The connection between the respiratory capacity of skeletal muscle mitochondria and athletic performance is widely acknowledged in contemporary research. Building on a solid foundation of prior studies, current research has fostered an environment where scientists can effectively demonstrate how a tailored regimen of exercise intensity, duration, and frequency significantly boosts mitochondrial function within skeletal muscles. The range of exercise modalities is broad, spanning from endurance and high-intensity interval training to resistance-based exercises, allowing for an in-depth exploration of effective strategies to enhance mitochondrial respiratory capacity-a key factor in improving exercise performance, in other words offering a better skeletal muscle capacity to cope with exercise demands. By identifying optimal training strategies, individuals can significantly improve their performance, leading to better outcomes in their fitness and athletic endeavours. This review provides the prevailing insights on skeletal muscle mitochondrial respiratory capacity and its role in exercise performance, covering essential instrumental and methodological aspects, findings from animal studies, potential sex differences, a review of existing human studies, and considerations for future research directions.