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Based on the relationship between salinity and
δ
18O and
δ
13C of modern shells in the Lake Nakaumi–Shinji lagoon system (southwestern Japan), where the salinity changes regularly from ca. 1 PSU to 34 PSU, a paleosalinity record for Nakaumi Lagoon during the Holocene has been derived from bulk mollusk shell
δ
18O and
δ
13C data. The robust relationships between the salinity and modern shell
δ
18O
ar and
δ
13C
ar (aragonite) were used to calibrate the paleosalinity reconstruction. The salinity relationships are expressed by the regressions:
Salinity (PSU)=3.86 δ
18O
ar(‰ VPDB)+33.9 (
n=18,
r=0.978)
Salinity(PSU)=4.05 δ
13C
ar(‰VPDB)+31.8 (
n=18,
r=0.977).
Applying these equations to bulk shell
δ
18O
ar and
δ
13C
ar in the 20 m sediment core, very similar salinity histories were reconstructed from either oxygen or carbon isotope ratio data. At the beginning of lacustrine sediment deposition (8000–7500
14C yr B.P.) paleosalinity of the bottom water in the central portion of Nakaumi Lagoon increased from 22 to 32 PSU. During the 7500–5500 yr B.P. interval, which approximately corresponds to the Holocene climatic optimum and high sea-level stand, salinity ranged from 27 to 37 PSU. After 5500 yr B.P. salinity lessened under the cooling climate, with a minimum value of 24–27 PSU at 3000–1000 yr B.P. The results show a consistent relationship between climate change, sea-level, and salinity in the lagoon during the Holocene.