Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere

The relative role of the atmosphere, oceans and cryosphere in contributing towards middle Pliocene warmth (ca 3 Ma BP) is investigated using the HadCM3 coupled ocean^atmosphere general circulation model. The model was initialised with boundary conditions from the USGS PRISM2 data set and a Pliocene...

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Main Authors:	Alan M. Haywood, Paul J. Valdes
Other Authors:	The Pennsylvania State University CiteSeerX Archives
Format:	Text
Language:	English
Published:	2004
Subjects:	Pliocene general circulation model ocean atmosphere forcing Antarctic Greenland Pacific Antarc* Antarctica North Atlantic Deep Water North Atlantic Sea ice
Online Access:	http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.569.1126 http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf

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spelling	ftciteseerx:oai:CiteSeerX.psu:10.1.1.569.1126 2023-05-15T13:56:13+02:00 Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere Alan M. Haywood Paul J. Valdes The Pennsylvania State University CiteSeerX Archives 2004 application/pdf http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.569.1126 http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf en eng http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.569.1126 http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf Metadata may be used without restrictions as long as the oai identifier remains attached to it. http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf Pliocene general circulation model ocean atmosphere forcing text 2004 ftciteseerx 2016-01-08T12:24:01Z The relative role of the atmosphere, oceans and cryosphere in contributing towards middle Pliocene warmth (ca 3 Ma BP) is investigated using the HadCM3 coupled ocean^atmosphere general circulation model. The model was initialised with boundary conditions from the USGS PRISM2 data set and a Pliocene atmospheric CO2 level of 400 ppmv and run for 300 simulated years. The simulation resulted in a global surface temperature warming of 3‡C compared to present-day. In contrast to earlier modelling experiments for the Pliocene, surface temperatures warmed in most areas including the tropics (1^5‡C). Compared with present-day, the model predicts a general pattern of ocean warming (1^5‡C) in both hemispheres to a depth of 2000 m, below which no significant differences are noted. Sea ice coverage is massively reduced (up to 90%). The flow of the Gulf Stream/North Atlantic Drift is up to 100 mm s31 greater in the Pliocene case. Analysis of the model-predicted meridional streamfunction suggests a global pattern of reduced outflow of Antarctic bottom water (AABW; up to 5 Sv), a shallower depth for North Atlantic deep water formation and weaker thermohaline circulation (3 Sv). The decrease in AABW occurs mainly in the Pacific rather than Atlantic Ocean. Model diagnostics for heat transports indicate that neither the oceans nor the atmosphere are transporting significantly more heat in the Pliocene scenario. Rather, these results indicate that the major contributing mechanism to global Pliocene warmth was the reduced extent of high-latitude terrestrial ice sheets (50 % reduction on Greenland, 33 % reduction on Antarctica) and sea ice cover resulting in a strong ice-albedo feedback. These results highlight the need for further studies designed to improve our knowledge regarding Pliocene terrestrial ice configurations. Text Antarc* Antarctic Antarctica Greenland North Atlantic Deep Water North Atlantic Sea ice Unknown Antarctic Greenland Pacific
institution	Open Polar
collection	Unknown
op_collection_id	ftciteseerx
language	English
topic	Pliocene general circulation model ocean atmosphere forcing
spellingShingle	Pliocene general circulation model ocean atmosphere forcing Alan M. Haywood Paul J. Valdes Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
topic_facet	Pliocene general circulation model ocean atmosphere forcing
description	The relative role of the atmosphere, oceans and cryosphere in contributing towards middle Pliocene warmth (ca 3 Ma BP) is investigated using the HadCM3 coupled ocean^atmosphere general circulation model. The model was initialised with boundary conditions from the USGS PRISM2 data set and a Pliocene atmospheric CO2 level of 400 ppmv and run for 300 simulated years. The simulation resulted in a global surface temperature warming of 3‡C compared to present-day. In contrast to earlier modelling experiments for the Pliocene, surface temperatures warmed in most areas including the tropics (1^5‡C). Compared with present-day, the model predicts a general pattern of ocean warming (1^5‡C) in both hemispheres to a depth of 2000 m, below which no significant differences are noted. Sea ice coverage is massively reduced (up to 90%). The flow of the Gulf Stream/North Atlantic Drift is up to 100 mm s31 greater in the Pliocene case. Analysis of the model-predicted meridional streamfunction suggests a global pattern of reduced outflow of Antarctic bottom water (AABW; up to 5 Sv), a shallower depth for North Atlantic deep water formation and weaker thermohaline circulation (3 Sv). The decrease in AABW occurs mainly in the Pacific rather than Atlantic Ocean. Model diagnostics for heat transports indicate that neither the oceans nor the atmosphere are transporting significantly more heat in the Pliocene scenario. Rather, these results indicate that the major contributing mechanism to global Pliocene warmth was the reduced extent of high-latitude terrestrial ice sheets (50 % reduction on Greenland, 33 % reduction on Antarctica) and sea ice cover resulting in a strong ice-albedo feedback. These results highlight the need for further studies designed to improve our knowledge regarding Pliocene terrestrial ice configurations.
author2	The Pennsylvania State University CiteSeerX Archives
format	Text
author	Alan M. Haywood Paul J. Valdes
author_facet	Alan M. Haywood Paul J. Valdes
author_sort	Alan M. Haywood
title	Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
title_short	Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
title_full	Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
title_fullStr	Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
title_full_unstemmed	Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere
title_sort	modelling pliocene warmth: contribution of atmosphere, oceans and cryosphere
publishDate	2004
url	http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.569.1126 http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf
geographic	Antarctic Greenland Pacific
geographic_facet	Antarctic Greenland Pacific
genre	Antarc* Antarctic Antarctica Greenland North Atlantic Deep Water North Atlantic Sea ice
genre_facet	Antarc* Antarctic Antarctica Greenland North Atlantic Deep Water North Atlantic Sea ice
op_source	http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf
op_relation	http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.569.1126 http://earth.geology.yale.edu/~avf5/teaching/Files_pdf/Haywood2004.pdf
op_rights	Metadata may be used without restrictions as long as the oai identifier remains attached to it.
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Modelling Pliocene warmth: Contribution of atmosphere, oceans and cryosphere

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