Young people's burden: requirement of negative CO2 emissions

Global temperature is a fundamental climate metric highly correlated with sea level, which implies that keeping shorelines near their present location requires keeping global temperature within or close to its preindustrial Holocene range. However, global temperature excluding short-term variability...

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Published in:Earth System Dynamics
Main Authors: Hansen, James, Sato, Makiko, Kharecha, Pushker, Von Schuckmann, Karina, Beerling, David J., Cao, Junji, Marcott, Shaun, Masson-delmotte, Valerie, Prather, Michael J., Rohling, Eelco J., Shakun, Jeremy, Smith, Pete, Lacis, Andrew, Russell, Gary, Ruedy, Reto
Format: Article in Journal/Newspaper
Language:English
Published: 2017
Subjects:
Ice Sheet
Online Access:https://eprints.soton.ac.uk/412850/
https://eprints.soton.ac.uk/412850/1/esd_8_577_2017.pdf
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spelling ftsouthampton:oai:eprints.soton.ac.uk:412850 2023-07-30T04:04:14+02:00 Young people's burden: requirement of negative CO2 emissions Hansen, James Sato, Makiko Kharecha, Pushker Von Schuckmann, Karina Beerling, David J. Cao, Junji Marcott, Shaun Masson-delmotte, Valerie Prather, Michael J. Rohling, Eelco J. Shakun, Jeremy Smith, Pete Lacis, Andrew Russell, Gary Ruedy, Reto 2017-07-18 text https://eprints.soton.ac.uk/412850/ https://eprints.soton.ac.uk/412850/1/esd_8_577_2017.pdf en English eng https://eprints.soton.ac.uk/412850/1/esd_8_577_2017.pdf Hansen, James, Sato, Makiko, Kharecha, Pushker, Von Schuckmann, Karina, Beerling, David J., Cao, Junji, Marcott, Shaun, Masson-delmotte, Valerie, Prather, Michael J., Rohling, Eelco J., Shakun, Jeremy, Smith, Pete, Lacis, Andrew, Russell, Gary and Ruedy, Reto (2017) Young people's burden: requirement of negative CO2 emissions. Earth System Dynamics, 8 (3), 577-616. (doi:10.5194/esd-8-577-2017 <http://dx.doi.org/10.5194/esd-8-577-2017>). cc_by_4 Article PeerReviewed 2017 ftsouthampton https://doi.org/10.5194/esd-8-577-2017 2023-07-09T22:16:50Z Global temperature is a fundamental climate metric highly correlated with sea level, which implies that keeping shorelines near their present location requires keeping global temperature within or close to its preindustrial Holocene range. However, global temperature excluding short-term variability now exceeds +1 °C relative to the 1880–1920 mean and annual 2016 global temperature was almost +1.3 °C. We show that global temperature has risen well out of the Holocene range and Earth is now as warm as it was during the prior (Eemian) interglacial period, when sea level reached 6–9 m higher than today. Further, Earth is out of energy balance with present atmospheric composition, implying that more warming is in the pipeline, and we show that the growth rate of greenhouse gas climate forcing has accelerated markedly in the past decade. The rapidity of ice sheet and sea level response to global temperature is difficult to predict, but is dependent on the magnitude of warming. Targets for limiting global warming thus, at minimum, should aim to avoid leaving global temperature at Eemian or higher levels for centuries. Such targets now require "negative emissions", i.e., extraction of CO2 from the air. If phasedown of fossil fuel emissions begins soon, improved agricultural and forestry practices, including reforestation and steps to improve soil fertility and increase its carbon content, may provide much of the necessary CO2 extraction. In that case, the magnitude and duration of global temperature excursion above the natural range of the current interglacial (Holocene) could be limited and irreversible climate impacts could be minimized. In contrast, continued high fossil fuel emissions today place a burden on young people to undertake massive technological CO2 extraction if they are to limit climate change and its consequences. Proposed methods of extraction such as bioenergy with carbon capture and storage (BECCS) or air capture of CO2 have minimal estimated costs of USD 89–535 trillion this century and also have ... Article in Journal/Newspaper Ice Sheet University of Southampton: e-Prints Soton Earth System Dynamics 8 3 577 616
institution Open Polar
collection University of Southampton: e-Prints Soton
