Your search keyword '"Griffith, David W. T."' showing total 600 results

1. Respiration driven CO2 pulses dominate Australia's flux variability

Author

Metz, Eva-Marie, Vardag, Sanam N., Basu, Sourish, Jung, Martin, Ahrens, Bernhard, El-Madany, Tarek, Sitch, Stephen, Arora, Vivek K., Briggs, Peter R., Friedlingstein, Pierre, Goll, Daniel S., Jain, Atul K., Kato, Etsushi, Lombardozzi, Danica, Nabel, Julia E. M. S., Poulter, Benjamin, Séférian, Roland, Tian, Hanqin, Wiltshire, Andrew, Yuan, Wenping, Yue, Xu, Zaehle, Sönke, Deutscher, Nicholas M., Griffith, David W. T., and Butz, André

Subjects

Physics - Atmospheric and Oceanic Physics

Abstract

The Australian continent contributes substantially to the year-to-year variability of the global terrestrial carbon dioxide (CO2) sink. However, the scarcity of in-situ observations in remote areas prevents deciphering the processes that force the CO2 flux variability. Here, examining atmospheric CO2 measurements from satellites in the period 2009-2018, we find recurrent end-of-dry-season CO2 pulses over the Australian continent. These pulses largely control the year-to-year variability of Australia's CO2 balance, due to 2-3 times higher seasonal variations compared to previous top-down inversions and bottom-up estimates. The CO2 pulses occur shortly after the onset of rainfall and are driven by enhanced soil respiration preceding photosynthetic uptake in Australia's semi-arid regions. The suggested continental-scale relevance of soil rewetting processes has large implications for our understanding and modelling of global climate-carbon cycle feedbacks., Comment: 28 pages (including supplementary materials), 3 main figures, 7 supplementary figures; v2 changes: Last name of first author changed

Published

2022

2. Bushfire smoke plume composition and toxicological assessment from the 2019–2020 Australian Black Summer

Author

Simmons, Jack B., Paton-Walsh, Clare, Mouat, Asher P., Kaiser, Jennifer, Humphries, Ruhi S., Keywood, Melita, Griffith, David W. T., Sutresna, Adhitya, Naylor, Travis, and Ramirez-Gamboa, Jhonathan

Published

2022

3. Implementation and application of an improved phase spectrum determination scheme for Fourier Transform Spectrometry.

Author

Hase, Frank, Castracane, Paolo, Dehn, Angelika, García, Omaira Elena, Griffith, David W. T., Heizmann, Lukas, Jones, Nicholas B., Karppinen, Tomi, Kivi, Rigel, Mazière, Martine de, Notholt, Justus, and Sha, Mahesh Kumar

Subjects

NUMERICAL functions, FOURIER transforms, LEAST squares, SPECTROMETRY, INTERPOLATION

Abstract

Correct determination of the phase spectrum is a highly relevant task in Fourier Transform Spectrometry for concluding which spectral distribution connects with the measured interferogram. We present implementation of an improved scheme for phase determination in the operational Collaborative Carbon Column Observing Network (COCCON) processor. We introduce a robust unwrapping scheme for retrieving a connected phase spectrum at intermediate spectral resolution, which uses all spectral positions carrying enough signal to allow a significant determination of the phase. In the second step, we perform a least squares fit of model parameters of a suited analytical phase spectrum model through all reliable phase values constructed in the first step. The model fit exploits the fact that we expect the phase to be spectrally smooth. Still, it can be refined to reflect specific characteristics inherent to the optical and electronic layout of the interferometer. The proposed approach avoids the problems of the classical phase reconstruction method, which enforce a spectrally smooth phase by directly limiting spectral resolution when calculating the complex phase. Thereby, the phase is created from a very low number of interferogram points around the centerburst of the interferogram, which results in a suboptimal noise propagation from the interferogram into the spectral domain. Moreover, the interpolation of the phase spectrum across spectral subsections with reduced spectral signal is not well behaved and results depend strongly on the numerical apodization function used for creating the low-resolution phase. [ABSTRACT FROM AUTHOR]

Published

2024

4. Local and regional enhancements of CH4, CO, and CO2 inferred from TCCON column measurements.

Author

Mottungan, Kavitha, Roychoudhury, Chayan, Brocchi, Vanessa, Gaubert, Benjamin, Tang, Wenfu, Mirrezaei, Mohammad Amin, McKinnon, John, Guo, Yafang, Griffith, David W. T., Feist, Dietrich G., Morino, Isamu, Sha, Mahesh K., Dubey, Manvendra K., De Mazière, Martine, Deutscher, Nicholas M., Wennberg, Paul O., Sussmann, Ralf, Kivi, Rigel, Goo, Tae-Young, and Velazco, Voltaire A.

