Which Factors Drive Macroevolutionary Rates of Speciation and Extinction

ERC (European Research Council)HORIZON-ERCID: 101043187
EC Contribution
€14,956
Consortium Size
1 orgs
Start Year
2023
Summary

Biodiversity is modeled by the process of speciation and extinction. There is clear evidence both from living and extinct species that biodiversity is extremely variable through time and among species. However, we still do not know what factors, e.g., environmental or species intrinsic, drive speciation and extinction rates on a macroevolutionary level. To complicate matters, species diversification models are not identifiable, that is, there are infinitely many combinations of continuous speciation and extinction rate functions that are statistically indistinguishable. First, I will extend previous diversification models to jointly infer time-varying and lineage-specific diversification rates using phylogenies of extinct and extant taxa. Second, I will tackle the non-identifiability problem and explore which patterns, e.g., rapid increases in diversification rates and mass extinctions, can be inferred. Third, I will use a combined paleo-phylogenetic approach and estimate diversification rate from phylogenies with extinct and extant taxa. Thus, I will combine statistical, computational, neontological and paleobiological approaches to study macroevolutionary dynamics. I will produce species-level phylogenies each Carnivora, Cetartiodactyla, Crocodyliformes and Squaliformes using novel morphological datasets and models. I will test if diversification rates are correlated with environmental factors (e.g., CO2 or temperature) or species specific traits (e.g., body size and life history traits). Ultimately, we will test if specific traits are correlated with mass extinction survival probabilities, as for example the Lilliput Effect predicts smaller species to have higher survival probabilities.

Consortium (1)

Project Results (10)

Source: CORDIS, the EU research results database.

Publications (9)
A long-snouted marine bonytongue (Teleostei: Osteoglossidae) from the early Eocene of Morocco and the phylogenetic affinities of marine osteoglossids
Zoological Journal of the Linnean Society· 2025DOI
Alessio Capobianco, Samir Zouhri, Matt Friedman
Assessing the Adequacy of Morphological Models Using Posterior Predictive Simulations
Systematic Biology· 2025DOI
Laura P A Mulvey, Michael R May, Jeremy M Brown, Sebastian Hhna, April M Wright, Rachel C M Warnock
Phylogenetically informative proteins from an Early Miocene rhinocerotid
Nature· 2025DOI
Ryan S. Paterson, Meaghan Mackie, Alessio Capobianco, Nicola S. Heckeberg, Danielle Fraser, Beatrice Demarchi, Fazeelah Munir, Ioannis Patramanis, Jazmín Ramos-Madrigal, Shanlin Liu, Abigail D. Ramsøe, Marc R. Dickinson, Chloë Baldreki, Marisa Gilbert, Raffaele Sardella, Luca Bellucci, Gabriele Scorrano, Michela Leonardi, Andrea Manica, Fernando Racimo, Eske Willerslev, Kirsty E. H. Penkman, Jesper V. Olsen, Ross D. E. MacPhee, Natalia Rybczynski, Sebastian Höhna, Enrico Cappellini
The effects of cryptic diversity on diversification dynamics analyses in Crocodylia
Proceedings of the Royal Society B: Biological Sciences· 2025DOI
Gustavo Darlim, Sebastian Höhna
Commonly used Bayesian diversification methods lead to biologically meaningful differences in branch-specific rates on empirical phylogenies
Evolution Letters· 2024DOI
Jess Martnez-Gmez, Michael J Song, Carrie M Tribble, Bjrn T Kopperud, William A Freyman, Sebastian Hhna, Chelsea D Specht, Carl J Rothfels
Fossils indicate marine dispersal in osteoglossid fishes, a classic example of continental vicariance
Proceedings of the Royal Society B: Biological Sciences· 2024DOI
Alessio Capobianco, Matt Friedman
The Fundamental Role of Character Coding in Bayesian Morphological Phylogenetics
Systematic Biology· 2024DOI
Basanta Khakurel, Courtney Grigsby, Tyler D Tran, Juned Zariwala, Sebastian Hhna, April M Wright
CRABS: Congruent rate analyses in birthdeath scenarios
Methods in Ecology and Evolution· 2023DOI
Sebastian Hhna, Bjrn T. Kopperud, Andrew F. Magee
Rapidly changing speciation and extinction rates can be inferred in spite of nonidentifiability
Proceedings of the National Academy of Sciences· 2023DOI
Bjrn T. Kopperud, Andrew F. Magee, Sebastian Hhna
Other Results (1)
Periodic Reporting for period 1 - MacDrive (Which Factors Drive Macroevolutionary Rates of Speciation and Extinction)