SEARCH

SEARCH BY CITATION

References

  • Amrani, S., Noureddine, N.-E., Bhatnagar, T., Argandoña, M., Nieto, J.J. & Vargas, C. (2009) Phenotypic and genotypic characterization of rhizobia associated with Acacia saligna (Labill.) Wendl. in nurseries from Algeria. Systematics and Applied Microbiology, 33, 4451.
  • Andam, C.P. & Parker, M.A. (2008) Origins of Bradyrhizobium nodule symbionts from two legume trees in the Philippines. Journal of Biogeography, 35, 10301039.
  • Bagyaraj, D.J., Manjunath, A. & Patil, R.B. (1979) Interaction between a vesicular-arbuscular mycorrhiza and Rhizobium and their effects in soybean in the field. New Phytologist, 82, 14698137.
  • Barnet, Y.M., Catt, P.C. & Hearne, D.H. (1985) Biological nitrogen fixation and root-nodule bacteria (Rhizobium sp. and Bradyrhizobium sp.) in two rehabilitating sand dune areas planted with Acacia spp. Australian Journal of Botany, 33, 595610.
  • Bontemps, C., Elliott, G.N., Simon, M.F., Dos Reis Junior, F.B., Gross, E., Lawton, R.C., Neto, N.E., Loureiro, M.F., De Faria, S.M., Sprent, J.I., James, E.K. & Young, J.P.W. (2010) Burkholderia species are ancient symbionts of legumes. Molecular Ecology, 19, 4452.
  • Castro-Díez, P., Godoy, O., Saldaña, A. & Richardson, D.M. (2011) Predicting invasiveness of Australian acacias on the basis of their native climatic affinities, life-history traits and human use. Diversity and Distributions, 17, 934945.
  • Clapp, J.P., Mansur, I., Dodd, J.C. & Jeffries, P. (2001) Ribotyping of rhizobia nodulating Acacia mangium and Paraserianthes falcataria from different geographical areas in Indonesia using PCR-RFLP-SSCP (PRS) and sequencing. Environmental Microbiology, 3, 272280.
  • Díez, J. (2005) Invasion biology of Australian ectomycorrhizal fungi introduced with eucalypt plantations into the Iberian Peninsula. Biological Invasions, 7, 315.
  • Duponnois, R., Plenchette, C., Prin, Y., Ducousso, M., Kisa, M., Ba, A. & Galiana, A. (2007) Use of mycorrhizal inoculation to improve reafforestation process with Australian Acacia in Sahelian ecozones. Ecological Engineering, 29, 105112.
  • Fogarty, G. & Facelli, J.M. (1999) Growth and competition of Cytisus scoparius, an invasive shrub, and Australian native shrubs. Plant Ecology, 144, 2735.
  • Galiana, A., Chaumont, J., Diem, H.G. & Dommergues, Y. (1990) Nitrogen-fixing potential of Acacia mangium and Acacia auriculiformis seedlings inoculated with Bradyrhizobium and Rhizobium spp. Biology and Fertility of Soils, 9, 261267.
  • Gibson, M., Richardson, D.M., Marchante, E., Marchante, H., Rodger, J.G., Stone, G.N., Byrne, M., Fuentes-Ramírez, A., George, N., Harris, C., Johnson, S.D., Le Roux, J.J., Murphy, D.J., Pauw, A., Prescott, M.N., Wandrag, E.M. & Wilson, J.R.U. (2011) Reproductive biology of Australian Acacia species: important mediator of invasiveness? Diversity and Distributions, 17, 911933.
  • Guindon, S. & Gascuel, O. (2003) A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood. Systematic Biology, 52, 696704.
  • Herrera, M.A., Salamanca, C.P. & Barea, J.M. (1993) Inoculation of woody legumes with selected arbuscular mycorrhizal fungi and rhizobia to recover desertified Mediterranean ecosystems. Applied and Environmental Microbiology, 59, 129133.
  • Hoque, M.S., Broadhurst, L.M. & Thrall, P.H. (2011) Genetic characterisation of root nodule bacteria associated with Acacia salicina and A. stenophylla (Mimosaceae) across southeastern Australia. International Journal of Systematic and Evolutionary Microbiology, 61, 299309.
