Data from: The role of inhibitory dynamics in the loss and re-emergence of macropodoid tooth traits

Couzens, Aidan M. C.; Evans, Alistair Robert; Skinner, Matthew M.; Prideaux, Gavin J.

doi:10.5061/dryad.bt4vj

Published February 23, 2016 | Version v1

Dataset Open

Data from: The role of inhibitory dynamics in the loss and re-emergence of macropodoid tooth traits

1. Flinders University
2. Monash University
3. University of Kent

The reversibility of phenotypic evolution is likely to be strongly influenced by the ability of underlying developmental systems to generate ancestral traits. However, few studies have quantitatively linked these developmental dynamics to traits which re-evolve. In this study we assess how changes in the inhibitory cascade, a developmental system that regulates relative tooth size in mammals, influenced the loss and reversals of the posthypocristid, a molar tooth crest, in the kangaroo superfamily Macropodoidea. We find that posthypocristid loss is linked with reduced levels of posterior molar inhibition, potentially driven by selection for lophodont, higher-crowned molar teeth. There is strong support for two posthypocristid reversals, each occurring after more than 15 million years of absence, in large-bodied species of Macropus, and two giant extinct species of short-faced sthenurine kangaroo (Procoptodon). We find that whereas primitive posthypocristid expression is linked to higher levels of posterior molar inhibition, re-emergence is tied to a relative increase in third molar size associated with increasing body mass, producing molar phenotypes similar to those in mouse where the ectodysplasin pathway is up-regulated. We argue that although shifts in the inhibitory cascade may enable re-emergence, dietary ecology may limit the frequency of phylogenetic reversal.

Notes

READ_ME

crownH_data

Extant macropodoid crown height data based on measurements of museum specimens. "ID" specimen collection number,"Side" = describes if the specimen is a left (L) or right (R) dentary."Source" = collection holding specimen (AM= Australian Museum Sydney, SAM= South Australian Museum Adelaide, WAM= Western Australian Museum Perth, FU= Flinders University Vertebrate Palaeontology Laboratory Adelaide , ANWC= Australian National Wildlife Collection Canberra, NTM= Northern Territory Museum, Alice Springs), "PW"= posterior width, "PHb"=Molar crown height measured at the hypoconid, "Tooth_identity"= molar position of the tooth.

FAD

Chronostratigraphic data on macropodoid first appearances in the fossil record. Data was compiled in Excel and exported as text file. As described in the papert the "FAD" corresponds to the earliest representative of the lineage while "LAD" refers to the first appearance of the tip taxon associated with that respective branch. All numeric values refer to millions of years before present (Myr). Tip taxa correspond to those in the morphological phylogeny.

Molecular_tree_states

Tree states relating to a pruned version of the molecular phylogeny originally produced by Mitchell et al. (2014; see paper text for full citation). Data was compiled in Excel and exported as text file. "1" = Posthypocrsitid present, "0" = Posthypocrsitid absent.

Morphological_tree_states

Character states for the modified morphological phylogeny originally produced by Prideaux and Warburton (2010; see in paper text for full citation). "1"= Posthypocrstid presemy, "0"= posthypocristid absent. Data was originally compiled in excel and exported as a text file.

Morphological phylogeny

Modified (see paper text) most parsimonious morphological input tree from Prideaux and Warburton (2010).

mpts.tre

Timescaled morphological phylogeny of Macropodoidea

Output timescaled morphological phylogeny from R in Newick tree file.

mpts_Tscale.tre

Posthypocrstid_relief_data

Posthypocristid relief data based on CT scan measurements in Avizo 8. PHCvert=vertical posthypocristid relief, PHCwdith= width across the talonid fossa at its point of maximum relief, Relief_Ratio = the quotient of PHCvert by PHCwidth. Comment= describes whether the crest is a homologue or analogue of the posthypocristid.

