Olivine and climate change
Publication date
2012
Authors
Schuiling, R.D.
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Document Type
Part of book or chapter of book
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Abstract
The greenhouse effect, thanks mainly to the water vapor in our atmosphere, has created a livable
climate on Earth. Climate change, however, may potentially have dire consequences. It is generally assumed
that the rise in CO2 levels in the atmosphere is the main culprit, although several other greenhouse gases
(GHG) also play a role. Next to limitation of CO2 emissions by higher efficiency, developing alternative
energy sources or changing our wasteful style of living, there are two general approaches to combat climate
change. Both fall under the heading ‘Geo-engineering the Climate’, a report submitted to the Royal Society in
2009. These include methods to fight:
1. symptoms, or
2. causes.
The first group encompasses attempts to change the Earth's albedo, for example by spreading
aerosols of SO2 in the stratosphere, or painting all our roofs white. Among methods to remove CO2 from the
atmosphere, the best known are CCS (carbon capture and storage) and ‘geological storage’, which has nothing
to do with geology, except for the receptacle being of natural origin [1].
There are two processes by which CO2 has been removed from the atmosphere throughout geological
time, primarily by weathering reactions of Ca- and Mg-silicates, and to a lesser extent by storage of organic
carbon in coal beds, oil and natural gas, and carbonates. Thus, enhanced weathering is a logical step to
remove CO2 from the atmosphere. To that purpose, abundant rock types available in large volumes are
ground to increase reactivity, possibly mix with pyrolized wood known as ‘biochar’ (Brazil: ‘terra preta’), and
spread the mix in climate zones that favor rapid weathering, that is the wet tropics.
Industrializing nations like India, China or Brazil would not need to limit their CO2 emissions by
restricting industrial production, and thereby slowing their economic development, but could instead
compensate their emissions by enhanced weathering.
Keywords
CO2 sequestration, enhanced weathering, olivine, dunite