Subjects

AIR masses, CARBON dioxide, CARBON monoxide, COMBUSTION, BIOMASS energy, TRACE gases, EMISSION inventories

Abstract

In this study, we demonstrate the utility of available correlative measurements of carbon species to identify regional and local air mass characteristics as well as their associated source types. In particular, we combine different regression techniques and enhancement ratio algorithms with carbon monoxide (CO), carbon dioxide (CO 2), and methane (CH 4) total column abundance from 11 sites of the Total Carbon Column Observing Network (TCCON) to infer relative contributions of regional and local sources to each of these sites. The enhancement ratios provide a viable alternative to univariate measures of relationships between the trace gases that are insufficient in capturing source-type and transport signatures. Regional enhancements are estimated from the difference between bivariate regressions across a specific time window of observed total abundance of these species (BERr for bulk enhancement regression ratio) and inferred anomalies (AERr for anomaly enhancement regression ratio) associated with a site-specific background. Since BERr and AERr represent the bulk and local species enhancement ratio, respectively, its difference simply represents the site-specific regional component of these ratios. We can then compare these enhancements for CO 2 and CH 4 with CO to differentiate between combustion and non-combustion air masses. Our results show that while the regional and local influences in enhancements vary across sites, dominant characteristics are found to be consistent with previous studies over these sites and with bottom-up anthropogenic and fire emission inventories. The site in Pasadena shows a dominant local influence (> 60 %) across all species enhancement ratios, which appear to come from a mixture of biospheric and combustion activities. In contrast, Anmyeondo shows more regionally influenced (> 60 %) air masses associated with high-temperature and/or biofuel combustion activities. Ascension Island appears to only show a large regional influence (> 80 %) on CO / CO 2 and CO / CH 4 , which is indicative of transported and combustion-related CO from the nearby African region, consistent with a sharp rise in column CO (3.51 ± 0.43 % ppb yr -1) at this site. These methods have important applications to source analysis using spaceborne column retrievals of these species. [ABSTRACT FROM AUTHOR]

Published

2024

5. Fiducial Reference Measurement for Greenhouse Gases (FRM4GHG).

Author

Sha, Mahesh Kumar, De Mazière, Martine, Notholt, Justus, Blumenstock, Thomas, Bogaert, Pieter, Cardoen, Pepijn, Chen, Huilin, Desmet, Filip, García, Omaira, Griffith, David W. T., Hase, Frank, Heikkinen, Pauli, Herkommer, Benedikt, Hermans, Christian, Jones, Nicholas, Kivi, Rigel, Kumps, Nicolas, Langerock, Bavo, Macleod, Neil A., and Makkor, Jamal

Subjects

ATMOSPHERIC composition, CARBON cycle, GREENHOUSE gases, METEOROLOGICAL stations, WEATHER, TRACE gases

