Schultz, Ted R.

BIOGRAPHICAL NOTE
Phone:  202-633-0999 Fax:  202-786-3141 E-mail Address:  schultzt@si.edu Mailing Address:

Smithsonian Institution PO Box 37012, MRC 188, Rm. CE-516 Washington, DC 20013-7012 Shipping Address: Smithsonian Institution National Museum of Natural History 10th & Constitution NW Washington, DC 20560-0188 Education: Ph.D. Cornell University B.A. University of California, Berkeley Research Interests:

Evolution and systematics of ants, especially the fungus-growing ants (Myrmicinae: Attini). Phylogenetic analysis using morphological and molecular characters. Historical ecology and evolution of the fungus-growing behavior. Theory and methodology of phylogenetic analysis, especially the reconstruction of ancestral character states. Quantitative methods for assessing ant biodiversity. Research in the Smithsonian AntLab largely focuses on the systematics, phylogenetics, and biodiversity of ants (family Formicidae), but two AntLab researchers work on bees and in the past AntLab researchers have conducted projects on termites, dragonflies, spiders, and beetles. Three main themes run through most of our research: (1) The evolution, phylogenetics, and systematics of the fungus-growing ants (tribe Attini, subfamily Myrmicinae); (2) the phylogeny of all ants (family Formicidae), currently funded by an NSF Assembling the Tree of Life grant (to Phil Ward, Sean Brady, Brian Fisher, and Ted Schultz); and (3) the quantitative sampling of leaf-litter ants of the Guiana Shield in particular and of South America in general (a collaboration with John LaPolla, Ted Suman, and Jeffrey Sosa-Calvo).

PUBLICATIONS

 * [[Media:Brady et al 2006.pdf|Brady, S.G., Schultz, T.R., Fisher, B.L. & Ward, P.S. 2006. Evaluating alternative hypotheses for the early evolution and diversification of ants. Proceedings of the National Academy of Sciences U.S.A. 103: 18172-18177. PDF]]


 * Schultz, T.R. 2007. The fungus-growing ant genus Apterostigma in Dominican amber (pp. 425-436). In Snelling, R.R., Fisher, B.L. & Ward, P.S. (eds). Advances in ant systematics: homage to E.O. Wilson – 50 years of contributions. Memoirs of the American Entomological Institute 80: 690 pp.


 * [[Media:Schultz Bekkvold Boomsma 1998.pdf|Schultz, T.R., Bekkevold, D. ; Boomsma, J.J. 1998. Acromyrmex insinuator new species; an incipient social parasite of fungus-growing ants. Insectes Soc. 45(4): 457-471 PDF]]


 * Schultz, T.R. & Meier, R. 1995. A phylogenetic analysis of the fungus-growing ants based on morphological characters of the larvae. Systematic Entomology 20: 337-370. [15.xii.1995.]


 * Schultz, T. R.; Solomon, S. A. 2002. [Untitled. Cyphomyrmex muelleri Schultz and Solomon, new species.] Pp. 336-337 in: Schultz, T. R.; Solomon, S. A.; Mueller, U. G.; Villesen, P.; Boomsma, J. J.; Adams, R.


 * Schultz, T.R., Solomon, S.A., Mueller, U.G., Villesen, P., Boomsma, J.J., Adams, R.M.M. & Norden, B. 2002. Cryptic speciation in the fungus-growing ants Cyphomyrmex longiscapus Weber and Cyphomyrmex muelleri Schultz and Solomon, new species. Insectes Sociaux 49: 331-343. [2002.]


 * Sosa-Calvo, J., S. G. Brady and T. R. Schultz. 2009. The gyne of the enigmatic fungus-farming ant species Mycetosoritis explicata. Journal of Hymenoptera Research 18(1): 113-120.


 * Sosa-Calvo, J. & Schultz, T. R. 2010. Three remarkable new fungus-growing ant species of the genus Myrmicocrypta, with a reassessment of the characters that define the genus and its position within the Attini. Annals of the Entomological Society of America 103: 181-195.


 * Sosa-Calvo, J., T.R. Schultz, and J.S. LaPolla. 2010. A review of the dacetine ants of Guyana (Formicidae: Myrmicinae). Journal of Hymenoptera Research, 19(1): 12-43.


 * Sosa-Calvo, J., Shattuck, S.O. & Schultz, T. R. 2006. Dacetine ants of Panama: new records and description of a new species. Proceedings of the Entomological Society of Washington 108: 814-821. [12.x.2006.]


 * Ward, P.S., Brady, S.G., Fisher, B.L. & Schultz, T.R. 2010. Phylogeny and biogeography of Dolichoderinae ants: effects of data partitioning and relict taxa on historical inference. Systematic Biology 59: 342-362.