RT Journal Article SR Electronic T1 The rise of grasslands is linked to atmospheric CO2 decline in the late Palaeogene JF bioRxiv FD Cold Spring Harbor Laboratory SP 2021.08.28.458022 DO 10.1101/2021.08.28.458022 A1 Palazzesi, Luis A1 Hidalgo, Oriane A1 Barreda, Viviana D. A1 Forest, Félix A1 Höhna, Sebastian YR 2021 UL http://biorxiv.org/content/early/2021/08/28/2021.08.28.458022.abstract AB Grasslands are predicted to experience a major biodiversity change by the year 2100 in part due to recent and projected increases in atmospheric CO2 concentration. A better understanding of how grasslands have responded to past environmental changes will help predict the outcome of current and future environmental changes. Here, we explore the relationship between past atmospheric CO2 and temperature fluctuations and the shifts in diversification rate of grasses (Poaceae) and daisies (Asteraceae), two exceptionally species-rich grassland families (∼11,000 and ∼23,000 species, respectively). To this end, we developed a novel Bayesian approach that simultaneously estimates diversification-rates through time from time-calibrated phylogenies and correlations between environmental variables and diversification rates. Additionally, we developed a new statistical approach that incorporates the information of the distribution of missing species in the phylogeny. We found strong evidence supporting a simultaneous increase in diversification rates for daisies and grasses after the most significant reduction of atmospheric CO2 in the Cenozoic (∼34 Mya). The fluctuations of paleo-temperatures, however, appear not to have had a significant relationship with the diversification of these grassland families. Overall, our results shed new light on our understanding of the origin of grasslands in the context of past environmental changes.Competing Interest StatementThe authors have declared no competing interest.