19 October 2011

Spiny lobster denning behavior


What factors contribute to the denning behavior of Florida Bay's juvenile spiny lobster (Panularis argus) population? And how might shelter loss events, such as sponge die-offs, influence denning behavior and dispersal? What is the most effective way to conserve this important marine resource?
Katherine (Kat) Heldt, PhD candidate from Clemson University, has spent several months at KML, observing "social status" among lobsters and testing what mechanisms by which they choose shelters. Kat hopes to determine whether dominance status or familiarity can influence denning behavior and dispersal.

First, pairs of lobsters are housed in 15-gal replicate aquaria, plumbed to KML's seawater system. They are offered artificial shelter and observed at night for aggressive behavior under dim red lighting.

Next, the lobsters are transferred to KML's mesocosm ("The Shallows", KML's 122,000-gal flow-thru seawater pond) along with unfamiliar individuals (pairs housed in separate aquaria) equipped with artificial shelters. After several days of observing denning behavior and dispersal in the mesocosm, some of the shelter blocks are removed to mimic sudden habitat loss.

Finally, the tagged lobsters are released onto field sites (16 pre-selected 25m x 25m near-shore bay-side sites) for further observation.

Kat and her lab assistant, Frank, self-captain KML's 18' Parker, the R/V NariNari, to reach their sites.

01 October 2011

FAU students take a fish-eye view of marine habitats


No, this is not synchronized swim class. Dr. Stephen Kajiura, professor at Florida Atlantic University, brought 17 graduate students down to KML for their Sensory Biology and Behavior of Fish field trip in October. They spent 3 days exploring the various marine habitats, observing and discussing fish behavior.
Moving off the reef into deep water, students paired up to see how well they could navigate (ie swim a straight line) without visual references, such as being able to see the bottom. Students all agreed that they would make very poor fish. In another exercise, they were challenged to detect sounds of varying frequencies, while under water at varying depths and distances from the sound source.
Dr. Kajiura and his grad students are frequent visitors to KML, studying elasmobranch sensory abilities.