1. Assessing Fine-Scale Distribution and Volume of Mediterranean Algal Reefs through Terrain Analysis of Multibeam Bathymetric Data. A Case Study in the Southern Adriatic Continental Shelf
- Author
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Alessandra Savini, Cesare Corselli, Fabio Marchese, Daniela Basso, Valentina Alice Bracchi, Giulia Lisi, Marchese, F, Bracchi, V, Lisi, G, Basso, D, Corselli, C, and Savini, A
- Subjects
lcsh:Hydraulic engineering ,010504 meteorology & atmospheric sciences ,spatial analysis ,Effects of global warming on oceans ,Geography, Planning and Development ,Aquatic Science ,010502 geochemistry & geophysics ,01 natural sciences ,Biochemistry ,Mediterranean Basin ,Mediterranean sea ,lcsh:Water supply for domestic and industrial purposes ,lcsh:TC1-978 ,Bathymetry ,Reef ,0105 earth and related environmental sciences ,Water Science and Technology ,geography ,lcsh:TD201-500 ,multibeam bathymetry ,geography.geographical_feature_category ,biology ,Continental shelf ,Coralline algae ,geomorphometry ,biology.organism_classification ,Bottom trawling ,Algal reef ,Oceanography ,Spatial analysi ,bioconstruction volume ,algal reefs ,Geology ,seafloor mapping - Abstract
In the Mediterranean Sea, crustose coralline algae form endemic algal reefs known as Coralligenous (C) build-ups. The high degree of complexity that C can reach through time creates notable environmental heterogeneity making C a major hotspot of biodiversity for the Mediterranean basin. C build-up can variably modify the submarine environment by affecting the evolution of submerged landforms, although its role is still far from being systematically defined. Our work proposes a new, ad-hoc semi-automated, GIS-based methodology to map the distribution of C build-ups in shallow coastal waters using high-resolution bathymetric data, collected on a sector of the southern Apulian continental shelf (Southern Adriatic Sea, Italy). Our results quantitatively define the 3D distribution of C in terms of area and volume, estimating more than 103,000 build-ups, covering an area of roughly 305,200 m2, for a total volume of 315,700 m3. Our work firstly combines acoustic survey techniques and geomorphometric analysis to develop innovative approaches for eco-geomorphological studies. The obtained results can contribute to a better definition of the ocean carbon budget, and to the monitoring of local anthropogenic impacts (e.g., bottom trawling damage) and global changes, like ocean warming and acidification. These can affect the structural complexity and total volume of carbonate deposits characterizing the Mediterranean benthic environment.
- Published
- 2020
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