Edgar Kaufmann scite author profile

Detection and attribution of anthropogenic climate change signals in sea level rise (SLR) has experienced considerable attention during the last decades. Here we provide evidence that superimposed on any possible anthropogenic trend there is a significant amount of natural decadal and multidecadal variability. Using a set of 60 centennial tide gauge records and an ocean reanalysis, we find that sea levels exhibit long-term correlations on time scales up to several decades that are independent of any systematic rise. A large fraction of this long-term variability is related to the steric component of sea level, but we also find long-term correlations in current estimates of mass loss from glaciers and ice caps. These findings suggest that (i) recent attempts to detect a significant acceleration in regional SLR might underestimate the impact of natural variability and (ii) any future regional SLR threshold might be exceeded earlier/later than from anthropogenic change alone.

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The impact of windthrow on carbon sequestration in Switzerland: a model-based assessment

Thürig

Palosuo²,

Bucher

et al. 2005

Forest Ecology and Management

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Hotspots of the European forests carbon cycle

Nabuurs

Thürig

Heidema

et al. 2008

Forest Ecology and Management

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Edgar Kaufmann

Selecting the optimal sample fraction in univariate extreme value estimation

National and global greenhouse gas dynamics of different forest management and wood use scenarios: a model-based assessment

Evidence for long‐term memory in sea level

The impact of windthrow on carbon sequestration in Switzerland: a model-based assessment

Hotspots of the European forests carbon cycle

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