Unsurprisingly, the study blames the anomalous 20th-century rise on global warming. It also calculates that, had humans not been warming the planet, there's very little chance that seas would have risen so much during the century, finding that instead of a 14cm rise, we would have seen somewhere between a 3cm fall and a 7cm rise.
The new work is significant because, in effect, the sea level analysis produces a so-called "hockey stick" graph - showing a long and relatively flat sea level "handle" for thousands of years, followed by a "blade" that turns sharply upwards in very recent times.
The discovery of such patterns go back to a 1998 study by climate researcher Michael Mann of Penn State University and two colleagues - who found a "hockey stick" graph for the planet's temperature, rather than for its sea level. Since then the "hockey stick", in its various incarnations, has come in for criticism from skeptics and doubters of human-caused climate change - even as multiple scientists have continued to affirm the conclusion that the past 100 years or so are way out of whack with what the planet has seen in the past 1000 or more.
The new research also forecasts that no matter how much carbon dioxide we emit, 21st-century sea-level rise will still greatly outstrip what was seen in the 1900s. Nonetheless, choices made today could have a big impact. For a low-emissions scenario, seas might only rise between 24 and 61cm. Under a high-emissions scenario, which the recent Paris climate accord pledged the world to avert, sea levels could rise as much as 52 to 131cm.
However, Kopp notes that the methods used to project these totals may not fully capture what happens over the course of this century. "We have a model that's calibrated against a period when a certain set of processes, largely thermal expansion and glaciers, were dominant," he says, "and we're looking forward to a period when other factors will be dominant."
As Kopp's words acknowledge, the major contributors to sea level rise in the 20th century were the melting of mountain glaciers around the globe and the natural expansion of ocean water as it warms. However, in the 21st century, researchers think that the truly major players in potential sea level rise, the huge ice sheets of Greenland and Antarctica, will come to play a larger role. Just how large remains unclear.
The study combined a variety of so-called "reconstructions" of past rates of sea level from 24 locations around the world with more recent measurements from 66 global tide gauges. Factors ranging from whether land is rising or sinking to changes in ocean currents and the gravitational pull of the planet's ice sheets mean different regions can see different amounts of sea level rise (or fall).
The new study follows a 2011 study that looked at ocean and climate records contained in salt marshes in North Carolina to infer the history of sea level rise over the past 2100 years - research that had many of the same authors. That study, too, found that the recent sea level rise is unprecedented over that time period.
Mann, an originator of the "hockey stick" reference and a co-author of the 2011 study said he thinks the current work is an "incremental advance" on the prior study.
"The study nonetheless reiterates the conclusion we reached [in 2011] that the acceleration in sea level rise over the past century is unprecedented over at least the past millennium, and that this acceleration is directly related to the spike in surface temperature over the past century (i.e. the "hockey stick")."
The new paper emerges even as another study, also published yesterday in the Proceedings of the National Academy of Sciences, produced very similar 21st-century projections of sea-level rise. That paper, led by Matthias Mengel of the Potsdam Institute for Climate Impact Research in Germany, also calculated that with unconstrained emissions, sea levels would rise by a maximum of 1.2m by 2100. But it too acknowledged that the approach "cannot cover processes" like the possible collapse of the oceanfront glaciers of the West Antarctic ice sheet which, it said, "is hypothesised to be already under way".
Such calculations are roughly in line with the 2013 projections of the UN's Intergovernmental Panel on Climate Change for expected sea level rise by 2100, although they rely on a simpler type of model than that body used. However, Princeton climate scientist Michael Oppenheimer, who was not involved in the current work but collaborates with Kopp and was his postdoctoral adviser, says that this agreement between approaches still "begs the question of just how much disintegration of the polar ice sheets will contribute to sea level during the 21st century since neither type of model is adequate for capturing this growing and potentially disastrous contribution - and that is ultimately the most important unknown, with regard to sea level and potentially with respect to the whole field of climate change".
Capping a major day for sea-level rise news, Kopp, Benjamin Strauss of Climate Central and two other researchers released another report yesterday that used the current study's approach to determine that thousands of coastal "nuisance" floods in the United States over the 20th century would not have happened without human-caused global warming.
Based on just 10cm of sea level rise attributed to humans in the 20th century, and another 5cm so far in the 21st, Strauss said he "was surprised to see that there are human fingerprints on thousands of coastal floods that we've already had in the United States". The reason is that such nuisance floods - king tide flooding in Miami would be a good example - represent what Strauss calls a "threshold" phenomenon, which is caused after sea level rise reaches a certain level.
"I think these studies really put the human fingerprint on Miami Beach's hundred-million-dollar saltwater flooding problem, and really a lot of what's going on in South Florida," Strauss said.