Abstract

The Total Carbon Column Observing Network (TCCON) and the Infrared Working Group of the Network for the Detection of Atmospheric Composition Change (NDACC-IRWG) are two ground-based networks that provide the retrieved concentrations of up to 30 atmospheric trace gases, using solar absorption spectrometry. Both networks provide reference measurements for the validation of satellites and models. TCCON concentrates on long-lived greenhouse gases (GHGs) for carbon cycle studies and validation. The number of sites is limited, and the geographical coverage is uneven, covering mainly Europe and the USA. A better distribution of stations is desired to improve the representativeness of the data for various atmospheric conditions and surface conditions and to cover a large latitudinal distribution. The two successive Fiducial Reference Measurements for Greenhouse Gases European Space Agency projects (FRM4GHG and FRM4GHG2) aim at the assessment of several low-cost portable instruments for precise measurements of GHGs to complement the existing ground-based sites. Several types of low spectral resolution Fourier transform infrared (FTIR) spectrometers manufactured by Bruker, namely an EM27/SUN, a Vertex70, a fiber-coupled IRCube, and a Laser Heterodyne spectro-Radiometer (LHR) developed by UK Rutherford Appleton Laboratory are the participating instruments to achieve the Fiducial Reference Measurements (FRMs) status. Intensive side-by-side measurements were performed using all four instruments next to the Bruker IFS 125HR high spectral resolution FTIR, performing measurements in the NIR (TCCON configuration) and MIR (NDACC configuration) spectral range. The remote sensing measurements were complemented by AirCore launches, which provided in situ vertical profiles of target gases traceable to the World Meteorological Organization (WMO) reference scale. The results of the intercomparisons are shown and discussed. Except for the EM27/SUN, all other instruments, including the reference TCCON spectrometer, needed modifications during the campaign period. The EM27/SUN and the Vertex70 provided stable and precise measurements of the target gases during the campaign with quantified small biases. As part of the FRM4GHG project, one EM27/SUN is now used as a travel standard for the verification of column-integrated GHG measurements. The extension of the Vertex70 to the MIR provides the opportunity to retrieve additional concentrations of N2O, CH4, HCHO, and OCS. These MIR data products are comparable to the retrieval results from the high-resolution IFS 125HR spectrometer as operated by the NDACC. Our studies show the potential for such types of spectrometers to be used as a travel standard for the MIR species. An enclosure system with a compact solar tracker and meteorological station has been developed to house the low spectral resolution portable FTIR systems for performing solar absorption measurements. This helps the spectrometers to be mobile and enables autonomous operation, which will help to complement the TCCON and NDACC networks by extending the observational capabilities at new sites for the observation of GHGs and additional air quality gases. The development of the retrieval software allows comparable processing of the Vertex70 type of spectra as the EM27/SUN ones, therefore bringing them under the umbrella of the COllaborative Carbon Column Observing Network (COCCON). A self-assessment following the CEOS-FRM Maturity Matrix shows that the COCCON is able to provide GHG data products of FRM quality and can be used for either short-term campaigns or long-term measurements to complement the high-resolution FTIR networks. [ABSTRACT FROM AUTHOR]

Published

2024

6. NH 3 and greenhouse gas emissions during co-composting of lignite and poultry wastes and the following amendment of co-composted products in soil

Author

Cao, Yun, primary, Bai, Mei, additional, Han, Bing, additional, Butterly, Clayton, additional, Hu, Hangwei, additional, He, Jizheng, additional, Griffith, David W. T., additional, and Chen, Deli, additional

Published

2024

7. The Total Carbon Column Observing Network's GGG2020 data version.

Author

Laughner, Joshua L., Toon, Geoffrey C., Mendonca, Joseph, Petri, Christof, Roche, Sébastien, Wunch, Debra, Blavier, Jean-Francois, Griffith, David W. T., Heikkinen, Pauli, Keeling, Ralph F., Kiel, Matthäus, Kivi, Rigel, Roehl, Coleen M., Stephens, Britton B., Baier, Bianca C., Chen, Huilin, Choi, Yonghoon, Deutscher, Nicholas M., DiGangi, Joshua P., and Gross, Jochen

Subjects

CARBON cycle, DATA libraries, NEAR infrared spectroscopy, AIR masses, MOLE fraction, GREENHOUSE gas analysis

Abstract

The Total Carbon Column Observing Network (TCCON) measures column-average mole fractions of several greenhouse gases (GHGs), beginning in 2004, from over 30 current or past measurement sites around the world using solar absorption spectroscopy in the near-infrared (near-IR) region. TCCON GHG data have been used extensively for multiple purposes, including in studies of the carbon cycle and anthropogenic emissions, as well as to validate and improve observations from space-based sensors. Here, we describe an update to the retrieval algorithm used to process the TCCON near-IR solar spectra and to generate the associated data products. This version, called GGG2020, was initially released in April 2022. It includes updates and improvements to all steps of the retrieval, including but not limited to the conversion of the original interferograms into spectra, the spectroscopic information used in the column retrieval, post hoc air mass dependence correction, and scaling to align with the calibration scales of in situ GHG measurements. All TCCON data are available through https://tccondata.org/ (last access: 22 April 2024) and are hosted on CaltechDATA (https://data.caltech.edu/ , last access: 22 April 2024). Each TCCON site has a unique DOI for its data record. An archive of all the sites' data is also available with the DOI 10.14291/TCCON.GGG2020. The hosted files are updated approximately monthly, and TCCON sites are required to deliver data to the archive no later than 1 year after acquisition. Full details of data locations are provided in the "Code and data availability" section. [ABSTRACT FROM AUTHOR]

