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38 Technical Summary There is no practical physical limit to the amount of anthropogenic CO2 that could be stored in the ocean. However, on a millennial time scale, the amount stored will depend on oceanic equilibration with the atmosphere. Stabilizing atmospheric CO2 concentrations between 350 ppmv and 1000 ppmv would imply that between 2,000 and 12,000 GtCO2 would eventually reside in the ocean if there is no intentional CO2 injection. This range therefore represents the upper limit for the capacity of the ocean to store CO2 through active injection. The capacity would also be affected by environmental factors, such as a maximum allowable pH change. a 550 ppmv stabilization case without ocean storage, a pH change of more than 0.25 at the ocean surface was estimated due to equilibration with the elevated CO2 concentrations in the atmosphere. In either case, a pH change of 0.2 to 0.4 is significantly greater than pre-industrial variations in ocean acidity. Over centuries, ocean mixing will result in the loss of isolation of injected CO2. As more CO2 reaches the ocean surface waters, releases into the atmosphere would occur gradually from large regions of the ocean. There are no known mechanisms for sudden or catastrophic release of injected CO2 from the ocean into the atmosphere. Analysis of ocean observations and models both indicate that injected CO2 will be isolated from the atmosphere for at least several hundreds of years, and that the fraction retained tends to be higher with deeper injection (see Table TS.7). Ideas for increasing the fraction retained include forming solid CO2 hydrates and/or liquid CO2 lakes on the sea floor, and dissolving alkaline minerals such as limestone to neutralize the acidic CO2. Dissolving mineral carbonates, if practical, could extend the storage time scale to roughly 10,000 years, while minimizing changes in ocean pH and CO2 partial pressure. However, large amounts of limestone and energy for materials handling would be required for this approach (roughly the same order of magnitude as the amounts per tonne of CO2 injected that are needed for mineral carbonation; see Section 7). Experiments show that adding CO2 can harm marine organisms. Effects of elevated CO2 levels have mostly been studied on time scales up to several months in individual organisms that live near the ocean surface. Observed phenomena include reduced rates of calcification, reproduction, growth, circulatory oxygen supply and mobility, as well as increased mortality over time. In some organisms these effects are seen in response to small additions of CO2. Immediate mortality is expected close to injection points or CO2 lakes. The chronic effects of direct CO2 injection into the ocean on ocean organisms or ecosystems over large ocean areas and long time scales have not yet been studied. Ecological and environmental impacts and risks The injection of a few GtCO2 would produce a measurable change in ocean chemistry in the region of injection, whereas the injection of hundreds of GtCO2 would produce larger changes in the region of injection and eventually produce measurable changes over the entire ocean volume. Model simulations that assume a release from seven locations at 3,000 m depth and ocean storage providing 10% of the mitigation effort for stabilization at 550 ppmv CO2 projected acidity changes (pH changes) of more than 0.4 over approximately 1% of the ocean volume. By comparison, in No controlled ecosystem experiments have been performed in the deep ocean, so only a preliminary assessment of potential ecosystem effects can be given. It is expected that ecosystem consequences will increase with increasing CO2 concentrations and decreasing pH, but the nature of such consequences is currently not understood, and no environmental criteria have as yet been identified to avoid adverse effects. At present, it is also unclear how or whether species and ecosystems would adapt to the sustained chemical changes. Table TS.7. Fraction of CO2 retained for ocean storage as simulated by seven ocean models for 100 years of continuous injection at three different depths starting in the year 2000. Costs of ocean storage Although there is no experience with ocean storage, some attempts have been made to estimate the costs of CO2 storage projects that release CO2 on the sea floor or in the deep ocean. The costs of CO2 capture and transport to the shoreline (e.g Injection depth Year 800 m 1500 m 3000 m 2100 0.78 ± 0.06 0.91 ± 0.05 0.99 ± 0.01 2200 0.50 ± 0.06 0.74 ± 0.07 0.94 ± 0.06 2300 0.36 ± 0.06 0.60 ± 0.08 0.87 ± 0.10 2400 0.28 ± 0.07 0.49 ± 0.09 0.79 ± 0.12 2500 0.23 ± 0.07 0.42 ± 0.09 0.71 ± 0.14PDF Image | CARBON DIOXIDE CAPTURE AND STORAGE
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