Braun Ian, Balhoff James P., Berardini Tanya Z., Cooper Laurel, Gkoutos Georgios, Harper Lisa, … Lawrence-Dill Carolyn J. (2018). ‘Computable’ Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life. In Studies on the Semantic Web. IOS Press. https://doi.org/10.3233/978-1-61499-854-9-187

Braun Ian, Balhoff James P., Berardini Tanya Z., Cooper Laurel, Gkoutos Georgios, Harper Lisa, Huala Eva, et al. “‘Computable’ Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life.” In Studies on the Semantic Web. IOS Press, 2018. https://doi.org/10.3233/978-1-61499-854-9-187.

Braun Ian, Balhoff James P., Berardini Tanya Z., Cooper Laurel, Gkoutos Georgios, Harper Lisa, et al. ‘Computable’ Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life. In: Studies on the Semantic Web. IOS Press; 2018.

Braun Ian, et al. “‘Computable’ Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life.” Studies on the Semantic Web, IOS Press, 2018. Crossref, doi:10.3233/978-1-61499-854-9-187.

Braun Ian, Balhoff James P., Berardini Tanya Z., Cooper Laurel, Gkoutos Georgios, Harper Lisa, Huala Eva, Jaiswal Pankaj, Kazic Toni, Lapp Hilmar, Macklin James A., Specht Chelsea D., Vision Todd, Walls Ramona L., Lawrence-Dill Carolyn J. ‘Computable’ Phenotypes Enable Comparative and Predictive Phenomics Among Plant Species and Across Domains of Life. Studies on the Semantic Web. IOS Press; 2018.