Viral Diversity Mediates Carbon Allocation for Ecosystem Multifunctionality Across Biomes

Viral diversity is essential for regulating the stability of ecosystem function by modulating the biochemical cycles via alterations in the survival and metabolic processes of host organisms. However, how viral survival strategies impact ecosystem function remains unresolved. Here, we analyzed 1824 metagenomes from soils across eight biomes, revealing that lytic viruses constituted a dominant proportion (88%) of the viral communities, with Siphoviridae (35.34%) being the most abundant lytic viral group. Viral communities significantly impacted soil organic carbon dynamics, while ecosystem multifunctionality was notably influenced by microbial necromass carbon, microbial biomass carbon, and various environmental factors. Microbial carbon use efficiency was the primary driver of ecosystem multifunctionality, with significant modulation by lytic and lysogenic viral communities, and lytic viruses contributed more directly to ecosystem multifunctionality (3%) compared to lysogenic viruses (1%). Our study underscores the pivotal role of viral communities, particularly lytic viruses, in shaping global carbon dynamics and ecosystem function, thereby providing a novel framework for future carbon management.