Early modifications of Brassica napus root system architecture induced by a plant growth-promoting Phyllobacterium strain
Article first published online: 14 AUG 2003
Volume 160, Issue 1, pages 119–125, October 2003
How to Cite
Larcher, M., Muller, B., Mantelin, S., Rapior, S. and Cleyet-Marel, J.-C. (2003), Early modifications of Brassica napus root system architecture induced by a plant growth-promoting Phyllobacterium strain. New Phytologist, 160: 119–125. doi: 10.1046/j.1469-8137.2003.00862.x
- Issue published online: 14 AUG 2003
- Article first published online: 14 AUG 2003
- Received: 11 February 2003 Accepted: 6 June 2003; doi: 10.1046/j.1469-8137.2003.00862.x
- 1986. Serological and ecological studies of Rhizobium spp. (Cicer arietinum L.) by immunofluorescence and ELISA technique: competitive ability for nodule formation between Rhizobium strains. Plant and Soil 94: 411–423. , .
- 1993. Effect on wheat root development of inoculation with an Azospirillum brasilense mutant with altered indole-3-acetic acid production. Research in Microbiology 144: 69–75. , .
- 1986. Significance of timing and level of inoculation with rhizosphere bacteria on wheat plants. Soil Biology and Biochemistry 18: 297–301. .
- 1998. Inoculants of plant growth-promoting bacteria for use in agriculture. Biotechnology Advances 16: 729–770. .
- 1998. Proposal for the division of plant growth- promoting rhizobacteria into two classifications: biocontrol-PGPB (Plant Growth-Promoting Bacteria) and PGPB. Soil Biology and Biochemistry 30: 1225–1228. , .
- 2000. Isolation and identification of the most efficient plant growth-promoting bacteria associated with canola (Brassica napus). Biology and Fertility of Soils 33: 152–156. , , , .
- 1995. Synthesis of phytohormones by plant-associated bacteria. Critical Reviews in Microbiology 21: 1–18. , .
- 2002. Root elongation and branching is related to local hexose concentration in Arabidopsis thaliana seedlings. Plant, Cell & Environment 25: 1357–1366. , , , .
- 1991. Growth enhancement and developmental modifications of in vitro grown potato (Solanum tuberosum ssp. tuberosum) as affected by a nonfluorescent Pseudomonas sp. Plant Physiology 96: 928–936. , , .
- 2002. Morphogenetic modifications induced by Pseudomonas fluorescens A6RI and Glomus mosseae BEG12 in the root system of tomato differ according to plant growth conditions. New Phytologist 155: 293–300. , , , , .
- 1995. The enhancement of plant growth by free-living bacteria. Canadian Journal of Microbiology 41: 109–117. .
- 1999. Evidence for mutualism between a plant growing in a phosphate-limited desert environment and a mineral phosphate solubilizing (MPS) rhizobacterium. FEMS Microbiology Ecology 30: 295–300. , , .
- 1987. Effect of Azospirillum brasilense inoculation on root morphology and respiration in tomato seedlings. Biology and Fertility of Soils 5: 241–247. , .
- 1997. Application of the Scholander pressure bomb to studies on endophytic bacteria of plants. Canadian Journal of Microbiology 43: 411–416. , , .
- 1988. Involvement of IAA in the interaction between Azospirillum brasilense and Panicum miliaceum roots. Plant and Soil 110: 275–282. , , .
- 1985. Changes in root morphology of wheat caused by Azospirillum inoculation. Canadian Journal of Microbiology 31: 881–887. , , .
- 1992. A review of issues related to measuring colonization of roots by bacteria. Canadian Journal of Microbiology 38: 1219–1232. , .
- 1962. Prüfung von bakterien auf fähigkeit zur sternbildung. Zentralblatt fur Bakteriologie, Parasitenkunde, Infektionskrankheiten und Hygiene II Abteilung 116: 79–100. .
- 1990. Identification and plant interaction of a Phyllobacterium sp., a predominant rhizobacterium of young sugar beet plants. Applied and Environmental Microbiology 56: 1093–1102. , , , , , , .
- 1995. Influence of auxin producing rhizobacteria on root morphology and nutrient accumulation of crops. II. Root growth promotion and nutrient accumulation of maize (Zea mays L.) by inoculation with indole-3-acetic acid (IAA) producing Pseudomonas strains and by exogenously applied IAA under different water supply conditions. Angewandte Botanik 69: 37–41. , .
- 1976. The development of lateral root primordia in Vicia faba L. and their response to colchicine. Annals of Botany 40: 551–562. .
- 1987. Microbial inoculants as crop-yield enhancers. Critical Reviews in Biotechnology 6: 61–85. , .
- 1996. Bacterial biosynthesis of indole-3-acetic acid. Canadian Journal of Microbiology 42: 207–220. , .
- 1997. Azoarcus spp. and their interactions with grass roots. Plant and Soil 194: 57–64. , .
- 2001. Synergism between Phyllobacterium sp. (N2-fixer) and Bacillus licheniformis (P-solubilizer), both from a semiarid mangrove rhizosphere. FEMS Microbiology Ecology 35: 181–187. , , , .
- 1992. Effect of Azospirillum brasilense inoculation on growth dynamics and hydraulic conductivity on Sorghum bicolor roots. Journal of Plant Nutrition 15: 805–819. , .
- 1968. Fluorescent antibody approach to the study of rhizobia in soil. Journal of Bacteriology 95: 1987–1992. , , .
- 1998. Associations of bacterial endophyte populations from red clover and potato crops with potential for beneficial allelopathy. Canadian Journal of Microbiology 44: 162–167. , , .
- 2000. Effect of transferring 1-aminocyclopropane-1-carboxylic acid (ACC) deaminase genes into Pseudomonas fluorescens strain CHA0 and its gacA derivative CHA96 on their growth-promoting and disease-suppressive capacities. Canadian Journal of Microbiology 46: 898–907. , , , .