Datasets:
license: cc-by-3.0
language:
- en
pretty_name: Character Similarity Dataset
description: >-
Collection of textual trait descriptions of vertebrates (primarily fish) along
with the corresponding ontology based similarity measures between trait
description pairs. The distance is estimated using the Phenoscape
Knowledgebase as the ontology.
task_categories:
- feature-extraction
tags:
- biology
- organism
- animals
- fish
- traits
- ontology
- phenoscape
size_categories: 10K<n<100K
configs:
- config_name: full_data
data_files:
- split: train
path: processed-data/all/*_TRAINING.tsv.gz
- split: test
path: processed-data/all/*_ALL_NON_TRAIN.tsv.gz
default: true
- config_name: characiformes
data_files:
- split: train
path: processed-data/characiformes/*_TRAINING.tsv.gz
- split: test
path: processed-data/characiformes/*_ALL_NON_TRAIN.tsv.gz
- config_name: cypriniformes
data_files:
- split: train
path: processed-data/cypriniformes/*_TRAINING.tsv.gz
- split: test
path: processed-data/cypriniformes/*_ALL_NON_TRAIN.tsv.gz
- config_name: gymnotiformes
data_files:
- split: train
path: processed-data/gymnotiformes/*_TRAINING.tsv.gz
- split: test
path: processed-data/gymnotiformes/*_ALL_NON_TRAIN.tsv.gz
- config_name: siluriformes
data_files:
- split: train
path: processed-data/siluriformes/*_TRAINING.tsv.gz
- split: test
path: processed-data/siluriformes/*_ALL_NON_TRAIN.tsv.gz
Dataset Card for Character Similarity Dataset
Dataset Details
The Character Similarity Dataset is a collection of textual trait descriptions along with the corresponding ontology based similarity measures between trait description pairs. The distance is estimated using the Phenoscape Knowledgebase as the ontology. The Knowledgebase is built upon a number of OBO ontologies, most importantly the Uberon anatomy ontology.
Dataset Description
- Curated by: Jim Balhoff, Soumyashree Kar, Juan Garcia, Hilmar Lapp
- Language(s) (NLP): English
- Repository: Imageomics/char-sim
- Paper: Coming soon!
The Character Similarity Dataset is a collection of 19K textual trait descriptions of fish and other vertebrates collected from the Phenoscape Knowledgebase. The dataset also contains the corresponding pairwise similarity measures between trait descriptors (i.e., maxIC, Jaccard, SimGIC). These metrics estimate semantic similarity between the ontological representation of the traits descriptions per the Phenoscape Knowledgebase. The goal is to use this pairwise similarities to inform an embedding space that preserves the structure of the underlying ontology.
Supported Tasks and Leaderboards
Task: Aligned feature extraction. Metric: Spearman's correlation coefficient.
| Model | Test set |
|---|---|
| Trait2Vec | 0.7057 |
Dataset Structure
raw-source/
phenex-data-merged.ofn.gz
phenoscape-kb-tbox-classified.ttl.gz
processed-data/
all/
data_{percentage}p_TRAINING.tsv.gz
data_{percentage}p_ALL_NON_TRAIN.tsv.gz
data_{percentage}p_NON_OVERLAP.tsv.gz
characiformes/
data_{percentage}p_TRAINING.tsv.gz
data_{percentage}p_ALL_NON_TRAIN.tsv.gz
data_{percentage}p_NON_OVERLAP.tsv.gz
cypriniformes/
data_{percentage}p_TRAINING.tsv.gz
data_{percentage}p_ALL_NON_TRAIN.tsv.gz
data_{percentage}p_NON_OVERLAP.tsv.gz
gymnotiformes/
data_{percentage}p_TRAINING.tsv.gz
data_{percentage}p_ALL_NON_TRAIN.tsv.gz
data_{percentage}p_NON_OVERLAP.tsv.gz
siruliformes/
data_{percentage}p_TRAINING.tsv.gz
data_{percentage}p_ALL_NON_TRAIN.tsv.gz
data_{percentage}p_NON_OVERLAP.tsv.gz
phenex-data-merged.ofn.gz and phenoscape-kb-tbox-classified.ttl.gz are raw data files built as part of the Phenoscape Knowledgebase construction pipeline. Running the processing script creates the four subset folders (characiformes/, cypriniformes/, gymnotiformes/, and siruliformes/, each an order of fish), then combines their data into the all/ directory to create the training and test datasets.
Note: percentage is the parameter passed for the percentage of the data to use for training; in this case, percentage = 80.
Data Instances
Percentage is the proportion of data that will be used for training (i.e. data_{percentage}p_TRAINING.tsv.gz). In case the percentage is smaller than 100, the remaining proportion of the dataset is stored in data{percentage}p_ALL_NON_TRAIN.tsv.gz and a subset of this in data_{percentage}p_NON_OVERLAP.tsv.gz. All files follow the same structure.
