Leaf area index, canopy structure and photosynthesis of red clover (Trifolium pratense L.)

Abstract

Abstract. The influence of leaf age, total leaf area and its dispersion in space on canopy photosynthesis were studied using microswards of red clover (Trifolium pratense L.) which were established in the greenhouse. Two varieties, Renova (flowering) and Molstad (non‐flowering), were sown in separate plastic boxes at densities of 225, 400 and 625 plants per m2.Vertical distribution of photosynthetically active radiation (PAR), leaf area, leaf age and 14CO2‐fixation were determined periodically. Net photosynthesis and dark respiration of canopies were measured. Maximum photosynthetic capacity of individual leaves was measured on plants taken from the intact canopy or from plants where shading of the growing leaves had been prevented.Net photosynthetic rate of canopies increased linearly with leaf area index (LAI) up to an LAI of 3.5 and then declined at higher LAI, independent of variety and sowing density. Below the optimum LAI, net photosynthesis depended mainly on interception of PAR. Decrease in canopy photosynthesis above the optimum LAI was due to a higher proportion of old leaves with decreased photosynthetic capacity, and not to an increase in respiring plant parts. It is concluded that LAI and position of leaf age categories in the canopy are more important than vertical distribution of leaf area in determining canopy photosynthesis of red clover.