstract

P2.132  Sunday, Jan. 5 15:30  Effects of hypoxia and sub-lethal bacterial injection on critical oxygen pressures of penaeid shrimp SONG, S.M.*; BURNETT, L.E.; BURNETT, K.G.; College of Charleston; College of Charleston; College of Charleston song.sarah@gmail.com

Estuarine organisms such as juvenile penaeid shrimp experience fluctuating O₂ pressures on a daily basis. In coastal waters of the southeastern US, severe hypoxia (4-6 kPa) is common in the summer, also a time during which bacterial concentrations in seawater are high. In response to invading bacteria, crustaceans mount an immune defense resulting in aggregation of circulating hemocytes. These aggregates can be trapped in and obstruct hemolymph flow through the gills, inhibiting O₂ uptake. Hypoxia itself is also known to inhibit immune function. In this study we compare overall O₂ uptake in two commercially important shrimp species following acute exposure to environmental hypoxia, and injection with a sublethal dose of bacteria. Wild-caught Litopenaeus setiferus (Atlantic white shrimp) and aquacultured L. vannamei (Pacific whiteleg shrimp) were held in normoxia (>16 kPa) or hypoxia (~10 kPa) and injected with saline or bacteria (Vibrio campbellii 90-69B3). The rate of O₂ uptake and critical O₂ pressure (Pcrit), the pressure below which O₂ uptake depends on available O₂, were measured. Trials with bacterial injections are ongoing; preliminary results of LD₅₀ tests suggest that virulence of V. campbellii in L. setiferus (LD₅₀ = approx. 7.61×10⁵ CFU g^–1 shrimp) is similar to that previously determined in L. vannamei (LD₅₀ = 3.06×10⁵ CFU g^–1 shrimp). In normoxia, the Pcrit of L. vannamei (3.5 kPa) is lower than that of L. setiferus (6.3 kPa). This is consistent with previous findings in our lab, that hemocyanin in L. vannamei has a higher O₂ affinity than that in L. setiferus. These data suggest that L. vannamei is better adapted to hypoxia than L. setiferus. (NSF IOS-1147008)