Direct measurement of biosphere‐atmosphere isotopic CO2 exchange using the eddy covariance technique

Griffis, Timothy J.; Sargent, Steve; Baker, John M.; Lee, X.; Tanner, Bert; Greene, Joel; Swiatek, E.; Billmark, K.

doi:10.1029/2007jd009297

Cited by 73 publications

(68 citation statements)

References 71 publications

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“…We certainly need experiments targeted towards assessing the short-term variability of the isotopic fluxes from different ecosystem compartments and how they contribute to δ 13 C of ecosystem respired CO 2 . The emerging laser spectroscopic techniques which allow direct determination of 13 CO 2 and 12 CO 2 fluxes on the ecosystem level (Griffis et al, 2008) and within individual compartments (Wingate et al, 2010) will provide a powerful tool for such studies in the future.…”

Section: M32mentioning

confidence: 99%

Diel variations in the carbon isotope composition of respired CO2 and associated carbon sources: a review of dynamics and mechanisms

Werner

Geßler

2011

Biogeosciences

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Abstract. Recent advances have improved our methodological approaches and theoretical understanding of postphotosynthetic carbon isotope fractionation processes. Nevertheless we still lack a clear picture of the origin of shortterm variability in δ 13 C of respired CO 2 (δ 13 C res ) and organic carbon fractions on a diel basis. Closing this knowledge gap is essential for the application of stable isotope approaches for partitioning ecosystem respiration, tracing carbon flow through plants and ecosystems and disentangling key physiological processes in carbon metabolism of plants. In this review we examine the short-term dynamics in δ 13 C res and putative substrate pools at the plant, soil and ecosystem scales and discuss mechanisms, which might drive diel δ 13 C res dynamics at each scale. Maximum reported variation in diel δ 13 C res is 4.0, 5.4 and 14.8 ‰ in trunks, roots and leaves of different species and 12.5 and 8.1 ‰ at the soil and ecosystem scale in different biomes. Temporal variation in post-photosynthetic isotope fractionation related to changes in carbon allocation to different metabolic pathways is the most plausible mechanistic explanation for observed diel dynamics in δ 13 C res . In addition, mixing of component fluxes with different temporal dynamics and isotopic compositions add to the δ 13 C res variation on the soil and ecosystem level. Understanding short-term variations in δ 13 C res is particularly important for ecosystem studies, since δ 13 C res contains information on the fate of respiratory substrates, and may, therefore, provide a non-intrusive way to identify changes in carbon allocation patterns.

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Section: M32mentioning

confidence: 99%

Diel variations in the carbon isotope composition of respired CO2 and associated carbon sources: a review of dynamics and mechanisms

Werner

Geßler

2011

Biogeosciences

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“…However, to measure the source/sink signature properly near the land surface, one should interface the isotopic analyser with plant (Barbour et al, 2007;Barthel et al, 2011) and soil chambers (e.g. Wingate et al, 2010a, b) and deploy it in the gradientdiffusion mode either over the vegetation (Griffis et al, 2004) or over the soil surface inside the canopy (Santos et al, 2010), or combine it with a sonic anemometer for direct eddy covariance measurement of isotopic fluxes (Lee et al, 2005;Griffis et al, 2008Griffis et al, , 2010 or landscape scale measurements in high elevation or airborne conditions (e.g. Tuszon et al, 2010).…”

Section: High Instrument Precision At Short Detection Intervalsmentioning

confidence: 99%

Progress and challenges in using stable isotopes to trace plant carbon and water relations across scales

et al. 2012

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Abstract. Stable isotope analysis is a powerful tool for assessing plant carbon and water relations and their impact on biogeochemical processes at different scales. Our processbased understanding of stable isotope signals, as well as technological developments, has progressed significantly, opening new frontiers in ecological and interdisciplinary research. This has promoted the broad utilisation of carbon, oxygen and hydrogen isotope applications to gain insight into plant carbon and water cycling and their interaction with the atmosphere and pedosphere. Here, we highlight specific areas of recent progress and new research challenges in plant carbon and water relations, using selected examples covering scales from the leaf to the regional scale. Further, we discuss strengths and limitations of recent technological Published by Copernicus Publications on behalf of the European Geosciences Union. C. Werner et al.: Progress and challenges in using stable isotopesdevelopments and approaches and highlight new opportunities arising from unprecedented temporal and spatial resolution of stable isotope measurements.

