Significant Differences in Coral Trophic Status Between Nearshore and Offshore Reefs Recorded by δ15N of Coral Symbiotic Zooxanthellae and Host Tissue in the South China Sea in the SCS.

Significant differences in environmental conditions between nearshore and offshore coral reefs lead to different symbiotic zooxanthellae density (ZD) of corals. From the perspective of energy supply, different ZD lead to different energy provided by the photosynthesis of zooxanthellae to the coral host. However, few studies have conducted a comparative analysis of coral trophic status (i.e., autotrophic photosynthesis of zooxanthellae and heterotrophic feeding of the host) between nearshore and offshore reefs. In this study, 70 coral samples of Favia palauensis were collected from the nearshore Sanya reefs, and offshore Xisha, Nansha reefs in the South China Sea (SCS). The ZD, δ15N of seawater particulate organic matter (δ15NPOM), host tissue (δ15Nh), zooxanthellae (δ15Nz) and the difference between δ15Nh and δ15Nz (i.e., △h−z 15N = δ15Nh−δ15Nz) were measured and statistically analyzed. The purpose is to elucidate the differences in the energy maintenance mechanisms of corals between nearshore and offshore reefs. Results show that ZD is significantly positively correlated with δ15Nz in all three reefs (p < 0.05). Corals in nearshore Sanya have higher autotrophic abilities than corals from offshore Xisha and Nansha reefs. By contrast, corals in offshore reefs are more dependent on heterotrophic feeding of the host to obtain energy. Our research demonstrate that corals can adjust their trophic status, especially improve their heterotrophic feeding intensity to meet energy needs under different environmental conditions. This dynamic adjustment of energy supply patterns is of great significance to improve coral's environmental adaptability. Plain Language Summary: Coral reefs are mainly divided into nearshore fringing reefs, barrier reefs and offshore atolls according to geographical distribution. Therein, ambient seawater in nearshore reefs are significantly affected by human activities and has relatively higher nutrient levels. In contrast, corals in offshore atolls are less affected by human activities as they are far away from the mainland, but they will be potentially affected by abnormal natural conditions. Different environmental conditions lead to significant differences in the physiological parameters of corals, such as symbiotic zooxanthellae density (ZD). From the perspective of energy supply, different ZD may lead to different energy provided by the photosynthesis of zooxanthellae to the coral host. However, few studies have conducted a comparative analysis of coral trophic status between nearshore and offshore reefs. Based on the δ15N labeling technology, we find that corals in nearshore fringing reefs have higher autotrophic abilities than corals from offshore reefs. By contrast, corals in the offshore reefs are more dependent on heterotrophic feeding of the host to obtain energy. This means that corals can adjust their trophic status to meet energy needs under different environmental conditions. This dynamic adjustment of energy supply patterns is of great significance to improve coral's environmental adaptability. Key Points: The δ15N can record coral trophic status changes between nearshore and offshore reefsCorals in nearshore reefs have higher autotrophic photosynthesis and heterotrophic energy than corals in offshore reefsCoral can independently adjust trophic status under different environmental conditions between nearshore and offshore [ABSTRACT FROM AUTHOR]