South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period
A number of key paleoclimate records in the Southern Hemisphere midlatitudes exhibit climate changes synchronous with abrupt climate changes in the North Atlantic. We advance a hypothesis - argued from consideration of model evidence, observational climate diagnostics, and atmospheric dynamics - tha...
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| Format: | Article in Journal/Newspaper |
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eScholarship, University of California
2014
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| Online Access: | https://escholarship.org/uc/item/9w90w9hp |
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ftcdlib:oai:escholarship.org:ark:/13030/qt9w90w9hp 2023-06-18T03:37:53+02:00 South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period Chiang, John CH Lee, Shih-Yu Putnam, Aaron E Wang, Xianfeng 2014-11-01 application/pdf https://escholarship.org/uc/item/9w90w9hp unknown eScholarship, University of California qt9w90w9hp https://escholarship.org/uc/item/9w90w9hp public Climate Action paleoclimate North-South connections Southern Hemisphere westerlies atmospheric teleconnection South Pacific Physical Sciences Earth Sciences Geochemistry & Geophysics article 2014 ftcdlib 2023-06-05T18:03:01Z A number of key paleoclimate records in the Southern Hemisphere midlatitudes exhibit climate changes synchronous with abrupt climate changes in the North Atlantic. We advance a hypothesis - argued from consideration of model evidence, observational climate diagnostics, and atmospheric dynamics - that attributes said climate changes in the Southern Hemisphere to a modulation in the strength of the South Pacific Split Jet, a pronounced zonally asymmetric feature of the wintertime Southern Hemisphere westerlies. North Atlantic cooling is associated with a weaker Split Jet, characterized by weaker South Pacific subtropical and subpolar jets and a strengthened midlatitude jet. It leads to climate impacts over the South Pacific sector that coincides with regions with observed paleoclimate changes timed to the North Atlantic. These circulation changes are envisioned to operate in addition to the climate impacts resulting from the oceanic bipolar seesaw.A proposed global atmospheric teleconnection links North Atlantic cooling to the weakening of the Split Jet. North Atlantic cooling induces a southward shift of the marine Intertropical Convergence Zone and weakening of the Asian monsoon. The resulting Hadley circulation change weakens the wintertime South Pacific subtropical jet, and which in turn leads to a weaker South Pacific Split Jet. A weaker Split Jet leads to a southward shift of the zero wind-stress curl line, implying a shift in the same sense for the South Pacific subtropical front. Over land, it leads to winter warming over New Zealand, winter cooling over subtropical South America, drying over Western Patagonia, and winter warming and wetting of southernmost Patagonia. Our hypothesis also predicts reduced storminess over West Antarctica. Similar changes but of opposite sign occur in the Northern Hemisphere, where a stronger wintertime North Pacific subtropical jet increases precipitation over the Western United States. Article in Journal/Newspaper Antarc* Antarctica North Atlantic West Antarctica University of California: eScholarship Patagonia West Antarctica Pacific New Zealand Curl ENVELOPE(-63.071,-63.071,-70.797,-70.797) |
| institution |
Open Polar |
| collection |
University of California: eScholarship |
| op_collection_id |
ftcdlib |
| language |
unknown |
| topic |
Climate Action paleoclimate North-South connections Southern Hemisphere westerlies atmospheric teleconnection South Pacific Physical Sciences Earth Sciences Geochemistry & Geophysics |
| spellingShingle |
Climate Action paleoclimate North-South connections Southern Hemisphere westerlies atmospheric teleconnection South Pacific Physical Sciences Earth Sciences Geochemistry & Geophysics Chiang, John CH Lee, Shih-Yu Putnam, Aaron E Wang, Xianfeng South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| topic_facet |
Climate Action paleoclimate North-South connections Southern Hemisphere westerlies atmospheric teleconnection South Pacific Physical Sciences Earth Sciences Geochemistry & Geophysics |
| description |
A number of key paleoclimate records in the Southern Hemisphere midlatitudes exhibit climate changes synchronous with abrupt climate changes in the North Atlantic. We advance a hypothesis - argued from consideration of model evidence, observational climate diagnostics, and atmospheric dynamics - that attributes said climate changes in the Southern Hemisphere to a modulation in the strength of the South Pacific Split Jet, a pronounced zonally asymmetric feature of the wintertime Southern Hemisphere westerlies. North Atlantic cooling is associated with a weaker Split Jet, characterized by weaker South Pacific subtropical and subpolar jets and a strengthened midlatitude jet. It leads to climate impacts over the South Pacific sector that coincides with regions with observed paleoclimate changes timed to the North Atlantic. These circulation changes are envisioned to operate in addition to the climate impacts resulting from the oceanic bipolar seesaw.A proposed global atmospheric teleconnection links North Atlantic cooling to the weakening of the Split Jet. North Atlantic cooling induces a southward shift of the marine Intertropical Convergence Zone and weakening of the Asian monsoon. The resulting Hadley circulation change weakens the wintertime South Pacific subtropical jet, and which in turn leads to a weaker South Pacific Split Jet. A weaker Split Jet leads to a southward shift of the zero wind-stress curl line, implying a shift in the same sense for the South Pacific subtropical front. Over land, it leads to winter warming over New Zealand, winter cooling over subtropical South America, drying over Western Patagonia, and winter warming and wetting of southernmost Patagonia. Our hypothesis also predicts reduced storminess over West Antarctica. Similar changes but of opposite sign occur in the Northern Hemisphere, where a stronger wintertime North Pacific subtropical jet increases precipitation over the Western United States. |
| format |
Article in Journal/Newspaper |
| author |
Chiang, John CH Lee, Shih-Yu Putnam, Aaron E Wang, Xianfeng |
| author_facet |
Chiang, John CH Lee, Shih-Yu Putnam, Aaron E Wang, Xianfeng |
| author_sort |
Chiang, John CH |
| title |
South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| title_short |
South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| title_full |
South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| title_fullStr |
South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| title_full_unstemmed |
South Pacific Split Jet, ITCZ shifts, and atmospheric North–South linkages during abrupt climate changes of the last glacial period |
| title_sort |
south pacific split jet, itcz shifts, and atmospheric north–south linkages during abrupt climate changes of the last glacial period |
| publisher |
eScholarship, University of California |
| publishDate |
2014 |
| url |
https://escholarship.org/uc/item/9w90w9hp |
| long_lat |
ENVELOPE(-63.071,-63.071,-70.797,-70.797) |
| geographic |
Patagonia West Antarctica Pacific New Zealand Curl |
| geographic_facet |
Patagonia West Antarctica Pacific New Zealand Curl |
| genre |
Antarc* Antarctica North Atlantic West Antarctica |
| genre_facet |
Antarc* Antarctica North Atlantic West Antarctica |
| op_relation |
qt9w90w9hp https://escholarship.org/uc/item/9w90w9hp |
| op_rights |
public |
| _version_ |
1769010680333074432 |