A thermodynamically based correlation for maintenance gibbs energy requirements in aerobic and anaerobic chemotrophic growth

Abstract

A thermodynamic framework has been provided for the description of maintenance requirements of microorganisms. The central parameter is the biomass specific Gibbs energy consumption for maintenance, m_E (kJ/C-mol biomass · h). A large set of data has been used including (i) a large range of different organisms (bacteria, yeasts, plant cells), (ii) mixed cultures, (iii) heterotrophic and autotrophic growth, (iv) growth under aerobic and anaerobic conditions, and (v) a large temperature range (5–75°C). It appears that only the temperature has a major influence, with an energy of activation of 69 kJ/mol. Different electron donors or electron acceptors only show a very minor influence on m_E. On the basis of the data set, temperature correlations of m_E have been derived for aerobic and anaerobic growth. The generalized concept for maintenance Gibbs energy is used to establish a correlation which allows the estimation of the biomass yield on electron donor as a function of C-source, electron donor, electron acceptor, N source, growth rate, and temperature. The advantage of using the m_E parameter over other maintenance-related parameters (like μ_e, m_O2, m_D, γ_Dm_D) is discussed. © 1993 John Wiley & Sons, Inc.