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Main Authors: Copilaș-Ciocianu, Denis, Marin, Ivan, Šidagytė-Copilas, Eglė, Berchi, Gavril Marius, Ahmadova, Konul, Mumladze, Levan, Palcu Rolier, Dan V, Palatov, Dmitry, Sands, Arthur F
Format: Artículo científico
Language:en
Published: Cladistics : the international journal of the Willi Hennig Society 2025
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Online Access:https://pubmed.ncbi.nlm.nih.gov/40853735/
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author Copilaș-Ciocianu, Denis
Marin, Ivan
Šidagytė-Copilas, Eglė
Berchi, Gavril Marius
Ahmadova, Konul
Mumladze, Levan
Palcu Rolier, Dan V
Palatov, Dmitry
Sands, Arthur F
author_facet Copilaș-Ciocianu, Denis
Marin, Ivan
Šidagytė-Copilas, Eglė
Berchi, Gavril Marius
Ahmadova, Konul
Mumladze, Levan
Palcu Rolier, Dan V
Palatov, Dmitry
Sands, Arthur F
Copilaș-Ciocianu, Denis
Marin, Ivan
Šidagytė-Copilas, Eglė
Berchi, Gavril Marius
Ahmadova, Konul
Mumladze, Levan
Palcu Rolier, Dan V
Palatov, Dmitry
Sands, Arthur F
collection PubMed - marine biology
contents Marine and inland biogeographical processes shaped Earth's singular brackish biodiversity hotspot. Copilaș-Ciocianu, Denis Marin, Ivan Šidagytė-Copilas, Eglė Berchi, Gavril Marius Ahmadova, Konul Mumladze, Levan Palcu Rolier, Dan V Palatov, Dmitry Sands, Arthur F Phylogeography Biodiversity Amphipoda Animals Caspian Sea Black Sea Saline Waters Phylogeny Fossils Life radiated in aquatic environments worldwide. Brackish waters, however, seemingly hinder diversification as their physiologically demanding environmental stochasticity favours transient and impoverished communities assembled from widespread generalist species. Yet, the Ponto-Caspian basin (Aral, Azov, Black and Caspian seas) defies this rule, its rich endemic biota representing the only brackish biodiversity hotspot on Earth. Nevertheless, its origin, age and biogeographic history remain contentious. Here, we reconstruct the evolutionary timescale and diversification dynamics of gammaroidean amphipods, the most diverse Ponto-Caspian faunal group. We show that amphipods started radiating 11 Myr ago when the Paratethys Sea became isolated from the global ocean and stable brackish conditions ensued. Diversification proceeded steadily despite the subsequent water level fluctuations that persisted towards the end of the Miocene. The final Paratethyan Pliocene dissolution into the isolated Black and Caspian seas, followed by their brief intermittent connections during the mid-late Pleistocene, sparked further diversification via dispersal-vicariance pulses. Lastly, a five times faster mitochondrial substitution rate was estimated relative to the typical arthropod rate. Despite the significant geo-environmental upheaval, amphipods show a remarkably continuous evolutionary history shaped by a unique interplay between marine and inland biogeographical processes, highlighting that brackish water can support diverse and enduring evolutionary radiations.
format Artículo científico
id pubmed_40853735
institution PubMed
language en
publishDate 2025
publisher Cladistics : the international journal of the Willi Hennig Society
record_format pubmed
spellingShingle Marine and inland biogeographical processes shaped Earth's singular brackish biodiversity hotspot.
Copilaș-Ciocianu, Denis
Marin, Ivan
Šidagytė-Copilas, Eglė
Berchi, Gavril Marius
Ahmadova, Konul
Mumladze, Levan
Palcu Rolier, Dan V
Palatov, Dmitry
Sands, Arthur F
Phylogeography
Biodiversity
Amphipoda
Animals
Caspian Sea
Black Sea
Saline Waters
Phylogeny
Fossils
Marine and inland biogeographical processes shaped Earth's singular brackish biodiversity hotspot. Copilaș-Ciocianu, Denis Marin, Ivan Šidagytė-Copilas, Eglė Berchi, Gavril Marius Ahmadova, Konul Mumladze, Levan Palcu Rolier, Dan V Palatov, Dmitry Sands, Arthur F Phylogeography Biodiversity Amphipoda Animals Caspian Sea Black Sea Saline Waters Phylogeny Fossils Life radiated in aquatic environments worldwide. Brackish waters, however, seemingly hinder diversification as their physiologically demanding environmental stochasticity favours transient and impoverished communities assembled from widespread generalist species. Yet, the Ponto-Caspian basin (Aral, Azov, Black and Caspian seas) defies this rule, its rich endemic biota representing the only brackish biodiversity hotspot on Earth. Nevertheless, its origin, age and biogeographic history remain contentious. Here, we reconstruct the evolutionary timescale and diversification dynamics of gammaroidean amphipods, the most diverse Ponto-Caspian faunal group. We show that amphipods started radiating 11 Myr ago when the Paratethys Sea became isolated from the global ocean and stable brackish conditions ensued. Diversification proceeded steadily despite the subsequent water level fluctuations that persisted towards the end of the Miocene. The final Paratethyan Pliocene dissolution into the isolated Black and Caspian seas, followed by their brief intermittent connections during the mid-late Pleistocene, sparked further diversification via dispersal-vicariance pulses. Lastly, a five times faster mitochondrial substitution rate was estimated relative to the typical arthropod rate. Despite the significant geo-environmental upheaval, amphipods show a remarkably continuous evolutionary history shaped by a unique interplay between marine and inland biogeographical processes, highlighting that brackish water can support diverse and enduring evolutionary radiations.
title Marine and inland biogeographical processes shaped Earth's singular brackish biodiversity hotspot.
topic Phylogeography
Biodiversity
Amphipoda
Animals
Caspian Sea
Black Sea
Saline Waters
Phylogeny
Fossils
url https://pubmed.ncbi.nlm.nih.gov/40853735/