Variation in diazotrophic community structure in forest soils reflects land use history

Microbial nitrogen fixation is an important source of nitrogen in soils of both old and secondary-growth forests. Considering that many soils, which today support secondary-growth forests were once under cultivation, no studies have examined how this kind of disturbance history affects contemporary populations of nitrogen-fixing microbes in forest soils. In the work presented here, we compare secondary-growth forest sites, which were under cultivation more than 150 years ago, to old-growth forest sites in Cadwell Forest, Massachusetts. For each site, nitrogenase activity was measured and the diversity of the nifH gene pools was examined. Three sites with prior agricultural history exhibited higher nitrogenase activity and were dominated by diazotrophs closely related to the α- and γ-Proteobacteria. In contrast, lower nitrogenase activity and the dominance of the anaerobic Cluster III diazotrophs characterized the three old forest sites. Further analyses of species overlap among all six sites revealed that the diazotrophic composition was closely related to previous management history, with agricultural sites clustering together and separate from old forest sites, independent of the proximity between sites. By specifically targeting one of the main functions of microbial communities in soils, the activity and diversity of nitrogen-fixing microorganisms, this work points to a long-lasting effect of former agricultural activities on secondary-growth forest soils, more than one hundred years after succession.