Afonso C. L. Prestes scite author profile

Afonso C. L. Prestes

4Publications

64Citation Statements Received

68Citation Statements Given

How they've been cited

118

How they cite others

109

Affiliations

University of the Azores, University of Porto

Publications

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Arrival and proliferation of the invasive seaweed Rugulopteryx okamurae in NE Atlantic islands

Faria

Prestes

Moreu

et al. 2021

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The present study reports the recent occurrence and expansion of Rugulopteryx okamurae in the Azores archipelago (NE Atlantic). Morphological and molecular characters confirmed the species identification. Quick surveys around the island of São Miguel showed that it has successfully colonized the island and is quickly expanding. In some locations, R. okamurae is currently the dominant organism smothering all other benthic biota and posing a serious threat to the benthic ecosystems across the region. The species first record dates from 2019 near the main harbour of the island, suggesting that its introduction was driven by human-assisted transport, via boat ballast waters or adhered to ship hulls and likely originating from the Mediterranean populations that have been proliferating in recent years across the Strait of Gibraltar.

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Patterns of distribution of the invasive alga Asparagopsis armata Harvey: a multi-scaled approach

Martins¹,

Cacabelos²,

Faria³

et al. 2019

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Invasion success and development of benthic assemblages: Effect of timing, duration of submersion and substrate type

Vaz-Pinto

Torrontegi

Prestes

et al. 2014

Marine Environmental Research

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Material type and roughness influence structure of inter‐tidal communities on coastal defenses

et al. 2016

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On a global scale, urbanization has resulted in substantial proportions of coasts being replaced by artificial structures such as marinas, breakwaters and seawalls. There is broad consensus that coastal defense structures are poor surrogates of the natural habitats that they replace. Here we investigated the effects of the type and roughness of materials used for the construction of artificial structures on the surrounding biota by comparing abundances and distribution of key inter-tidal taxa between natural shores and coastal defenses. Lower abundances of gastropods and barnacles were found on artificial coastal defense structures (regardless of the material type). At small spatial scales, abundances of key taxa increased with increasing roughness. Our results suggest that the choice of materials used for the construction of coastal defense structures has little effect on community structure per se, but that enhanced roughness could make coastal defenses better surrogates of natural habitats by supporting assemblages that are more similar to those found on natural shores.

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