Atlantic: new findings on deep water formation and ocean currents

environmentclimate changemarine researchocean currentsatlantic meridional overturning circulation
The research vessel "R / V Neil Armstrong" at Prins Christian Sund © Kent Sheasley, Woods Hole Oceanographic Institution

Long-term observations contradict previous views The subpolar North Atlantic plays a crucial role in global ocean circulation. By near-surface cooling, warm water is transformed into cold and heavy deep water, which flows equatorially in depth. Based on model data, it was previously assumed that the major part of the deep water is formed in the Labrador Sea. Long-term observations of an international consortium with the participation of the GEOMAR Helmholtz Center for Ocean Research Kiel now show that the major contribution to the meridional overturning circulation takes place in the eastern North Atlantic Ocean currents are mainly caused by wind and differences in the density of seawater. For the currents in the North Atlantic both processes are important. Warm, salt-rich water is transported far to the north via the Gulf Stream and its foothills. The water is cooled, which leads to an increase in the density of the seawater and therefore causes a decrease. The dense deep water then flows again towards the equator. This flow system is also referred to as Atlantic meridional overturning circulation (AMOC). It is of great importance for the climate, especially for the comparatively mild winters in Northern Europe. In certain regions, especially the Labrador Sea, surface water may sink to the deep sea. The supply of fresh water, such as the melting of landmesh as a result of global warming, reduces the density of surface water. A drying up of the deep water formation and thus the meridional overturning circulation would have a direct impact on the climate in Europe. The Atlantic meridional overturning circulation is a complex mechanism with many processes. Direct observations are therefore scarce, and many relationships have so far only been derived from model studies, " explains Dr. med. Johannes Karstensen from GEOMAR, one of the co-authors of a study that has now been published in the international journal Science. In order to verify these theoretical findings from models with observations, the first complete survey of the subpolar overturning circulation of the Atlantic was launched in 2014 with the participation of seven countries under the name "OSNAP" (overturning in the Subpolar North Atlantic Program). The OSNAP observation system is divided into two sections: across the Labrador Sea, from Canada to the southern tip of Greenland, and further more the eastern subpolar North Atlantic, from the southern tip of Greenland to Scotland. A large number of permanent measuring stations (anchorages) form the backbone of the system. At the stations, flow data as well as temperatures and salinity of the water are continuously recorded. In the 21-month time series of overturning circulation from the OSNAP measurements, we see astonishingly high variability. The most surprising result at the moment, however, is that the Labrador Sea, which we have always considered to be the most important deep water formation region, contributes only about 15 percent to the Atlantic meridional overturning circulation. We need to think about how to adapt the concept of deep water formation and circulation. It is important to better identify the processes responsible for the fluctuations in the OSNAP time series, " Dr. Karstensen said. For example, it is possible that the OSNAP measurement period from 2014 to 2016 only detected one specific condition of meridional circulation. A question which can only be determined by longer series of measurements ", explains Dr. med. Karstensen. In the summer of 2018, the OSNAP teams from Europe, the USA, Canada and China were once again travelling with the research vessels in the Subpolar North Atlantic. The data is currently being analyzed and it is expected that the OSNAP time series of the Atlantic Circulation Circulation will shortly be extended for another two years. " This region is one of the most sensitive parameters of our climate system. Here, relatively small and rapid changes can trigger global and long-term effects on the climate. Therefore, a comprehensive understanding of the processes in this region is so important. " explained Karstensen. The data compiled by the international team are incorporated into the reports of the Intergovernmental Panel on Climate Change (IPCC), whose next report will be drawn up in just a few years and will form the basis for recommendations for action on climate protection. Link to the study: https://doi.org/10.1126/science.aau6592.

On board the "R / V Neil Armstrong" will be an oceanographic anchorage with instruments in front of the Greenlandic Coast © Joseph McCabe, Woods Hole Oceanographic Institution
Nick Foukal of the Woods Hole Oceanographic Institution helps deploy a set of instruments that perform physical measurements in the water off the Greenland coast. © Carolina Nobre, Woods Hole Oceanographic Institution
Application of an oceanographic anchorage in the Irmingersee with the German research vessel "MARIA S. MERIAN" in 2016 © Arne Bendinge

Bài viết này được dịch tự động và có thể chứa một số lỗi nhỏ; vui lòng tham khảo bản gốc tiếng Anh nếu có thắc mắc.

Xem thêm

mares
Types of Diving: 9 Advanced Diving Experiences for Seasoned Divers
AI KB

Các loại hình lặn: 9 trải nghiệm lặn nâng cao dành cho người lặn dày dạn kinh nghiệm

Khám phá 9 loại hình lặn nâng cao dành cho thợ lặn có kinh nghiệm, từ lặn sâu và lặn xác tàu đắm đến lặn hang, lặn trôi theo dòng, lặn ban đêm, lặn dưới băng, lặn bằng máy tái tuần hoàn khí (rebreather) và chụp ảnh dưới nước.

1 ngày trước
shutterstock-bell-davey-photography
Scuba Diving in Fiji: 9 Islands You Will Fall in Love With
AI KB

Lặn bình khí ở Fiji: 9 hòn đảo sẽ khiến bạn say đắm

Bạn mơ ước được lặn bình khí ở Fiji? Hãy khám phá chín hòn đảo khó quên, từ những rạn san hô mềm mại ở Taveuni đến điểm lặn với cá mập bò nổi tiếng thế giới ở Beqa.

4 ngày trước
Invasive Species: SSI Specialty for Lionfish Management
AI KB

Loài xâm lấn: Chương trình chuyên biệt của SSI về Quản lý cá sư tử

Tìm hiểu cách Chuyên ngành Invasive Species Management mới của SSI giúp người lặn hiểu rõ về các loài xâm lấn, quản lý cá mao tiên một cách có trách nhiệm và bảo vệ các hệ sinh thái địa phương.

5 ngày trước
mares
Medical Clearance for Scuba Diving: What Divers Need to Know
AI KB

Giấy chứng nhận sức khỏe để lặn bình khí: Những điều người lặn cần biết

Giấy chứng nhận sức khỏe cho lặn bình khí giúp những người lặn mắc bệnh hen suyễn, tiểu đường, huyết áp cao hoặc các bệnh lý sẵn có khác lên kế hoạch cho các chuyến lặn an toàn hơn.

8 ngày trước
mares
How To Plan Stress-Free International Dive Trips
AI KB

Cách lên kế hoạch cho các chuyến lặn quốc tế không căng thẳng

Bạn đang lên kế hoạch cho các chuyến lặn quốc tế? Hãy tìm hiểu cách chuẩn bị, đóng gói hành lý, chọn điểm đến, quản lý hậu cần và tránh những sai lầm thường gặp để có chuyến du lịch lặn biển thoải mái và không căng thẳng.

10 ngày trước