Four new species of Elaphoglossum sect. Elaphoglossum are described: E. Amparoanum A. Rojas, E. Chocoense A. Rojas, E. Fayorum A. Rojas and E. Luciae A. Rojas. The first species is related to E. Variolatum Mickel, but...Four new species of Elaphoglossum sect. Elaphoglossum are described: E. Amparoanum A. Rojas, E. Chocoense A. Rojas, E. Fayorum A. Rojas and E. Luciae A. Rojas. The first species is related to E. Variolatum Mickel, but differs from it by having rhizome scales bicolorous and long ciliate margin. The second species is different to E. moranii Mickel by having narrower rhizome, shorter stipe, elliptic blade, attenuate blade base, shorter fertile fronds with blackish costa and present at lower altitudinal distribution. After that, the third species differs from E. lingua (C. Presl) Brack. by pale rhizome scales with long ciliate margin, shorter fronds and blade scales denser and lighter. Finally, the fourth species is related to E. atrosquamatum Mickel, but with relative longer fronds and broader blade. The geographical distributions of E. guatemalense (Klotzsch) T. Moore, E. longicrure Christ, E. minutum (Pohl ex Fée) T. Moore and E. nicaragüense A. Rojas are expanded.展开更多
Inferring divergence times between lineages is crucial for understanding biological evolutionary processes. The extraordinary species diversity of Eupolypods within the fern lineage has been interpreted as an ecologic...Inferring divergence times between lineages is crucial for understanding biological evolutionary processes. The extraordinary species diversity of Eupolypods within the fern lineage has been interpreted as an ecological opportunistic response to the emergence of more complex, angiosperm-dominated ecosystems. This co-adaptation between Eupolypods and angiosperms has prompted ongoing investigations into the phylogenetic and diversification timelines of Eupolypods. In this study, we incorporate newly discovered fossils of Dryopteridaceae, including two species from both the stem and crown groups, to reanalyze the phylogenetic and diversification times of Eupolypods using total-evidence dating (TED or tip-dating) methods. Our analyses confirm that Eupolypods first diversified during the Jurassic and suggest that both subclades, Polypodiineae and Aspleniineae, underwent their earliest diversification during this period, challenging recent claims that Polypodiineae diversified no earlier than the Cretaceous. These results support a “long fuse” model, indicating that the initial emergence of Polypodiales preceded their diversification and extensive fossil record. Furthermore, our findings clarify the systematic position of Hypodematiaceae, indicating that it, along with Didymochlaenaceae, represents the basal lineages of Polypodiineae. This study highlights the critical role of fossil abundance and taxonomic composition in molecular dating analyses.展开更多
文摘Four new species of Elaphoglossum sect. Elaphoglossum are described: E. Amparoanum A. Rojas, E. Chocoense A. Rojas, E. Fayorum A. Rojas and E. Luciae A. Rojas. The first species is related to E. Variolatum Mickel, but differs from it by having rhizome scales bicolorous and long ciliate margin. The second species is different to E. moranii Mickel by having narrower rhizome, shorter stipe, elliptic blade, attenuate blade base, shorter fertile fronds with blackish costa and present at lower altitudinal distribution. After that, the third species differs from E. lingua (C. Presl) Brack. by pale rhizome scales with long ciliate margin, shorter fronds and blade scales denser and lighter. Finally, the fourth species is related to E. atrosquamatum Mickel, but with relative longer fronds and broader blade. The geographical distributions of E. guatemalense (Klotzsch) T. Moore, E. longicrure Christ, E. minutum (Pohl ex Fée) T. Moore and E. nicaragüense A. Rojas are expanded.
文摘Inferring divergence times between lineages is crucial for understanding biological evolutionary processes. The extraordinary species diversity of Eupolypods within the fern lineage has been interpreted as an ecological opportunistic response to the emergence of more complex, angiosperm-dominated ecosystems. This co-adaptation between Eupolypods and angiosperms has prompted ongoing investigations into the phylogenetic and diversification timelines of Eupolypods. In this study, we incorporate newly discovered fossils of Dryopteridaceae, including two species from both the stem and crown groups, to reanalyze the phylogenetic and diversification times of Eupolypods using total-evidence dating (TED or tip-dating) methods. Our analyses confirm that Eupolypods first diversified during the Jurassic and suggest that both subclades, Polypodiineae and Aspleniineae, underwent their earliest diversification during this period, challenging recent claims that Polypodiineae diversified no earlier than the Cretaceous. These results support a “long fuse” model, indicating that the initial emergence of Polypodiales preceded their diversification and extensive fossil record. Furthermore, our findings clarify the systematic position of Hypodematiaceae, indicating that it, along with Didymochlaenaceae, represents the basal lineages of Polypodiineae. This study highlights the critical role of fossil abundance and taxonomic composition in molecular dating analyses.
