about
Photophoretic levitation of engineered aerosols for geoengineeringSynthetic circuit designs for earth terraformationGeoengineering, news media and metaphors: Framing the controversial.Assessing the direct occupational and public health impacts of solar radiation management with stratospheric aerosolsThe challenge of degraded environments: how common biases impair effective policy.Climate change: evidence of human causes and arguments for emissions reduction.Geoengineering: re-making climate for profit or humanitarian intervention?Ethical aspects of the mitigation obstruction argument against climate engineering research.Mapping the landscape of climate engineering.Science and regulation. End the deadlock on governance of geoengineering research.An overview of geoengineering of climate using stratospheric sulphate aerosols.A risk-based framework for assessing the effectiveness of stratospheric aerosol geoengineeringAsilomar moments: formative framings in recombinant DNA and solar climate engineering research.Why capture CO2 from the atmosphere?The international politics of geoengineering: The feasibility of Plan B for tackling climate change.Modeling the effects of climate engineering.Imperilled species in aquatic ecosystems: emerging threats, management and future prognosesPlaying God: Why religion belongs in the climate engineering debateThe Tuvalu SyndromeThe Intergenerational Transfer of Solar Radiation Management Capabilities and Atmospheric Carbon StocksThe Oxford PrinciplesHistory of climate engineeringRethinking climate engineering categorization in the context of climate change mitigation and adaptationReflecting on 50 years of geoengineering researchA comparison of temperature and precipitation responses to different Earth radiation management geoengineering schemesSimultaneous stabilization of global temperature and precipitation through cocktail geoengineeringAccuracy of climate change predictions using high resolution simulations as surrogates of truthKey impacts of climate engineering on biodiversity and ecosystems, with priorities for future researchThe cost of stratospheric climate engineering revisitedClimate Engineering/Geoengineering ResearchMetaphors We Die By? Geoengineering, Metaphors, and the Argument From CatastropheKey factors governing uncertainty in the response to sunshade geoengineering from a comparison of the GeoMIP ensemble and a perturbed parameter ensembleDynamics of the coupled human–climate system resulting from closed-loop control of solar geoengineeringManagement of trade-offs in geoengineering through optimal choice of non-uniform radiative forcing“Sunshade World”: A fully coupled GCM evaluation of the climatic impacts of geoengineeringQuasi-Additivity of the Radiative Effects of Marine Cloud Brightening and Stratospheric Sulfate Aerosol InjectionNature: A Conversation in Three PartsClimate Change and the Adaptation of the PoliticalThe economics (or lack thereof) of aerosol geoengineeringClimate change: Climate engineering through stratospheric aerosol injection
P2860
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P2860
description
2000 nî lūn-bûn
@nan
2000年の論文
@ja
2000年学术文章
@wuu
2000年学术文章
@zh
2000年学术文章
@zh-cn
2000年学术文章
@zh-hans
2000年学术文章
@zh-my
2000年学术文章
@zh-sg
2000年學術文章
@yue
2000年學術文章
@zh-hant
name
GEOENGINEERING THECLIMATE: History and Prospect
@en
GEOENGINEERING THECLIMATE: History and Prospect
@nl
type
label
GEOENGINEERING THECLIMATE: History and Prospect
@en
GEOENGINEERING THECLIMATE: History and Prospect
@nl
prefLabel
GEOENGINEERING THECLIMATE: History and Prospect
@en
GEOENGINEERING THECLIMATE: History and Prospect
@nl
P1476
GEOENGINEERING THECLIMATE: History and Prospect
@en
P2093
David W. Keith
P304
P356
10.1146/ANNUREV.ENERGY.25.1.245
P577
2000-11-01T00:00:00Z