Studies on Soil Fungal Community Composition and Function Characteristics of Different Plantations of Sandy Area,Northwest Liaoning Province

DENG Jiao-jiao;ZHU Wen-xu;ZHANG Yan;YIN You;ZHOU Yong-bin;College of Foresty, Shenyang Agricultural University;Research Station of Liaohe-River Plain Forest Ecosystem, Chinese Forest Ecosystem Research Network;

Sandy Area of Northwest Liaoning Province;;plantation;;fungal community composition;;fungal community function

[Objective] To reveal the response characteristics and mechanism of soil fungal community structure and function to different plantations, and to evaluate the impact of different plantations on the underground ecosystem.[Method] Pinus sylvestris var. mongolica plantation, Pinus tabuliformis plantation, and Populus × canadensis plantation in the north wind sand area of western Liaoning province were investigated. For each sampling plot, the "S" type spot sampling method was used to collect the surface soil of 0 ～ 10 cm at multiple points.Illumina Miseq highthroughput sequencing technology and FUNGuild software were applied to obtain and analyze the response characteristics of soil microbial community composition and function in different plantations. Meanwhile, the relationships between soil fungal community diversity, community structure and soil environmental factors were analyzed. [Result] The plantation of Populus × canadensis could significantly increase the soil pH value, soil-dissolved organic carbon and available phosphorus content, and reduce soil C/N ratio. The dominant fungal phyla in these plantations were Ascomycota and Basidiomycota, and the dominant fungal genera were Guehomyces, Mortierella and Penicillium.The results of NMDS and heatmap analysis showed that there were significant differences in the community structure and function of soil fungi among different plantations and the community composition and function could be divided into two clusters. The community structure of soil fungi in Pinus sylvestris var. mongolica, and Pinus tabuliformis plantations were similar, while the community composition and function in plantation of Populus × canadensis Moench were significantly different from that in coniferous plantations. The soil pH, available phosphorus, dissolved organic carbon and C/N ratio were the main factors affecting soil fungal community diversity and functions.[Conclusion] The effect on soil characteristics and the soil fungal composition and function differs among different plantations. The plantation of Populus × canadensis Moench significantly increases the soil nutrient availability and soil fungal diversity.