Supplementary Tables and Figures for Freshwater habitats promote rapid rates of phenotypic evolution in sculpin fishes (Perciformes: Cottoidea) by Thaddaeus J. Buser*, Olivier Larouche, Andres Aguilar, Mayara P. Neves, Michael Sandel, Brian L. Sidlauskas, Adam P. Summers, and Kory M. Evans

Supplementary Tables and Figures for Freshwater habitats promote rapid rates of phenotypic evolution in sculpin fishes (Perciformes: Cottoidea) by Thaddaeus J. Buser*, Olivier Larouche, Andres Aguilar, Mayara P. Neves, Michael Sandel, Brian L. Sidlauskas, Adam P. Summers, and Kory M. Evans in The American Naturalist SupplementaryTable1 shows the taxononomy, museum Idientifier, scanning parameters, and MorphoSource identifiers for all specimens. Columns are as follows: Family: taxonomic family. Species: Scientific name of species. Genus: taxonomic genus. ScanID: unique identifier of the CT scan session from which a given specimen was taken. number: museum voucher number of a specimen. Collection: abbreviation of musuem at which specimen voucher is curated. Standard Length (mm): the standard length in mm of a specimen. kV: the voltage setting in kilovolts of the CT scan. uA: the amperege setting in microamperes of the CT scan. Filter: the x-ray filter material used for the CT scan. Detector: the number of pixels used in the x-ray detector of the CT scan. rotation: the rotation in degrees of the specimen at each rotation step of the CT scan. Voxel size: the size in micrometers represented by each voxel in the reconstructed CT scan. MorphoSourceID: the unique MorphoSource identifier of each specimen deposited on MorphoSource.org. SupplementaryTable2 contains anatomical descriptions for all landmarks and semilandmarks used in the study. Rows are partitioned into three sections: LANDMARKS, CURVE DESCRIPTIONS, and SEMILANDMARKS. LANDMARKS contains the data for all anatomical landmarks. Columns in this section are as follows: Bone: the skeletal unit (e.g., bone) on which the landmarks are located. Definition: the anatomical description of the landmark. LHS Landmark #: the sequential number assigned to the landmark as it appears on the Left Hand Side (LHS) of the specimen. RHS Landmark #: the sequential number assigned to the landmark as it appears on the Righ Hand Side (RHS) of the specimen. CURVE DESCRIPTIONS contains anatomical descriptions of each of the anatomical curves. Columns in the section are as follows: Curve #: the sequential number of each curve. Bone: the skeletal unit on which the curve is located. Definition: anatomical description of the curve. Beginning landmark: the number of the landmark that describes the beginning (one terminal point) of the curve. The LHS landmark is first, followed by the homologous landmark on the RHS in parentheses. Ending Landmark: the number of the landmark that describes the end (other terminal point) of the curve. The LHS landmark is first, followed by the homologous landmark on the RHS in parentheses. # of semilandmarks: the number of semilandmarks making up the curve between the landmarks that define the end points. SEMILANDMARKS contains the information for each semilandmark. Columns in the section are as follows: Bone: skeletal unit on which the semilandmark occurs. Curve #: the curve number, which corresponds to the Curve # column in the CURVE DESCRIPTIONS section. LHS Landmark #: the sequential number of each semilandmark on the LHS of the specimen. RHS Landmark #: the sequential number of each semilandmark on the RHS of the specimen. SupplementaryTable3 shows model comparisons for the analysis of skull shape evolution in sculpins. Columns are as follows: Model: the model of morphological evolution. BM= Brownian Motion, OU= Ornstein Uhlenbeck. See text for additional details. Log Marginal Likelihood: the log marginal likelihood of that model, given our data. Log Bayes Factor: the log Bayes factor of that model, given our data. BM= Brownian Motion, OU= Ornstein Uhlenbeck. SupplementaryTable4 shows phylogenetic net morphological evolutionary rate, product-based lineage density, and sum-based lineage density for each grouping factor in the dataset. We used two alternate grouping factors: 1) Taxonomic Family and 2) Ecosystem. The rows of the table are partition such that the values calculated when grouping by taxonomic family are presented first, followed by the rows containing the values calculated when grouping by Ecosystem. All calculations were were then performed twice: once including the Baikal sculpins in the family Cottidae and once excluding the Baikal sculpins. When grouped by taxonomic family, Cottidae had the highest net rate of morphological evolution and the highest lineage density, when grouped by ecosystem, freshwater sculpins had the highest net rate of morpholgical evoluiton and the highest lineage density (indicated in bold text), regardless of whether the Baikal taxa were included. Columns are partitioned by BAIKAL PRESENT, which indicates that the Baikal taxa were included in the anlysis, and BAIKAL ABSENT, which indicates that the Baikal taxa were exculded from the analysis. Taxonomic Family column indicates taxonomic family of the test group. Phylogenetic net evolutionary rate is the net rate of morphological evolution for the group given...