Unraveling the influence of afforestation with Liriodendron tulipifera on soil microbial diversity in Korea

Abstract

Over the past three decades, yellow poplar (Liriodendron tulipifera) has been widely employed in reforestation efforts across the country. This study delves into the potential influence of yellow poplar afforestation on the indigenous soil microbial demography within the original native stand. By scrutinizing microbial populations, a comprehensive understanding is sought. Utilizing pyrosequencing, a total of 92,300 sequencing reads were acquired from soil samples collected at seven distinct sites, each with two replicates. The comprehensive analysis unveiled the presence of 15 phyla, 158 families, 307 genera, and 439 distinct species. Notably, proteobacteria dominated at the phylum level, constituting 50% of the microbial presence, succeeded by acidobacteria (18%) and verrucomicrobia (10.7%). Remarkably, no significant disparities were observed in the microbial community composition across the yellow poplar, mixed, and pitch pine stands, spanning the phylum, family, and genus levels. Particularly noteworthy was the challenge of distinguishing between the microbial compositions of the mixed tree stand and the yellow poplar stand. Remarkably high-rank correlation coefficients underscored the striking similarity in microbe abundance between these two stands, indicating minimal variation in their microbial composition. The beta diversity index revealed parity between the microbial communities of the yellow poplar and mixed tree stands. However, a discernable contrast emerged in the soil microorganism composition of the pitch pine stand.