Shiro-like Structure Formation of Chinese Tricholoma matsutake Strain YN1 in Pinus armandii and Pinus elliottii Seedlings

Abstract

Tricholoma matsutake is one of the edible ectomycorrhizal fungi with great economic and ecological values. Artificially mycorrhized seedlings inoculated with T. matsutake strains from Finland and Japan have been widely reported. However, few reports on the morphological characteristics of mycorrhizae synthesized from the Chinese T. matsutake strain are available to date. Here, we find that the T. matsutake strain YN1 from Yunnan province, China, can form well-developed ectomycorrhizae in symbiosis with both exotic (Pinus elliottii) and Chinese native (Pinus armandii) species. The symbiotic structures of ectomycorrhizae included obvious mantle sheaths and Hartig nets visible under a microscope. The ectomycorrhizae appeared earlier in a larger quantity in P. elliottii than in P. armandii in the culture-plate symbiotic system. The ectomycorrhizae obviously promoted the growth of potted P. armandii and P. elliottii, accompanied by the formation of shiro-like structures. Our results provide references for the effective management of ectomycorrhizae synthesis in both P. armandii and P. elliottii seedlings to form shiro-like structures, and also provide a new perspective for the afforestation and mushroom cultivation research on T. matsutake.