Carbon dioxide emissions from the tropical Dowleiswaram Reservoir on the Godavari River, Southeast of India
DRS at CSIR-National Institute of Oceanography
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Title |
Carbon dioxide emissions from the tropical Dowleiswaram Reservoir on the Godavari River, Southeast of India
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Creator |
Prasad, M.H.K.
Sarma, V.V.S.S. Sarma, V.V. Krishna, M.S. Reddy, N.P.C. |
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Subject |
reservoirs (water)
carbon dioxide organic matter dissolved gases |
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Description |
Time-series observations were conducted in the Dowleiswaram dam reservoir that was constructed on the largest monsoonal river in India to understand the source of inorganic carbon, and fluxes to the atmosphere. The reservoir stores water during dry period of six months and water increases during the period when Indian subcontinent receives significant rainfall. Significant modification of organic matter was noticed during storage period indicated by decrease in pH from 7.5 to 6.4 and oxygen saturation from approx. 95 percent to 65 percent. The relationship of dissolved inorganic carbon (DIC) with oxygen saturation, dissolved organic carbon (DOC) and isotopic ratios of DIC suggests that heterotrophic activities are the major source of inorganic carbon to the reservoir. In addition to this, ground water exchange also contributes significantly to the inorganic carbon pool in the reservoir. Nutrients released due to decomposition of organic matter in the reservoir supports both autotrophic and heterotrophic activities. The pCO sub(2) levels in the reservoir varied between 3944 and 16,042 mu atm and higher pCO sub(2) levels were noticed during peak discharge period. The annual mean CO sub(2) fluxes from the reservoir amounted to 112 plus or minus 126 m mol C m sup(-2)·d sup(-1) and approx. 6 times higher fluxes were noticed during discharge period compared to dry period and such high fluxes during discharge period were contributed by both high pCO sub(2) levels and winds. It was further noticed that dam reservoir is a strong source of pCO sub(2) to the estuary wherein less than 1000 mu atm of pCO sub(2) during dry period and more than 15,000 μatm during discharge period were observed. Our study also indicates that Dowleiswaram dam reservoir is a strong source of CO sub(2) to atmosphere, even though it is much smaller than Brazilian (tropical) reservoir but higher than European reservoirs.
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Date |
2013-06-17T12:45:30Z
2013-06-17T12:45:30Z 2013 |
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Type |
Journal Article
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Identifier |
Journal of Water Resource and Protection, vol.5(5); 2013; 534-545
http://drs.nio.org/drs/handle/2264/4314 |
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Language |
en
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Rights |
SCIRP Open access journal. Copyright © 2013 SciRes
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Publisher |
Scientific Research Publishing
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