Abstract

This paper describes the effects of nitrgen supply on the partitioning of biomass and nitrogen of Agrostis vinealis(L.) Schreber and Corynephorus canescens(L.) Beauv., two perennial grasses of dry, nutrient‐poor inland dunes, and their consequences for growth and gas exchange. At a given plant nitrogen concentration (PNC) the two species allocate the same relative amount of dry matter and nitrogen to their leaves. However, A. vinealis allocates more dry matter and nitrogen to its roots and less to its above‐ground support tissue than C. canescens. Both the leaf weight ratio and leaf nitrogen ratio increase with increasing PNC. Despite species‐specific differences in growth form and leaf morphology, the leaf area ratio and specific leaf area of the two species are similar, both at high and low PNC. At intermediate nitrogen supply, and thus intemediate PNC, however, A. vinealis has a higher leaf area ratio and specific leaf area than C. canescens.The two species exhibit a similar positive relationship when either the rate of net photosynthesis or the rate of shoot respiration are compared to the leaf nitrogen concentration, all expressed per unit leaf weight. The rate of net photosynthesis per unit Jeafnitrogen (PNUE) of the two species increases with decreasing leaf nitrogen concentration per unit leaf weight. C. canescens has a higher PNUE at low, and a lower PNUE at high leaf nitrogen concentration per unit leaf weight than A. vinealis. At non‐limiting nitrogen supply, A. vinealis has a higher nitrogen productivity and net assimilation rate and a similar PNC and leaf area ratio as compared to C. canescens, which explains the higher relative growth rate (RGRmax) of A. vinealis. At growth‐limiting nitrogen supply C. canescens achieves a similar relative growth rate at a lower PNC than A. vinealis.

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