Mollusk death assemblages in 210Pb-dated marine sediment cores reveal recent biotic changes in the Gulf of Guanahacabibes, NW Cuba

We investigated stratigraphic changes in mollusk death assemblages and geochemistry in sediment cores from four seagrass beds and one unvegetated site in the Gulf of Guanahacabibes (GG), NW Cuba. There was a transition from mangrove to seagrass beds, associated with sea level rise ∼6000 years ago. S...

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Veröffentlicht in:	Marine environmental research 2021-10, Vol.171, p.105477-105477, Article 105477
Hauptverfasser:	Armenteros, Maickel, Díaz-Asencio, Misael, Peraza-Escarrá, Rosely, Fernández-Garcés, Raúl, Martínez-Suárez, Adrián, Kenney, William F., Brenner, Mark
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Schlagworte:	14C dating 210Pb dating Benthic ecology Biodiversity Cores Eutrophication Geochemistry Grain size Gulf of Mexico Heterogeneity Lead isotopes Mangroves Marine molluscs Marine sediments Mollusks Patchiness Plant cover Population decline Sea grasses Sea level changes Sea level rise Seagrass Sediment Sedimentation rates Sediments Shellfish Soil conservation Spatial heterogeneity Species richness Stratigraphy Trophic guild Vegetation cover
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description	We investigated stratigraphic changes in mollusk death assemblages and geochemistry in sediment cores from four seagrass beds and one unvegetated site in the Gulf of Guanahacabibes (GG), NW Cuba. There was a transition from mangrove to seagrass beds, associated with sea level rise ∼6000 years ago. Sediment accumulation rates during the last century showed a general rise, but increased sharply after ∼1980, likely because of human activities. The GG displayed overall high mollusk γ-diversity, and our estimate of 189 species is biased toward the low end. High β-diversity was driven by inter-site differences in grain size, vegetation cover, and nutrient input. Spatial heterogeneity within the basin influenced downcore abundance and diversity metrics, highlighting the influence of local drivers. Herbivorous gastropods dominated in seagrass beds and suspension feeder bivalves were dominant on sandy bottom. In the top parts of cores, species richness declined at two sites that were subject to high, human-mediated bulk sedimentation rates and eutrophication. Conservation measures are needed to preserve this hotspot of marine diversity. •Mollusk γ-diversity in seagrass beds, likely biased toward the low end, was 189 ± 7 species.•β-diversity is driven by differences in sediment grain size, vegetation, and nutrients.•Herbivore gastropods dominate in seagrass beds and suspension feeder bivalves dominate on sandy bottom.•Mollusk species richness declined in recent deposits from two seagrass sites because human activities.•There was a transition from mangrove to seagrass bed ∼6000 years ago.
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There was a transition from mangrove to seagrass beds, associated with sea level rise ∼6000 years ago. Sediment accumulation rates during the last century showed a general rise, but increased sharply after ∼1980, likely because of human activities. The GG displayed overall high mollusk γ-diversity, and our estimate of 189 species is biased toward the low end. High β-diversity was driven by inter-site differences in grain size, vegetation cover, and nutrient input. Spatial heterogeneity within the basin influenced downcore abundance and diversity metrics, highlighting the influence of local drivers. Herbivorous gastropods dominated in seagrass beds and suspension feeder bivalves were dominant on sandy bottom. In the top parts of cores, species richness declined at two sites that were subject to high, human-mediated bulk sedimentation rates and eutrophication. Conservation measures are needed to preserve this hotspot of marine diversity. •Mollusk γ-diversity in seagrass beds, likely biased toward the low end, was 189 ± 7 species.•β-diversity is driven by differences in sediment grain size, vegetation, and nutrients.•Herbivore gastropods dominate in seagrass beds and suspension feeder bivalves dominate on sandy bottom.•Mollusk species richness declined in recent deposits from two seagrass sites because human activities.•There was a transition from mangrove to seagrass bed ∼6000 years ago.</abstract><cop>London</cop><pub>Elsevier Ltd</pub><doi>10.1016/j.marenvres.2021.105477</doi><tpages>1</tpages><orcidid>https://orcid.org/0000-0002-9736-9247</orcidid></addata></record>
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subjects	14C dating 210Pb dating Benthic ecology Biodiversity Cores Eutrophication Geochemistry Grain size Gulf of Mexico Heterogeneity Lead isotopes Mangroves Marine molluscs Marine sediments Mollusks Patchiness Plant cover Population decline Sea grasses Sea level changes Sea level rise Seagrass Sediment Sedimentation rates Sediments Shellfish Soil conservation Spatial heterogeneity Species richness Stratigraphy Trophic guild Vegetation cover
title	Mollusk death assemblages in 210Pb-dated marine sediment cores reveal recent biotic changes in the Gulf of Guanahacabibes, NW Cuba
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