PHC_relief_data.txt

Tooth_dimensions

Tooth dimension data based on museum collection specimens."ID"= Specimen number, "Side"= specimen is left ("L") or right ("R") dentary, "Origin"= collection holding specimen (AM= Australian Museum Sydney, BMNH= British Museum of Natural History, SAM= South Australian Museum Adelaide, UCMP= University of California Museum of Paleontology, QVM= Queen Victoria Museum, Inveresk, Tasmania, WAM= Western Australian Museum Perth, FU= Flinders University Vertebrate Palaeontology Laboratory Adelaide , ANWC= Australian National Wildlife Collection Canberra, NTM= Northern Territory Museum, Alice Springs, QM=Queensland Museum, Brisbane), "AW"= maximum anterior molar width, "PW"= maximum posterior width, "L"= maximum molar length, "Tooth_id" = molar tooth position, "Collector"= observer responsible for measurement (AC= Aidan Couzens, GJP= Gavin J. Prideaux).

SurfaceFiles

Surface files exported from MeshLab v1.3.3 64bit. Naming convention is "Institution_SpecimenNumber_Species_Element.ply". Institutional abbreviations: Australian Museum (AM), Australian National Wildlife collection (ANWC), Flinders University Vertebrate Palaeontology Laboratory (FU), Northern Territory Museum Alice Springs (NTM), Queensland Museum (QM), South Australian Museum (SAM), University of California Musuem of Paleontology (UCMP), Wesetern Australian Museum (WAM). Element abbreviations: LRMX= Lower right (or left;L) molar (X denotes tooth number (1-4); X if unknown), OES= Outer enamel surface, EDJ= Enamel-dentine junction, ENAM= Enamel cap, DENT= Dentine, RMAND= Right (or left;L) mandible.

Sum_m3HI_byW

Summary Crown heigh data for living macropodoids exported from R. Taxa= Species, MeanPhyb= Hypsodonty index calculated as mean hypoconid crown height divided by max talonid width, sePhyb= bootstrap estimate of standard error.

Posterior_sequence_ratios

Summary posterior molar proprtion data (m2-4) for Macropodoid taxa exported from R. Summary statistics (mean, sample size; n, standard deviation;sd) for m3/m2 and m4/m2.

R_scripts

R script files compiled in the program TinnR.

Files

crownH_data.txt

Files (582.0 MB)

Name	Size	Download all
crownH_data.txt md5:b08a8575c3a20322a3cb8a131fccb204	12.9 kB	Preview Download
FAD_dates.txt md5:22fdad38c520a1d6f8dd709f2c811abc	1.1 kB	Preview Download
Molecular_tree_states.txt md5:2050c4a59982cfdc86ca6beb680a5d17	1.2 kB	Preview Download
Morphological_tree_states.txt md5:53706ff12b60c293f5079e51b2003b3c	799 Bytes	Preview Download
mpts.tre md5:0a8c6ab9494b6af6b6cd3ff13325e375	764 Bytes	Download
mpts_Tscale.tre md5:74474e49bd0e735a90be47cdbadaacd8	1.2 kB	Download
PHC_relief_data.txt md5:54161eb3d42e7289d3844eecafa07b98	2.9 kB	Preview Download
Posterior_sequence_ratios.txt md5:9d48b3ca942d34bf121ec800905f8793	3.5 kB	Preview Download
R_scripts.zip md5:db5c27d8d40496d4fdf7ca4fd1181aa9	26.9 kB	Preview Download
READ_ME.txt md5:457ecc0bd9cd0fc357493e4ec859d7e0	6.4 kB	Preview Download
Sum_m3HI_byW.txt md5:c45cbf5e62afc25a26e12828a0c0c6f8	1.7 kB	Preview Download
SurfaceFiles.zip md5:e9673887182c0d7154b2cfa2ad531944	581.9 MB	Preview Download
Tooth_dimensions.xlsx md5:f59d35253fe6f1b07c1f62fb71a56b24	39.1 kB	Download

Additional details

Is cited by: 10.1111/evo.12866 (DOI)

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Data from: The role of inhibitory dynamics in the loss and re-emergence of macropodoid tooth traits

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crownH_data.txt

Files (582.0 MB)

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