Published

2024

8. An open-path observatory for greenhouse gases based on near-infrared Fourier transform spectroscopy

Author

Schmitt, Tobias D., primary, Kuhn, Jonas, additional, Kleinschek, Ralph, additional, Löw, Benedikt A., additional, Schmitt, Stefan, additional, Cranton, William, additional, Schmidt, Martina, additional, Vardag, Sanam N., additional, Hase, Frank, additional, Griffith, David W. T., additional, and Butz, André, additional

Published

2023

9. The Total Carbon Column Observing Network's GGG2020 Data Version

Author

Laughner, Joshua L., primary, Toon, Geoffrey C., additional, Mendonca, Joseph, additional, Petri, Christof, additional, Roche, Sébastien, additional, Wunch, Debra, additional, Blavier, Jean-Francois, additional, Griffith, David W. T., additional, Heikkinen, Pauli, additional, Keeling, Ralph F., additional, Kiel, Matthäus, additional, Kivi, Rigel, additional, Roehl, Coleen M., additional, Stephens, Britton B., additional, Baier, Bianca C., additional, Chen, Huilin, additional, Choi, Yonghoon, additional, Deutscher, Nicholas M., additional, DiGangi, Joshua P., additional, Gross, Jochen, additional, Herkommer, Benedikt, additional, Jeseck, Pascal, additional, Laemmel, Thomas, additional, Lan, Xin, additional, McGee, Erin, additional, McKain, Kathryn, additional, Miller, John, additional, Morino, Isamu, additional, Notholt, Justus, additional, Ohyama, Hirofumi, additional, Pollard, David F., additional, Rettinger, Markus, additional, Riris, Haris, additional, Rousogenous, Constantina, additional, Sha, Mahesh Kumar, additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sussmann, Ralf, additional, Té, Yao, additional, Velazco, Voltaire A., additional, Wofsy, Steven C., additional, Zhou, Minqiang, additional, and Wennberg, Paul O., additional

Published

2023

10. An open-path observatory for greenhouse gases based on near-infrared Fourier transform spectroscopy.

Author

Schmitt, Tobias D., Kuhn, Jonas, Kleinschek, Ralph, Löw, Benedikt A., Schmitt, Stefan, Cranton, William, Schmidt, Martina, Vardag, Sanam N., Hase, Frank, Griffith, David W. T., and Butz, André

Subjects

GREENHOUSE gases, OBSERVATORIES, FOURIER transform spectrometers, CARBON dioxide, CARBON emissions

Abstract

Monitoring the atmospheric concentrations of the greenhouse gases (GHG) carbon dioxide (CO2) and methane (CH4) is a key ingredient for fostering our understanding of the mechanisms behind the sources and sinks of these gases and for verifying and quantitatively attributing their anthropogenic emissions. Here, we present the instrumental setup and performance evaluation of an open-path GHG observatory in the city of Heidelberg, Germany. The observatory measures path-averaged concentrations of CO2 and CH4 along a 1.55 km path in the urban boundary layer above the city. We combine these open-path data with local in situ measurements to evaluate the representativeness of these observation types on the kilometer scale. This representativeness is necessary to accurately quantify emissions, since atmospheric models tasked with this job typically operate on kilometer-scale horizontal grids. For the operational period between 8 February and 11 July 2023, we find a precision of 2.7 ppm (0.58 %) and 18 ppb (0.89 %) for the dry-air mole fractions of CO2 (xCO2) and CH4 (xCH4) in 5 min measurements, respectively. After bias correction, the open-path measurements show excellent agreement with the local in situ data under atmospheric background conditions. Both datasets show clear signals of traffic CO2 emissions in the diurnal xCO2 cycle. However, there are particular situations, such as under southeasterly wind conditions, in which the in situ and open-path data reveal distinct differences up to 20 ppm in xCO2 , most likely related to their different sensitivity to local emission and transport patterns. Our setup is based on a Bruker IFS 125HR Fourier transform spectrometer, which offers a spacious and modular design providing ample opportunities for future refinements of the technique with respect to finer spectral resolution and wider spectral coverage to provide information on gases such as carbon monoxide and nitrogen dioxide. [ABSTRACT FROM AUTHOR]

