Overfishing can lead to significant changes in fish life history, including growth rate and habitat usage. The large yellow croakers (Larimichthys crocea) in the Northwest Pacific have been severely exploited to the brink of ecological extinction for nearly half a century. Reconstructing the baseline of growth pattern and habitat use is crucial to biological conservation and fishery management. This study analyzed the otoliths of L. crocea collected from the early Pleistocene fossil site in Nibu, Chia-Yi County, Tainan Science Park archaeological sites, and fishing ports, each representing three different geological time periods (early Pleistocene 1.90-1.35 Ma, archaeological midden 5000 BP, modern) that correspond to different levels of human disturbance. We aged the otoliths and verified our age analysis using stable isotope (δ18O) analysis. The age classes of modern large yellow croaker are younger (0.9 years) compared to the samples collected from fossil and archaeological sites (5.3 and 2.8 years, respectively). Our findings indicate that the modern otoliths exhibit a higher growth factor (k = 1.16) than the archaeological (k = 0.30) and early Pleistocene otoliths (k = 0.32). The average summer minimum oxygen isotope value of the modern otoliths is higher (-2.2‰) and agrees with the condition for a complete life cycle in the oceanic environment, while the archaeological and early Pleistocene otoliths have the values lower than -3‰. These results suggest that the large yellow croakers living in prehistorical times may inhabit in the estuaries or lagoons. Our study shows that overfishing can act as a selective pressure, resulting in increased growth rates and shifts in habitat use.