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The microbes present in the human gastrointestinal tract are regularly linked to humanhealth and disease outcomes. Thanks to technological and methodological advances in re-cent years, metagenomic sequencing data, and computational methods designed to analyzemetagenomic data, have contributed to improved understanding of the link between thehuman gut microbiome and disease. However, while numerous methods have been recentlydeveloped to extract quantitative and qualitative results from host-associated microbiomedata, improved computational tools are still needed to track microbiome dynamics withshort-read sequencing data. Previously we have proposed KOMB as ade novotool foridentifying copy number variations in metagenomes for characterizing microbial genomedynamics in response to perturbations. In this work, we present KombOver (KO), whichincludes four key contributions with respect to our previous work: (i) it scales to largemicrobiome study cohorts, (ii) it includes bothk-core andK-truss based analysis, (iii)we provide the foundation of a theoretical understanding of the relation between variousgraph-based metagenome representations, and (iv) we provide an improved user experiencewith easier-to-run code and more descriptive outputs/results. To highlight the aforemen-tioned benefits, we applied KO to nearly 1000 human microbiome samples, requiring lessthan 10 minutes and 10 GB RAM per sample to process these data. Furthermore, wehighlight how graph-based approaches such ask-core andK-truss can be informative forpinpointing microbial community dynamics within a myalgic encephalomyelitis/chronic fa-tigue syndrome (ME/CFS) cohort. KO is open source and available for download/use at:https://github.com/treangenlab/komb