Climate change events, such as warming and drought, will occur more often in this century, but their interactive effects on food security (e.g., crop production) and species interactions (e.g., herbivory, mutualism, predation, and antagonism) remain to be investigated. To help fill this knowledge gap, this study investigated how two climate change events (warming and drought) may interactively affect 1) crop growth, defense, and production, and 2) species interactions (e.g., herbivory, mutualism, predation, and antagonism) on crop plants. Specifically, this study focused on a crop system in Taiwan, including soybean plants (Glycine max), aphids (Aphis glycines), lady beetles (Cheilomenes sexmaculata), and ants (Anoplolepis gracilipes). We conducted a laboratory experiment with a 2×2×2×2 factorial design, including the temperature (control/+3°C warming), soil water content (control/drought), ant (presence/absence), and lady beetle (presence/absence) treatments. Note that each replicate of a treatment combination at least had aphids on a caged soybean plant. We recorded crop performance, aphid populations, and ant and lady beetle mortality. The results show the following: 1) Warming and drought commonly interacted with each other and species interactions, consequently affecting crop growth and production. This suggests that an estimation on crop production based on individual factors only may not reflect the reality. 2) Warming enhanced the suppression of aphid populations by lady beetles, implying that biocontrol of pests (aphids) by natural enemies (lady beetles) may become more efficient under warming. 3) Under warming, ant mortality increased with lady beetle presence, suggesting that warming may intensify the antagonism between lady beetles and ants (i.e., predation on pests vs. mutualism with pests). Taken together, the results suggest that evaluating food security this century should consider the interplay between abiotic (climate change) and biotic (species interaction) factors.