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Tracking rising sea level is required to protect Venice infrastructure

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A long-term data set for Venice—one of UNESCO’s most famous World Heritage Sites— has revealed an accelerated sea level rise due to climate change. Tracking these changes is crucial for safeguarding the city.

A rising sea and a sinking city

The city is subsiding and absolute sea level is rising, and the combination of these two processes is relative sea level rise. Today, the sea has reached ground floors and is causing dramatic damage to buildings and monuments. Some people have raised the floors and bricked up the lower parts of doors to avoid the penetration of seawater; others have built a wooden dock walkway or a floating platform in front of the door.

Preferably, data on sea level rise cover several centuries, since short time water level series may suffer too much from uncertainties and short-term fluctuations caused by several (natural and man-made) factors. The longer a sea level time series, the more the sea level rise trend stands out with respect to this short term variability.

Three clues to reconstruct sea level rise

The existing tide gauge sea level record for Venice goes back to 1871. Scientists succeeded in extending this time series back to 1571 by studying the green algae belt on paintings. In a recent novel approach, scientists went even further back in time—to 1350—by studying the the submergence levels of the Grand Canal palaces’ water stairs.

Clue 1: Tide gauge registrations since 1871

From the tide gauge record, it was concluded that the observed average relative sea level rise in Venice was 2.5 ± 0.2 mm per year over the period 1871-2014. The average subsidence of Venice and its surrounding land in this period was 1.5 ± 0.3 mm per year. Thus, the sea level near Venice has risen by 1.0 ± 0.3 mm per year since 1871—quite comparable to the value of 1.1-1.5 mm per year that was found for the Mediterranean over the past century.

Clue 2: Algae belts on paintings show sea level in the past since 1571

Green algae on paintings were first studied for paintings covering the period 1727-1758. The algae belt is the biological tracer of sea water level. By comparing the algae level in the paintings with the current one, average relative sea level rise was estimated to be 2.3 ± 0.4 mm per year. Second, a comparison was made between algae belts on these paintings from 1727-1758 and a painting made in 1571. This comparison revealed a 1.2 ± 0.4 mm relative sea level rise per year. This figure is close to the estimated land subsidence for this period and suggests that the absolute sea level rise over the seventeenth century may have been very small.

Clue 3: Submergence level steps palaces show sea level rise since 1350

The submergence level of water stair steps belonging to the palaces on the Grand Canal provides an exceptionally long series (i.e. 664 years) of data on sea level rise. In Venice, canals are more important than streets, and the Grand Canal is the main canal, with magnificent palaces on both sides. The main palace entrances on the Grand Canal have water stairs, i.e. stairways, leading down to welcome guests and unload supplies arriving by boat. Nowadays, water stairs are fully or almost fully submerged and disappear underwater. The bottom step, in association with the building date, provides a useful proxy to reconstruct the change of relative sea level over the centuries. The advantage is that there are numerous water stairs and they may provide a very long, high-resolution series.

Originally, the bottom step of the water stairs of these historic palaces was built in relation to the sea level and the slippery algae belt, while today, the water stairs are mostly submerged. An underwater survey of 78 water stairs has provided new data about relative sea level rise since 1350. The results show that relative sea level in Venice was always rising at an increasingly fast rate.

Steps reveal turning point sea level change

In fact, the results suggest a turning point in the change of absolute sea level for the mid fifteenth century, quite consistent with the literature: Sea level must have dropped from a maximum elevation during the Mediaeval Warm Period, when absolute sea level was 12 to 21 cm higher than today, to a minimum around 1730, as a result of the Little Ice Age. Since the Little Ice Age global warming has led to an accelerated sea level rise, which is illustrated by the long-term data set for Venice.

The article first appeared on Climate Change Post and is a digest of a scientific paper by Camuffo et al., 2017. A novel proxy and the sea level rise in Venice, Italy, from 1350 to 2014. Climatic Change 143: 73-86.

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