Honey bees, scientifically known as Apis mellifera L., play a crucial role as pollinators, being vital for both biodiversity and agricultural output. Honey bee numbers are declining due to a variety of pressures, with climate change being a significant factor despite their ability to adapt. Honey bees, being ectothermic species, are quite vulnerable to changes in their environment, such as increasing temperatures, changing patterns of precipitation, and severe weather events. These changes disrupt the process of searching for food, diminish the availability of flowers as a source of sustenance, and heighten susceptibility to diseases and pests, ultimately resulting in nutritional strain. This study examines the immediate and indirect consequences of climate change on honey bee colonies, emphasizing the influence of severe temperatures and changes in floral resources on their well-being and capacity to survive. Additionally, it scrutinizes current colony management strategies aimed at mitigating nutritional stress. We examine the possibility of alternative diets that include proteins, lipids, vitamins, phytochemicals, and probiotics to support honey bee health in the face of environmental stress. Furthermore, we are conducting an investigation into the use of food waste items as nutritious supplements. It is crucial to prioritize ongoing research and development of efficient alternative diets in order to ensure the long-term survival of honey bee populations in light of climate change. By implementing these tactics, beekeepers may improve colony resilience and boost biodiversity and agricultural production.