CHUAN-CHOU SHEN2018-09-102018-09-102014http://www.scopus.com/inward/record.url?eid=2-s2.0-84902119209&partnerID=MN8TOARShttp://scholars.lib.ntu.edu.tw/handle/123456789/385636Modern acidification by the uptake of anthropogenic CO 2 can profoundly affect the physiology of marine organisms and the structure of ocean ecosystems. Centennial-scale global and regional influences of anthropogenic CO 2 remain largely unknown due to limited instrumental pH records. Here we present coral boron isotope-inferred pH records for two periods from the South China Sea: AD 1048-1079 and AD 1838-2001. There are no significant pH differences between the first period at the Medieval Warm Period and AD 1830-1870. However, we find anomalous and unprecedented acidification during the 20th century, pacing the observed increase in atmospheric CO 2. Moreover, pH value also varies in phase with inter-decadal changes in Asian Winter Monsoon intensity. As the level of atmospheric CO 2 keeps rising, the coupling global warming via weakening the winter monsoon intensity could exacerbate acidification of the South China Sea and threaten this expansive shallow water marine ecosystem.[SDGs]SDG14carbon dioxide; sea water; animal; Anthozoa; chemistry; China; coral reef; environment; environmental monitoring; greenhouse effect; pH; procedures; sea; season; Animals; Anthozoa; Carbon Dioxide; China; Coral Reefs; Environment; Environmental Monitoring; Global Warming; Hydrogen-Ion Concentration; Oceans and Seas; Seasons; Seawaterjournal article10.1038/srep051482-s2.0-84902119209WOS:000336655300006