  • Hui, C., Richardson, D.M., Robertson, M.P., Yates, C.J. & Wilson, J.R.U. (2011) Macroecology meets invasion ecology: linking native distribution of Australian acacias to invasiveness. Diversity and Distributions, 17, 872883.
  • Joubert, C. (2003) Rhizobia Associated with Australian Acacia species (Acacia mearnsii, Acacia dealbata and Acacia decurrens) in South Africa as Determined by Sodium Dodecyl-Sulphate Polyacrylamide Gel Electrophoresis. Msc Thesis. University of Pretoria, Pretoria.
  • Lafay, B. & Burdon, J.J. (1998) Molecular diversity of rhizobia occurring on native shrubby legumes in southeastern Australia. Applied and Environmental Microbiology, 64, 39893997.
  • Lafay, B. & Burdon, J.J. (2001) Small-subunit rRNA genotyping of rhizobia nodulating Australian Acacia spp. Applied and Environmental Microbiology, 67, 396402.
  • Lafay, B. & Burdon, J.J. (2006) Molecular diversity of rhizobia nodulating the invasive legume Cytisus scoparius in Australia. Journal of Applied Microbiology, 100, 12281238.
  • Lawrie, A.C. (1983) Relationships among rhizobia from native Australian legumes. Applied and Environmental Microbiology, 45, 18221828.
  • Le Maitre, D.C., Gaertner, M., Marchante, E., Ens, E.-J., Holmes, P.M., Pauchard, A., O’Farrell, P.J., Rogers, A.M., Blanchard, R., Blignaut, J. & Richardson, D.M. (2011) Impacts of introduced Australian acacias: implications for management and restoration. Diversity and Distributions, 17, 10151029.
  • Le Roux, C., Tentchev, D., Prin, Y., Goh, D., Japarudin, Y., Perrineau, M.-M., Duponnois, R., Domergue, O., de Lajudie, P. & Galiana, A. (2009) Bradyrhizobia nodulating the Acacia mangium × A. auriculiformis interspecific hybrid are specific and differ from those associated with both parental species. Applied and Environmental Microbiology, 75, 77527759.
  • Leary, J.K., Hue, N.V., Singleton, P.W. & Borthakur, D. (2006a) The major features of an infestation by the invasive weed legume gorse (Ulex europaeus) on volcanic soils in Hawaii. Biology and Fertility of Soils, 42, 215223.
  • Leary, J.K., Singleton, P.W., Scowfroft, P.G. & Borthakur, D. (2006b) Symbiotic diversity in the cosmopolitan genus Acacia. Symbiosis, 41, 107117.
  • Liao, C., Peng, R., Luo, Y., Zhou, X., Wu, X., Fang, C., Chen, J. & Li, B. (2008) Altered ecosystem carbon and nitrogen cycles by plant invasion: a meta-analysis. New Phytologist, 177, 706714.
  • Lowendorf, H.S. (1980) Factors affecting survival of Rhizobium in soil. Advances in Microbial Ecology, 4, 87124.
  • Marchesi, J.R., Sato, T., Weightman, A.J., Martin, T.A., Fry, J.C., Hiom, S.J. & Wade, W.G. (1998) Design and evaluation of useful bacterium-specific PCR primers that amplify genes coding for bacterial 16s rRNA. Applied and Environmental Microbiology, 64, 795799.
  • Marshall, K.C., Mulcahy, M.J. & Chowdhury, M.S. (1963) Second-year clover mortality in Western Australia — a microbiological problem. Journal of the Australian Institute for Agricultural Science, 29, 160164.
  • Marsudi, N.D.S., Glenn, A.R. & Dilworth, M.J. (1999) Identification and characterization of fast- and slow-growing root nodule bacteria from southwestern Australian soils able to nodulate Acacia saligna. Soil Biology and Biochemistry, 31, 12291238.
  • Mohamed, S.H., Smouni, A., Neyra, M., Kharchaf, D. & Filali- Maltouf, A. (2000) Phenotypic characteristics of root-nodulating bacteria isolated from Acacia spp. grown in Libya. Plant and Soil, 224, 171183.
