Changes in the particulate organic carbon pump efficiency since the Last Glacial Maximum in the northwestern Philippine Sea

Keyphrases

• Taiwan 100%
• Pump Efficiency 100%
• Philippine Sea 100%
• Last Glacial Maximum 100%
• Heinrich Stadial 1 100%
• Particulate Organic Carbon 100%
• Carbon Pump 100%
• Pore Water 60%
• Marine Primary Productivity 60%
• Marine Pump 60%
• Typhoon 40%
• Surface Water 40%
• Marine Sediments 40%
• Early Holocene 40%
• East Asian Winter Monsoon 40%
• Late Holocene 40%
• Water Oxygenation 40%
• Terrestrial Organic Matter 40%
• Suboxic 40%
• Ryukyu 20%
• Transfer Function 20%
• Sediment Core 20%
• Canyon 20%
• Kuroshio Current 20%
• Chemical Elements 20%
• Extreme Events 20%
• Turbidity 20%
• X-ray Fluorescence 20%
• Western Coast 20%
• Levee 20%
• Vertical Mixing 20%
• Forearc Basin 20%
• Bottom Water 20%
• Oxic 20%
• Element Ratios 20%
• Monsoon Wind 20%
• Dysoxic 20%
• Nutrient Budget 20%
• Total Organic Carbon Concentration 20%
• Younger Dryas 20%
• Atmospheric Carbon 20%
• Glacial-interglacial Cycles 20%
• Carbon Transfer 20%
• Deglaciation 20%
• Loess Dust 20%
• Multivariate Statistics 20%
• Benthic Foraminiferal Assemblages 20%

Earth and Planetary Sciences

• Taiwan 100%
• Last Glacial Maximum 100%
• Particulate Organic Matter 100%
• Philippines 100%
• Porewater 60%
• Holocene 60%
• Continent 60%
• Biological Pump 60%
• Marine Sediment 40%
• Organic Matter 40%
• Atmospherics 20%
• Surface Water 20%
• Sediment Core 20%
• Sea Level 20%
• Extreme Event 20%
• Bottom Water 20%
• Turbidity 20%
• X-Ray Fluorescence Spectroscopy 20%
• Vertical Mixing 20%
• Forearc Basin 20%
• Early Holocene 20%
• Nutrient Budget 20%
• Younger Dryas 20%
• Glacial-Interglacial Cycle 20%
• Organic Carbon 20%
• Chemical Element 20%
• Transfer Function 20%
• Deglaciation 20%