Impact of freshwater release in the Southern Ocean on the Atlantic Didier Swingedouw.

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Presentation transcript:

Impact of freshwater release in the Southern Ocean on the Atlantic Didier Swingedouw

Freshwater input in the Southern Ocean (1 Sv over 100 years) using LOVECLIM model Three potential processes can affect NADW and AMOC 1. AABW-NADW seesaw 2. Wind stress increase in SO 3. SSS anomalies propagation to the North Atlantic Southern Ocean hosing experiment Surface temperature and wind Hos1 - CTRL AMOC (meridional overturnng streamfunction) Swingedouw et al. Clim. Dyn. (2009):

AABW NADW 30°S Latitude Pycnocline Depth Quantification of the impact of each process Use the density binning analysis, which quantifies the formation- consumption of water masses to reconcile dynamical and thermodynamical approach (Marshall 1999) NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth Budget North of 32°S in the Atlantic for water denser than 27.6 kg/m 3

AABW NADW 30°S Latitude Pycnocline Depth Process 1: bipolar ocean seesaw AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth +4,5 Sv

AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth -3 Sv Process 2: salinity anomalies advection

AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth AABW NADW 30°S Latitude Pycnocline Depth +1.5 Sv Process 3: southern wind increase

Update from EMBRACE project New freshwater release scenario including iceberg drifts (van den Berk & Drijfhout et al. 2014) Melting both in the northern and southern hemispheres based on observation-based hypotheses 4 european models (here focus on only one) Antarctic Groenland

MOC response in IPSL-CM5A- LR similar to Swingedouw et al. (2009) but here in an AOGCM with more realistic forcing and timing New hosing experiment NADW AABW NADW AABW RCP85 with Antarctic ice sheet melting (year ) RCP85 without Antarctic ice sheet melting Differences between the two Meridional Overtunring circulation

An impact of Southern variability on the AMOC? Observations Climate model

Bistability in CMIP5 climate models? Drijfhout et al. (in rev. in Nature): abrupt events in the Southern Ocean within CMIP5 database bistability charateristics (dip test) bcc-csm1-1-m CNRM-CM5

What do models tell us about polynya variability? Slide from Adele Morisson, with data from de Lavergne et al Bimodal distribution of CMIP5 models – most either convect 0% or 100% of the time. Stratification influenced by eddies, atmospheric fluxes, mixing and overflow parameterisations… Are repeated, cyclic Weddell Polynyas real or a model artefact?

Variability induced by the Southern Ocean? Possible yr variability in AABW production near Mertz (Campagne et al. 2015) due to ice shelf dynamics An impact on NADW (60-80 years periodicity for the AMO…)?

Conclusions AABW production can play a role on NADW extension and formation very rapidly (wave adjustment) Bipolar ocean seesaw imply complex response of the ocean to ice sheet melting, with possible compensation Natural variability in AABW formation can play a large role on the AMOC

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