Southern Ocean buoyancy forcing of ocean ventilation and glacial atmospheric CO2

被引:0
作者
Andrew J. Watson
Geoffrey K. Vallis
Maxim Nikurashin
机构
[1] College of Life and Environmental Sciences,
[2] University of Exeter,undefined
[3] Laver Building,undefined
[4] North Park Road Exeter EX4 4QE,undefined
[5] UK,undefined
[6] College of Engineering,undefined
[7] Mathematics and Physics,undefined
[8] University of Exeter,undefined
[9] Harrison Building,undefined
[10] North Park Road Exeter EX4 4QF,undefined
[11] UK,undefined
[12] Institute for Marine and Antarctic Studies,undefined
[13] University of Tasmania,undefined
[14] ARC Centre of Excellence for Climate System Science,undefined
来源
Nature Geoscience | 2015年 / 8卷
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中图分类号
学科分类号
摘要
Ocean circulation and dynamics can alter atmospheric CO2 concentrations. Numerical modelling suggests that shifts in surface buoyancy loss and the location of upwelling can sequester CO2 in the Southern Ocean during glacial periods.
引用
收藏
页码:861 / 864
页数:3
相关论文
共 68 条
[21]  
Paillard D(2005)Constructing the residual circulation of the ACC from observations Paleoceanography 20 PA1017-78
[22]  
Roche DM(2014)Closure of the global overturning circulation through the Indian, Pacific and Southern Oceans: Schematics and transports Annu. Rev. Mar. Sci. 6 439-13
[23]  
Stephens BB(2013)Evidence for slow mixing across the pycnocline from an open-ocean tracer-release experiment Science 339 1419-733
[24]  
Keeling RF(2005)On the ocean’s large scale circulation in the limit of no vertical mixing Science 308 74-1350
[25]  
Watson AJ(1990)Simple mechanistic models of middepth meridional overturning Paleoceanography 5 1-2048
[26]  
Naveira Garabato AC(2000)Glacial water mass geometry and the distribution of Nature 407 730-156
[27]  
Ferrari R(2014)C of ΣCO Science 343 1347-907
[28]  
Ito T(1976) in the Western Atlantic Ocean J. Atmos. Sci. 33 2031-1743
[29]  
Follows MJ(2010)Sea ice ecosystems Ocean Model. 32 143-undefined
[30]  
Adkins JF(1973)Two modes of change in Southern Ocean productivity over the past million years Limnol. Oceanogr. 18 897-undefined
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