PapilionoideaeMartin F. Wojciechowski
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Papilionoideae (the "papilionoids"), the largest of the three subfamilies of Fabaceae with 476 genera and 13,860 species, is also the most diverse and widely distributed, and includes most of the familiar domesticated food and forage crops and model genetic/genomic species (Gepts et al., 2005).
Papilionoideae is characterized by pentamerous (floral parts in fives or multiples thereof), zygomorphic papilionoid (pea-like) flowers that have differentiated an adaxial petal (banner or standard) that is external to the others in bud, and abaxial and lateral pairs of petals (keel and wings, respectively), with the keel petals fused to enclose the stamens and gynoecium (as shown in figure below). Although this floral architecture is ubiquitous in the subfamily, exceptions do occur, with nearly actinomorphic flowers (e.g., Cadia in tribe Sophoreae; Inocarpus in tribe Dalbergieae) and flowers lacking 1 or more of the five petals known from several groups (e.g., tribe Amorpheae).
Structure of typical zygomorphic (pea-like) papilionoid flower. The five petals are labeled: banner (also known as the standard petal or vexillum), top most petal, often reflexed; two lateral wing petals; and two lower keel petals, often fused at least partially along one edge into a single boat-shaped keel petal which surrounds the stamens (androecium) and pistil (gynoecium). Photo: Lathyrus vestitus. © 2004 Adam Paul
Unlike the other subfamilies, many papilionoids have the ability to synthesize quinolizidine alkaloids, isoflavones, and non-protein amino acids such as canavanine, while bipinnate leaves, complex leaf glands and compound pollen grains are lacking (Polhill, 1994).
Discussion of Phylogenetic Relationships
Although the majority of tribes are still defined in a more traditional sense (e.g. Polhill, 1994) the results of phylogenetic studies from the last 10 years necessitate quite radical shifts in inter- and intra-tribal relationships within the subfamily, and these insights have profound implications with regard to papilionoid evolution.
Papilionoideae has been consistently resolved (and strongly supported) as monophyletic in analyses of molecular data (e.g., Doyle et al., 1997, 2000; Pennington et al., 2001; Wojciechowski et al., 2004), but on morphological criteria the uncertainty regarding the position of papilionoid tribes such as Swartzieae, long considered 'transitional' between Caesalpinioideae and Papilionoideae, has clouded this issue. Rather than being resolved as the sister group to an isolated caesalpinioid lineage(s), as are the mimosoids, papilionoids are sister to the large clade comprised of Caesalpinieae sens. lat., Cassieae sens. strict., and Mimosoideae in the legume phylogeny (Wojciechowski et al., 2004). Although papilionoids have been considered to contain most of the "derived" groups within the family (e.g., predominantly herbaceous groups), fossil evidence and divergence time estimates clearly indicate the oldest crown clades within papilionoids are comparable in age (39 to 59 Ma) to the oldest caesalpinioid diversifications (Lavin et al., 2005).
Based on results from such studies papilionoids can be broadly divided into the following main subclades and groups: Swartzieae sens. str., the Cladrastis clade, the Genistoid clade, the Dalbergioid sens. lat. clade, Mirbelioid sens. lat. clade, Millettioid sens. lat. clade, Hologalegina, and several weakly supported and/or partially resolved groups such as the "basal papilionoid" groups (including members of tribes Swartzieae, Sophoreae, Dalbergieae and Dipterygeae), and the Baphioid clade.
Doyle, J.J., J.L. Doyle, J.A. Ballenger, E.E. Dickson, T. Kajita, and H. Ohashi. 1997. A phylogeny of the chloroplast gene rbcL in the Leguminosae: taxonomic correlations and insights into the evolution of nodulation. Amer. J. Bot. 84: 541-554.
Doyle, J.J., J.A. Chappill, C.D. Bailey, and T. Kajita. 2000. Towards a comprehensive phylogeny of legumes: evidence from rbcL sequences and non-molecular data. Pages 1-20 in Advances in legume systematics, part 9, (P. S. Herendeen and A. Bruneau, eds.). Royal Botanic Gardens, Kew, UK.
Gepts, P., W.D. Beavis, E.C. Brummer, R.C. Shoemaker, H.T. Stalker, N.F. Weeden, and N.D. Young. 2005. Legumes as a model plant family. Genomics for food and feed report of the cross-legume advances through genomics conference. Plant Physiol. 137: 1228 – 1235.
Lavin, M., P.S. Herendeen, and M.F. Wojciechowski. 2005. Evolutionary rates analysis of Leguminosae implicates a rapid diversification of lineages during the Tertiary. Syst. Biol. 54: 530-549.
Pennington, R.T., M. Lavin, H. Ireland, B.B. Klitgaard, and J. Preston. 2001. Phylogenetic relationships of basal papilionoid legumes based upon sequences of the chloroplast trnL intron. Syst. Bot. 26: 537-566.
Polhill, R.M. 1994. Classification of the Leguminosae. Pages xxxv–xlviii in Phytochemical dictionary of the Leguminosae (F. A. Bisby, J. Buckingham, and J. B. Harborne, eds.). Chapman and Hall, New York, NY.
Wojciechowski, M. F., M. Lavin, and M. J. Sanderson. 2004. A phylogeny of legumes (Leguminosae) based on analysis of the plastid matK gene resolves many well-supported subclades within the family. American Journal of Botany 91: 1846-1862.
About This Page
Martin F. Wojciechowski
Arizona State University, Tempe, Arizona, USA
Correspondence regarding this page should be directed to Martin F. Wojciechowski at
Page copyright © 2006 Martin F. Wojciechowski
All Rights Reserved.
- First online 14 June 2006
- Content changed 12 July 2006
Citing this page:
Wojciechowski, Martin F. 2006. Papilionoideae. Version 12 July 2006. http://tolweb.org/Papilionoideae/60240/2006.07.12 in The Tree of Life Web Project, http://tolweb.org/