This will vary slightly against the global
mean sea level figure but, with such a well - mixed trace gas, the differences are trivial.
Not exact matches
As glaciers collapse toward the
sea, scientists struggle to
figure out how fast the southern continent is melting and what that
means for
sea -
level rise
The computer will usually adjust the
figures based on these and spit out an answer which is the adjusted value at
mean sea level under perfect conditions.
I presume you are referring to
Figure 1; but there is a clear «cupping» of the curve from 1800 to 2000 — ie., it bends upwards,
meaning an acceleration of
sea level rise.
Human influence has been detected in warming of the atmosphere and the ocean, in changes in the global water cycle, in reductions in snow and ice, in global
mean sea level rise, and in changes in some climate extremes (see
Figure SPM.6 and Table SPM.1).
Figure 3: «Considerations for estimating the 20th century trend in global
mean sea level»
Figure 1B: «Reassessment of 20th century global
mean sea level rise» «Recent global
sea level acceleration started over 200 years ago?»
Figure 2: Satellite altimeter measurements of the change global
mean sea level with inverse barometer effect filtered out (University of Colorado).
Figure 1: Satellite altimeter measurements of the change global
mean sea level with inverse barometer effect (University of Colorado).
The data cited is satellite altimeter measurements of global
mean sea level over the past 16 years (
Figure 1).
The GMST and AMO trends shown in
Figure 6 show a low in the 1960s and high in the 1990s, suggestive of a 60 - year oscillation, as reported for the global
mean sea level by Chambers et al. (2012).
Figure 1 shows the
mean global
sea level data whose accuracy Mörner denies:
Figure 3: Global
mean sea level variations (light line) computed from the TOPEX / POSEIDON satellite altimeter data compared with the global averaged
sea surface temperature variations (dark line) for 1993 to 1998.
Figure 3: Monthly variations in global
mean steric
sea level computed by Willis 2008 (gray line) and Leuliette 2009 (black line).
This transport produces a broad mounding of water as high as 1 m (3 ft) above
mean sea level near the center of the gyre (
Figure 6.5).
The Dutch Ministry of Transport uses the
figure 60 % (below high water
level during storms), while others use 30 % (below
mean sea level).