Pollinators provide critical ecosystem services, such that more than one third of crops depend on animal pollination worldwide. Studies have shown that climate warming leads to phenology shifts in pollinator foraging and plant flowering at seasonal scales, which could interrupt current plant-pollinator interactions. However, warming impact on within-day patterns in plant-pollinator interactions remains unclear. Using honey bee (Apis mellifera) as a model pollinator, this study aims to examine if warming affects (1) the within-day pattern in honey bee foraging, (2) the within-day pattern of plant flowering onset (i.e., flowering time of the day), and (3) the composition of pollen collected by honey bees, which may influence honey bee larval development. To do so, we experimentally heated up beehives to investigate the effect of warming on honey bee foraging behavior. After identifying the bee pollen, we selected a key plant species (Bidens pilosa var. radiata) and examined warming impact on its onset of flowering. Furthermore, we investigated if any warming-induced changes in pollen composition affect larval development. Our results showed that warming advanced the within-day foraging activity of honey bees and flowering onset of B. pilosa, which would lead to an increase of B. pilosa in bee pollen composition and better bee larval development. Together, this study suggests important but overlooked mechanisms for climate change impact on plant-pollinator interactions: warming can affect the within-day patterns in pollinator behavior and plant flowering onsets, thus indirectly affecting pollinator performance.