Phylogenetics and Diversification of Syringa Inferred from Nuclear and Plastid DNA Sequences

Authors

Jianhua Li, Hope CollegeFollow
Benjamin Goldman-Huertas, University of Arizona
Jeffrey DeYoung, Hope College
John Alexander, Arnold Arboretum Harvard University

Document Type

Article

Publication Date

3-2012

Publication Source

Castanea

Volume Number

77

Issue Number

1

First Page

82

Last Page

88

Publisher

Southern Appalachian Botanical

ISSN

0008-7475

Abstract

Analyses of nuclear ribosomal DNA have suggested the paraphyly of Syringa with respect to Ligustrum, a hypothesis requiring further testing from other sources of data. In addition, relationships among lineages of Syringa have not been resolved. In this study, we used DNA sequences of two nuclear and five plastid regions to better resolve phylogenetic relationships of Syringa and Ligustrum. Our results support the derivation of Ligustrum from within Syringa, thus the paraphyly of Syringa. Six series are recognized in Syringa and their relationships are: (Syringa, (Pinnatifoliae, aigustrae, (Ligustrina, (Pubescentes, Villosae))))). Subgenus Syringa as traditionally defined is paraphyletic, containing subgenus Ligustrina. The Syringa pubescens complex may be paraphyletic with S. pubescens more closely related to the Syringa pinetorum complex than to other species of its own complex. Our estimated times of divergence suggest that series of Syringa have diversified in the middle Miocene (9.65-17.67 mya), each with unique morphology.

Keywords

Ligustrum, matK, ndhF, nuclear, plastid, Syringa, trnl-F, trnL-rpl32, trnS-G

Recommended Citation

Li, Jianhua, Benjamin Goldman-Huertas, Jeffrey DeYoung and John Alexander. "Phylogenetics and Diversification of Syringa Inferred from Nuclear and Plastid Dna Sequences." Castanea 77, no. 1.00 (2012): 82-88.