Virus-host interactions are fundamental drivers of microbial community structure, yet whether viral ecological niches are confined within individual host niches (nested host niche scenario) or span multiple hosts and exceed any single host niche (expanded host niche scenario) remains poorly understood. To explore these patterns, we characterized prokaryotic and viral distributions and predicted virus-host interactions along a salinity gradient at Bras del Port salterns (Spain), ranging from seawater (3.6% salinity) to salt saturation (39.0%). We analyzed metagenomes and viromes from six ponds supplemented by 27 additional published viromes from the same hypersaline system, recovering 170 metagenome-assembled genomes (MAGs) dereplicated at the genomospecies level (MAGs clustered at 95 % average nucleotide identity), approximately 55,000 viral operational taxonomic units (vOTUs), and nearly 4,000 predicted virus-host pairs. Viruses exhibited broader niches than their putative hosts at the highest salinities, while at lower salinities the pattern was reversed or inconsistent depending on the site, and niche breadths of both viruses and hosts increased steadily toward higher salinities. Host taxonomy at the class level and below was the primary driver of viral genomic clustering, explaining more variance than salinity provenance (approximately 30% vs. approximately 19%), while the contribution of salinity to viral genomic composition appeared indirect, mediated through the salinity-driven distribution of distinct host classes rather than direct environmental filtering of viral sequences. Together, these findings support the expanded host niche scenario as the predominant virus-host interaction strategy, with evolutionary and ecological dynamics jointly shaped by salinity and host identity.
Alcorta, J., Ramos-Barbero, M. D., Santos, F., Anton, J.
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