TY - JOUR
T1 - Stable carbon isotopes in dissolved inorganic carbon
T2 - Extraction and implications for quantifying the contributions from silicate and carbonate weathering in the Krishna River system during peak discharge
AU - Laskar, Amzad H.
AU - Gandhi, Naveen
AU - Thirumalai, Kaustubh
AU - Yadava, Madhusudan G.
AU - Ramesh, Rengaswamy
AU - Mahajan, Ramakant R.
AU - Kumar, Dharmendra
N1 - Funding Information:
We are grateful to ISRO-GBP for funding. K.T. thanks Terry Quinn and UTIG for funding.
PY - 2014/4
Y1 - 2014/4
N2 - We present a comparative study of two offline methods, a newly developed method and an existing one, for the measurement of the stable carbon isotopic composition (δ13C) of dissolved inorganic carbon (DIC; δ13CDIC) in natural waters. The measured δ13CDIC values of different water samples, prepared from laboratory Na2CO3, ground and oceanic waters, and a laboratory carbonate isotope standard, are found to be accurate and reproducible to within 0.5 ‰\ (1σ). The extraction of CO2 from water samples by these methods does not require pre-treatment or sample poisoning and can be applied to a variety of natural waters to address carbon cycling in the hydrosphere. In addition, we present a simple method (based on a two-end-member mixing model) to estimate the silicate-weathering contribution to DIC in a river system by using the concentration of DIC and its δ13C. This approach is tested with data from the Krishna River system as a case study, thereby quantifying the contribution of silicate and carbonate weathering to DIC, particularly during peak discharge.
AB - We present a comparative study of two offline methods, a newly developed method and an existing one, for the measurement of the stable carbon isotopic composition (δ13C) of dissolved inorganic carbon (DIC; δ13CDIC) in natural waters. The measured δ13CDIC values of different water samples, prepared from laboratory Na2CO3, ground and oceanic waters, and a laboratory carbonate isotope standard, are found to be accurate and reproducible to within 0.5 ‰\ (1σ). The extraction of CO2 from water samples by these methods does not require pre-treatment or sample poisoning and can be applied to a variety of natural waters to address carbon cycling in the hydrosphere. In addition, we present a simple method (based on a two-end-member mixing model) to estimate the silicate-weathering contribution to DIC in a river system by using the concentration of DIC and its δ13C. This approach is tested with data from the Krishna River system as a case study, thereby quantifying the contribution of silicate and carbonate weathering to DIC, particularly during peak discharge.
KW - Krishna River
KW - carbon-13
KW - carbonate weathering
KW - dissolved inorganic carbon
KW - isotope measurements
KW - mass spectrometry
KW - methods and equipment
KW - peak discharge
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U2 - 10.1080/10256016.2014.878715
DO - 10.1080/10256016.2014.878715
M3 - Article
C2 - 24450598
AN - SCOPUS:84896078565
SN - 1025-6016
VL - 50
SP - 156
EP - 168
JO - Isotopes in Environmental and Health Studies
JF - Isotopes in Environmental and Health Studies
IS - 2
ER -