  • Nel, J.L., Richardson, D.M., Rouget, M., Mgidi, T., Mdzeke, N., Le Maitre, D.C., van Wilgen, B.W., Schonegevel, L., Henderson, L. & Neser, S. (2004) A proposed classification of invasive alien plant species in South Africa: towards prioritising species and areas for management action. South African Journal of Science, 100, 5364.
  • Ngom, A., Nakagawa, Y., Sawada, H., Tsukahara, J., Wakabayashi, S., Uchiumi, T., Nuntagij, A., Kotepong, S., Suzuki, A., Higashi, S. & Abe, M. (2004) A novel symbiotic nitrogen-fixing member of the Ochrobactrum clade isolated from root nodules of Acacia mangium. Journal of General and Applied Microbiology, 50, 1727.
  • Nuñez, M.A., Horton, T.R. & Simberloff, D. (2009) Lack of belowground mutualisms hinders Pinaceae invasions. Ecology, 90, 23522359.
  • Nuswantara, S., Fujie, M., Sukiman, H.I., Yamashita, M., Yamada, T. & Murooka, Y. (1997) Phylogeny of bacterial symbionts of the leguminous tree Acacia mangium. Journal of Fermentation and Bioengineering, 84, 511518.
  • Parker, M.A. (2001) Mutualism as a constraint on invasion success for legumes and rhizobia. Diversity and Distributions, 7, 125136.
  • Parker, M.A., Malek, W. & Parker, I.M. (2006) Growth of an invasive legume is symbiont limited in newly occupied habitats. Diversity and Distributions, 12, 563571.
  • Parker, M.A., Wurtz, A.K. & Paynter, Q. (2007) Nodule symbiosis of invasive Mimosa pigra in Australia and in ancestral habitats: a comparative analysis. Biological Invasions, 9, 127138.
  • Perez-Fernandez, M.A. & Lamont, B.B. (2003) Nodulation and performance of exotic and native legumes in Australian soils. Australian Journal of Botany, 51, 543553.
  • Perez-Ramirez, N.O., Rogel, M.A., Wang, E.T., Castellanos, J.Z. & Martinez-Romero, E. (1998) Seeds of Phaseolus vulgaris bean carry Rhizobium etli. FEMS Microbiology Ecology, 26, 289296.
  • Perret, X., Staehelin, C. & Broughton, W.J. (2000) Molecular basis of symbiotic promiscuity. Microbiology and Molecular Biology Reviews, 64, 180201.
  • Posada, D. & Crandall, K.A. (1998) MODELTEST: testing the model of DNA substitution. Bioinformatics, 14, 817818.
  • Prin, Y., Galiana, A., Le Roux, C., Meleard, B., Razafimaharo, V., Ducousso, M. & Chaix, G. (2003) Molecular tracing of Bradyrhizobium strains helps to correctly interpret Acacia mangium response to inoculation in a reforestation experiment in Madagascar. Biology and Fertility of Soils, 37, 6469.
  • Pyšek, P., Richardson, D.M., Rejmánek, M., Webster, G.L., Williamson, M. & Kirschner, J. (2004) Alien plants in checklists and floras: towards better communication between taxonomists and ecologists. Taxon, 53, 131143.
  • Reinhart, K.O. & Callaway, R.M. (2006) Soil biota and invasive plants. New Phytologist, 170, 445457.
  • Richardson, D.M. & Rejmánek, M. (2011) Trees and shrubs as invasive alien species – a global review. Diversity and Distributions, 17, 788809.
  • Richardson, D.M., Allsopp, N., D’Antonio, C.M., Milton, S.J. & Rejmánek, M. (2000) Plant invasions – the role of mutualisms. Biological Reviews, 75, 6593.
  • Richardson, D.M., Carruthers, J., Hui, C., Impson, F.A.C., Robertson, M.P., Rouget, M., Le Roux, J.J. & Wilson, J.R.U. (2011) Human-mediated introductions of Australian acacias—a global experiment in biogeography. Diversity and Distributions, 17, 771787
  • Rodríguez-Echeverría, S. (2010) Rhizobial hitchhikers from down under: invasional meltdown in a plant–bacteria mutualism?. Journal of Biogeography, 37, 16111622.
  • Rodríguez-Echeverría, S. & Pérez-Fernández, M.A. (2005) Potential use of Iberian shrubby legumes and rhizobia inoculation in revegetation projects under acidic soil conditions. Applied Soil Ecology, 29, 203208.
