Limestone consists mainly of skeleton and shells of marine calcifiers and their fragments. Therefore, the biotic composition of limestones is generally sensitive to sea level fluctuations as well as by various environmental factors, such as sea-surface temperature, salinity, nutrient level and terrigenous input and, thus, their lithofacies can be used as an important indicator of sedimentary environments. Because Okinawa Island is located near the boundary between coral-reef and non-coral-reef regions in the present-day northwestern Pacific, the Quaternary limestones (Ryukyu Group) in this island record response of coral reefs to local and global environmental changes such as glacioeustasy and increased/decreased seawater temperature. We studied succession and spatial configuration of the limestones by field and drillcore observations and analyzed their biotic composition and diagenetic products by outcrop and thin section observations. By integrating our data and those in previous studies, we reconstructed the sedimentary history of the Ryukyu Group relating to global climate and sea levels as well as regional sedimentary environments and tectonic movements. The Ryukyu Group is divided into the Itoman, Naha, and Minatogawa formations in ascending order. The deposition of the Ryukyu Group began after the warm Kuroshio Current had flowed into the Okinawa Trough in the Early Pleistocene. The initial period of the deposition of the Ryukyu Group is characterized by contemporaneous sedimentation of the Itoman Formation and the lower part of the Naha Formation, but in different environments (reef and off-reef environments, respectively). The Itoman Formation consists mainly of coralline algae with low species diversity that formed in a shallow reef setting (20–50 m water depth). Subsequently, the main part of the Naha Formation was deposited in coral reefs and associated fore-reef and shelf environments within a wide depth range (0–150 m). This formation is divided into four lithologic units and can be correlated with marine isotope stages (MIS). Units 2–4 are correlated to MIS 15–20 and the unconformity between Units 3 and Unit 4, which can be traced throughout the Central Ryukyus, is formed during the low sea stand at MIS 16. During the deposition of the Naha Formation, Okinawa Island and their environs were subsided to produce accommodation space for reef deposits forming the stratigraphic architecture of aggradation and retrogradation. The Minatogawa Formation abuts the Naha Formation with a sharp boundary and is considered to be deposited during the highstand at MIS 5, 7, or 9. The occurrences of this formation and Holocene deposits and erosional notches indicate that southern Okinawa Island has been continuously uplifted after the deposition of the Naha Formation.