MICROGRAVITY EFFECTS ON WATER SUPPLY AND SUBSTRATE PROPERTIES IN POROUS MATRIX ROOT SUPPORT SYSTEMS

The control of water content and water movement in granular substrate-based plant root systems in microgravity is a complex problem. Improper water and oxygen delivery to plant roots has delayed studies of the effects of microgravity on plant development and the use of plants in physical and mental...

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Bibliographic Details
Published in:Acta astronautica 2000-12, Vol.47 (11), p.839-848
Main Authors: Bingham, G.E, Jones, S.B, Or, D, Podolski, I.G, Levinskikh, M.A, Sytchov, V.N, Ivanova, T, Kostov, P, Sapunova, S, Dandolov, I, Bubenheim, D.B, Jahns, G
Format: Article
Language:English
Subjects:
Carbon Dioxide - chemistry
Cultivation
Culture Media
Diffusion
Ecological Systems, Closed
Environment, Controlled
Equipment Design
Gravitational effects
Greenhouses
Life Support Systems - instrumentation
Man/System Technology And Life Support
Oxygen
Oxygen - chemistry
Particle Size
Plant Roots - growth & development
Porous materials
Space Flight - instrumentation
Space life sciences
Triticum - growth & development
Water
Water Supply
Weightlessness
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Summary:The control of water content and water movement in granular substrate-based plant root systems in microgravity is a complex problem. Improper water and oxygen delivery to plant roots has delayed studies of the effects of microgravity on plant development and the use of plants in physical and mental life support systems. Our international effort (USA, Russia and Bulgaria) has upgraded the plant growth facilities on the Mir Orbital Station (OS) and used them to study the full life cycle of plants. The Bulgarian–Russian-developed Svet Space Greenhouse (SG) system was upgraded on the Mir OS in 1996. The US developed Gas Exchange Measurement System (GEMS) greatly extends the range of environmental parameters monitored. The Svet-GEMS complex was used to grow a fully developed wheat crop during 1996. The growth rate and development of these plants compared well with earth grown plants indicating that the root zone water and oxygen stresses that have limited plant development in previous long-duration experiments have been overcome. However, management of the root environment during this experiment involved several significant changes in control settings as the relationship between the water delivery system, water status sensors, and the substrate changed during the growth cycles.
ISSN:0094-5765
1879-2030
DOI:10.1016/S0094-5765(00)00116-8