25.02.2020

# New Publications

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Yamamoto, Akitomo; et al. (2019): Glacial CO2 decrease and deep-water deoxygenation by iron fertilization from glaciogenic dust

Yamamoto, Akitomo; Abe-Ouchi, Ayako; Ohgaito, Rumi; Ito, Akinori; Oka, Akira (2019): Glacial CO2 decrease and deep-water deoxygenation by iron fertilization from glaciogenic dust. In Clim. Past Discuss. (under review). DOI: 10.5194/cp-2019-31.

"In this study, we report the significance of iron fertilization from glaciogenic dust for glacial CO2 decrease and deep-water deoxygenation using our numerical simulation, which successfully reproduces the magnitude and large-scale pattern of the observed oxygen changes from the present to Last Glacial Maximum."

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11.12.2019

# Media

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Legal Planet: Glacial Geoengineering and the Law of Antarctica

"This post takes an in-depth look at a few Antarctic glacial geoengineering proposals, the problems they present for long-term governance, and how the law of Antarctica would frame oversight of early scientific research."

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