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Rhizosphere

An illustration of the rhizosphere[1]. A=Amoeba consuming bacteria BL=Energy limited bacteria BU=Non-energy limited bacteria RC=Root derived carbon SR=Sloughed root hair cells F=Fungal hyphae N=Nematode worm

The rhizosphere is the narrow region of soil that is directly influenced by root secretions and associated soil microorganisms.[2] Soil which is not part of the rhizosphere is known as bulk soil. The rhizosphere contains many bacteria that feed on sloughed-off plant cells, termed rhizodeposition, and the proteins and sugars released by roots. Protozoa and nematodes that graze on bacteria are also more abundant in the rhizosphere. Thus, much of the nutrient cycling and disease suppression needed by plants occurs immediately adjacent to roots.[3]

Contents


Secretions

Plants secrete many compounds into the rhizosphere which serve different functions. Strigolactones, secreted and detected by mycorhizal fungi, stimulate the germination of spores and initiate changes in the mycorhiza that allow it to colonise the root. The parasitic plant, Striga also detects the presence of strigolactones and will germinate when it detects them; they will then move into the root, feeding off the nutrients present. Symbiotic Nitrogen-fixing bacteria, such as the Rhizobium species, detect an unknown compound secreted by the roots of leguminous plants and then produce nod factors which signal to the plant that they are present and will lead to the formation of root nodules, in which the bacterium, sustained by nutrients from the plant, converts nitrogen gas to a form that can be used by the plant. Non-symbiotic (or free-living ) nitrogen-fixing bacteria may reside in the rhizosphere just outside the roots of certain plants (including many grasses), and similarly fix nitrogen gas in the nutrient-rich plant rhizosphere. Even though these organisms are thought to be only loosely associated with plants they inhabit, they may respond very strongly to the status of the plants. For example, nitrogen-fixing bacteria in the rhizosphere of the rice plant exhibit diurnal cycles that mimic plant behavior, and tend to supply more fixed nitrogen during growth stages when the plant exhibits a high demand for nitrogen.[4]

Some plants secrete allelochemicals from their roots which inhibit the growth of other organisms. For example garlic mustard produces a chemical which is believed to prevent mutualisms forming between the trees and mycorhiza in mesic North American temperate forests.[5]

Biological control

Trichoderma

See also

References

  1. Sims, G. K. and Dunigan, E. P. 1984 Diurnal and seasonal variations in nitrogenase activity (C2H2 reduction) of rice roots. Soil Biology and Biochemistry. 16:15-18.

Further reading

ca:Rizosfera cs:Rhizosf ra da:Rhizosf re de:Rhizosph re et:Risosf r el: es:Rizosfera fa: fr:Rhizosph re no:Rhizosf ren pl:Ryzosfera pt:Rizosfera sl:Rizosfera th: uk:






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