Thomas Hunt Morgan's seminal work, 'Sex-linked Inheritance in Drosophila,' co-authored with Calvin Bridges, represents a monumental stride in the field of genetics. Providing a detailed account of his experiments with the fruit fly Drosophila melanogaster, Morgan presents a persuasive argument for the chromosomal theory of heredity. His lucid presentation demystifies the complex behaviors of chromosomes during meiosis, eloquently mapping how genes dictate hereditary traits. The book is rich in both substance and style, showcasing Morgan's acumen in crafting rigorous scientific discourse that remains accessible to a broader academic readership. This treatise underscores the literary and scientific milieu of the early 20th century, setting the stage for modern genetic research and theory. Thomas Hunt Morgan, renowned as a pioneering geneticist, channeled his sophisticated analytical insights and innovative methodologies to discover that genes reside on chromosomes. Motivated by discrepancies in Mendelian inheritance patterns, Morgan embarked on a series of breeding experiments that culminated in the groundbreaking insights outlined in this volume. His scientific journey and eventual elucidation of sex-linked inheritance embody a quantum leap in unraveling the mysteries of genetics, for which he was rightfully awarded the Nobel Prize in Physiology or Medicine in 1933. 'Sex-linked Inheritance in Drosophila' is indispensable for scholars of genetics and biology, students, and anyone with a penchant for the historical development of scientific thought. Morgan's magnum opus not only recounts the empirical journey to a foundational genetic discovery but also enlightens readers on the scientific process and the relentless pursuit of knowledge. It is an essential read that aptly bridges the gap between Mendelian principles and the modern understanding of genetic inheritance, providing a comprehensive overview of the genetic landscape that shapes all living organisms.