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Microbial community dynamics are dependent on interactions between the community members, yet studies of interactions across domains and with multiple experimental approaches are lacking. In this study, we explored interactions between bacteria and fungi associated with decaying fungal necromass using both field-based co-occurrence networks and laboratory-based pairwise interactions. The majority of field-derived bacterial-fungal correlations were negative, suggesting a potentially competitive environment within necromass compared to other systems. Laboratory experiments consisted of bacteria most often reducing fungal growth, while the fungal effect on bacterial growth was more varied and dependent on bacterial taxa. However, these interactions were not consistently predicted by field correlations, highlighting a disconnect between field-based and direct experimental approaches. Our findings suggest that using co-occurrence networks alone to predict BFI outcomes could be misleading, emphasizing the need for more comprehensive, multi-method studies to capture the dynamic and context-dependent nature of microbial interactions.