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Accelerating extinction risk from climate changeNew feed sources key to ambitious climate targetsPathways for balancing CO2 emissions and sinks.Industry 1.61803: the transition to an industry with reduced material demand fit for a low carbon future.Global potential of biospheric carbon management for climate mitigation.Australia is 'free to choose' economic growth and falling environmental pressures.Soil carbon sequestration and biochar as negative emission technologies.Record dry summer in 2015 challenges precipitation projections in Central Europe.Preliminary assessment of the potential for, and limitations to, terrestrial negative emission technologies in the UK.Optimal bioenergy power generation for climate change mitigation with or without carbon sequestration.Why on earth did I buy that? A study of regretted appliance purchasesOn the potential for BECCS efficiency improvement through heat recovery from both post-combustion and oxy-combustion facilities.Enhanced rock weathering: biological climate change mitigation with co-benefits for food security?Trade-offs for food production, nature conservation and climate limit the terrestrial carbon dioxide removal potential.Projecting the effects of climate change on Calanus finmarchicus distribution within the U.S. Northeast Continental Shelf.Negative Emissions from Stopping Deforestation and Forest Degradation, Globally.Opinion: Climate policymakers and assessments must get serious about climate engineering.Low carbon renewable natural gas production from coalbeds and implications for carbon capture and storageUsing Genome-Wide SNP Discovery and Genotyping to Reveal the Main Source of Population Differentiation in Nothofagus dombeyi (Mirb.) Oerst. in Chile.A low-energy chilled ammonia process exploiting controlled solid formation for post-combustion CO2 capture.The trouble with negative emissionsThe promise of negative emissions-ResponseQuantifying the value of CCS for the future electricity systemAssessing the Feasibility of Global Long-Term Mitigation ScenariosThe world's biggest gambleSharing a quota on cumulative carbon emissionsHigh-resolution spatial modelling of greenhouse gas emissions from land-use change to energy crops in the United KingdomKey indicators to track current progress and future ambition of the Paris AgreementHow to spend a dwindling greenhouse gas budgetScience and policy characteristics of the Paris Agreement temperature goalCatalysing a political shift from low to negative carbonThe 'best available science' to inform 1.5 °C policy choicesTowards a comprehensive climate impacts assessment of solar geoengineeringThe cost of stratospheric climate engineering revisitedFuture CO2 emissions and electricity generation from proposed coal-fired power plants in IndiaFrom Targets to Action: Rolling up our Sleeves after ParisThe Paris Agreement: resolving the inconsistency between global goals and national contributionsFlexible parameter-sparse global temperature time profiles that stabilise at 1.5 and 2.0 °CInstitutional complexity and private authority in global climate governance: the cases of climate engineering, REDD+ and short-lived climate pollutantsWhat if negative emission technologies fail at scale? Implications of the Paris Agreement for big emitting nations
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P2860
description
article
@en
im September 2014 veröffentlichter wissenschaftlicher Artikel
@de
wetenschappelijk artikel
@nl
наукова стаття, опублікована у вересні 2014
@uk
name
Betting on negative emissions
@en
Betting on negative emissions
@nl
type
label
Betting on negative emissions
@en
Betting on negative emissions
@nl
prefLabel
Betting on negative emissions
@en
Betting on negative emissions
@nl
P2093
P50
P356
P1476
Betting on negative emissions
@en
P2093
Chris D. Jones
Florian Kraxner
Michael R. Raupach
Nebosja Nakicenovic
Robbie M. Andrew
Robert B. Jackson
Sabine Fuss
Yoshiki Yamagata
P2888
P304
P356
10.1038/NCLIMATE2392
P577
2014-09-21T00:00:00Z