Is there a “continental shelf pump” for the absorption of atmospheric CO2?

IF 2.3 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES

Tellus Series B-Chemical and Physical Meteorology Pub Date : 1999-07-01 DOI:10.3402/TELLUSB.V51I3.16468

S. Tsunogai, S. Watanabe, Tetsuro Sato

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引用次数: 433

Abstract

Based on the results obtained in the East China Sea, we propose a new term, Continental Shelf Pump , as a mechanism for the absorption of atmospheric CO 2 . We investigated the carbonate system of the East China Sea along a single observation line traversing its central part on 5 cruises in various seasons. The directly observed fugacity of CO 2 dissolved in the surface water decreased with decreasing salinity and temperature as well as nutrient content. The relation has been expressed as a simple equation of these 3 parameters. Putting the observed data on the parameters in the various parts of the East China Sea in various months into this equation, we have obtained 55 ± 5 ppm as an annual mean fugacity deficit of CO 2 in the surface water of the East China Sea, which nearly equals the directly measured mean fugacity along the observation line. The net absorption flux estimated from the fugacity deficit has agreed with the amount of carbonate transported out of the East China Sea calculated for the distributions of total dissolved carbonate and alkalinity. The distributions of density and total dissolved carbonate reveal the cause of this large deficiency, described as follows. The shallower shelf zone is more cooled than the open sea when heat is lost from the surface. This cooling produces denser water, which together with photosynthetic activity, accelerates the absorption of CO 2 in the shelf zone. The absorbed CO 2 is transformed to organic carbon and regenerated especially at the shallow bottom. Isopycnal mixing (advection and diffusion) transports the denser coastal water, especially the bottom water enriched in dissolved and particulate carbon, into the subsurface layer of the open oceans. The transport continues in the layer below the pycnocline even in the warm season and maintains the low fugacity of CO 2 in the surface water of the shelf zone. This is the continental shelf pump. The pump would account for a net oceanic uptake of CO 2 of 1 GtC/ yr, if the world continental shelf zone would absorb the atmospheric CO 2 at the rate observed in the East China Sea. DOI: 10.1034/j.1600-0889.1999.t01-2-00010.x

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有没有一个“大陆架泵”来吸收大气中的二氧化碳?

在此基础上，提出了大陆架泵作为大气co2吸收机制的新概念。我们在不同季节的5次航行中，沿着一条穿越东海中部的观测线对东海碳酸盐岩体系进行了考察。直接观测到的co2溶解在地表水中的逸度随盐度、温度和养分含量的降低而降低。这一关系已被表示为这三个参数的一个简单方程。将东海各海域各月份各参数的观测资料代入方程，得到东海表层水体co2年平均逸度亏缺为55±5 ppm，与观测线上实测的co2年平均逸度亏缺接近。由逸出度亏缺估算的净吸收通量与根据总溶解碳酸盐和碱度分布计算的东海输出碳酸盐量基本一致。密度和总溶解碳酸盐的分布揭示了这种巨大缺陷的原因，如下所述。当热量从表面散失时，较浅的陆架区比公海更冷。这种冷却产生了密度更大的水，再加上光合作用，加速了陆架区对二氧化碳的吸收。被吸收的co2转化为有机碳并在浅层底部再生。等压线混合(平流和扩散)将密度较大的沿海水，特别是富含溶解碳和颗粒碳的底层水输送到开阔海洋的次表层。即使在暖季，这种输送也继续在背斜下方的层中进行，并维持了陆架区表层水中co2的低逸度。这是大陆架泵。如果世界大陆架区以在东海观测到的速度吸收大气中的二氧化碳，那么这个泵将占到海洋对二氧化碳的净吸收1千兆吨当量/年。DOI: 10.1034 / j.1600 0889.1999.t01 - 2 - 00010. x

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来源期刊

Tellus Series B-Chemical and Physical Meteorology 地学-气象与大气科学

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期刊介绍： Tellus B: Chemical and Physical Meteorology along with its sister journal Tellus A: Dynamic Meteorology and Oceanography, are the international, peer-reviewed journals of the International Meteorological Institute in Stockholm, an independent non-for-profit body integrated into the Department of Meteorology at the Faculty of Sciences of Stockholm University, Sweden. Aiming to promote the exchange of knowledge about meteorology from across a range of scientific sub-disciplines, the two journals serve an international community of researchers, policy makers, managers, media and the general public.