Growth and maintenance respiration for individual plants in hierarchically structured canopies of Medicago sativa and Helianthus annuus: the contribution of current and old assimilates

Abstract

• Respiratory costs of Medicago sativa and Helianthus annuus individuals growing in hierarchically structured stands in a controlled environment were analysed with regard to the daily rate of carbon (C) assimilation. • Net assimilation of new C (A_n , g C d^-1 ) and respiration rates of new (R_new , g C d^-1 ) and old C (R_old , g C d^-1 ) were assessed by ¹³ CO₂ labelling and gas exchange measurements. • Specific respiration rate of old C (r_old , g C g^-1 C d^-1 ) decreased exponentially with increasing shoot biomass, but was not affected by the instantaneous relative growth rate (Δw_i ). The growth coefficient g (R_new : A_n ) was c. 0.32. In the most severely shaded subordinate plants, g was < 0.2, but low g stimulated r_old . The contribution of R_new to total respiraton (f_{R, new} ) and the carbon use efficiency CUE (1 - R/(A_n +R_new )) were c. 0.68 and 0.62 for Δw_i > 0.1, respectively. For Δw_i < 0.1, f_{R, new} and CUE decreased with decreasing Δw_i in both dominant and subordinate plants. • The results suggest that R_old was closely related to maintenance, whereas R_new was primarily involved in growth.