Shyam Ranjan scite author profile

Shyam Ranjan

3Publications

46Citation Statements Received

84Citation Statements Given

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126

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Jawaharlal Nehru University, University of Bern

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Comparison of continuous in situ CO<sub>2</sub> observations at Jungfraujoch using two different measurement techniques

et al. 2015

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Abstract. Since 2004, atmospheric carbon dioxide (CO 2 ) is being measured at the High Altitude Research Station Jungfraujoch by the division of Climate and Environmental Physics at the University of Bern (KUP) using a nondispersive infrared gas analyzer (NDIR) in combination with a paramagnetic O 2 analyzer. In January 2010, CO 2 measurements based on cavity ring-down spectroscopy (CRDS) as part of the Swiss National Air Pollution Monitoring Network were added by the Swiss Federal Laboratories for Materials Science and Technology (Empa). To ensure a smooth transition -a prerequisite when merging two data sets, e.g., for trend determinations -the two measurement systems run in parallel for several years. Such a long-term intercomparison also allows the identification of potential offsets between the two data sets and the collection of information about the compatibility of the two systems on different time scales.A good agreement of the seasonality, short-term variations and, to a lesser extent mainly due to the short common period, trend calculations is observed. However, the comparison reveals some issues related to the stability of the calibration gases of the KUP system and their assigned CO 2 mole fraction. It is possible to adapt an improved calibration strategy based on standard gas determinations, which leads to better agreement between the two data sets. By excluding periods with technical problems and bad calibration gas cylinders, the average hourly difference (CRDS -NDIR) of the two systems is −0.03 ppm ± 0.25 ppm. Although the difference of the two data sets is in line with the compatibility goal of ±0.1 ppm of the World Meteorological Organization (WMO), the standard deviation is still too high. A significant part of this uncertainty originates from the necessity to switch the KUP system frequently (every 12 min) for 6 min from ambient air to a working gas in order to correct shortterm variations of the O 2 measurement system. Allowing additional time for signal stabilization after switching the sample, an effective data coverage of only one-sixth for the KUP system is achieved while the Empa system has a nearly complete data coverage. Additionally, different internal volumes and flow rates may affect observed differences.

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Tracer-based estimation of temporal variation of water sources: an insight from supra- and subglacial environments

Kumar

Ramanathan

Keesari

et al. 2018

Hydrological Sciences Journal

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Disentangle Kinetic From Equilibrium Fractionation Using Primary (δ17O, δ18O, δD) and Secondary (Δ17O, dex) Stable Isotope Parameters on Samples From the Swiss Precipitation Network

Leuenberger

Ranjan

2021

Front. Earth Sci.

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Since 1971 water isotope measurements are being conducted by the Climate and Environmental Physics Division at the University of Bern on precipitation, river- and groundwater collected at several places within Switzerland. The water samples were stored in glass flasks for later analyses with improved instrumentation. Conventional isotope ratio measurements on precipitated water from all stations of the network are well correlated as expected. However, Δ17O as well as dex is anticorrelated to these isotope ratio. The combination of these parameters allow to investigate dependencies on temperature, turbulence factor, and humidity of these values as well as to look into the importance and relative contributions of kinetic to equilibrium fractionations. We used published temperature dependent fractionation factors in combination with a simple Rayleigh model approach to investigate the importance of the meteorological parameters on the isotope ratios. A direct comparison of measured and modeled isotope ratios for primary (δ17O, δ18O and (δD) as well as secondary isotope parameters (Δ17O and dex) is shown.

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Shyam Ranjan

Comparison of continuous in situ CO<sub>2</sub> observations at Jungfraujoch using two different measurement techniques

Tracer-based estimation of temporal variation of water sources: an insight from supra- and subglacial environments

Disentangle Kinetic From Equilibrium Fractionation Using Primary (δ17O, δ18O, δD) and Secondary (Δ17O, dex) Stable Isotope Parameters on Samples From the Swiss Precipitation Network

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Shyam Ranjan

Comparison of continuous in situ CO&lt;sub&gt;2&lt;/sub&gt; observations at Jungfraujoch using two different measurement techniques

Tracer-based estimation of temporal variation of water sources: an insight from supra- and subglacial environments

Disentangle Kinetic From Equilibrium Fractionation Using Primary (δ17O, δ18O, δD) and Secondary (Δ17O, dex) Stable Isotope Parameters on Samples From the Swiss Precipitation Network

Contact Info

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Comparison of continuous in situ CO<sub>2</sub> observations at Jungfraujoch using two different measurement techniques