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A new direction in effective accounting for the atmospheric CO2 budget: Considering the combined action of carbonate dissolution, the global water cycle and photosynthetic uptake of DIC by aquatic org
Zaihua Liu;  Wolfgang Dreybrodt;  Haijing Wang
2010
Source PublicationEarth Science Reviews
Volume99Issue:3Pages:162-172
Abstract

The magnitudes, variations, locations and mechanisms responsible for the global atmospheric CO2 sink are uncertain and under continuing debate. Previous studies have focused mainly on the sinks in the oceans, and soil and vegetation on the continents. Here, we show, based on theoretical calculations and field monitoring evidence, that there is an important but previously underestimated sink for atmospheric CO2 as DICdissolved inorganic carbon that results from the combined action of carbonate dissolution, the global water cycle and the photosynthetic uptake of DIC by aquatic organisms in ocean and land. The sink constitutes up to 0.8242 Pg C/a, amounting to 29.4% of the terrestrial CO2 sink, or 10.4% of the total anthropogenic CO2 emission. 0.244 Pg C/a are transferred to the sea via continental rivers and 0.2278 Pg C/a by meteoric precipitation over the seas. 0.119 Pg C/a is released back to the atmosphere again, and 0.2334 Pg C/a is stored in the continental aquatic ecosystem. Therefore, the net sink is estimated as 0.7052 Pg C/a. This sink may increase with an intensification of the global water cycle as a consequence of global warming, rising anthropogenic emissions of CO2 and carbonate dust in atmosphere, and afforestation, which increases the soil pCO2 and thus the carbonate dissolution. Fertilization with the elements N, P, C, Fe, Zn, and Si increases the organic matter storage/burial by aquatic organisms and thus decreases the CO2 return to the atmosphere. Based on the ensemble mean projection of global warming for the year 2100 by IPCC, it is estimated that the atmospheric CO2 sink will increase by 21%, or about 0.18 Pg C/a. However, the uncertainty in the estimation of this sink needs further exploration.

KeywordAtmospheric Co2 Sink carbonate Dissolution global Water Cycle aquatic Photosynthesis element Fertilization organic Matter Storage/burial
Indexed BySCI
Language英语
Document Type期刊论文
Identifierhttp://ir.gyig.ac.cn/handle/42920512-1/8207
Collection环境地球化学国家重点实验室
Affiliation1.The State Key Laboratory of Environmental Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, 46 Guanshui Road, Guiyang 550002, China
2.Karst Dynamics Laboratory, Institute of Karst Geology, Chinese Academy of Geological Sciences, 50 Qixing Road, Guilin 541004, China
3.Institute of Experimental Physics, University of Bremen, Bibliothekstraße 1, Bremen 28359, Germany
4.School of Geographical Sciences, Southwest University, 2 Tiansheng Road, Chongqing 400715, China
Recommended Citation
GB/T 7714
Zaihua Liu;Wolfgang Dreybrodt;Haijing Wang. A new direction in effective accounting for the atmospheric CO2 budget: Considering the combined action of carbonate dissolution, the global water cycle and photosynthetic uptake of DIC by aquatic org[J]. Earth Science Reviews,2010,99(3):162-172.
APA Zaihua Liu;Wolfgang Dreybrodt;Haijing Wang.(2010).A new direction in effective accounting for the atmospheric CO2 budget: Considering the combined action of carbonate dissolution, the global water cycle and photosynthetic uptake of DIC by aquatic org.Earth Science Reviews,99(3),162-172.
MLA Zaihua Liu;Wolfgang Dreybrodt;Haijing Wang."A new direction in effective accounting for the atmospheric CO2 budget: Considering the combined action of carbonate dissolution, the global water cycle and photosynthetic uptake of DIC by aquatic org".Earth Science Reviews 99.3(2010):162-172.
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