2020
DOI: 10.1029/2019gl086246
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The Potential Impact of Nuclear Conflict on Ocean Acidification

Abstract: We demonstrate that the global cooling resulting from a range of nuclear conflict scenarios would temporarily increase the pH in the surface ocean by up to 0.06 units over a 5‐year period, briefly alleviating the decline in pH associated with ocean acidification. Conversely, the global cooling dissolves atmospheric carbon into the upper ocean, driving a 0.1 to 0.3 unit decrease in the aragonite saturation state ( normalΩarag) that persists for ∼10 years. The peak anomaly in pH occurs 2 years post conflict, wh… Show more

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Cited by 12 publications
(12 citation statements)
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“…Thus, these are now identified as additional sources of uncertainty in decadal predictions and long‐term projections (Lovenduski et al, 2019; McKinley et al, 2017). The timescales on which additional human interventions in the climate system, such as solar radiation management or nuclear conflict, would mimic these externally forced changes and modify the ocean carbon sink should be considered (Lauvset et al, 2017; Lovenduski et al, 2020). Finally, since the changing growth rate of pCO 2 atmosphere is the primary driver of recent variability in the ocean carbon sink, the ocean sink should be expected to slow as reductions in the pCO 2 atmosphere growth rate occur in response to climate change mitigation efforts (Peters et al, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…Thus, these are now identified as additional sources of uncertainty in decadal predictions and long‐term projections (Lovenduski et al, 2019; McKinley et al, 2017). The timescales on which additional human interventions in the climate system, such as solar radiation management or nuclear conflict, would mimic these externally forced changes and modify the ocean carbon sink should be considered (Lauvset et al, 2017; Lovenduski et al, 2020). Finally, since the changing growth rate of pCO 2 atmosphere is the primary driver of recent variability in the ocean carbon sink, the ocean sink should be expected to slow as reductions in the pCO 2 atmosphere growth rate occur in response to climate change mitigation efforts (Peters et al, 2017).…”
Section: Discussionmentioning
confidence: 99%
“…We also emphasize that neither BOATS nor CESM resolves the potential impacts of nuclear-war–driven changes in ocean acidification (as described in ref. 38 ) on marine organisms. Work is currently underway to simulate the response of coccolithophores to acidification in CESM ( 79 ); future studies will explore this idea further.…”
Section: Discussionmentioning
confidence: 99%
“…While fishing pressure has a major impact on fish populations and their ability to reproduce, the production of fish biomass also depends on environmental characteristics, most importantly net primary production (NPP) and water temperature ( 36 , 37 ). Since a nuclear war is expected to cause global cooling and decrease oceanic NPP ( 3 , 15 , 38 ), it is likely to have a significant impact on global fish catch. However, it is unknown how these global-scale shifts in NPP and temperature could combine to affect marine ecosystems and marine food productivity, and whether these effects would worsen or mitigate the predicted losses in agricultural food production.…”
mentioning
confidence: 99%
“…Recent findings indicate that various nuclear war scenarios could induce an El Niño-like pattern of unprecedented magnitude across the Pacific, with associated reductions in equatorial Pacific phytoplankton productivity of about 40% [ 15 ]. Researchers recently identified large and abrupt exacerbations in global ocean acidification as consequences of nuclear conflict including potential inability for marine calcifying organisms like shellfish and corals to maintain their shells or skeletons in a corrosive environment [ 16 ].…”
Section: Current Evidence On the Consequences Of Nuclear Warmentioning
confidence: 99%