Significance of rhizosphere microorganisms in reclaiming water in a CELSS

Plant-microbe interactions, such as those of the rhizosphere, may be ideally suited for recycling water in a Controlled Ecological Life Support System (CELSS). The primary contaminant of waste hygiene water will be surfactants or soaps. We identified changes in the microbial ecology in the rhizosphe...

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Published in:Advances in space research 1997-01, Vol.20 (10), p.1949-1958
Main Authors: Greene, C., Bubenheim, D.L., Wignarajah, K.
Format: Article
Language:English
Subjects:
Biodegradation, Environmental
Conservation of Natural Resources
Culture Media - chemistry
Detergents - analysis
Detergents - metabolism
Ecological Systems, Closed
Gram-Positive Bacteria - isolation & purification
Hydroponics
Lactuca - growth & development
Lactuca - microbiology
Life Support Systems
Plant Roots - growth & development
Plant Roots - microbiology
Surface-Active Agents - analysis
Surface-Active Agents - metabolism
Water Microbiology
Water Purification - methods
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cited_by cdi_FETCH-LOGICAL-c392t-24c23fe82881c2dc47cb56e811fb7329506e8470d03b853443b9069a4d5eda003
cites cdi_FETCH-LOGICAL-c392t-24c23fe82881c2dc47cb56e811fb7329506e8470d03b853443b9069a4d5eda003
container_end_page 1958
container_issue 10
container_start_page 1949
container_title Advances in space research
container_volume 20
creator Greene, C.
Bubenheim, D.L.
Wignarajah, K.
description Plant-microbe interactions, such as those of the rhizosphere, may be ideally suited for recycling water in a Controlled Ecological Life Support System (CELSS). The primary contaminant of waste hygiene water will be surfactants or soaps. We identified changes in the microbial ecology in the rhizosphere of hydroponically grown lettuce during exposure to surfactant. Six week old lettuce plants were transferred into a chamber with a recirculating hydroponic system. Microbial density and population composition were determined for the nutrient solution prior to introduction of plants and then again with plants prior to surfactant addition. The surfactant Igepon was added to the recirculating nutrient solution to a final concentration of 1.0 g L −1. Bacteria density and species diversity of the solution were monitored over a 72-h period following introduction of Igepon. Nine distinct bacterial types were identified in the rhisosphere; three species accounted for 87% of the normal rhizosphere population. Microbial cell number increased in the presence of Igepon, however species diversity declined. At the point when Igepon was degraded from solution, diversity was reduced to only two species. Igepon was found to be degraded directly by only one species found in the rhizosphere. Since surfactants are degraded from the waste hygiene water within 24 h, the potential for using rhizosphere bacteria as a waste processor in a CELSS is promising.
doi_str_mv 10.1016/S0273-1177(97)00860-0
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ispartof Advances in space research, 1997-01, Vol.20 (10), p.1949-1958
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subjects Biodegradation, Environmental
Conservation of Natural Resources
Culture Media - chemistry
Detergents - analysis
Detergents - metabolism
Ecological Systems, Closed
Gram-Positive Bacteria - isolation & purification
Hydroponics
Lactuca - growth & development
Lactuca - microbiology
Life Support Systems
Plant Roots - growth & development
Plant Roots - microbiology
Surface-Active Agents - analysis
Surface-Active Agents - metabolism
Water Microbiology
Water Purification - methods
title Significance of rhizosphere microorganisms in reclaiming water in a CELSS
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