Bibliography - N. Kim
- Mauzerall, D. L., B. Sultan, N. Kim, and David F. Bradford, 2005: NOx EmissionsFrom Large Point Sources: Variability in Ozone Production, Resulting Health Dangers and Economic Costs. Atmospheric Environment, 39(16), doi:10.1016/j.atmosenv.2004.12.041 2851-2866
[ Abstract ]Several models predict large and potentially abrupt ocean circulation changes due to anthropogenic
greenhouse-gas emissions. These circulation changes drive-in the models-considerable oceanic
oxygen trend. A sound estimate of the observed oxygen trends can hence be a powerful tool to constrain
predictions of future changes in oceanic deepwater formation, heat and carbon dioxide uptake. Estimating
decadal scale oxygen trends is, however, a nontrivial task and previous studies have come to contradicting
conclusions. One key potential problem is that changes in the historical observation network might introduce
considerable errors. Here we estimate the likely magnitude of these errors for a subset of the available
observations in the Southern Ocean. We test three common data analysis methods south of Australia and
focus on the decadal-scale trends between the 1970’s and the 1990’s. Specifically, we estimate errors due to
sparsely sampled observations using a known signal (the time invariant, temporally averaged, World Ocean
Atlas 2001) as a negative control. The crossover analysis and the objective analysis methods are far less
prone to spatial sampling location biases than the area averaging method. Subject to numerous caveats, we
find that errors due to sparse sampling for the area averaging method are on the order of several micromoles
kg-1. For the crossover and the objective analysis method, these errors are much smaller. For the analyzed
example, the biases due to changes in the spatial design of the historical observation network are
relatively small compared to the trends predicted by many model simulations. This raises the possibility to
use historic oxygen trends to constrain model simulations, even in sparsely sampled ocean basins.
Direct link to page: http://cmi.princeton.edu/bibliography/results.php?author=4230
