4-1 Sat Jan 2 Remoras pick where they stick on blue whales Flammang, BE*; Marras, S; Anderson, EJ; Lehmkuhl, O; Mukherjee, A; Cade, DE; Beckert, M; Nadler, JH; Houzeaux, G; Vázquez, M; Amplo, HE; Calambokidis, J; Friedlaender, AS; Goldbogen, JA; NJIT/Rutgers University; NJIT; Woods Hole Oceanographic Institution; Barcelona Supercomputing Center; NJIT; Stanford University; Georgia Tech Research Institute; Georgia Tech Research Institute; Barcelona Supercomputing Center; Barcelona Supercomputing Center; NJIT/Rutgers University; Cascadia Research Collective; University of California Santa Cruz flammang@njit.edu http://web.njit.edu/~flammang/
Animal-borne video recordings from blue whales in the open ocean show that remoras preferentially adhere to specific regions of the surface of the whale. Using empirical and computational fluid dynamics analyses, we show that remora attachment was specific to regions of separating flow and wakes caused by surface features on the whale. Adhesion at these locations offers remoras drag reduction up to 71-84% compared to the freestream. Remoras were observed to move freely along the surface of the whale using skimming and sliding behaviors. Skimming provided drag reduction as high as 50 – 72% at some locations for some remora sizes, but little to none was available in regions where few to no remoras were observed. Experimental work suggests that the Venturi effect may help remoras stay near the whale while skimming. Understanding the flow environment around a swimming blue whale will inform the placement of biosensor tags to increase attachment time for extended ecological monitoring.
