Shaohua Dang scite author profile

Coral skeleton δ13C is a routinely measured indicator in modern insolation change research, but the knowledge of environmental and climatic signals recorded in its seasonality during geological time is sparse. In this study, we present eight Porites coral δ13C records from the mid‐late Holocene to the present from the northern South China Sea (NSCS). Compared with the main control factors for modern δ13C changes, coral δ13C seasonality in the NSCS since the mid‐Holocene shows a long‐term decreasing trend, which is consistent with the change trend as orbital‐induced (precession) insolation seasonal amplitude. By excluding other influencing factors, we speculate that the stronger coral δ13C seasonality (18.8%) over the mid‐Holocene than modern period is attributable to the metabolic effect, which predicts the stronger coral δ13C seasonality under stronger insolation seasonality. Our study has implications for coral δ13C seasonality as a potential indicator to record past insolation information under different climatic backgrounds.

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Impact of Monthly Age Model on Coral Paleothermometer Fidelity: Insights From the Northern South China Sea

Dang

Liu

2023

Geochem Geophys Geosyst

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The strontium‐to‐calcium (Sr/Ca) ratio of coral is widely used as a paleothermometer for tropical sea surface temperature (SST) at subannual resolutions. The fidelity of Sr/Ca‐derived SST estimates largely depends on the properties of the monthly age model selected. Here, we develop a revised monthly age model for coral Sr/Ca estimation from the northern South China Sea based on specific tie points and evaluate the impacts of different age models on SST reconstruction. Our results indicate that our revised monthly age model reduces conversion errors by up to nearly 20%–30% relative to previously reported values, thereby improving the precision of seasonal SST estimates and enabling better paleoclimate interpretations, such as El Niño–Southern Oscillation variability. The revised monthly age model provides a generalized approach for developing more robust seasonal resolution Sr/Ca–SST reconstructions in other regions.

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Shaohua Dang

El Niño/Southern Oscillation during the 4.2 ka event recorded by growth rates of corals from the North South China Sea

Orbital‐Insolation Controlled Porites Coral δ¹³C Seasonality Variations Since the Mid‐Holocene in the Northern South China Sea

Impact of Monthly Age Model on Coral Paleothermometer Fidelity: Insights From the Northern South China Sea

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Shaohua Dang

El Niño/Southern Oscillation during the 4.2 ka event recorded by growth rates of corals from the North South China Sea

Orbital‐Insolation Controlled Porites Coral δ13C Seasonality Variations Since the Mid‐Holocene in the Northern South China Sea

Impact of Monthly Age Model on Coral Paleothermometer Fidelity: Insights From the Northern South China Sea

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Product

Resources

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Orbital‐Insolation Controlled Porites Coral δ¹³C Seasonality Variations Since the Mid‐Holocene in the Northern South China Sea