The metabolic heat output of resting cells (Saccharobacter fermentatus WVB8512) hasbeen determined by means of microcalorimetric method. The metabolic thermokinetic equation isThe thermochendcal equations areThe order...The metabolic heat output of resting cells (Saccharobacter fermentatus WVB8512) hasbeen determined by means of microcalorimetric method. The metabolic thermokinetic equation isThe thermochendcal equations areThe order of metabolism (n) is 2. The experimental results indicate that the heat output producedby each cell and the metabolic time depend on cell concentration and are inhibited by cell densityThe metabolism presents a special kind of spacial inhibition effect.展开更多
The thermograms of the germination and growth of rice and tree seeds were determined and studied by using a newly constructed microcalorimeter build in this laboratory at Wuhan University. The thermograms show the exi...The thermograms of the germination and growth of rice and tree seeds were determined and studied by using a newly constructed microcalorimeter build in this laboratory at Wuhan University. The thermograms show the existence of physiological triphasic patterns (including imbibition,activation and growth stages)in the germination and growth process. Nonequilibrium thermodynamics of the germination and growth of seeds was considered under given conditions, and the thermodynamic functions of the germination and growth of seeds were calculated.展开更多
文摘The metabolic heat output of resting cells (Saccharobacter fermentatus WVB8512) hasbeen determined by means of microcalorimetric method. The metabolic thermokinetic equation isThe thermochendcal equations areThe order of metabolism (n) is 2. The experimental results indicate that the heat output producedby each cell and the metabolic time depend on cell concentration and are inhibited by cell densityThe metabolism presents a special kind of spacial inhibition effect.
文摘The thermograms of the germination and growth of rice and tree seeds were determined and studied by using a newly constructed microcalorimeter build in this laboratory at Wuhan University. The thermograms show the existence of physiological triphasic patterns (including imbibition,activation and growth stages)in the germination and growth process. Nonequilibrium thermodynamics of the germination and growth of seeds was considered under given conditions, and the thermodynamic functions of the germination and growth of seeds were calculated.