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What Causes the AMOC to Weaken in CMIP5?
by
Schmitt, Raymond W.
, Levang, Samuel J.
in
Anomalies
/ Atlantic Meridional Overturning Circulation (AMOC)
/ Buoyancy
/ Buoyancy flux
/ Circulation
/ Density gradients
/ Evaporation
/ Freshwater
/ Influence
/ Inland water environment
/ Salinity
/ Salinity effects
/ Temperature
/ Thermal circulation
/ Thermal winds
/ Velocity
/ Water circulation
2020
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What Causes the AMOC to Weaken in CMIP5?
by
Schmitt, Raymond W.
, Levang, Samuel J.
in
Anomalies
/ Atlantic Meridional Overturning Circulation (AMOC)
/ Buoyancy
/ Buoyancy flux
/ Circulation
/ Density gradients
/ Evaporation
/ Freshwater
/ Influence
/ Inland water environment
/ Salinity
/ Salinity effects
/ Temperature
/ Thermal circulation
/ Thermal winds
/ Velocity
/ Water circulation
2020
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While trying to remove the title from your shelf something went wrong :( Kindly try again later!
Do you wish to request the book?
What Causes the AMOC to Weaken in CMIP5?
by
Schmitt, Raymond W.
, Levang, Samuel J.
in
Anomalies
/ Atlantic Meridional Overturning Circulation (AMOC)
/ Buoyancy
/ Buoyancy flux
/ Circulation
/ Density gradients
/ Evaporation
/ Freshwater
/ Influence
/ Inland water environment
/ Salinity
/ Salinity effects
/ Temperature
/ Thermal circulation
/ Thermal winds
/ Velocity
/ Water circulation
2020
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Journal Article
What Causes the AMOC to Weaken in CMIP5?
2020
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Overview
In a transient warming scenario, the North Atlantic is influenced by a complex pattern of surface buoyancy flux changes that ultimately weaken the Atlantic meridional overturning circulation (AMOC). Here we study the AMOC response in the CMIP5 experiment, using the near-geostrophic balance of the AMOC on interannual time scales to identify the role of temperature and salinity changes in altering the circulation. The thermal wind relationship is used to quantify changes in the zonal density gradients that control the strength of the flow. At 40°N, where the overturning cell is at its strongest, weakening of the AMOC is largely driven by warming between 1000- and 2000-m depth along the western margin. Despite significant subpolar surface freshening, salinity changes are small in the deep branch of the circulation. This is likely due to the influence of anomalously salty water in the subpolar intermediate layers, which is carried northward from the subtropics in the upper limb of the AMOC. In the upper 1000m at 40°N, salty anomalies due to increased evaporation largely cancel the buoyancy increase due to warming. Therefore, in CMIP5, temperature dynamics are responsible for AMOC weakening, while freshwater forcing instead acts to strengthen the circulation in the net. These results indicate that past modeling studies of AMOC weakening, which rely on freshwater hosing in the subpolar gyre, may not be directly applicable to a more complex warming scenario.
Publisher
American Meteorological Society
Subject
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