EXTERNAL HYPHAE OF VESICULAR-ARBUSCULAR MYCORRHIZAL FUNGI ASSOCIATED WITH TRIFOLIUM-SUBTERRANEUM L .3. HYPHAL TRANSPORT OF P-32 AND N-15

Subterranean clover (Trifolium subterraneum L. cv. Nuba) was grown alo ne or in symbiosis with Glomus intraradices Schenck and Smith in conta iners divided by a fine nylon mesh into a root compartment (RC) and a root-free hyphal compartment (HC). Extraradical hyphae spread into the HC where P-32 and (NH4+)-N-15 were applied at 2 or 5 cm distance from the RC, when the plants were 42 d old. The time-course of hyphal tran sport of the tracers was followed by measuring the content of P-32 and N-15 in leaflets sampled at various times during a 30 d labelling per iod. Plants colonized by G. intraradices had accumulated more of the a pplied tracers than the non-mycorrhizal controls at the end of the exp eriment and hyphal transport of both P and N could be demonstrated. Th e levels of P-32 in the leaflets of mycorrhizal plants already exceede d those of non-mycorrhizal plants after 3 and 4-5 d with the tracers a pplied at 2 and 5 cm distance from the RC, respectively. Leaflets of n on-mycorrhizal controls contained only traces of P-32, but considerabl e amounts of N-15, and mycorrhizas increased the concentration of N-15 labelled N in leaflets only with tracers applied at 5 cm distance fro m the RC. The total recovery of applied N-15 was 70 % higher in mycorr hizal than in non-mycorrhizal plants when tracers were applied at 2 cm distance from the RC. When the distance from the RC and the tracers w as increased to 5 cm, the total recovery of applied N-15 was 175 % hig her in mycorrhizal than in non-mycorrhizal plants. The content of P-32 and N-15 in the external hyphae at the various distances from the RC confirmed that hyphal transport of P and N was directed towards the ho st plant.