op_collection_id ftsouthampton
language English
description Global temperature is a fundamental climate metric highly correlated with sea level, which implies that keeping shorelines near their present location requires keeping global temperature within or close to its preindustrial Holocene range. However, global temperature excluding short-term variability now exceeds +1 °C relative to the 1880–1920 mean and annual 2016 global temperature was almost +1.3 °C. We show that global temperature has risen well out of the Holocene range and Earth is now as warm as it was during the prior (Eemian) interglacial period, when sea level reached 6–9 m higher than today. Further, Earth is out of energy balance with present atmospheric composition, implying that more warming is in the pipeline, and we show that the growth rate of greenhouse gas climate forcing has accelerated markedly in the past decade. The rapidity of ice sheet and sea level response to global temperature is difficult to predict, but is dependent on the magnitude of warming. Targets for limiting global warming thus, at minimum, should aim to avoid leaving global temperature at Eemian or higher levels for centuries. Such targets now require "negative emissions", i.e., extraction of CO2 from the air. If phasedown of fossil fuel emissions begins soon, improved agricultural and forestry practices, including reforestation and steps to improve soil fertility and increase its carbon content, may provide much of the necessary CO2 extraction. In that case, the magnitude and duration of global temperature excursion above the natural range of the current interglacial (Holocene) could be limited and irreversible climate impacts could be minimized. In contrast, continued high fossil fuel emissions today place a burden on young people to undertake massive technological CO2 extraction if they are to limit climate change and its consequences. Proposed methods of extraction such as bioenergy with carbon capture and storage (BECCS) or air capture of CO2 have minimal estimated costs of USD 89–535 trillion this century and also have ...
format Article in Journal/Newspaper
author Hansen, James
Sato, Makiko
Kharecha, Pushker
Von Schuckmann, Karina
Beerling, David J.
Cao, Junji
Marcott, Shaun
Masson-delmotte, Valerie
Prather, Michael J.
Rohling, Eelco J.
Shakun, Jeremy
Smith, Pete
Lacis, Andrew
Russell, Gary
Ruedy, Reto
spellingShingle Hansen, James
Sato, Makiko
Kharecha, Pushker
Von Schuckmann, Karina
Beerling, David J.
Cao, Junji
Marcott, Shaun
Masson-delmotte, Valerie
Prather, Michael J.
Rohling, Eelco J.
Shakun, Jeremy
Smith, Pete
Lacis, Andrew
Russell, Gary
Ruedy, Reto
Young people's burden: requirement of negative CO2 emissions
author_facet Hansen, James
Sato, Makiko
Kharecha, Pushker
Von Schuckmann, Karina
Beerling, David J.
Cao, Junji
Marcott, Shaun
Masson-delmotte, Valerie
Prather, Michael J.
Rohling, Eelco J.
Shakun, Jeremy
Smith, Pete
Lacis, Andrew
Russell, Gary
Ruedy, Reto
author_sort Hansen, James
title Young people's burden: requirement of negative CO2 emissions
title_short Young people's burden: requirement of negative CO2 emissions
title_full Young people's burden: requirement of negative CO2 emissions
title_fullStr Young people's burden: requirement of negative CO2 emissions
title_full_unstemmed Young people's burden: requirement of negative CO2 emissions
title_sort young people's burden: requirement of negative co2 emissions
publishDate 2017
url https://eprints.soton.ac.uk/412850/
https://eprints.soton.ac.uk/412850/1/esd_8_577_2017.pdf
genre Ice Sheet
genre_facet Ice Sheet
op_relation https://eprints.soton.ac.uk/412850/1/esd_8_577_2017.pdf
Hansen, James, Sato, Makiko, Kharecha, Pushker, Von Schuckmann, Karina, Beerling, David J., Cao, Junji, Marcott, Shaun, Masson-delmotte, Valerie, Prather, Michael J., Rohling, Eelco J., Shakun, Jeremy, Smith, Pete, Lacis, Andrew, Russell, Gary and Ruedy, Reto (2017) Young people's burden: requirement of negative CO2 emissions. Earth System Dynamics, 8 (3), 577-616. (doi:10.5194/esd-8-577-2017 <http://dx.doi.org/10.5194/esd-8-577-2017>).
op_rights cc_by_4
op_doi https://doi.org/10.5194/esd-8-577-2017
container_title Earth System Dynamics
container_volume 8
container_issue 3
container_start_page 577
op_container_end_page 616
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