The Microflora Danica atlas of Danish environmental microbiomes

Over the past 20 years, there have been considerable advances in revealing the microbiomes that underpin processes in natural and human-associated environments. Recent large-scale metagenome surveys have recorded the variety of microbial life in the oceans¹, in the human gut² and on Earth³, with compilations encompassing thousands of public datasets^4,5. However, despite their broad scope, these studies often lack functional information, and their sample locations are frequently sparsely distributed, limited in resolution or lacking metadata. Here we present Microflora Danica—an atlas of Danish environmental microbiomes encompassing 10,683 shotgun metagenomes and 450 nearly full-length 16S and 18S rRNA datasets, linked to a five-level habitat classification scheme. We show that although human-disturbed habitats have high alpha diversity, species reoccur, revealing hidden homogeneity. This underlines the role of natural systems in maintaining total species (gamma) diversity and emphasizes the need for national baselines for tracking microbial responses to land-use and climate change. Consequently, we focused our dataset exploration on nitrifiers, a functional group closely linked to climate change and of major importance for Denmark’s primary land use: agriculture. We identify several lineages encoding nitrifier key genes and reveal the effects of land disturbance on the abundance of well-studied, as well as uncharacterized, nitrifier groups, with potential implications for N₂O emissions. Microflora Danica offers an unparalleled resource for addressing fundamental questions in microbial ecology about what drives microbial diversity, distribution and function.