Global biodiversity patterns of marine forests of brown macroalgae

Aim Marine forests of brown macroalgae create essential habitats for coastal species and support invaluable ecological services. Here, we provide the first global analysis of species richness and endemicity of both the kelp and fucoid biomes. Location Global. Time period Contemporary. Major taxa stu...

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Bibliographic Details
Published in:Global Ecology and Biogeography
Main Authors: Fragkopoulou, Eliza, Serrão, Ester A., De Clerck, Olivier, Costello, Mark J., Araújo, Miguel B., Duarte, Carlos M., Krause-Jensen, Dorte, Assis, Jorge
Other Authors: Marine Science Program, Red Sea Research Center (RSRC), Biological and Environmental Science and Engineering (BESE) Division, Algarve Center of Marine Sciences (CCMAR-Algarve) University of the Algarve Faro Portugal, Phycology Research Group Biology Department Ghent University Ghent Belgium, Faculty of Bioscience and Aquaculture Nord Universitet Postboks 1490 Bodø Norway, Department of Biogeography and Global Change National Museum of Natural Sciences CSIC Calle José Gutiérrez Abascal Madrid Spain, Rui Nabeiro Biodiversity Chair MED – Mediterranean Institute for Agriculture, Environment and Development University of Évora Largo dos Colegiais Évora Portugal, Arctic Research Centre (ARC) Aarhus University Århus C Denmark, Department of Bioscience Aarhus University Silkeborg Denmark
Format: Article in Journal/Newspaper
Language:unknown
Published: Wiley 2022
Subjects:
Galapagos
Pacific
Antarc*
Antarctica
Siberia
Online Access:http://hdl.handle.net/10754/675011
https://doi.org/10.1111/geb.13450
Description
Summary:Aim Marine forests of brown macroalgae create essential habitats for coastal species and support invaluable ecological services. Here, we provide the first global analysis of species richness and endemicity of both the kelp and fucoid biomes. Location Global. Time period Contemporary. Major taxa studied Marine forests of brown macroalgae, formed by kelp (here defined as orders Laminariales, Tilopteridales and Desmarestiales) and fucoid (order Fucales), inhabiting subtidal and intertidal environments. Methods We coupled a large dataset of macroalgal observations (420 species, 1.01 million records) with a high-resolution dataset of relevant environmental predictors (i.e., light, temperature, salinity, nitrate, wave energy and ice coverage) to develop stacked species distribution models (stacked SDMs) and yield estimates of global species richness and endemicity. Results Temperature and light were the main predictors shaping the distribution of subtidal species, whereas wave energy, temperature and salinity were the main predictors of intertidal species. The highest regional species richness for kelp was found in the north-east Pacific (maximum 32 species) and for fucoids in south-east Australia (maximum 53 species), supporting the hypothesis that these regions were the evolutionary sources of global colonization by brown macroalgae. Locations with low species richness coincided between kelp and fucoid, occurring mainly at higher latitudes (e.g., Siberia) and the Baltic Sea, where extensive ice coverage and low-salinity regimes prevail. Regions of high endemism for both groups were identified in the Galapagos Islands, Antarctica, South Africa and East Russia. Main conclusions We estimated the main environmental drivers and limits shaping the distribution of marine forests of brown macroalgae and mapped biogeographical centres of species richness and endemicity, which largely coincided with the expectation from previous evolutionary hypotheses. The mapped biodiversity patterns can serve as new baselines for planning ...

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