1. Investigating leatherback surface behavior using a novel tag design and machine learning.
- Author
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Rogers, Rick, Choate, Kate H., Crowe, Leah M., Hatch, Joshua M., James, Michael C., Matzen, Eric, Patel, Samir H., Sasso, Christopher R., Siemann, Liese A., and Haas, Heather L.
- Subjects
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MACHINE learning , *IMAGE recognition (Computer vision) , *MACHINE design , *CAMCORDERS , *ANIMAL behavior - Abstract
Understanding the surfacing behavior of marine wildlife is an important component for improving abundance estimates derived from visual surveys. We monitored the behavior of 18 leatherback sea turtles (Dermochelys coriacea) in coastal habitats off Massachusetts, USA, using a high-resolution camera and satellite tag package (HiCAS - High Resolution Camera and Satellite) that we assembled from commercially available components which work independently. We used nine data streams derived from the multiple sensors and a video camera to explore four different depth thresholds defining surface zones. We compared classification of video images by a human to classification of those images by a machine learning algorithm. We calculated four metrics to describe surface behavior for each of the nine data streams. The mean percent time at the surface was the only behavior metric that changed systematically as data streams were used to assess different visible depth thresholds, increasing as the depth threshold increased. Other behavior metrics (mean surface duration, mean dive duration and number of surfacing events per hour) were less similar across data streams, making them unreliable for estimating surface availability. This study highlights the need for sustained data collection to better inform the availability bias estimates used to calculate abundance from visual observations. [Display omitted] • A novel animal-born tag was developed to better understand surface behavior. • High resolution video, multiple sensors, and different parameterizations were used. • Machine learning was evaluated for automated data retrieval from video. • Percent time at surface was the most reliable metric describing surface behavior. • Observed variability suggests caution needed when estimating surface behavior. [ABSTRACT FROM AUTHOR]
- Published
- 2024
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