Abstract
Boulders provide ecologically important hard grounds in shelf seas, and form protected habitats under the European Habitats Directive. Boulders on the seafloor can usually be recognized in backscatter mosaics due to a characteristic pattern of high backscatter intensity followed by an acoustic shadow. The manual identification of boulders on mosaics is tedious and subjective, and thus could benefit from automation. In this study, we train an object detection framework, RetinaNet, based on a neural network backbone, ResNet, to detect boulders in backscatter mosaics derived from a sidescan-sonar operating at 384 kHz. A training dataset comprising 4617 boulders and 2005 negative examples similar to boulders was used to train RetinaNet. The trained model was applied to a test area located in the Kriegers Flak area (Baltic Sea), and the results compared to mosaic interpretation by expert analysis. Some misclassification of water column noise and boundaries of artificial plough marks occurs, but the results of the trained model are comparable to the human interpretation. While the trained model correctly identified a higher number of boulders, the human interpreter had an advantage at recognizing smaller objects comprising a bounding box of less than 7 × 7 pixels. Almost identical performance between the best model and expert analysis was found when classifying boulder density into three classes (0, 1–5, more than 5) over 10,000 m2 areas, with the best performing model reaching an agreement with the human interpretation of 90%.
Highlights
Hard substrata are ecologically important as they provide habitat structures for highly specialized communities that in turn significantly contribute to benthic production, and provide irreplaceable ecosystem services [1]
Marine hard-substrata are areas of special interest to study ecosystem functioning, and for marine nature conservation and their detection should be a key goal of geological seafloor mapping
4617 boulders have been recognized on the training mosaics, while a manual counting at a scale of
Summary
Hard substrata are ecologically important as they provide habitat structures for highly specialized communities that in turn significantly contribute to benthic production, and provide irreplaceable ecosystem services [1]. The three-dimensional structures enhance small-scale spatial habitat variability and thereby lead to high biodiversity. They provide refuge or serve as nursery areas for a variety of species throughout the marine food-webs and the inhabiting communities play a major role in benthic-pelagic coupling and nutrient cycling. Marine hard-substrata are areas of special interest to study ecosystem functioning, and for marine nature conservation and their detection should be a key goal of geological seafloor mapping. Hard substrates as the southern Baltic boulder fields are protected habitats under
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