Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Australian Systematic Botany Australian Systematic Botany Society
Taxonomy, biogeography and evolution of plants
Shopping Cart: ( empty )
You are here: Home > Journals > SB > SB06026
RESEARCH ARTICLE
Contents Vol 20(1)

Morphological and genetic variation within the widespread species Acacia victoriae (Mimosaceae)

Siti R. Ariati A C , Daniel J. Murphy B , Stuart Gardner A and Pauline Y. Ladiges A D
+ Author Affiliations
- Author Affiliations

A School of Botany, The University of Melbourne, Parkville, Vic. 3010, Australia.

B National Herbarium of Victoria, Royal Botanic Gardens Melbourne, Birdwood Ave, South Yarra, Vic. 3141, Australia.

C Present address: Centre for Plant Conservation, Bogor Botanic Gardens – LIPI Jl. Ir. H. Juanda 13, Bogor 16122, Indonesia.

D Corresponding author. Email: p.ladiges@unimelb.edu.au

Australian Systematic Botany 20(1) 54-62 https://doi.org/10.1071/SB06026
Submitted: 11 August 2006  Accepted: 10 October 2006   Published: 26 February 2007

Abstract

Morphological variation in Acacia victoriae, a species widespread in arid and semi-arid regions of Australia, was analysed by phenetic methods of classification and ordination. Three morphological groups were identified on the basis of phyllode characters and are treated as subspecies. Populations with short, elliptic and tomentose phyllodes are confirmed as A. victoriae subsp. arida Pedley; this form occurs mainly in central Australia. Populations with linear to oblong, non-tomentose phyllodes are referred to subsp. victoriae; this subspecies is the most variable and widely distributed across Australia. Populations with very long, narrow phyllodes, distributed in northern Australia from the Kimberley to Queensland, are described as fasciaria subsp. nov. A small number of non-tomentose specimens with broad elliptic phyllodes from central Australia require further assessment. Thirteen accessions previously sequenced for internal spacer regions and external spacer regions of ribosomal nuclear DNA showed genetic divergence. Six accessions of subsp. fasciaria formed a clade in a parsimony analysis, confirming that the long phyllode form is genetically distinct.


Acknowledgements

We thank Bruce Maslin for assistance with fieldwork in WA and Neville Walsh for the Latin diagnosis and critical reading of the manuscript. SA received financial support from the Australian Development Scholarship, The Hanjorg Eichler Research Fund and the School of Botany Foundation. This project was part of an ARC Linkage grant awarded to PL.


References


Andrew RL, Miller JT, Peakall R, Crisp MD, Bayer RJ (2003) Genetic, cytogenetic and morphological patterns in a mixed mulga population: evidence for apomixis. Australian Systematic Botany 16, 69–80.
Crossref | GoogleScholarGoogle Scholar | open url image1

Ariati RA, Murphy DJ, Udovicic F, Ladiges PY (2006) Molecular phylogeny of three groups of acacias (subgenus Phyllodineae) in arid Australia based on the internal and external spacer regions of nrDNA. Systematics & Biodiversity 4, 417–426.
Crossref |
open url image1

Belbin L (1995) ‘Pattern analysis package (PATN).’ (CSIRO Division of Wildlife and Ecology: Canberra)

Broadhurst L, Coates D (2002) Genetic diversity within and divergence between rare and geographically widespread taxa of the Acacia acuminata Benth. (Mimosaceae) complex. Heredity 88, 250–257.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Brown AG , Turnbull JW (1986) The Australian environment. In ‘Multipurpose Australian trees and shrubs: lesser-known species for fuelwood and agroforestry’. (Ed. JM Turnbull) pp. 11–27. (ACIAR: Canberra)

Casiva PV, Saidman BO, Vilardi JC, Cialdella AM (2002) First comparative phenetic studies of Argentinean species of Acacia (Fabaceae), using morphometric, isozymal, and RAPD approaches. American Journal of Botany 89, 843–853. open url image1

Conn BJ, Tame M (1996) A revision of the Acacia uncinata group (Fabaceae–Mimosoideae). Australian Systematic Botany 9, 827–857.
Crossref | GoogleScholarGoogle Scholar | open url image1

Cunningham GM , Mulham WE , Milthorpe PL , Leigh JH (1981) ‘Plants of western New South Wales’. (Soil Conservation Service of NSW: Sydney)

Gardner SK, Murphy DJ, Newbigin E, Drinnan AN, Ladiges PY (2005) An investigation of phyllode variation in Acacia verniciflua and A. leprosa (Mimosaceae), and implications for taxonomy. Australian Systematic Botany 18, 383–398.
Crossref | GoogleScholarGoogle Scholar | open url image1

Goldstein DB, Roemer G, Smith D (1999) The use of microsatellite variation to infer population structure and demographic history in a natural model system. Genetics 151, 797–801.
PubMed |
open url image1

