GC41B-0537:
Solar Radiation Management and Olivine Dissolution Methods in Climate Engineering

Thursday, 18 December 2014
Salif Kone, Université des Sciences Juridiques et Politiques de Bamako, Institut Supérieur de Formation et de Recherche Appliquée (USJPB/ISFRA), Bamako, Mali; Malian National School of Engineers (ENI-ABT), Department of Geology, Bamako, Mali
Abstract:
An overview of solar radiation management and olivine dissolution methods allows to discuss, comparatively, the benefits and consequences of these two geoengineering techniques. The combination of those two techniques allows to concomitantly act on the two main agents intervening in global warming: solar radiation and carbon dioxide. The earth surface temperature increases due mainly to carbon dioxide (a greenhouse gas) that keeps the solar radiation and causes the global warming. Two complementary methods to mitigate climate change are overviewed: SRM method, which uses injected aerosols, aims to reduce the amount of the inbound solar radiation in atmosphere; and olivine dissolution in water, a key chemical reaction envisaged in climate engineering , aiming to reduce the amount of the carbon dioxide in extracting it from atmosphere. The SRM method works on scenarios of solar radiation decrease and the olivine dissolution method works as a carbon dioxide sequestration method. Olivine dissolution in water impacts negatively on the pH of rivers but positively in counteracting ocean acidification and in transporting the silica in ocean, which has benefits for diatom shell formation.