Paratrachymyrmex Solomon, Rabeling, Sosa-Calvo & Schultz, 2019
- Dataset
- GBIF Backbone Taxonomy
- Rank
- GENUS
- Published in
- Solomon, Scott E., Christian Rabeling, Jeffrey Sosa-Calvo, Cauê T. Lopes, André Rodrigues, Heraldo L. Vasconcelos, Mauricio Bacci, Jr., Ulrich G. Mueller & Ted R. Schultz. 2019. The molecular phylogenetics of Trachymyrmex Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of ‘higher‐attine’ ant agriculture. Systematic Entomology 44(4): 939-956.
Classification
- kingdom
- Animalia
- phylum
- Arthropoda
- class
- Insecta
- order
- Hymenoptera
- family
- Formicidae
- genus
- Paratrachymyrmex
Name
Bibliographic References
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.
- Solomon, S. E.; Rabeling, C.; Sosa‐Calvo, J.; Lopes, C. T.; Rodrigues, A.; Vasconcelos, H. L.; Bacci, M.; Mueller, U. G.; Schultz, T. R. (2019). The molecular phylogenetics of <i>Trachymyrmex</i> Forel ants and their fungal cultivars provide insights into the origin and coevolutionary history of 'higher‐attine' ant agriculture. <em>Systematic Entomology.</em> 44(4): 939-956.