Title of article
Climate change feedbacks on future oceanic acidification
Author/Authors
Ben I. McNeil، نويسنده , , RICHARD J. MATEAR، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
8
From page
191
To page
198
Abstract
Oceanic anthropogenic CO2 uptake will decrease both the pH and the aragonite saturation state ( arag) of seawater
leading to an oceanic acidification. However, the factors controlling future changes in pH and arag are independent
and will respond differently to oceanic climate change feedbacks such as ocean warming, circulation and biological
changes.We examine the sensitivity of these two CO2-related parameters to climate change feedbacks within a coupled
atmosphere-ocean model. The ocean warming feedback was found to dominate the climate change responses in the
surface ocean. Although surface pH is projected to decrease relatively uniformly by about 0.3 by the year 2100, we find
pH to be insensitive to climate change feedbacks, whereas arag is buffered by∼15%. Ocean carbonate chemistry creates
a situation whereby the direct pH changes due to ocean warming are almost cancelled by the pH changes associated with
dissolved inorganic carbon concentrations changes via a reduction in CO2 solubility from ocean warming. We show
that the small climate change feedback on future surface ocean pH is independent to the amount of ocean warming. Our
analysis therefore implies that future projections of surface ocean acidification only need to consider future atmospheric
CO2 levels, not climate change induced modifications in the ocean
Journal title
Tellus.Series B
Serial Year
2007
Journal title
Tellus.Series B
Record number
436877
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