Kinetics of phosphate absorption by mycorrhizal and non-mycorrhizal Scots pine seedlings

Kinetics of net phosphate (P_i) uptake was measured on intact ectomycorrhizal and non‐mycorrhizal Pinus sylvestris seedlings using a semihydroponic cultivation method. The depletion of P_i in a nutrient solution was assessed over a 160–0.2 μM P_i gradient. Growth of the pine seedlings was P limited and measurements were performed 7 and 9 weeks after inoculation. Three ectomycorrhizal fungi were studied: Paxillus involutus, Suillus bovinus and Thelephoraterrestris. P_i uptake was extremely fast in plants colonised by P. involutus. The P_i concentration dropped below 0.2 μM within 4–5 h. In plants colonised with S. bovinus this occurred in 5–6 h and in plants associated with T. terrestris 8 h were needed to run through the whole concentration range. Non‐mycorrhizal plants of similar size and nutrient status decreased P_i to a concentration between 1 and 2 μM in 18 h. Data were curve fitted to a two‐phase Michaelis‐Menten equation. The apparent kinetic constants, K_m and V_max, for the high affinity P_i uptake system of the pine roots could be estimated accurately. V_max of this system was up to 7 times higher in pines associated with P. involutus than in non‐mycorrhizal seedlings. The intact extraradical mycelium greatly increased the absorption surface area of the roots (V_max). Non‐mycorrhizal plants had a K_m between 7.8 and 16.4 μM P_i. Plants mycorrhizal with P. involutus had K_m values between 2.4 and 7.2, plants colonised with S. bovinus had a K_m between 5.1 and 12.3, and seedlings associated with T. terrestris had a K_m from 4.6 to 10.1 μM P_i. All 3 ectomycorrhizal fungi had a strong impact on the P_i absorption capacity of the pine seedlings. The results also demonstrated that there is substantial heterogeneity in kinetic parameters among the different mycorrhizal root systems.