Grice AC, Westoby M (1987) Aspects of the dynamics of the seed-banks and seedling populations of Acacia victoriae and Cassia spp. in arid western New South Wales. Australian Journal of Ecology 12, 209–215.
Crossref | GoogleScholarGoogle Scholar | open url image1

Grice AC, Westoby M, Torpy C (1994) Dynamics and population structure of Acacia victoriae Benth. Australian Journal of Ecology 19, 10–16.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hanausek M, Ganesh P, Walaszek Z, Arntzen CJ, Slaga TJ, Gutterman JU (2001) Avicins, a family of triterpenoid saponins from Acacia victoriae (Bentham), suppress H-ras mutations and aneuploidy in a murine skin carcinogenesis model. Proceedings of the National Academy of Sciences USA 98, 11 551–11 556.
Crossref | GoogleScholarGoogle Scholar | open url image1

Haridas V, Arntzen CJ, Gutterman JU (2001a) Avicins, a family of triterpenoid saponins from Acacia victoriae (Bentham), inhibit activation of nuclear factor-κB by inhibiting both its nuclear localization and ability to bind DNA. Proceedings of the National Academy of Sciences USA 98, 11 557–11 562.
Crossref | GoogleScholarGoogle Scholar | open url image1

Haridas V, Higuchi M, Jayatilake GS, Bailey D, Mujoo K, Blake ME, Arntzen CJ, Gutterman JU (2001b) Avicins: triterpenoid saponins from Acacia victoriae (Bentham) induce apoptosis by mitochondrial perturbation. Proceedings of the National Academy of Sciences USA 98, 5821–5826.
Crossref | GoogleScholarGoogle Scholar | open url image1

Hele A (2002) Issues in the commercialisation of wattle seed for food. Conservation Science Western Australia 4, 181–184. open url image1

Kruskal JB (1964a) Multidimensional scaling by optimising goodness of fit to a non-metric hypothesis. Psychometrica 29, 1–27.
Crossref | GoogleScholarGoogle Scholar | open url image1

Kruskal JB (1964b) Non-metric multidimensional scaling: a numerical method. Psychometrica 29, 115–129.
Crossref | GoogleScholarGoogle Scholar | open url image1

Ladiges PY, Ariati SR, Murphy DJ (2006) Biogeography of the Acacia victoriae, pyrifolia and murrayana species groups in arid Australia. Journal of Arid Environments 66, 462–476.
Crossref | GoogleScholarGoogle Scholar | open url image1

Maslin BR (1992) Acacia miscellany 6. Review of Acacia victoriae and related species (Leguminosae: Mimosoideae: Section Phyllodineae). Nuytsia 8, 285–309. open url image1

Maslin BR (2001) Acacia victoriae. In ‘Flora of Australia. Vol. 11A’. (Eds AE Orchard, AJG Wilson) pp. 377–388. (ABRS/CSIRO Publishing: Melbourne)

Maslin BR , Hopper SD (1982) Phytogeography of Acacia (Leguminosae: Mimosoideae) in central Australia. In ‘Evolution of the flora and fauna of arid Australia’. (Eds WR Baker, PJM Greenslade) pp. 301–315. (Peacock Publications: Adelaide)

Maslin BR , Thomson LAJ , McDonald MW , Hamilton-Brown S (1998) ‘Edible wattle seeds of southern Australia. A review of species for use in semi-arid regions.’ (CSIRO Publishing: Melbourne)

Mitchell TL (1848) ‘Journal of an expedition into the interior of tropical Australia, in search of a route from Sydney to the Gulf of Carpentaria tropical Australia.’ (Longman, Brown, Green and Longmans: London)

Morrison D, Rupp JA (1995) Patterns of morphological variation within Acacia suaveolens (Mimosaceae). Australian Systematic Botany 8, 1013–1027.
Crossref | GoogleScholarGoogle Scholar | open url image1

Pedley L (1979) A revision of Acacia Mill. in Queensland (concluded). Austrobaileya 1, 271. open url image1

Sneath PHA , Sokal R (1973) ‘Numerical taxonomy: the principles and practice of numerical classification.’ (W. H. Freeman: San Francisco)

Swofford DL (2001) ‘Phylogenetic analysis using parsimony (PAUP) version 4.0b10.’ (Sinauer Associations: Sunderland)

Turnbull JW , Martensz PN , Hall N (1986) Notes on lesser-known Australian trees and shrubs with potential for fuelwood and agroforestry. In ‘Multipurpose Australian trees and shrubs: lesser-known species for fuelwood and agroforestry’. (Ed. JM Turnbull) pp. 81–313. (ACIAR: Canberra)

Wheeler JR , Rye BL , Koch BL , Wilson AJG (1992) ‘Flora of the Kimberley region.’ (WA Herbarium, Department of Conservation and Land Management: Perth)

Whibley DJE (1980) ‘Acacias of South Australia.’ (Government Printer: Adelaide)









* *Specimens with broad elliptic to oblanceolate phyllodes, 14–30 (mean 19) mm wide are tentatively assigned to subsp. victoriae and require further study.