RESUMEN
Soil a significant carbon sink, plays a pivotal role in mitigating climate change. This review underscores the potential of soil amendments for enhancing carbon sequestration, focusing on the intricate relationship between these amendments and soil microbial communities. Soil amendments, ranging from biochar and organic compost to mineral additives, have been identified as viable strategies to boost soil carbon stocks. Concurrently, these amendments influence the diversity, structure, and functional roles of microbial communities, which in turn, are integral to soil carbon dynamics. Tools like 16S rRNA sequencing, metagenomics, and isotope tracing techniques have propelled our understanding of microbial responses, shedding light on the complex microbial networks and their roles in carbon cycling. While promising, the application of soil amendments presents challenges. Variability arising from different soil types, climates, and microbial dynamics poses a consistent research challenge. Potential risks like reduced sequestration over time and economic considerations for large-scale application necessitate attention. Future directions hinge on innovations in soil amendment products, harnessing microbial inoculants for synergistic effects, and fostering interdisciplinary collaborations. This convergence of science, technology, and collaborative research heralds a future where soils are not just seen as substrates but as active, dynamic entities in the fight against climate change.