Climate Intervention ('Geoengineering')
The Caldeira lab engages in research to understand the intended and unintended consequences of geengineering proposals.
- 2012: Crop yields in a geoengineered climate (Pongratz et al., Nature Climate Change)
- 2011: Why is there a shortâterm increase in global precipitation in response to diminished CO2 forcing? (Cao et al., GRL)
- 2010: The need for climate engineering research (Caldeira and Keith, Issues in Science and Technology)
- 2010: Geoengineering as an optimization problem (Ban-Weiss and Caldeira, ERL)
- 2010: Atmospheric carbon dioxide removal: long-term consequences and commitment (Cao and Caldeira, Environmental Research Letters)
- 2010: Albedo enhancement of marine clouds to counteract global warming: impacts on the hydrological cycle (Bala et al., Climate Dynamics)
- 2009: Fast versus slow response in climate change: implications for the global hydrological cycle (Bala et al., Climate Dynamics)
- 2009: Sensitivity of ocean acidification to geoengineered climate stabilization (Matthews et al., GRL)
- 2008: Global and Arctic climate engineering: numerical model studies (Caldeira and Wood, Royal Society A)
- 2007: Transient climate-carbon simulations of planetary engineering (Matthews and Caldeira, National Academy of Sciences)
- 2003: Geoengineering Earth's radiation balance to mitigate climate change from a quadrupling of CO2 (Bala et al., Global and Planetary Change)
- 2002: Impact of geoengineering schemes on the terrestrial biosphere (Bala et al., GRL)
- 2000: Geoengineering Earth's radiation balance to mitigate CO2-induced climate change (Bala and Caldeira, GRL)
Fund for Innovative Climate and Energy Research
The Royal Society's Report on Geoengineering
Tom Schelling visits Carnegie
Edward Teller's reports on geoengineering from Lawrence Livermore National Laboratory
Historical "official" reports
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