Density and sound speed of two gelatinous zooplankton:: Ctenophore (Mnemiopsis leidyi) and lion's mane jellyfish (Cyanea capillata)

The density and sound speed of two coastal, gelatinous zooplankton, Mnemiopsis leidyi (a ctenophore) and Cyanea capillata (lion's mane jellyfish), were measured. These parameters are important inputs to acoustic scattering models. Two different methods were used to measure the density of individual animals: one used a balance and graduated cylinder to determine the mass and displacement volume of the animal, the other varied the density of the solution the animal was immersed in. When the same animal was measured using both methods, density values were within 1% of each other. A travel-time difference method was used to measure the sound speed within the animals. The densities of both zooplankton slightly decreased as the animals increased in length, mass, and volume. The ratio of animal density and sound speed to the surrounding seawater (g and h, respectively) are reported for both animals. For Mnemiopsis leidyi ranging in length from 1 to 5 cm, the mean value (+/- standard deviation) of g and h were 1.009 (+/- 0.004) and 1.007 (+/- 0.001). For Cyanea capillata ranging in bell diameter from 2 to 11 cm, the mean value (+/- standard deviation) of g and single value of h were 1.009 (+/- 0.004) and 1.0004. (c) 2007 Acoustical Society of America.