Please use this identifier to cite or link to this item: http://hdl.handle.net/10553/107029
Title: Mapping subtropical and tropical rhodolith seabeds using Side Scan Sonar technology
Authors: Cosme De Esteban, Marcial 
Otero Ferrer, Francisco 
Tuya, Fernando 
Espino Rodríguez, Fernando 
Abreu, Antonio Domingo
Haroun, Ricardo 
UNESCO Clasification: 251004 Botánica marina
Keywords: Cartography
Habitat characterization
Shallow structure
Acoustic technologies
Issue Date: 2018
Project: Canary Islands Marine habitats: Structure and biodiversity of rhodolith seabeds
Conference: VI International Rhodolith Workshop 2018 
Abstract: The cartography of seabeds, using acoustic technologies for mapping marine benthic communities is increasing and highly demanded in the management of subtropical and tropical environments where rapid anthropogenic development often occurring in coastal zones. The side-scan sonar (SSS) is an effective tool with greater use in several nautical disciplines (e.g. seaweed monitoring). In this study, the SSS was successfully employed to collect data from subtropical (Canary Islands, Spain) and tropical (Principe Island, Republic of Sao Tome and Principe) rhodolith seabeds from 3-40m in depth. A list of pre-characterization habitats was generated in each studied area, using post-processing software and then corroborated by ground-truthing methods (submarine video and diving). Rhodolith seabeds were distinguished from bare sediment, rocky and coral reefs and seagrass meadows. In Gando bay (Canary Islands), two main areas were surveyed. The northern part showed extensive rhodolith beds up to 40m deep interspersed with rocky areas and sand ripples. Otherwise , sand stretches appeared combined with rhodoliths and mixed patches of macroalgae and marine seaweeds (e.g. Caulerpa prolifera and Cymodocea nodosa, respectively) from 15 to 40m. Otherwise, in Principe Island four areas were analyzed with rhodolith beds mostly concentrated at the north and west part of the island. These biogenic habitats appeared mixed with sandy ripples and colonies of Scleractinian corals in shallow waters (from 3 to 10m) becoming more homogeneous in deeper areas (30m). The created Geo-referenced habitat maps denoted the efficiency of SSS methods (combined with ground-truthing) for similar studies involving rhodolith seabeds.
URI: http://hdl.handle.net/10553/107029
Source: VI International Rhodolith Workshop 2018, June 25 to 29, Marine Station of Roscoff, France
Appears in Collections:Actas de congresos
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