Reproductive efficiency is a fundamental determinant of productivity, economic viability, and sustainability in livestock production systems. Optimal reproductive performance ensures regular calving or parturition intervals, maximizes lifetime output per breeding female, and accelerates genetic improvement. Declines in fertility are associated with extended days open, increased services per conception, higher culling rates, and elevated production costs. This review synthesizes current knowledge on livestock production management approaches aimed at improving reproductive efficiency across major species, including cattle, buffalo, sheep, goats, swine, and poultry. Key determinants such as genetic selection, crossbreeding, genomic tools, nutritional management during critical physiological stages, herd health programs, housing design, environmental control, and assisted reproductive technologies are critically examined. Strategic feeding during pre-pubertal growth, transition period management, mineral and vitamin supplementation, and maintenance of optimal body condition score are highlighted as essential nutritional interventions. Advances in artificial insemination, estrus synchronization, fixed-time AI, embryo transfer, in vitro fertilization, and sexed semen technology have significantly enhanced reproductive outcomes and genetic gain. Precision livestock farming, sensor-based estrus detection, and data-driven decision-support systems further improve breeding efficiency and economic returns. Persistent challenges, including climate stress, emerging reproductive diseases, antimicrobial resistance, and technological accessibility constraints, are discussed in the context of sustainable livestock development. Integration of genetic, nutritional, environmental, and health management strategies, supported by digital innovations and evidence-based practices, is essential to achieve consistent improvements in reproductive performance. A holistic and multidisciplinary approach will be critical for strengthening livestock resilience, reducing environmental footprint, and meeting the growing global demand for animal-source foods.
Koujalagi et al. (Mon,) studied this question.