Vodcast: "Testing the ocean bipolar seesaw" Professor Chris Turney
As part of the Sprigg Geobiology Seminar Series, 听from the University of New South Wales presented a seminar on the 26th August, 2016 entitled 鈥淭esting the ocean bipolar seesaw: Using ancient New Zealand kauri (Agathis australis) to investigate the mechanisms of abrupt and extreme climate change鈥
Abstract
Contrasting Greenland and Antarctic temperature trends during the late Pleistocene (60 to 11.5 kyr BP) are thought to be driven by imbalances in the rate of formation of North Atlantic and Southern Ocean deep water and associated changes in the strength听of the Meridional Overturning Circulation (MOC), leading to abrupt regime shifts in the two hemispheres (the so-called 鈥榖ipolar seesaw鈥). Key to this debate is the role of Heinrich events (H-events), massive discharges of ice into the North Atlantic, that have听been implicated in terminating marked millennial scale cooling cycles associated with Dansgaard-Oeschger (D-O) events in the north and warming in the south. Robustly testing this paradigm, however, requires a level of chronological precision difficult to听achieve in terrestrial and marine records. Here we report a series of multi-millennia long New Zealand kauri (Agathis australis) sequences that preserve a record of atmospheric radiocarbon (14C), allowing us to precisely align terrestrial, marine and ice听records during Heinrich 3/Antarctic Isotope Maximum 4 (~30 kyr BP) and the Younger Dryas (YD) stadial (~12.70 to 11.65 kyr cal BP). By precisely aligning Southern and Northern Hemisphere tree-ring 14C records with marine 14C sequences we identify听periods of AMOC collapse which we compare to climate changes over Greenland, Antarctica and tropical Australia. We do not observe a consistent relationship between interhemispheric temperature trends and freshwater hosing in the North Atlantic. Using听an Earth-system model we instead find a role for Antarctic meltwater events propagated globally by atmospheric teleconnections. Our results argue against the bipolar seesaw mechanism as the key driver of climate during this period and instead suggest听Southern Ocean changes may be the driver of abrupt late Pleistocene change.
Abstract
Contrasting Greenland and Antarctic temperature trends during the late Pleistocene (60 to 11.5 kyr BP) are thought to be driven by imbalances in the rate of formation of North Atlantic and Southern Ocean deep water and associated changes in the strength听of the Meridional Overturning Circulation (MOC), leading to abrupt regime shifts in the two hemispheres (the so-called 鈥榖ipolar seesaw鈥). Key to this debate is the role of Heinrich events (H-events), massive discharges of ice into the North Atlantic, that have听been implicated in terminating marked millennial scale cooling cycles associated with Dansgaard-Oeschger (D-O) events in the north and warming in the south. Robustly testing this paradigm, however, requires a level of chronological precision difficult to听achieve in terrestrial and marine records. Here we report a series of multi-millennia long New Zealand kauri (Agathis australis) sequences that preserve a record of atmospheric radiocarbon (14C), allowing us to precisely align terrestrial, marine and ice听records during Heinrich 3/Antarctic Isotope Maximum 4 (~30 kyr BP) and the Younger Dryas (YD) stadial (~12.70 to 11.65 kyr cal BP). By precisely aligning Southern and Northern Hemisphere tree-ring 14C records with marine 14C sequences we identify听periods of AMOC collapse which we compare to climate changes over Greenland, Antarctica and tropical Australia. We do not observe a consistent relationship between interhemispheric temperature trends and freshwater hosing in the North Atlantic. Using听an Earth-system model we instead find a role for Antarctic meltwater events propagated globally by atmospheric teleconnections. Our results argue against the bipolar seesaw mechanism as the key driver of climate during this period and instead suggest听Southern Ocean changes may be the driver of abrupt late Pleistocene change.
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