Data Fields
data_{percentage}p_TRAINING.tsv.gz: Collection of pairs of trait descriptors (i.e. desc_1, desc_2) along with corresponding ontology-based similarity metric (i.e. maxIC, jaccard, simGIC). Each pair of trait descriptors has a corresponding pair of identifiers (i.e. id_1, id_2) in Phenoscape. The columns character_1 and character_2 correspond to evolutionary characters for which the trait descriptions are states. These are used to split the dataset into disjoint train/test sets.
id_1: Phenoscape identifier for trait 1id_2: Phenoscape identifier for trait 2maxIC: Ontology-based similarity measurejaccard: Ontology-based similarity measuresimGIC: Ontology-based similarity measureorder: Pairwise score indicescharacter_1: Varying character for trait 1desc_1: Textual trait description 1character_2: Varying character for trait 2desc_2: Textual trait description 2
Notes: (id_1, character_1, desc_1) are not fixed; order column will be removed in a future version.
Data Splits
data_{percentage}p_TRAINING.tsv.gz is split into a proper training set and a proper testing set in the train_model.py file.
Dataset Creation
Curation Rationale
The overall objective of the Phenoscape Project is to create a scalable infrastructure that enables linking descriptive phenotype observations across different fields of biology by the semantic similarity of their free-text descriptions. This linking is manual and labor intensive; see https://doi.org/10.1093/database/bav040. The dataset created by the Phenoscape project is used here to train a model which produces text embeddings aligned with ontology-derived similarity values.
Source Data
Data was collected from the Phenoscape Knowledgebase. phenoscape-kb-tbox-classified.ttl.gz contains the classified terminology composed of several OBO ontologies as well as generated class expressions materializing various axes of classification. phenex-data-merged.ofn.gz contains links from textual character trait descriptions to ontology class expressions.
Data Collection and Processing
The raw data is directly generated by the Phenoscape build pipeline. Further processing to compute ontology-based similarity scores, and to create derived files for model training, is defined by the workflow at https://github.com/Imageomics/char-sim.
Who are the source data producers?
The source data was originally created by the curators of the Phenoscape Project, a collaborative NSF-funded project.
Personal and Sensitive Information
None
Considerations for Using the Data
The distribution of SimGIC scores is skewed towards smaller values. This imbalance may cause the similarity of embeddings to follow the same bias. Consider subsampling to ensure uniform representation of distances.
Bias, Risks, and Limitations
This dataset has the biases of the Phenoscape ontology. This means the estimated models embeddings will inherit the ontology's inductive biases, coverage gaps, and evolving definitions. Biological conclusions may differ under alternative similarity metrics or other phenotype ontologies.
Licensing Information
This dataset is licensed using a Creative Commons Attribution 3.0 Unported license for the benefit of scientific pursuits. We ask that you cite the dataset and original source data using the below citations if you make use of it in your research.
Citation
We ask that you cite the dataset and original source data using the below citations if you make use of it in your research.
Data
@misc{char-sim-data-2025,
author = {Jim Balhoff and Soumyashree Kar and Juan Garcia and Hilmar Lapp},
title = {Character Similarity Dataset (Revision 7170c8c)},
year = {2025},
url = {https://huggingface.co/datasets/imageomics/char-sim-data},
doi = {10.57967/hf/6891},
publisher = {Hugging Face}
}
Please be sure to also cite the original data source:
@ARTICLE{Balhoff2016-aw,
title = "The Phenoscape Knowledgebase: tools and {APIs} for computing
across phenotypes from evolutionary diversity and model organisms",
author = "Balhoff, James P and {Phenoscape project team}",
journal = "bioRxiv",
pages = 071951,
abstract = "The Phenoscape Knowledgebase (KB) is an ontology-driven database
that combines existing phenotype annotations from model organism
databases with new phenotype annotations from the evolutionary
literature. Phenoscape curators have created phenotype annotations
for more than 5,000 species and higher taxa, by defining
computable phenotype concepts for more than 20,000 character
states from over 160 published phylogenetic studies. These
phenotype concepts are in the form of Entity-Quality (EQ)
compositions which incorporate terms from the Uberon anatomy
ontology, the Biospatial Ontology (BSPO), and the Phenotype and
Trait Ontology (PATO). Taxonomic concepts are drawn from the
Vertebrate Taxonomy Ontology (VTO). This knowledge of comparative
biodiversity is linked to potentially relevant developmental
genetic mechanisms by importing associations of genes to
phenotypic effects and gene expression locations from zebrafish
(ZFIN), mouse (MGI), Xenopus (Xenbase), and human (Human Phenotype
Ontology project). Thus far, the Phenoscape KB has been used to
identify candidate genes for evolutionary phenotypes, to match
profiles of ancestral evolutionary variation with gene phenotype
profiles, and to combine data across many evolutionary studies by
inferring indirectly asserted values within synthetic
supermatrices. Here we describe the software architecture of the
Phenoscape KB, including data ingestion, integration of OWL
reasoning, web service interface, and application features.",
month = jan,
year = 2016,
url = "http://biorxiv.org/cgi/content/short/071951",
doi = "10.1101/071951",
language = "en"
}
Acknowledgements
This work was supported by the Imageomics Institute, which is funded by the US National Science Foundation's Harnessing the Data Revolution (HDR) program under Award #2118240 (Imageomics: A New Frontier of Biological Information Powered by Knowledge-Guided Machine Learning). Any opinions, findings and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the National Science Foundation.
Dataset Card Authors
Juan Garcia, Jim Balhoff, and Elizabeth Campolongo
Dataset Card Contact
Please open a Discussion on the Community Tab with any questions on the dataset.