Data_Sheet_1_Distribution characteristics of soil active organic carbon at different elevations and its effects on microbial communities in southeast Tibet.PDF by Fanglin Ran (19931256)

“…The Shannon diversity of bacteria exhibited a significant decrease with increasing altitude, whereas no significant change was observed in the diversity of fungi. …”

Image_4_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.TIFF by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Image_1_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.PDF by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Image_5_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.TIFF by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Image_2_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.TIFF by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Data_Sheet_1_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.xlsx by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Image_3_Effects of tree species identity on soil microbial communities in Juglans nigra and Quercus rubra plantations.TIFF by Juan P. Frene (12227753)

“…Conversely, Q. rubra tends to decrease these indices. Significant disparities in microbial composition between the two tree species were evident, with J. nigra exhibiting enrichment in certain taxa such as Nitrospira, Geobacter, and Bacillus while Q. rubra showed enrichment in others like Acidobacteriota and ectomycorrhizal fungi. …”

Table_1_Differential microbiome features in lake–river systems of Taihu basin in response to water flow disturbance.xlsx by Peng Xiao (172430)

“…Introduction<p>In riverine ecosystems, dynamic interplay between hydrological conditions, such as flow rate, water level, and rainfall, significantly shape the structure and function of bacterial and microeukaryotic communities, with consequences for biogeochemical cycles and ecological stability. …”

Image_1_Differential microbiome features in lake–river systems of Taihu basin in response to water flow disturbance.pdf by Peng Xiao (172430)

“…Introduction<p>In riverine ecosystems, dynamic interplay between hydrological conditions, such as flow rate, water level, and rainfall, significantly shape the structure and function of bacterial and microeukaryotic communities, with consequences for biogeochemical cycles and ecological stability. …”