Data from: Geometric morphometric character suites as phylogenetic data: extracting phylogenetic signal from gastropod shells
| Main Authors: | Smith, Ursula E., Hendricks, Jonathan R. |
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| Format: | info dataset Journal |
| Terbitan: |
, 2013
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| Subjects: | |
| Online Access: |
https://zenodo.org/record/4967779 |
Daftar Isi:
- Despite being the objects of numerous macroevolutionary studies, many of the best-represented constituents of the fossil record—including diverse examples such as foraminifera, brachiopods, and mollusks—have mineralized skeletons with limited discrete characteristics, making morphological phylogenies difficult to construct. In contrast to their paucity of phylogenetic characters, the mineralized structures (tests and shells) of these fossil groups frequently have distinctive shapes that have long proved useful for their classification. The recent introduction of methodologies for including continuous data directly in a phylogenetic analysis has increased the number of available characters, making it possible to produce phylogenies based in whole or part on continuous character data collected from such taxa. Geometric morphometric methods provide tools for accurately characterizing shape variation and can produce quantitative data that can therefore now be included in a phylogenetic matrix in a non-arbitrary manner. Here, the marine gastropod genus Conus is used to evaluate the ability of continuous characters—generated from a geometric morphometric analysis of shell shape—to contribute to a total evidence phylogenetic hypothesis constructed using molecular and morphological data. Furthermore, the ability of continuous characters derived from geometric morphometric analyses to place fossil taxa with limited discrete characters into a phylogeny with their extant relatives was tested by simulating the inclusion of fossil taxa. This was done by removing the molecular partition of individual extant species to produce a "cladistic pseudofossil" with only the geometric morphometric derived characters coded. The phylogenetic position of each cladistic pseudofossil taxon was then compared with its placement in the total evidence tree and a symmetric resampling tree to evaluate the degree to which morphometric characters alone can correctly place simulated fossil species. In 33-45% of the test cases (depending upon the approach used for measuring success), it was possible to place the pseudofossil taxon into the correct regions of the phylogeny using only the morphometric characters. This suggests that the incorporation of extinct Conus taxa into phylogenetic hypotheses will be possible, permitting a wide range of macroevolutionary questions to be addressed within this genus. This methodology also has potential to contribute to phylogenetic reconstructions for other major components of the fossil record that lack numerous discrete characters.
- a) Smith_Hendricks_SystBiol_ConusFiguresPlates showing examples of the 61 species of Conus used in this study.b) Smith_Hendricks_SystBiol_MatrixFilesCladistic character matrix files (TNT format) used to generate the total evidence phylogeny and molecular phylogeny (Figures 3 and 6).c) Smith_Hendricks_SystBiol_OutlineImageFilesDigital outline image files (JPEG format) used to generate coordinate point data in tpsDig for the eigenshape analyses (see figure 2).d) Smith_Hendricks_SystBiol_tpsfileThe tpsDig file (generated from trace image files also available here) used in the eigenshape analyses (see figure 2).e) Smith_Hendricks_SystBiol_Pseudofossil_Matrix_FilesExample matrix files (TNT format) for the two pseudofossil analyses shown in figure 4 (C. abbreviatus and C. flavidus).f) Smith_Hendricks_SystBiol_pseudofossil_.tre filesThe two tree files (generated in TNT using the matrix files available here) for the two pseudofossil analyses shown in Figure 4 (C. abbreviatus and C. flavidus).