Tolerance of chufa (Cyperus esculentus) as a vegetation unit's representative of bioregenerative life support systems to elevated temperatures
Abstract
Plants inclusion in the photosynthesizing unit of bioregenerative life support systems (BLSS) expects knowledge of both production characteristics of plants cultivated under optimal condi-tions and their tolerance to stress-factors' effect caused by contingency origination in a system. The work was aimed at investigation of chufa (Cyperus esculentus) tolerance to the effect of super optimal air temperature of 44 subject to PAR intensity and exposure duration. Chufa was grown in light culture conditions by hydroponics method on expanded clay aggregate. The Knop solution was used as nutrition medium. Up to 30 days the plants were cultivated at the intensity of 690 micromole*m-2*s*-1 and air temperature of 25. Heat shock was employed at the age of 30 days under the air temperature of 44 during 7, 20 and 44 hours at two different PAR intensities of 690 and 1150 micromole*m-2*s*-1. Chufa heat tolerance was estimated by intensity of external 2 gas exchange and by state of leaves' photosynthetic apparatus (PSA). Effect of disturbing temperature during 44 hours at PAR intensity of 690 micromole*m-2*s*-1 resulted in frozen-in damage of PSA-leaves' die-off. Chufa plants exposed to heat stress at PAR intensity of 690 micromole*m-2*s*-1 during both 7 and 20-hours demonstrated respiration dominance over photosynthesis; and 2 emission was observed by light. Functional activity of photosynthetic apparatus estimated with respect to parameters of pulse-amplitude-modulated chlorophyll fluorescence of photosystem 2 (PS 2) decreased on 40
- Publication:
-
38th COSPAR Scientific Assembly
- Pub Date:
- 2010
- Bibcode:
- 2010cosp...38.3449S