International audienceRationaleThe precision obtained in routine isotope analysis of water (δ17O, δ18O, δ2H, 17O‐excess and d‐excess values) by Cavity Ring‐Down Spectroscopy is usually below the instrument specifications provided by the manufacturer. This study aimed at reducing this discrepancy, with particular attention paid to mitigating the memory effect (ME).MethodsWe used a Picarro L2140i analyzer coupled with a high‐precision A0211 vaporizer and an A0325 autosampler. The magnitude and duration of the ME were estimated using 24 series of 50 successive injections of samples with contrasting compositions. Four memory correction methods were compared, and the instrument performance was evaluated over a 17‐month period of routine analysis...
RATIONALE The Doubly Labelled Water (DLW) method is an established way of determining the metabolic ...
Cavity ring-down spectrometers have generally been designed to operate under conditions in which the...
The aim of this study was to analyse the reproducibility of off-axis integrated cavity output spectr...
International audienceRationaleThe precision obtained in routine isotope analysis of water (δ17O, δ1...
Rationale Since their introduction more than a decade ago, isotope ratio infrared spectroscopy (IRI...
This study evaluated between-sample memory in isotopic measurements of ?2H and ?18O in water samples...
This study evaluated between-sample memory in isotopic measurements of δ2H and δ18O in water samples...
International audienceRationale Producing robust high-frequency time series of raw atmospheric water...
Recent advances in laser spectroscopy enable high-frequency in situ measurements of the isotope comp...
A thorough evaluation of measurement uncertainty together with control of short-term and long-term p...
Rationale: The Doubly Labelled Water (DLW) method is an established way of determining the metabolic...
Background: Given the utility of the doubly labeled water (DLW) method for determination of energy e...
RATIONALE The Doubly Labelled Water (DLW) method is an established way of determining the metabolic ...
RATIONALE The Doubly Labelled Water (DLW) method is an established way of determining the metabolic ...
Cavity ring-down spectrometers have generally been designed to operate under conditions in which the...
The aim of this study was to analyse the reproducibility of off-axis integrated cavity output spectr...
International audienceRationaleThe precision obtained in routine isotope analysis of water (δ17O, δ1...
Rationale Since their introduction more than a decade ago, isotope ratio infrared spectroscopy (IRI...
This study evaluated between-sample memory in isotopic measurements of ?2H and ?18O in water samples...
This study evaluated between-sample memory in isotopic measurements of δ2H and δ18O in water samples...
International audienceRationale Producing robust high-frequency time series of raw atmospheric water...
Recent advances in laser spectroscopy enable high-frequency in situ measurements of the isotope comp...
A thorough evaluation of measurement uncertainty together with control of short-term and long-term p...
Rationale: The Doubly Labelled Water (DLW) method is an established way of determining the metabolic...
Background: Given the utility of the doubly labeled water (DLW) method for determination of energy e...
RATIONALE The Doubly Labelled Water (DLW) method is an established way of determining the metabolic ...
RATIONALE The Doubly Labelled Water (DLW) method is an established way of determining the metabolic ...
Cavity ring-down spectrometers have generally been designed to operate under conditions in which the...
The aim of this study was to analyse the reproducibility of off-axis integrated cavity output spectr...