Published

2023

11. Soil respiration–driven CO 2 pulses dominate Australia’s flux variability

Author

Metz, Eva-Marie, primary, Vardag, Sanam N., additional, Basu, Sourish, additional, Jung, Martin, additional, Ahrens, Bernhard, additional, El-Madany, Tarek, additional, Sitch, Stephen, additional, Arora, Vivek K., additional, Briggs, Peter R., additional, Friedlingstein, Pierre, additional, Goll, Daniel S., additional, Jain, Atul K., additional, Kato, Etsushi, additional, Lombardozzi, Danica, additional, Nabel, Julia E. M. S., additional, Poulter, Benjamin, additional, Séférian, Roland, additional, Tian, Hanqin, additional, Wiltshire, Andrew, additional, Yuan, Wenping, additional, Yue, Xu, additional, Zaehle, Sönke, additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, and Butz, André, additional

Published

2023

12. National CO2 budgets (2015–2020) inferred from atmospheric CO2 observations in support of the global stocktake

Author

Byrne, Brendan, primary, Baker, David F., additional, Basu, Sourish, additional, Bertolacci, Michael, additional, Bowman, Kevin W., additional, Carroll, Dustin, additional, Chatterjee, Abhishek, additional, Chevallier, Frédéric, additional, Ciais, Philippe, additional, Cressie, Noel, additional, Crisp, David, additional, Crowell, Sean, additional, Deng, Feng, additional, Deng, Zhu, additional, Deutscher, Nicholas M., additional, Dubey, Manvendra K., additional, Feng, Sha, additional, García, Omaira E., additional, Griffith, David W. T., additional, Herkommer, Benedikt, additional, Hu, Lei, additional, Jacobson, Andrew R., additional, Janardanan, Rajesh, additional, Jeong, Sujong, additional, Johnson, Matthew S., additional, Jones, Dylan B. A., additional, Kivi, Rigel, additional, Liu, Junjie, additional, Liu, Zhiqiang, additional, Maksyutov, Shamil, additional, Miller, John B., additional, Miller, Scot M., additional, Morino, Isamu, additional, Notholt, Justus, additional, Oda, Tomohiro, additional, O'Dell, Christopher W., additional, Oh, Young-Suk, additional, Ohyama, Hirofumi, additional, Patra, Prabir K., additional, Peiro, Hélène, additional, Petri, Christof, additional, Philip, Sajeev, additional, Pollard, David F., additional, Poulter, Benjamin, additional, Remaud, Marine, additional, Schuh, Andrew, additional, Sha, Mahesh K., additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sweeney, Colm, additional, Té, Yao, additional, Tian, Hanqin, additional, Velazco, Voltaire A., additional, Vrekoussis, Mihalis, additional, Warneke, Thorsten, additional, Worden, John R., additional, Wunch, Debra, additional, Yao, Yuanzhi, additional, Yun, Jeongmin, additional, Zammit-Mangion, Andrew, additional, and Zeng, Ning, additional

Published

2023

13. Retrieval of greenhouse gases from GOSAT and GOSAT-2 using the FOCAL algorithm

Author

Noël, Stefan, Reuter, Maximilian, Buchwitz, Michael, Borchardt, Jakob, Hilker, Michael, Schneising, Oliver, Bovensmann, Heinrich, Burrows, John P., Di Noia, Antonio, Parker, Robert J., Suto, Hiroshi, Yoshida, Yukio, Buschmann, Matthias, Deutscher, Nicholas M., Feist, Dietrich G., Griffith, David W. T., Hase, Frank, Kivi, Rigel, Liu, Cheng, Morino, Isamu, Notholt, Justus, Oh, Young-Suk, Ohyama, Hirofumi, Petri, Christof, Pollard, David F., Rettinger, Markus, Roehl, Coleen M., Rousogenous, Constantina, Sha, Mahesh K., Shiomi, Kei, Strong, Kimberly, Sussmann, Ralf, Té, Yao, Velazco, Voltaire A., Vrekoussis, Mihalis, and Warneke, Thorsten

Subjects

remote sensing, GOSAT-2, FOCAL, Earth sciences, Atmospheric Science, CH4, Satellite, TCCON, ddc:550, CO2, retrieval, GOSAT

