Miller P. The Gardeners’s Dictionary[M]. London :Harvard university,1754:34-60.
[2]
Willdenow C L. Caroli a Linne Species plantarum[J]. Editio quarta, 1802, 3: 851-1474.
[3]
De Candolle. Prodromus Systematis Naturalis Regni Vegetabilis [J]. Annals and Magazing of Natural History:Series,1825,19:1-4.
[4]
Burman N L. Flora Indica [M]. Serampore:Apud C . Haek, 1768:104-341.
[5]
Orchard A E, Wilson A J G. Flora of Australia[M]. Canberra and Melbourne:CSIRO PublishingAntpodes Book & Beyond, 2001: 38-336.
[6]
Bentham G. Flora Australiensis[M]. London: L.Reeve and Co, 1864,2.
[7]
Kodela P G , Tindale M D. Acacia subg.Acacia.Flora of Australia[M].Canberra and Melbourne:CSIRO PublishingAntpodes Book & Beyond, 2001:196-207.
[8]
Guinet P, Vassal J. Hypotheses on the differentiation of the genus Acacia (Leguminosae) [J] .Kew Bull,1978,32:509-527.
[9]
Guinet P. The geuns Acacia(Leguminosae,Mimosoideae):its affinities as borne out by its pollen characters[J].Plant Systematics & Evolution, 1990,(Suppl 5):81-90.
[10]
Evans C S,Qureshi M Y,Bell E A. Free amino acids in the seeds of Acacia species [J]. Phytochemistry, 1977, 16:565-570.
[11]
Tindale M D, Roux D G. An extended phytochemical survey of the Australian species of Acacia: chemotaxonomic and phylogenique aspects[J]. Phytochemistry, 1974,13:829-839.
[12]
Clarke H D, Downie S R, Seigler D S . Implications of chloroplast DNA restriction site variation for systematics of Acacia (Fabaceae: Mimosideae)[J].Systematic Botany ,2001,25:618-632.
[13]
Chappill J A, Maslin B R.A phylogenetic assessment of tribe Acacieae[J].Royal Botanic Gardens, 1995, 7:77-99.
[14]
Grimes J G. Inflorescence morphology, heterochrony, and phylogeny in the Mimosoid tribes Ingeae and Acacieae(Leguminosae:Mimosoideae) [J]. Botanical review ,2000, 65:317-347.
[15]
Robinson J, Harris S A . A plastid DNA phylogeny of the genus Acacia Miller (Acacia, Leguminous)[J]. Botanical Journal of the Linnaean Society, 2000, 132:195-222.
[16]
Miller J T, Bayer R J. Molecular phylogenetics of Acacia (Fabaceae: Mimosoideae) based on the chloroplast trnK/matK and nuclear histone H3-D DNA sequences[J]. Advances in legume systematic, 2000, 9:181-200.
[17]
Miller J T, Bayer R J. Molecular phylogenetics of Acacia (Fabaceae: Mimosoideae) based on the chloroplast matK coding sequence and flanking trnK intron spacer regions[J]. American Journal of Botany, 2001, 88: 697-705.
[18]
Miller J T, Bayer R J. Molecular phylogenetics of the Australian Acacia (Acacia, Fabaceae: Mimosoideae) based on the trnK intron[J]. Australian Journal of Botany, 2003, 51:167-177.
[19]
Bentham G. Revision of he Suborder Mimoseae[J].Transaction of the Linnean Society,1875,30:318-528.
[20]
Guinet P . Les Mimosacees, etude de palynologie fondamentale, correlations, evolution[J]. Travaux de la Section Scientifique et Technique, 1969, 9:1-293.
[21]
Pedley L. A revision of Acacia Mill. in Queensland[J]. Austrobaileya, 1978, 1: 75-234.
[22]
Pedley L. Revision of the extra-Australian species of Acacia Subg. Heterophyllum.[J] Contributions from the Queensland Herbarium, 1978,18:1-24.
[23]
Pedley L. A revision of Acacia Mill. in Queensland(concluded)[J].Austrobaileya,1980, 1:235-337.
[24]
Pedley L. Classification of Acacia[J].Bulletin of the International Group for the Study of Mimosoideae, 1981, 9:42-48.
[25]
Pedley L . Another look at the classification of Acacia[J]. Bulletin of the International Group for the Study of Mimosoideae, 1983, 11:29-32.
[26]
Pedley L. Derivation and dispersal of Acacia (Leguminosae), with particular reference to Australia, and the recognition of Senegalia and Racosperma[J]. Botanical Journal of the Linnean Society, 1986,92:219-254.
Johdan W C, Courtney M W, Neigel J E. Low levels of intraspecific gentic variation at a rapidly evolving chloroplast DNA locus in North American duckweeds (Lemnaceae)[J]. Amer J Bot, 1996, 83:430-439.
[29]
Downie S R, Palmer J D,Watson W F.A phylogeny of the flowering plant family Apiaceae based on chloroplast DNA rpl16 and rpoC1 intron sequences:towards a suprageneric classification of subfamily Apioideae[J]. Amer J Bot, 2000b , 87:273-292.
[30]
Neuhaus H,Scholz A Link . The chloroplast tRNAlys (UUU) gene from mustard (Sinapsis alba) contains a class Ⅱ intron potentially coding for a maturase-related polypeptide[J]. Curr Genet, 1987, 11:251-257.
[31]
Kron K A. Phylogenetic relationships of nucleotide and code changes[J]. Molec Biol Evol, 1997, 2:150-174.
[32]
Johnson L A, Soltis D E. matK DNA sequences and phylogenetic reconstruction in Saxifragacea s. str[J].Systematic Botany,1994,19:143-156.
[33]
Felsenstein J. Confidence limits on phylogenies: An approach using the bootstrap[J]. Evolution, 1985, 39:783-791.
[34]
Nei M, Kumar S. Molecular Evolution and Phylogenetics[M]. New York: Oxford University Press, 2000.
[35]
Isely D. LEGUMES OF The United States:1.native acacias[J].Sida Contrib Bot, 1969, 3:365-368.
[36]
Miller J T, Murphy D J, Simou Y w, et al. Comparative dating of Acacia: Combining fossils and multiple phylogenies to infer ages of Clades with poor fossil records[J]. Australia Journal of Botany, 2013, 61:436-445.
[37]
Raven P H, Axelord D. Angiosperm biogeography and past continental movements[J]. Ann Miss Bot Gard,1974, 61(3):539-500.
[38]
Hu j M, Lavin M. Wojciechowski M F, et al. Phylogenetic systematic of the tribe Millettiae (Leguminosae) based on chloroplast trnK/matK sequences and its
