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Influence of net ecosystem metabolism in transferring riverine organic carbon to atmospheric CO2 in a tropical coastal lagoon (Chilka Lake, India)

DRS at CSIR-National Institute of Oceanography

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Title Influence of net ecosystem metabolism in transferring riverine organic carbon to atmospheric CO2 in a tropical coastal lagoon (Chilka Lake, India)
 
Creator Gupta, G.V.M.
Sarma, V.V.S.S.
Robin, R.S.
Raman, A.V.
JaiKumar, M.
Rakesh, M.
Subramanian, B.R.
 
Subject Rivers discharge
Dissolved carbon
Net ecosystem production
CO2 flux
 
Description Studies on biogeochemical cycling of carbon in the Chilka Lake, Asia’s largest brackish lagoon on the east coast of India, revealed, for the first time, strong seasonal and spatial variability associated with salinity distribution. The lake was studied twice during May 2005 (premonsoon) and August 2005 (monsoon). It exchanges waters with the sea (Bay of Bengal) and several rivers open into the lake. The lake showed contrasting levels of dissolved inorganic carbon (DIC) and organic carbon (DOC) in different seasons;DIC was tending to 22% and DOC was tending to 36% in premonsoon than in monsoon due to seasonal variations in their supply from rivers and in situ production/mineralisation. The DIC/DOC ratios in the lake during monsoon were influenced by physical mixing of end member water masses and by intense respiration of organic carbon. A strong relationship between excess DIC and apparent oxygen utilisation showed significant control of biological processes over CO sub(2) production in the lake. Surface partial pressure of CO sub(2) (pCO sub(2)), calculated using pH–DIC couple, exhibited discernable gradients during monsoon through northern (1033-6522 mu atm), central (391-2573 mu atm) and southern (102–718 mu atm) lake. The distribution pattern of pCO sub(2) in the lake seems to be governed by pCO sub(2) levels in rivers and their discharge rates, which were several folds higher during monsoon than premonsoon. The net CO sub(2) efflux, based on gas transfer velocity parameterisation, from entire lake during monsoon (141 mmolC m sup(-2) d sup(-1) equivalent to 2.64 GgC d sup(-1) at basin scale) was higher by 44 times than during premonsoon (9.8 mmolC m sup(-2) d sup(-1) approx. equal to 0.06 GgC d sup(-1). 15% of CO2 efflux from lake in monsoon was contributed by its supply from rivers and the rest was contributed by in situ heterotrophic activity. Based on oxygen and total carbon mass balance, net ecosystem production (NEP) of lake (- 308 mmolC m sup(-2) d sup(-1) approx. equal to - 3.77 GgC d sup(-1)) was found to be almost in consistent with the total riverine organic carbon trapped in the lake (229 mmolC m sup(-2) d sup(-1) approx. equal to 2.80 GgC d sup(-1)) suggesting that the strong heterotrophy in the lake is mainly responsible for elevated fluxes of CO2 during monsoon. Further, the pelagic net community production represented 92% of NEP and benthic compartment plays only a minor role. This suggests that Chilka lake is an important region in biological transformation of organic carbon to inorganic carbon and its export to the atmosphere.
 
Date 2008-04-28T11:20:43Z
2008-04-28T11:20:43Z
2008
 
Type Journal Article
 
Identifier Biogeochemistry, vol.87(3); 265-285p.
http://drs.nio.org/drs/handle/2264/1055
 
Language en
 
Rights An edited version was published by Springer. This paper is for R & D pupose and Copyright [2008] Springer.
 
Publisher Springer