Abstract
Coastal living reefs provide considerable services from tropical to temperate systems. Threatened by global ocean-climate and local anthropogenic changes, reefs require spatially explicit management at the submeter scale, where socioecological processes occur. Drone surveys have adequately addressed these requirements with red-green-blue (RGB) orthomosaics and digital surface models (DSMs). The use of ancillary spectral bands has the potential to increase the mapping of all reefscapes that emerge during low tide. This research investigates the contribution of the drone-based red edge (RE), near-infrared (NIR), and DSM into the classification accuracy of five main habitats of the largest intertidal biogenic reefs in Europe, built by the honeycomb worm Sabellaria alveolata. Based on photoquadrats and the maximum likelihood algorithm, overall, producer’s and user’s accuracies were distinctly augmented. When isolated, the DSM provided the highest gain percentage (3.42%), followed by the NIR (2.58%), and RE (2.02%). When joined, the combination of the DSM with both RE and NIR was the best contributor (4.98%), followed by the DSM with RE (4.80%), DSM with NIR (3.74%), and RE with NIR (3.22%). At the class scale, all datasets increasingly advantaged sand, gravel, reef, mud and water. The rather low effect of the DSM with NIR (3.74%) was assumed to be linked with a statistical noise originated from redundant information in the intertidal area.
Highlights
Biogenic reefs consist of marine or coastal hard structures erected by living organisms such as bacteria, plants, or animals
We propose to test the surplus value of a multispectral unmanned aerial vehicle (UAV) to classify biogenic reefs at very high resolution (VHR), namely 0.17 m pixel size
Even if the intertidal reef mapping was satisfactory with VHR (0.17 m) RGB drone (Table 2 showing the accuracy percentage (AP)), the classification was shown to be improved by the spatial digital surface models (DSMs) derived from photogrammetry and multispectral linked with both red edge (RE) and NIR imageries
Summary
Biogenic reefs consist of marine or coastal hard structures erected by living organisms such as bacteria (cyanobacteria [1]), plants (rhodophyta [2]), or animals (annelida [3], cnidaria [4]). They provide numerous ecosystem services, such as coastal protection and support for biodiversity, which are of great concerns in the Anthropocene era [5]. Only five visible spectral bands were appropriate to provide benthic information given the strong light absorption by water from infrared [10].
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