  • Rodríguez-Echeverría, S., Pérez Fernández, M.A., Vlaar, S. & Finan, T.M. (2003) Analysis of the legume-rhizobia symbiosis in shrubs from central western Spain. Journal of Applied Microbiology, 95, 13671374.
  • Rodríguez-Echeverría, S., Crisostomo, J.A. & Freitas, H. (2007) Genetic diversity of rhizobia associated with Acacia longifolia in two stages of invasion of coastal sand dunes. Applied and Environmental Microbiology, 73, 50665070.
  • Rodríguez-Echeverría, S., Crisostomo, J.A., Nabais, C. & Freitas, H. (2009) Belowground mutualists and the invasive ability of Acacia longifolia in coastal dunes of Portugal. Biological Invasions, 11, 651661.
  • Romdhane, S.B., Nasr, H., Samba-Mbanye, R., Neyra, M. & Ghorbal, M.H. (2005) Diversity of Acacia tortilis rhizobia as revealed by PCR/RFLP on crushed root nodules in Tunisia. Annals of Microbiology, 55, 249258.
  • Sawada, H., Kuykendall, L.D. & Young, J.P.M. (2003) Changing concepts in the systematics of bacterial nitrogen-fixing legume symbionts. Journal of Genetics and Applied Microbiology, 49, 155179.
  • Sprent, J.I. (2001) Nodulation in Legumes, Royal Botanic Gardens Kew, London, UK.
  • Stepkowski, T., Moulin, L., Krzyzanska, A., McInnes, A., Law, I.J. & Howieson, J. (2005) European origin of Bradyrhizobium populations infecting lupins and serradella in soils of Western Australia and South Africa. Applied and Environmental Microbiology, 71, 70417052.
  • Swelim, D.M., Hashem, F.M., Kuykendall, L.D., Hegazi, N.I. & Abdel-Wahab, S.M. (1997) Host specificity and phenotypic diversity of Rhizobium strains nodulating Leucaena, Acacia, and Sesbania in Egypt. Biology and Fertility of Soils, 25, 224232.
  • Tárraga, J., Medina, I., Arbiza, L., Huerta-Cepas, J., Gabaldón, T., Dopazo, J. & Dopazo, H. (2007) Phylemon: a suite of web tools for molecular evolution, phylogenetics and phylogenomics. Nucleic Acids Research, 35, W38W42.
  • Vincent, J. (1970) A Manual for the Practical Study of the Root-Nodule Bacteria. Blackwell, Oxford.
  • Vinuesa, P., Rojas-Jiménez, K., Contreras-Moreira, B., Mahna, S.K., Prasad, B.N., Moe, H., Selvaraju, S.B., Thierfelder, H. & Werner, D. (2008) Multilocus sequence analysis for assessment of the biogeography and evolutionary genetics of four Bradyrhizobium species that nodulate soybeans on the Asiatic continent. Applied and Environmental Microbiology, 74, 69876996.
  • Weir, B.S. (2010) The current taxonomy of rhizobia. New Zealand rhizobia website. Available at: http://www.rhizobia.co.nz/taxonomy/rhizobia.html [Accessed on 21 October, 2010].
  • Weir, B.S., Turner, S.J., Silvester, W.B., Park, D.-C. & Young, J.M. (2004) Unexpectedly diverse Mesorhizobium strains and Rhizobium leguminosarum nodulate native legume genera of New Zealand, while introduced legume weeds are nodulated by Bradyrhizobium species. Applied and Environmental Microbiology, 70, 59805987.
  • Yates, R., Howieson, J., Nandasena, K.G. & O’Hara, G.W. (2004) Root-nodule bacteria from indigenous legumes in the north-west of Western Australia and their interaction with exotic legumes. Soil Biology & Biochemistry, 36, 13191329.
  • Yelenik, S.G., Stock, W.D. & Richardson, D.M. (2007) Functional group identity does not predict invader impacts: differential effects of nitrogen-fixing exotic plants on ecosystem function. Biological Invasions, 9, 117125.
  • Young, N.R. & Mytton, L.R. (1983) The response of white clover to different strains of Rhizobium trifolii in hill land reseeding. Grass and Forage Science, 38, 1319.