Sonja J. Mevissen scite author profile

Sonja J. Mevissen

3Publications

7Citation Statements Received

52Citation Statements Given

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Marine Mammal Center, University of Hawaiʻi at Mānoa

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Horizontal angular discrimination by an echolocating bottlenose dolphin (Tursiops truncatus)

Branstetter

Herman

Pack

et al. 2000

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A bottlenose dolphin was tested on its ability to echoically discriminate horizontal angular differences between two arrays of vertical, air-filled PVC rods. The blindfolded dolphin was required to station in a submerged vertically oriented hoop 2 radial meters from the stimuli and indicate if an array with four rods (S+) was to the left or the right of an array with two rods (S−) by pressing a corresponding paddle. The rods within each array were separated by 2 deg and the two arrays were separated by eight different angles between 2.25 and 6 degrees. A modified method of constant stimuli was used to test for angular discrimination ability. The results yielded a high-pass psychometric function with an arbitrary 75% correct threshold of 1.5 deg. These data agree well with passive listening minimum audible angle thresholds of 0.9 deg for click signals and 2.1 deg for a pure tone signal (Renaud and Popper, 1975). Analyses of response times, number of clicks and inter-click intervals suggested no significant adaptive behavior was used as the task became more difficult. These results help define angular resolution capabilities of dolphin sonar that may play an important role in representing spatial information in the dolphin’s environment.

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Dolphin (Tursiops truncatus) echoic angular discrimination: Effects of object separation and complexity

Branstetter

Mevissen²,

Pack

et al. 2007

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A bottlenose dolphin was tested on its ability to echoically discriminate horizontal angular differences between arrays of vertically oriented air-filled PVC rods. The blindfolded dolphin was required to station in a submerged hoop 2 radial m from the stimuli and indicate if an array with two rods (S+) was to the right or the left of a single rod (S-). The angular separation between the two rods (thetaw) was held constant within each experiment while the angle between the S+ and the S-stimuli (thetab) varied to produce angular differences (deltatheta= thetab-thetaw) ranging from 0.25 to 4 degrees. In experiment I, thetaw was maintained at 2 degrees and in experiment II, thetaw was maintained at 4 degrees. Resulting 75% correct thresholds (method of constant stimuli) were 1.5 and 0.7 degrees, respectively. The two main findings of this study are: (1) decreasing the number of targets does not aid in localization, and (2) increasing the space between the rods enhances localization. Taken as a whole, the experiments suggest dolphins have a well-developed ability to resolve spatial information through sonar.

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HORIZONTAL ANGULAR DISCRIMINATION BY AN ECHOLOCATING BOTTLENOSE DOLPHINTURSIOPS TRUNCATUS

et al. 2003

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A bottlenose dolphin was tested on its ability to echoically discriminate horizontal angular differences between two arrays of vertical, air-filled, PVC rods. The blindfolded dolphin was required to station in a submerged, vertically-oriented hoop, 2 radial metres from the stimuli, and indicate whether an array with four rods (S+) was to the left or the right of an array with two rods (S-), by pressing a corresponding paddle. The angular separation between the rods within each array (6w) was maintained at 2 degrees but the angular separation between the two arrays (6h) was varied to produce angular differences (b.6 = eb-ew) ranging from 0.25 degrees to 4 degrees. A modified method of constant stimuli was used to test for angular discrimination ability, and yielded a psychometric function having a 75% correct threshold of 1.6 degrees. This threshold fell between the passive listening minimum audible angle thresholds of 0.9 degrees for click signals and 2.1 degrees for a pure tone signal (Renaud & Popper 1975). Analyses of response times, number of clicks and inter-click intervals failed to detect any significant adaptive behaviour occurring as the task became more difficult. These results help to define angular resolution capabilities of dolphin sonar that may play an important role in representing spatial information in the dolphin's environment.

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Sonja J. Mevissen

Horizontal angular discrimination by an echolocating bottlenose dolphin (Tursiops truncatus)

Dolphin (Tursiops truncatus) echoic angular discrimination: Effects of object separation and complexity

HORIZONTAL ANGULAR DISCRIMINATION BY AN ECHOLOCATING BOTTLENOSE DOLPHINTURSIOPS TRUNCATUS

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