Tag data show major changes in locomotion before and after disentanglement. Modeling the drag forces of the removed gear, we show that entangled whales can have significantly increased energetic demand. Sedative injection had little to no effect on dive parameters or respiration rate. It is likely that in this condition, behavior is dominated by the effect of entangling gear rather than of a light sedative. At the dosage level (0.1 mg/kg), Midazolam has not been found to cause cardiovascular, respiratory, or airway reflex changes in humans (Reves et al. 1985), though progestogen antagonist a previous
study reports increased respiration rates following sedation in right whales (Moore et al. 2010). After sedation, Eg 3911 spent a greater proportion of time below the wave-drag threshold (5.58 m), though showed no difference in maximum dive depth. This increased submergence time may be linked to the lethargy associated with sedation. Moore et al. (2010) describe less forceful surfacing events in sedated right whales. However, increased fluke rate and RMS energy postsedation may suggest the drugs had an analgesic effect in reducing
entanglement-associated pain, and therefore freeing the animal to locomote more strongly. Selleck LY2835219 The near-complete disentanglement of Eg 3911 resulted in significant increases in dive duration and depth. Similarly, Williams et al. (1993) found that increased drag loading in harbor seals led to shortened dive times. As dive duration is considered limited by the total amount and rate of consumption of body oxygen stores, the elevated energetic cost associated with additional entanglement drag likely quickly depletes available oxygen, leading to premature dive termination. Changes in kinematics and
dive parameters indicate the whale altered its behavior immediately following disentanglement. Previous studies suggest that propulsive forces are increased in response to changes in resistive forces, where elephant seals adjust stroke intensity when buoyancy is experimentally altered (Aoki et al. 2011). Animals may also actively alter swimming dynamics or posture to compensate for find more an added load. As suggested by Watson and Granger (1998), animals facing an increase in drag may either (1) maintain characteristic velocity, exponentially increasing energy expenditure; or (2) reduce swimming speed in an attempt to reduce the cost of locomotion. Fluke stroke rate, which has been shown to correlate with speed in dolphins (Fish 1993) and other cetaceans (Fish 1998), increased significantly following disentanglement. Further, Eg 3911 showed descent and ascent speeds 57% and 31% faster (respectively) after disentanglement, greater than the expected 14.5%–27.7% as calculated above. While changes in swimming speed were likely due to a combination of factors rather than energy conservation alone (e.g.
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