Data for: Reliable biogeography requires fossils: Insights from a new species-level phylogeny of extinct and living carnivores
Data files
May 21, 2024 version files 18.37 MB
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Appendix_1.zip
12.94 MB
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Appendix_2.zip
49.72 KB
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Appendix_3.xlsx
2.19 MB
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Appendix_4.pdf
2.37 MB
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Appendix_5.zip
825.06 KB
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README.md
2.10 KB
Abstract
A central objective of historical biogeography is to understand where clades originated and how they moved across space and over time. However, given the dynamic history of ecosystem changes in response to climate change and geologic events, the manifold long-distance dispersals over evolutionary timescales, and regional and global extinctions, it remains uncertain how reliable inferences based solely on extant taxa can be achieved. Using a novel species-level phylogeny of all known extant and extinct species of the mammalian order Carnivora and related extinct groups, we show that far more precise and accurate ancestral areas can be estimated by fully integrating extinct species into the analyses, rather than solely relying on extant species or identifying ancestral areas only based on the geography of the oldest fossils. Through a series of simulations, we further show that this conclusion is robust under realistic scenarios in which the unknown extinct taxa represent a biased subset of all extinct species. Our results highlight the importance of integrating fossil taxa into a phylogenetic framework to further improve our understanding of historical biogeography and reveal the dynamic dispersal and diversification history of carnivores.
README: Data for: Reliable biogeography requires fossils: Insights from a new species-level phylogeny of extinct and living carnivores
https://doi.org/10.5061/dryad.76hdr7t48
Appendix 1 contains the produced phylogeny of all carnivores.
Appendix 2 contains all the R codes for the analyses.
Appendix 3 contains a description of our treatment of all the individual fossil records.
Appendix 4 shows topological variation across trees plotted as 18 separate subtrees focusing on smaller clades.
Appendix 5 contains morphological character coding for the newly coded taxa and the MrBayes input files
Description of the data and file structure
Appendix 1 is the resulting phylogeny
Appendix 2 contains commented R codes for all analyses published in the paper. The total script is divided into 18 separate files with titles describing the overall theme of each script file. To fully replicate all analyses in the paper the scripts needs to be run in order based on the numbers listed as the first two letters of the names. An ultrashort description of of what each script is doing is noted in the first lines of each file.
Appendix 3 shows the taxonomic assignment of all fossils for this paper, i.e. the name the fossil is listed under in PBDB or NoW and the name we assign it to. The first sheet of the file serves as a read.me file describing the data-structure of the following sheets.
Appendix 4 contains a partial visualization of the phylogeny produced in appendix 1
Appendix 5 contains input information being used to build the phylogeny.
Sharing/Access information
Data was derived from the following sources:
- All fossil data were originally downloaded from PBDB (https://paleobiodb.org/ and NOW (http://www.helsinki.fi/science/now/
Code/Software
Appendix 1 is in Nexus format
Appendix 2 are all R codes.
Appendix 3 is an excel file
Appendix 4 is a PDF
Appendix 5 contains coding information on selected fossils in a txt files and a number of input files for MrBayes 3.2
Methods
Appendix 1 contains the produced phylogeny of all carnivores. Appendix 2 contains all the R codes for the analyses. Appendix 3 contains a description of our treatment of all the individual fossil records. Appendix 4 shows topological variation across trees plotted as 18 separate subtrees focusing on smaller clades. Appendix 5 contains morphological character coding for the newly coded taxa and the MrBayes input files