Relative sea‐level rise and climate change over the last 1500 years

Abstract

ABSTRACTWe constructed a detailed relative sea‐level rise curve for the last 1500 years using a novel approach, i.e. charting the rate of relative sea‐level rise using microfaunal and geochemical data from a coastal salt marsh sequence (Clinton, CT, USA). The composition of benthic foraminiferal assemblages and the iron abundance in peats were used to describe shifts in marsh environment through time quantitatively. The resulting sea‐level rise curve, with age control from 14C dating and the onset of anthropogenic metal pollution, shows strong increases in the rate of relative sea‐level rise during modern global warming (since the late nineteenth century), but not during the Little Climate Optimum (ad 1000–1300). There was virtually no rise in sea‐level during the Little Ice Age (ad 1400–1700). Most of the relative sea‐level rise over the last 1200 years in Clinton appears to have occurred during two warm episodes that jointly lasted less than 600 years. Changes from slow to fast rates of relative sea‐level rise apparently occurred over periods of only a few decades. We suggest that changes in ocean circulation could contribute to the sudden increases in the rate of relative sea‐level rise along the northeastern USA seaboard. Relative sea‐level rise in that area is currently faster than the worldwide average, which may result partially from an ocean surface effect caused by hydrodynamics. Our data show no unequivocal correlation between warm periods (on a decaal to centennial time‐scale) and accelerated sea‐level rise. One period of acclerated sea‐level rise may have occurred between about ad 1200 and 1450, which was the transition for the Little Climate Optimum to the Little Ice Age, i.e. a period of cooling (at least in northwestern Europe). Local changes in tidal range might also have contributed to this apparent increase in the rate of relative sea‐level, however. The second period of accelerated sea‐level rise occurred during the period of modern global warming that started at the end of the last century.