*** Sources for Resolved and Conservative trees constructed by C. Webb
for phylomatic - as of 16apr04 ***


** All **

Judd, W. S., et al.  1999.  Plant systematics: a phylogenetic
approach.  Sinauer Associates, Sunderland, MA, USA.

Mabberley, D. J.  1987.  The plant book.  Cambridge University Press,
Cambridge.


** Cunoniaceae **

Bradford JC, and Barnes RW (2001) Phylogenetics and classification of
Cunoniaceae (Oxalidales) using chloroplast DNA sequences and
morphology. Systematic Botany 26: 354-385.  (R-tree: Figure 4. Strict
consensus, parsimony. No additional collpses.)


** Ebenaceae **

Morton, C. M., et al.  1996.  A molecular evaluation of the monophyly
of the order Ebenales based on rbcL sequence data.  Systematic Botany
21:567-586.


** Fabaceae **

Doyle, J. J., et al.  1997.  A phylogeny of the chloroplast gene rbcL
in the Leguminosae: taxonomic correlations and insights into the
evolution of nodulation .  American Journal of Botany 84:541-554.

Hu, J.-M., et al.  2000.  Phylogenetic systematics of the tribe
Millettieae (Leguminosae) based on chloroplast trnK/matK sequences and
its implications for evolutionary patterns in Papilionoideae .
American Journal of Botany 87:418-430.


** Lauraceae **

Renner, S. S.  1999.  Circumscription and phylogeny of the Laurales:
evidence from molecular and morphological data .  American Journal of
Botany 86:1301-1315.


** Loganiaceae **

Backlund, M., B. Oxelman, and B. Bremer.  2000.  Phylogenetic
relationships within the Gentianales based on NDHF and RBCL sequences,
with particular reference to the Loganiaceae .  American Journal of
Botany 87:1029-1043.


** Malvaceae **

Alverson, W. S., et al.  1999.  Phylogeny of the core Malvales:
evidence from ndhF sequence data .  American Journal of Botany
86:1474-1486.


** Meliaceae **

Muellner AN, Samuel R, Johnson SA, Cheek M, Pennington TD, and Chase
MW (2003) Molecular phylogenetics of Meliaceae (Sapindales) based on
nuclear and plastid DNA sequences. American Journal of Botany
90:471-480. (R: Figure 5. Bootstrap consensus, maximum parsimony.  No
additional collapses)


** Myrtaceae **

Wilson, P. G.; O'Brien, M. M.; Gadek, P. A.; Quinn,
C. J. 2001. Myrtaceae revisited: a reassessment of infrafamilial
groups. American journal of Botany 88: 2013-2025. (R, C: Fig. 3)

Conti, E., A. Litt, and K. J. Sytsma.  In press.  Circumscription of
Myrtales and their relationships to other rosids: evidence from rbcL
sequence data.  American Journal of Botany :.


** Poaceae **

Grass Phylogeny Working Group, Annals of the Missouri Bot Garden
88:373-457 (2001). Phylogeny and subfamilial classification of the
grasses (Poaceae)


** Proteaceae **

Hoot SB. Douglas AW. Phylogeny of the proteaceae based on atpB and
atpB-rbcL intergenic spacer region sequences. [Article] Australian
Systematic Botany. 11(3-4):301-320, 1998


** Rhamnaceae **

Richardson, J. E.; Fay, M. F.; Cronk, Q. C. B.; Bowman, D. and Chase,
M. (2000) A phylogenetic analysis of Rhamnaceae using RBCL and TRNL-F
plastid DNA sequences. American Journal of Botany 87: 1309-1324.


**  Rhizophoraceae **

Schwarzbach, A. E., and R. E. Ricklefs.  2000.  Systematic affinities
of Rhizophoraceae and Anisophylleaceae, and intergeneric relationships
within Rhizophoraceae, based on chloroplast DNA, nuclear ribosomal
DNA, and morphology.  American Journal of Botany 87:547-564.


** Sapindaceae **

Gadek, P. A., et al.  1996.  Sapindales: molecular delimitation and
infraordinal groups.  American Journal of Botany 83:802-811.