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- Title
Estimating sampling uncertainty in fixed-depth and fixed-isotherm estimates of ocean warming.
- Authors
Palmer, Matthew D.; Brohan, Philip
- Abstract
We present a simple, generic method for parameterising the sampling and measurement uncertainty for time series data that is based on the number of observations that constitutes each data point. The method is demonstrated using basin-averaged monthly time series of (1) the mean temperature above 220 m depth ( T); (2) the mean temperature above the 14 °C isotherm ( T) and (3) the depth of the 14 °C isotherm ( D). The T and T analyses are in some sense 'equivalent', since the spatial-time-mean depth of the 14 °C isotherm is approximately 220 m. In agreement with oceanographic theory, we find that the T time series has a consistently lower associated sampling uncertainty than T for all ocean basins considered in this study. We also note that the sampling uncertainty for all quantities for a given number of observations is dependent on ocean basin. Our results suggest that with the current observing array we are able to monitor global monthly values of T, T and D with a measurement and sampling uncertainty of approximately ± 0.07 °C, ± 0.04 °C and ± 2.4 m, respectively. However, these estimated uncertainties will become much larger on moving to regional or smaller scales. © Crown Copyright 2010. Published by John Wiley & Sons Ltd.
- Subjects
ISOTHERMAL surfaces (Thermodynamics); OCEAN-atmosphere interaction; ATMOSPHERIC temperature; OCEAN temperature; OCEANOGRAPHY
- Publication
International Journal of Climatology, 2011, Vol 31, Issue 7, p980
- ISSN
0899-8418
- Publication type
Article
- DOI
10.1002/joc.2224