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“…The AW variance is often used to investigate the stability of an instrument gain factor (Werle et al, 1993;Bowling et al, 2003;Griffis et al, 2008). Fig.…”

Section: Other Correctionsmentioning

confidence: 99%

The effects of different calibration and frequency response correction methods on eddy covariance ozone flux measured with a dry chemiluminescence analyzer

Zhu

Zhao

Voss

et al. 2015

Agricultural and Forest Meteorology

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a b s t r a c tOzone (O 3 ) flux (F o ) was measured over a wheat field in Yucheng, China, using the eddy covariance technique. A dry chemiluminescence fast-response O 3 analyzer and a UV-absorption based slow-response O 3 analyzer were used for measuring fast O 3 concentration fluctuations and absolute concentrations, respectively. The main objective of this study was to determine a group of suitable methods for calculating F o based on the performance of the two O 3 analyzers in the field. We evaluated the effects of three calibration methods on F o . These calibration methods include the ratio method (RM, it assumes that the fast-response analyzer's signal-output is directly proportional to absolute ambient O 3 concentration within a 30-min interval), the ratio offset method (ROM, it is based on the ratio method with analyzer's offset modification), and the ratio variation method (RVM, it is based on the ratio method with the fastresponse analyzer's gain factor variation within a 30-min interval). Three frequency response corrections (analytic, revised analytic, and in-situ) for the estimation of F o were also evaluated. Our results show that: (1) Compared to the O 3 flux with the commonly-used method (RM), on average, the fluxes with ROM and RVM were decreased by about 9% and 7%, respectively. (2) Based on the spectral analysis, the fastresponse O 3 analyzer's noise could cause random errors, but did not result in a systematic error in F o . Tubing attenuation in O 3 concentration fluctuations can cause up to 20% loss in F o . (3) Frequency response corrections for F o with the original analytic method, the in-situ method, and the revised analytic method were 34.6%, 23.8% and 25.4% on average, respectively.

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Direct measurement of biosphere‐atmosphere isotopic CO₂ exchange using the eddy covariance technique

Cited by 73 publications

References 71 publications

Diel variations in the carbon isotope composition of respired CO<sub>2</sub> and associated carbon sources: a review of dynamics and mechanisms

Diel variations in the carbon isotope composition of respired CO<sub>2</sub> and associated carbon sources: a review of dynamics and mechanisms

Progress and challenges in using stable isotopes to trace plant carbon and water relations across scales

The effects of different calibration and frequency response correction methods on eddy covariance ozone flux measured with a dry chemiluminescence analyzer

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Direct measurement of biosphere‐atmosphere isotopic CO2 exchange using the eddy covariance technique

Cited by 73 publications

References 71 publications

Diel variations in the carbon isotope composition of respired CO&lt;sub&gt;2&lt;/sub&gt; and associated carbon sources: a review of dynamics and mechanisms

Diel variations in the carbon isotope composition of respired CO&lt;sub&gt;2&lt;/sub&gt; and associated carbon sources: a review of dynamics and mechanisms

Progress and challenges in using stable isotopes to trace plant carbon and water relations across scales

The effects of different calibration and frequency response correction methods on eddy covariance ozone flux measured with a dry chemiluminescence analyzer

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Direct measurement of biosphere‐atmosphere isotopic CO₂ exchange using the eddy covariance technique

Diel variations in the carbon isotope composition of respired CO<sub>2</sub> and associated carbon sources: a review of dynamics and mechanisms

Diel variations in the carbon isotope composition of respired CO<sub>2</sub> and associated carbon sources: a review of dynamics and mechanisms