Abstract

We show new results from an updated version of the Fast atmOspheric traCe gAs retrievaL (FOCAL) retrieval method applied to measurements of the Greenhouse gases Observing SATellite (GOSAT) and its successor GOSAT-2. FOCAL was originally developed for estimating the total column carbon dioxide mixing ratio (XCO2) from spectral measurements made by the Orbiting Carbon Observatory-2 (OCO-2). However, depending on the available spectral windows, FOCAL also successfully retrieves total column amounts for other atmospheric species and their uncertainties within one single retrieval. The main focus of the current paper is on methane (XCH4; full-physics and proxy product), water vapour (XH2O) and the relative ratio of semi-heavy water (HDO) to water vapour (δD). Due to the extended spectral range of GOSAT-2, it is also possible to derive information on carbon monoxide (XCO) and nitrous oxide (XN2O) for which we also show first results. We also present an update on XCO2 from both instruments. For XCO2, the new FOCAL retrieval (v3.0) significantly increases the number of valid data compared with the previous FOCAL retrieval version (v1) by 50 % for GOSAT and about a factor of 2 for GOSAT-2 due to relaxed pre-screening and improved post-processing. All v3.0 FOCAL data products show reasonable spatial distribution and temporal variations. Comparisons with the Total Carbon Column Observing Network (TCCON) result in station-to-station biases which are generally in line with the reported TCCON uncertainties. With this updated version of the GOSAT-2 FOCAL data, we provide a first total column average XN2O product. Global XN2O maps show a gradient from the tropics to higher latitudes on the order of 15 ppb, which can be explained by variations in tropopause height. The new GOSAT-2 XN2O product compares well with TCCON. Its station-to-station variability is lower than 2 ppb, which is about the magnitude of the typical N2O variations close to the surface. However, both GOSAT-2 and TCCON measurements show that the seasonal variations in the total column average XN2O are on the order of 8 ppb peak-to-peak, which can be easily resolved by the GOSAT-2 FOCAL data. Noting that only few XN2O measurements from satellites exist so far, the GOSAT-2 FOCAL product will be a valuable contribution in this context.

Published

2023

14. Measurement of Long-Term CH 4 Emissions and Emission Factors from Beef Feedlots in Australia.

Author

Bai, Mei, Coates, Trevor, Hill, Julian, Flesch, Thomas K., Griffith, David W. T., Van der Saag, Matthew, Rinehart, Des, and Chen, Deli

Subjects

FEEDLOTS, GREENHOUSE gases, BEEF cattle, ACCOUNTING methods, NATIONAL income accounting, NATIONAL account systems, BEEF

Abstract

One of the major challenges for the Australian feedlot and meat sectors is to have accurate and robust long-term greenhouse gas (GHG) emissions data. Long-term measurements of methane (CH4) emissions (2015–2017) were made at two Australian beef feedlots having different climates, cattle types, and management practices. Emissions were measured using the inverse-dispersion model (IDM) micrometeorological technique, using CH4 concentrations measured at the feedlots with a closed-path Fourier transform infrared spectroscopic technique (CP-FTIR). The emissions data were used to evaluate methods used by the Department of Climate Change, Energy, the Environment and Water to estimate CH4 emissions from feedlots in Australian national inventory calculations. Expressed as a CH4 yield (emissions per unit dry matter intake, DMI), the two feedlots had emissions of 13.1 and 18.9 g CH4 kg−1 DMI. The lower-emitting feedlot had emissions that were 30% lower than the national inventory calculations based on feed intakes, while the second feedlot had emissions that were similar to the inventory calculations. The accurate quantification of emissions from feedlots, as demonstrated as part of this study, is important for validating the national accounting methods and therefore the sector's GHG emissions profile. [ABSTRACT FROM AUTHOR]

Published

2023

15. Long open-path measurements of CO2 and CH4 with an 125HR FTS in an urban environment.

Author

Schmitt, Tobias, primary, Kuhn, Jonas, additional, Pilz, Lukas, additional, Maiwald, Robert, additional, May, Maximilian, additional, Kleinschek, Ralph, additional, Edinger, Paul, additional, Schmitt, Stefan, additional, Hase, Frank, additional, Griffith, David W. T., additional, and Butz, André, additional

