Ocean Circulation Weakens by 30%, Driving CO₂ Emissions Higher Than Expected, MIT Study Finds

[{"selector":"#anim-988c1041-b904-41b1-b4e2-7c5d137cce69 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(31.242788347720428%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":2000,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-51feaa10-6a2e-4a9a-824a-1488d7b924c1","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-9b4cc3a8-e4ac-4b99-9fd1-adb8711374ab","keyframes":{"opacity":[0,1]},"delay":300,"duration":1300,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-8f10cf9a-98a2-4b42-8090-026b46ae9e7c","keyframes":{"transform":["translate3d(0px, 164.69133%, 0)","translate3d(0px, 0px, 0)"]},"delay":300,"duration":1300,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Oceans' overturning circulations tend to weaken; scientists estimate this might result in slower carbon absorption by the ocean. Photo Source: Google

[{"selector":"#anim-51290061-b720-4cbf-b5be-14bbf43623bf","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-800e60d3-0a1c-4222-87ef-5de74c818351 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(-31.468429524084236%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":2000,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-b89422ce-14aa-44ef-b174-b12ce00d8960","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-e98a07b2-fc63-43c0-bf70-cae614343ab8","keyframes":{"transform":["translate3d(0px, 146.52214%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Massachusetts Institute of Technology research reveals this slowdown might result in higher carbon levels than previously expected. Photo Source: Google

[{"selector":"#anim-8721ea79-7460-4e5b-9eb4-3fbbfd882df4 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(31.254577522972255%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":1200,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-422e6b7b-4382-4e4a-a967-0a017a465237","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-ac44831d-e40c-44ba-b63e-482caf43ade0","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-3532c392-baed-4dfe-867f-782cbcdf04b8","keyframes":{"transform":["translate3d(0px, 151.09127%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] This study is based on 2020 research on ocean nutrients and marine organisms, specifically focusing on iron and its influence on phytoplankton growth . Photo Source: Google

[{"selector":"#anim-ec3f1cf9-358a-4d0b-8e09-4fbe0cecb991","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-b2c324e5-80da-4a3b-91f2-87231ce134a8 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(-28.90624987200394%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":2000,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-a22e2d96-c87f-4ff5-9a18-854918f3c268","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-3f367b34-88cc-4757-9510-b2fc4c14d876","keyframes":{"transform":["translate3d(0px, 142.49802%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Weaker ocean circulation increases carbon emissions due to a self-perpetuating cycle involving ligands , which are byproducts of phytoplankton. Photo Source: Google

[{"selector":"#anim-485e376b-223c-42ce-83a4-a4ad11eb4338 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(31.254577522972255%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":1200,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-2dc9ce8c-d80e-4219-9c29-4325238193be","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-574529c1-913d-4df1-aea5-8344ad04985d","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-86294218-c5bb-4d4e-be77-4814a002f5ce","keyframes":{"transform":["translate3d(0px, 164.29466%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Slower ocean circulation results in less iron reaching the surface, which in turn reduces phytoplankton growth and the production of ligands. Photo Source: Google

[{"selector":"#anim-8bf73869-a566-4f52-a90e-283205466e5a","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-59e3e097-30ae-449b-b9bf-b1dd0f9e8078 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(-31.17218006153477%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":2000,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-c1be0924-6eb1-4a70-ba3b-2323e47f04b0","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-3350e619-d53d-41be-a558-5f6cdad5645c","keyframes":{"transform":["translate3d(0px, 151.05361%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Without ligands, iron remains insoluble and untapped by phytoplankton, decreasing their ability to absorb CO2 . Photo Source: Google

[{"selector":"#anim-55f85452-2026-466e-a7f7-0b7f632f9e7a [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(31.367187386936816%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":1200,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-c1146310-5e7e-46bd-9b01-b276e2930eea","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-34dd1c14-a2bd-4713-a477-17d285e24149","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-49565993-e20a-4545-b50d-11ee3424f927","keyframes":{"transform":["translate3d(0px, 165.41831%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Some climate models predict a 30% slowdown in ocean circulation due to melting ice caps around the Antarctic region. Photo Source: Google

[{"selector":"#anim-0dc45267-7b7a-406e-bc7e-9d982d9802a6","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-776aaa1c-f3f1-41e7-8326-ae61ae629726 [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(-45.595774685926315%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":2000,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-865db684-18b9-4c4d-b382-58d9bd98e64e","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-4608f216-4ccf-464e-aab0-1582004d2227","keyframes":{"transform":["translate3d(0px, 151.07212%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Lauderdale emphasized the need to cut emissions now rather than relying on current circulation patterns. Photo Source: Google

[{"selector":"#anim-630365f4-4fbd-4f1a-92da-3caeea6e11ad [data-leaf-element=\"true\"]","keyframes":{"transform":["translate3d(31.3476561368183%, 0, 0)","translate3d(0%, 0, 0)"]},"delay":0,"duration":1200,"easing":"cubic-bezier(.3,0,.55,1)","fill":"both"}] [{"selector":"#anim-7d6b5ad3-5e6d-4e9c-a89d-643998cfbb65","keyframes":{"opacity":[0,1]},"delay":800,"duration":600,"easing":"cubic-bezier(0.4, 0.4, 0.0, 1)","fill":"both"}] [{"selector":"#anim-c909fd29-cdf9-45dc-9a93-b252864d562e","keyframes":{"opacity":[0,1]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] [{"selector":"#anim-676b26d1-5a37-40de-90a9-5ba42a336a09","keyframes":{"transform":["translate3d(0px, 165.41831%, 0)","translate3d(0px, 0px, 0)"]},"delay":0,"duration":600,"easing":"cubic-bezier(0.2, 0.6, 0.0, 1)","fill":"both"}] Reevaluating existing climate models and strategies is crucial to effectively mitigate climate change at the earliest opportunity. Photo Source: Google

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Ocean Circulation Weakens by 30%, Driving CO₂ Emissions Higher Than Expected, MIT Study Finds

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