Abstract
The Mediterranean Basin is a biodiversity hotspot, where islands play a key role because of their high biological diversity, degree of endemicity and human pressure. One of these islands, Sardinia, is a good evolutionary laboratory, especially for the study of complex genera, such as Centaurea. In particular, endemic species of Centaurea sect. Centaurea from Sardinia provides an interesting case study of plant evolution on continental islands. We attempted to clarify the processes leading to the diversification of Centaurea species on Sardinia using bi-parentally inherited nuclear markers and maternally inherited plastid markers. Our plastid results revealed the presence of five lineages of sect. Centaurea on the island. Three of them were defined as three species: C. ferulacea, C. filiformis and C. horrida. The other two lineages highlighted the complex evolutionary history of the two polyploids C. corensis and C. magistrorum. Multiple colonization events from the mainland involving the C. deusta and C. paniculata lineages among others, have led to the diversity of sect. Centaurea on Sardinia. One colonization event likely followed a southern path via the land connection between the mainland, the Calabrian Plate and Sardinia. A second pathway likely followed a northern connection, probably through the Tuscan Archipelago. Implications of these findings on conservation efforts for Centaurea endemics on Sardinia are also discussed.
Highlights
The Mediterranean Basin has been considered a biodiversity hotspot because of its high degree of biological diversity, endemicity and human pressure [1, 2]
We sampled 125 individuals from 36 populations belonging to eight different species, the six Sardinian endemics, including C. ×forsythiana, and two widespread and clearly morphologically related species from the mainland, namely C. deusta and C. paniculata
Species from the mainland were included; namely, members of the C. paniculata complex, which are morphologically close to C. filiformis and C. magistrorum, and C. deusta, morphologically closer to C. ferulacea and C. corensis
Summary
The Mediterranean Basin has been considered a biodiversity hotspot because of its high degree of biological diversity, endemicity and human pressure [1, 2]. It contains approximately 4.3% of the world’s vascular plants and the level of endemicity is 52% [3]. Islands play important roles within the Mediterranean Basin, because four of the ten hotspots The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript
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