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Tolerance of wheat and lettuce plants grown on human mineralized waste to high temperature stress
Authors:Sofya A. Ushakova,Alexander A. Tikhomirov,Valentin N. Shikhov,Jean-Bernard Gros,Tamara K. Golovko,Igor V. Dal&rsquo  ke,Ilya G. Zakhozhii
Affiliation:1. SB RAS Institute of Biophysics, 660036 Akademgorodok, Krasnoyarsk, Russia;2. Institut Pascal, GEPB, UBP, Clermont Université, F-63000 Clermont-Ferrand, France;3. UB RAS Institute of Biology of Komi Science Center, Syktyvkar, Russia
Abstract:The main objective of a life support system for space missions is to supply a crew with food, water and oxygen, and to eliminate their wastes. The ultimate goal is to achieve the highest degree of closure of the system using controlled processes offering a high level of reliability and flexibility. Enhancement of closure of a biological life support system (BLSS) that includes plants relies on increased regeneration of plant waste, and utilization of solid and liquid human wastes. Clearly, the robustness of a BLSS subjected to stress will be substantially determined by the robustness of the plant components of the phototrophic unit. The aim of the present work was to estimate the heat resistance of two plants (wheat and lettuce) grown on human wastes. Human exometabolites mineralized by hydrogen peroxide in an electromagnetic field were used to make a nutrient solution for the plants. We looked for a possible increase in the heat tolerance of the wheat plants using changes in photosynthetically active radiation (PAR) intensity during heat stress. At age 15 days, plants were subjected to a rise in air temperature (from 23 ± 1 °C to 44 ± 1 °С) under different PAR intensities for 4 h. The status of the photosynthetic apparatus of the plants was assessed by external СО2 gas exchange and fluorescence measurements. The increased irradiance of the plants during the high temperature period demonstrated its protective action for both the photosynthetic apparatus of the leaves and subsequent plant growth and development. The productivity of the plants subjected to temperature changes at 250 W m−2 of PAR did not differ from that of controls, whereas the productivity of the plants subjected to the same heat stress but in darkness was halved.
Keywords:BLSS   Human waste recycling   Wheat   Lettuce   Heat resistance   Air temperature step
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