Abstract
AbstractVarious imaging systems are producing complex data that improve our understanding of physical and biological coupling in the ocean. In-situ shadowgraph imaging is one sampling technique that captures detailed biological information for a wide range of plankton with
differing body compositions (e.g., gelatinous to crustacean) in their natural orientations, as well as small-scale physical changes. When combined with rapidly advancing computer vision methods and high-resolution oceanographic observations, shadowgraph imagery holds promise for generating
new discoveries in ocean science that are only limited by our creativity in asking new questions.
Publisher
Marine Technology Society
Subject
Ocean Engineering,Oceanography
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