Coral growth over the past 550 years in the central South China Sea linked to monsoon- and seabird-induced nutrient stress

Nutrient enrichment is a widely recognized threat to coastal coral reefs. Yet its impact on open ocean reefs is largely unknown due to the lack of long-term observations at remote sites and the entanglement of various environmental factors affecting coral growth. Here we determined growth rates and the carbonate chemistry of calcifying fluid (CF) of massive corals over the last 550 years at a remote South China Sea reef ecosystem. We show that large growth variations cannot be fully explained by changes in seawater pH or temperature due to the antiphase relationship between growth rate and pHcf as well as small sea surface temperature variations before the 1960s. Instead, coral growth rate decreases proportionally with past seabird populations over the past centuries. We suggest that excess nutrient loads through monsoon pumping and seabird migration played an important role in controlling coral growth at this remote reef ecosystem. Specifically, episodic eutrophication as indicated by a -3 per mil increase in coral & delta;13C has depressed coral growth by-30% during 15th to 18th centuries, which is comparable to the modern decline. Thus, accurate projections of future coral growth for remote reefs under ongoing human activities and climate change needs to take into account the history of past nutrient inputs into these ecosystems under pre-anthropogenic conditions, which has been overlooked previously due to a lack of historical observations.

Automated summary

This study examines the impact of nutrient enrichment on coral growth in remote ocean reefs. It finds that variations in coral growth rate over the past centuries are closely related to changes in seabird populations, suggesting a role of nutrient loads in controlling coral growth. This highlights the importance of considering historical nutrient inputs when projecting future coral growth under human activities and climate change.