Book ChapterDOI
Development and function of Azospirillum -inoculated roots
Yaacov Okon,Yoram Kapulnik +1 more
TLDR
Inoculation of several cultivars of wheat, corn, sorghum and setaria with several strains of Azospirillum caused morphological changes in root starting immediately after germination, which lead in many cases to higher crop yield.Abstract:
The surface distribution of Azospirillum on inoculated roots of maize and wheat is generally similar to that of other members of the rhizoplane microflora. During the first three days, colonization takes place mainly on the root elongation zone, on the base of root hairs and, to a lesser extent, on the surface of young root hairs. Azospirillum has been found in cortical tissues, in regions of lateral root emergence, along the inner cortex, inside xylem vessels and between pith cells. Inoculation of several cultivars of wheat, corn, sorghum and setaria with several strains of Azospirillum caused morphological changes in root starting immediately after germination. Root length and surface area were differentially affected according to bacterial age and inoculum level. During the first three weeks after germination, the number of root hairs, root hair branches and lateral roots was increased by inoculation, but there was no change in root weight. Root biomass increased at later stages. Cross-sections of inoculated corn and wheat root showed an irregular arrangement of cells in the outer layers of the cortex. These effects on plant morphology may be due to the production of plant growth-promoting substances by the colonizing bacteria or by the plant as a reaction to colonization. Pectic enzymes may also be involved. Morphological changes had a physiological effect on inoculated roots. Specific activities of oxidative enzymes, and lipid and suberin content, were lower in extracts of inoculated roots than in uninoculated controls. This suggests that inoculated roots have a larger proportion of younger roots. The rate of NO 3 - , K+ and H2PO 4 - uptake was greater in inoculated seedlinds. In the field, dry matter, N, P and K accumulated at faster rates, and water content was higher in Azospirillum-inoculated corn, sorghum, wheat and setaria. The above improvements in root development and function lead in many cases to higher crop yield.read more
Citations
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Journal ArticleDOI
Identification and quantification of IAA and IBA in Azospirillum brasilense-inoculated maize roots
TL;DR: Inoculation of maize seedlings with 107 colony forming units (cfu) of Azospirillum plant−1 significantly increased the root surface area 2 weeks after sowing as compared to non-inoculated plants.
Journal ArticleDOI
Potential of Trichoderma spp. as consistent plant growth stimulators
TL;DR: Six Trichoderma spp.
Journal ArticleDOI
Azospirillum -plant root associations: a review
TL;DR: The finding that Azospirillum genes can complement specific mutations in other intensively studied rhizosphere bacteria like Rhizobia will certainly trigger the exploration of new areas in Rhizosphere biology and a review of the AzospIRillum-plant interactions is particularly timely.
Journal ArticleDOI
Restoration of growth of durum wheat (Triticum durum var. waha) under saline conditions due to inoculation with the rhizosphere bacterium Azospirillum brasilense NH and extracts of the marine alga Ulva lactuca.
Elhafid Nabti,Mohamed Sahnoune,Mostefa Ghoul,Doreen Fischer,Andreas Hofmann,Michael Rothballer,Michael Schmid,Anton Hartmann +7 more
TL;DR: The rhizosphere bacterium Azospirillum brasilense NH, originally isolated from salt-affected soil in northern Algeria, greatly enhanced growth of durum wheat under saline soil conditions and could effectively provide alone or in combination with extracts of U. lactuca a promising solution to overcome salt inhibition which is a major threat hindering productive wheat cultivation in arid saline soils.
Journal ArticleDOI
Effect of the culture filtrates of Streptomyces on growth and productivity of wheat plants
TL;DR: Streptomyces olivaceoviridis, S. rimosus and S. rochei proved to possess a high capacity for the production of auxins, gibberellins and cytokinin-like substances, together with substantial levels of α-amylase and proteinase, and their effects on growth and yield of wheat.
References
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Journal ArticleDOI
Plant Growth Substances Produced by Azospirillum brasilense and Their Effect on the Growth of Pearl Millet (Pennisetum americanum L.)
TL;DR: Experiments with pure plant hormones showed that gibberellin causes increased production of lateral roots, andIndole acetic acid and indole lactic acid were produced by A. brasilense from tryptophan, and combinations of these substances produced changes in root morphology of pearl millet similar to those produced by inoculated plants.
Journal ArticleDOI
Methods for Growing Spirillum lipoferum and for Counting It in Pure Culture and in Association with Plants.
TL;DR: Methods are described for growing Spirillum lipoferum in quantities sufficient to serve as inoculant in field trials of its associative N(2)-fixing ability with higher plants and as a source of cells for the preparation of nitrogenase, cytochromes, respiratory enzymes, etc.
Journal ArticleDOI
Enhanced Mineral Uptake by Zea mays and Sorghum bicolor Roots Inoculated with Azospirillum brasilense.
TL;DR: Corn and sorghum plants grown to maturity on limiting nutrients in the greenhouse showed improved growth from inoculation approaching that of plants grown on normal nutrient concentrations.
Journal ArticleDOI
Microbial Colonization of Plant Roots
and G D Bowen,A D Rovira +1 more
TL;DR: After a long period devoted largely to isolation of organisms from roots, there is new impetus into finding mechanisms of colonization of the root; also, ex perimental approaches to the population dynamics of microorganisms on roots are emerging.