Seasonal changes of ammonia-oxidizing bacterial communities during tropical forest restoration
In this study,we used a high-throughput sequencing technology to survey the dry-wet seasonal change characteristics of soil ammonia-oxidizing bacteria(AOB)communities in the three restoration stages[i.e.,Mallotus paniculatus community(early stage),Millettia leptobotrya community(middle stage),and Syzygium oblatum com-munity(later stage)]of Xishuangbanna tropical forest ecosystems.We analyzed the effects of soil physicochemical characteristics on AOB community composition and diversity during tropical forest restoration.The results showed that tropical forest restoration significantly affected the relative abundance of dominant AOB phyla and their dry-wet seasonal variation.The maximum relative abundance of Proteobacteria(71.3%)was found in the early recovery stage,while that of Actinobacteria was found in the late recovery stage(1.0%).The abundances of Proteobacteria and Actinobacteria had the maximum ranges of dry-wet seasonal variation in the early and late stages,respectively.The abundance of dominant AOB genera and its dry-wet seasonal variation varied across tropical forest restoration stages.The maximum average relative abundance of Nitrosospira and Nitrosomonas in the late recovery stage was 66.2%and 1.5%,respectively.In contrast,the abundance of Nitrosovibrio reached its maximum(25.6%)in the early recovery stage.The maximum dry-wet seasonal variation in relative abundance of Nitrosospira and Nitro-somonas occurred in the early recovery stage,while that of Nitrosovibrio occurred in the middle recovery stage.The Chaol,Shannon,and Simpson diversity indices of AOB communities increased along the restoration stages,which were significantly higher in the wet season than in the dry season.The results of canonical correspondence analysis showed that soil easily oxidized carbon was the main factor controlling AOB community diversity and Actinobacteria abundance.Soil bulk density and temperature were the main factors affecting Proteobacteria abundance.Soil pH,microbial biomass carbon,water content,ammonium nitrogen,bulk density,and temperature were the main factors controlling the abundances of Nitrosospira,Nitrosomonas,and Nitrosovibrio.Therefore,tropical forest restoration can regulate the change of relative abundance of dominant AOB taxa via mediating the changes of soil temperature,bulk density,and readily oxidized carbon,leading to an increase in soil AOB community diversity.
万方数据
维普
