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      Tides, sea-level rise and tidal power extraction on the European shelf

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      Ocean Dynamics
      Springer Nature

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          A 20th century acceleration in global sea-level rise

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            Global sea level linked to global temperature.

            We propose a simple relationship linking global sea-level variations on time scales of decades to centuries to global mean temperature. This relationship is tested on synthetic data from a global climate model for the past millennium and the next century. When applied to observed data of sea level and temperature for 1880-2000, and taking into account known anthropogenic hydrologic contributions to sea level, the correlation is >0.99, explaining 98% of the variance. For future global temperature scenarios of the Intergovernmental Panel on Climate Change's Fourth Assessment Report, the relationship projects a sea-level rise ranging from 75 to 190 cm for the period 1990-2100.
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              Kinematic constraints on glacier contributions to 21st-century sea-level rise.

              On the basis of climate modeling and analogies with past conditions, the potential for multimeter increases in sea level by the end of the 21st century has been proposed. We consider glaciological conditions required for large sea-level rise to occur by 2100 and conclude that increases in excess of 2 meters are physically untenable. We find that a total sea-level rise of about 2 meters by 2100 could occur under physically possible glaciological conditions but only if all variables are quickly accelerated to extremely high limits. More plausible but still accelerated conditions lead to total sea-level rise by 2100 of about 0.8 meter. These roughly constrained scenarios provide a "most likely" starting point for refinements in sea-level forecasts that include ice flow dynamics.
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                Author and article information

                Journal
                Ocean Dynamics
                Ocean Dynamics
                Springer Nature
                1616-7341
                1616-7228
                August 2012
                June 2012
                : 62
                : 8
                : 1153-1167
                Article
                10.1007/s10236-012-0552-6
                98ba62e2-2728-4e5c-91f4-686a24c473fe
                © 2012
                History

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