How much have sea levels risen since 2000

Four key takeaways from the report:

The Next 30 Years of Sea Level Rise

Sea level along the U.S. coastline is projected to rise, on average, 10 - 12 inches (0.25 - 0.30 meters) in the next 30 years (2020 - 2050), which will be as much as the rise measured over the last 100 years (1920 - 2020). Sea level rise will vary regionally along U.S. coasts because of changes in both land and ocean height.

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More Damaging Flooding Projected

Sea level rise will create a profound shift in coastal flooding over the next 30 years by causing tide and storm surge heights to increase and reach further inland. By 2050, “moderate” (typically damaging) flooding is expected to occur, on average, more than 10 times as often as it does today, and can be intensified by local factors.

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Emissions Matter

Current and future emissions matter. About 2 feet (0.6 meters) of sea level rise along the U.S. coastline is increasingly likely between 2020 and 2100 because of emissions to date. Failing to curb future emissions could cause an additional 1.5 - 5 feet (0.5 - 1.5 meters) of rise for a total of 3.5 - 7 feet (1.1 - 2.1 meters) by the end of this century.

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Continual Tracking

Continuously tracking how and why sea level is changing is an important part of informing plans for adaptation. Our ability to monitor and understand the individual factors that contribute to sea level rise allows us to track sea level changes in a way that has never before been possible (e.g., using satellites to track global ocean levels and ice sheet thickness). Ongoing and expanded monitoring will be critical as sea levels continue to rise.

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Sea Level in the Past 20,000 Years

In order for us to connect sea level with our discussion on intrinsic and extrinsic controls and feedback mechanisms, etc., let's see another dataset that links climate history and sea level. The image below shows warm and cool periods for the last 900,000 years and has an expanded inset for the last 140,000 years.

Eustatic sea level curve for the last 900,000 years. Sea levels are plotted relative to modern mean sea level. As you can observe in these graphs, sea level has been highly variable and “periodic” with sea levels higher during warm periods and low during cold periods. In fact, sea levels about 18,000 years ago were as much as 120 meters below present.

Credit: Seal level temp via Wikimedia Commoms from NOAA (Public Domain)

In the inset, you will notice the long-term decline in sea levels from the last interglacial warm period which occurred about 130 ky before the present. It is labeled stage 5e on the graphic. Sea levels declined to the lowest levels during stage 2 that occurred between 13,000 and 20,000 years ago. During this time, despite some minor short-term rise/fall events, sea levels fell from near modern sea levels to some 120 meters below present. The long-term rate of sea level fall calculation shows that sea levels fell 120 meters in approximately 100,000 years or 0.12 m / 100 years. That is, sea levels fell by some 12 cm per 100 years, or through a simple unit conversion, the rate can be stated as 1.2 mm/year.

In the same graph, sea level rise appears to have been occurring at least for the last 18,000 years. Modern sea levels (relatively similar to highs 120,000 years ago) were achieved quite rapidly, relative to the rate of fall. Based on these numbers, 120 meters of sea level rise appears to have occurred in 18,000 years. This represents a rate of almost 6 mm/year for a rise rate.

This asymmetrical pattern of sea level rise/fall rates is repeated again and again for many of the earlier glacial-interglacial episodes. Thus, there is evidence that shows sea level fall (and building of ice sheets) is a long, drawn-out process where cooling and various positive feedback loops help to reinforce the cooling. The end result is an extended period of sea level fall (i.e., iteratively more albedo, and less and less insolation delivery, more cooling, etc.).

Conversely, once the factors that initiate warming begin to turn on, warming and associated sea level rise apparently can proceed at a much faster rate until a maximum sea level is reached, and factors that influence cooling initiate and bring sea levels down again.

Prior to the last few centuries, the system was controlled primarily by extrinsic and intrinsic variables. However, human impacts on landscapes, oceans, and climate (i.e., deforestation, greenhouse gas concentrations, nutrient runoff, aerosol pollution, and cloud development, etc.) have added variables that weren't present at any previous time (more on this later).

Now, let's look at a couple of more composite analyses that help us understand signals and signatures from the last few 1000 years. In the graphic below, a number of different datasets from Australia, South America, the Caribbean, the western Pacific, and other areas have been plotted to show sea level positions. Most of these datasets are derived from investigations of coral reefs that have drowned as sea level has risen.

Holocene Sea Level curve showing the most recent period of rise and warming. Some of these data suggest that sea levels approached modern around 6,000 years ago, but may have actually exceeded modern sea levels in some regions (i.e., Malacca), but, on average, sea levels have been relatively slow to rise and have been fairly stable for at least the last few thousand years.

Credit: Image created by Robert A. Rohde / Global Warming Art

From what is observed in the figure above, sea level rise rates appear to have been relatively low during initiation of rise (i.e., from 20,000 to approximately 15,000 years ago), at which point a significant increase in sea level rise rates (Meltwater Pulse 1A), and several others ensued. Three rapid increases in rise rates ("pulses") are noted here so that the majority of the 100 meters of sea level rise occurred from 14,000 to approximately 8,000 years ago, or 90 meters in roughly 6,000 years. This yields a sea level rise rate of 0.015 meters per year or 1.5 centimeters per year or 15 mm per year.

This is an incredibly fast rate that is tied to the decay of large ice sheets including both the Eurasian and Laurentide Ice Sheets. The Laurentide Ice Sheet on North America had mostly retreated from North America by 6,000 years ago leaving behind only the alpine ice sheets. Check out the video below showing the retreat.

Video: Laurentide Ice Sheet (00:32) No audio.

Laurentide Ice Sheet

As these large ice sheets and their albedo potential was removed, the rate of absorbance of incoming solar radiation was likely to have contributed to further warming and increased temperatures of seawater. Thus, geoscientists are increasingly confident in the two primary factors that have contributed to the sea level rise rate prior to human influences. The primary cause is thought to be tied to thermal expansion of seawater as we discussed previously. The second is the role of melting glaciers and increased volumes of land-ice being moved to the oceans.

How much have the Seas risen in the last 20 years?

What was the sea level 2000 years ago?

How much have sea levels risen in the 100 years?

How much have sea levels rise in the past 10 years?