Viruses play important roles in ocean environments as agents of mortality and genetic transfer, influencing ecology, evolution and biogeochemical processes. However, we know little about the diversity, seasonality, and host interactions of viruses in polar waters. To address this, we studied dsDNA viruses in the Arctic Fram Strait across four years via 47 long-read metagenomes of the cellular size-fraction. Among 5,662 vOTUs, 69%, 30% and 1.4% were bacteriophages (Myoviridae, Podoviridae, and Siphoviridae), Unassigned, and Phycodnaviridae, respectively. Viral coverage was, on average, 5-fold higher than prokaryotic coverage, and 8-fold higher in summer. Viral community composition showed annual peaks in similarity and was strongly correlated with prokaryotic community composition. Using a Convergent Cross Mapping network, we identified putative virus-host interactions and six ecological modules, each associated with distinct environmental conditions. The network also revealed putative novel cyanophages with time-lagged correlations to their hosts (late summer) as well as diverse viruses correlated with Nitrososphaerales (winter). By comparison with global metagenomes, we found that 42% of Fram Strait vOTUs peaked in abundance in high latitude regions of both hemispheres (average 61 N and 51 S), and encoded proteins with biochemical signatures of cold adaptation. Our study reveals a rich diversity of polar viruses with pronounced seasonality, providing a foundation for understanding how they regulate and impact ecosystem functionality in changing polar oceans.