Nutrient subsidy within the plankton community can influence the biological activities of zooplankton in the pelagic food web. While understanding of the potential direct effects of C-subsidies on zooplankton is growing, little is known about profundal MOB N-subsidies to pelagic food web and their effects on zooplankton and phytoplankton productivity during less productive seasons. We hypothesized that profundal MOB can subsidize N to pelagic food web during mixing period. We investigated the variation of MOB reliance, C/N ratio of zooplankton, zooplankton biomass, and phytoplankton mass-specific productivity as well as their relationships in response to profundal MOB N-subsidy during mixing periods in a subtropical deep meso-oligotrophic reservoir, Fei-Tsui Reservoir, Taiwan, from 2010 to 2014. As zooplankton relied on the MOB, their C/N ratios become lower, possibly due to lower C/N ratio for bacteria than for phytoplankton. The zooplankton C/N variability in turn influenced their biomass, implying an ecological stoichiometry response of zooplankton growth to nitrogen subsidy. This N-subsidy effect did not cascade to phytoplankton biomass, contrary to our prediction. The N-subsidy effect might have been masked by the stronger effect of zooplankton grazing during mixing period. The biological responses of zooplankton to MOB N-subsidy in the benthic-pelagic link clearly influenced the pelagic food web, demonstrating that N was physically linked within pelagic habitat in this deep meso-oligotrophic reservoir. Profundal MOB enhanced pelagic-benthic coupling and served as a N support for pelagic animals during less productive seasons, adding to our understanding of methanotrophic bacteria's role in the aquatic food web in this deep meso-oligotrophic reservoir.