期刊
PROCEEDINGS OF THE ROYAL SOCIETY B-BIOLOGICAL SCIENCES
卷 289, 期 1972, 页码 -出版社
ROYAL SOC
DOI: 10.1098/rspb.2021.2633
关键词
adaptation; defensive organs; extinction; plant functional trait; herbivory; Palmae
The extinction of non-avian dinosaurs in the Cretaceous-Palaeogene period led to a 25 million year gap in megaherbivores, which had significant consequences for plant diversification and trait evolution. By studying palms, researchers found that this gap was characterized by slower speciation, decreased evolution of defensive traits, and increased evolution of large fruits. The absence of browsing by megaherbivores led to a loss of defence traits, but did not result in a loss of large fruits, which may be explained by rising temperatures and the subsequent radiation of seed-dispersing birds and mammals.
The Cretaceous-Palaeogene (K-Pg) extinction of the non-avian dinosaurs (66 Ma) led to a 25 million year gap of megaherbivores (>1000 kg) before the evolution of megaherbivorous mammals in the Late Eocene (40 Ma). The botanical consequences of this 'Palaeocene megaherbivore gap' (PMHG) remain poorly explored. We hypothesize that the absence of megaherbivores should result in changes in the diversification and trait evolution of associated plant lineages. We used phylogenetic time- and trait-dependent diversification models with palms (Arecaceae) and show that the PMHG was characterized by speciation slowdowns, decreased evolution of armature and increased evolution of megafaunal (>= 4 cm) fruits. This suggests that the absence of browsing by megaherbivores during the PMHG may have led to a loss of defence traits, but the absence of megaherbivorous seed dispersers did not lead to a loss of megafaunal fruits. Instead, increases in PMHG fruit sizes may be explained by simultaneously rising temperatures, rainforest expansion, and the subsequent radiation of seed-dispersing birds and mammals. We show that the profound impact of the PMHG on plant diversification can be detected even with the overwriting of adaptations by the subsequent Late Eocene opening up of megaherbivore-associated ecological opportunities. Our study provides a quantitative, comparative framework to assess diversification and adaptation during one of the most enigmatic periods in angiosperm history.
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