Ecosystem dynamics are increasingly influenced by anthropogenic climate change, affecting biodiversity, species interactions, and biogeochemical cycles. This study aims to examine the consequences of climate alterations on ecosystems across diverse global biomes. We utilized a combination of satellite imagery, long-term ecological data sets, and climate models to assess changes in species distribution, carbon sequestration, and nutrient cycling over the past three decades. Our findings highlight significant shifts in species ranges, with temperate and boreal biomes exhibiting the most pronounced changes. Furthermore, alterations in precipitation patterns were found to influence nutrient availability, indirectly impacting primary productivity and trophic interactions. The research identifies key indicators of ecosystem resilience, emphasizing the importance of adaptive management strategies. The study concludes by proposing a framework for mitigating the adverse impacts of climate change on ecosystem dynamics, which includes the integration of local knowledge and cutting-edge technology. This framework provides a foundation for policy-makers and conservationists to develop informed strategies aimed at preserving global biodiversity.