Published

2023

16. Quality Evaluation of the Column-Averaged Dry Air Mole Fractions of Carbon Dioxide and Methane Observed by GOSAT and GOSAT-2

Author

Yoshida, Yukio, primary, Someya, Yu, additional, Ohyama, Hirofumi, additional, Morino, Isamu, additional, Matsunaga, Tsuneo, additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, Hase, Frank, additional, Iraci, Laura T., additional, Kivi, Rigel, additional, Notholt, Justus, additional, Pollard, David F., additional, Té, Yao, additional, Velazco, Voltaire A., additional, and Wunch, Debra, additional

Published

2023

17. An 11-year record of XCO2 estimates derived from GOSAT measurements using the NASA ACOS version 9 retrieval algorithm

Author

TAYLOR, Thomas E., ODELL, Christopher W., CRISP, David, LINDQVIST, Hannakaisa, WENNBERG, Paul O., CHATTERJEE, Abhishek, GUNSON, Michael, ELDERING, Annmarie, FISHER, Brendan, KIEL, Matthaus, NELSON, Robert R., MERRELLI, Aronne, OSTERMAN, Greg, CHEVALLIER, Frederic, PALMER, Paul I., FENG, Liang, DEUTSCHER, Nicholas M., DUBEY, Manvendra K., FEIST, Dietrich G., GARCIA, Omaira E., GRIFFITH, David W. T., HASE, Frank, IRACI, Laura T., KIVI, Rigel, LIU, Cheng, MAZIERE, Martine De, NOTHOLT, Justus, OH, Young-Suk, POLLARD, David F., RETTINGER, Markus, SCHNEIDER, Matthias, ROEHL, Coleen M., SHA, Mahesh Kumar, KUZE, Akihiko, MORINO, Isamu, OHYAMA, Hirofumi, and SHIOMI, Kei

Abstract

著者人数: 44名, 形態: カラー図版あり, Number of authors: 44, Physical characteristics: Original contains color illustrations, Accepted: 2021-11-25, 資料番号: PA2210055000

Published

2022

18. National CO2 budgets (2015–2020) inferred from atmospheric CO2 observations in support of the global stocktake

Author

Byrne, Brendan, Baker, David F., Basu, Sourish, Bertolacci, Michael, Bowman, Kevin W., Carroll, Dustin, Chatterjee, Abhishek, Chevallier, Frédéric, Ciais, Philippe, Cressie, Noel, Crisp, David, Crowell, Sean, Deng, Feng, Deng, Zhu, Deutscher, Nicholas Michael, Dubey, Manvendra K., Feng, Sha, García Rodríguez, Omaira Elena, Griffith, David W. T., Herkommer, Benedikt, Hu, Lei, Jacobson, Andrew R., Janardanan, Rajesh, Jeong, Sujong, Johnson, Matthew S., Jones, Dylan B. A., Kivi, Rigel, Liu, Junjie, Liu, Zhiqiang, Maksyutov, Shamil, Miller, John B., Morino, Isamu, Notholt, Justus, Oda, Tomohiro, O'Dell, Christopher, Oh, Young-Suk, Ohyama, Hirofumi, Patra, Prabir K., Peiro, Hélène, Petri, Christof, Philip, Sajeev, Pollard, David F., Poulter, Benjamin, Remaud, Marine, Schuh, Andrew, Sha, Mahesh Kumar, Shiomi, Kei, Strong, Kimberly, Sweeney, Colm, Te, Yao, Tian, Hanqin, Velazco, Voltaire A., Vrekoussis, Mihalis, Warneke, Thorsten, Worden, John, Wunch, Debra, Yao, Yuamzhi, Yun, Jeongmin, Zammit Mangion, Andrew, and Zeng, Ning

Subjects

Temperature increase, Carbon dioxide emission, Climate change

Abstract

Accurate accounting of emissions and removals of CO2 is critical for the planning and verification of emission reduction targets in support of the Paris Agreement. Here, we present a pilot dataset of country-specific net carbon exchange (NCE; fossil plus terrestrial ecosystem fluxes) and terrestrial carbon stock changes aimed at informing countries’ carbon budgets. These estimates are based on “top-down” NCE outputs from the v10 Orbiting Carbon Observatory (OCO-2) modeling intercomparison project (MIP), wherein an ensemble of inverse modeling groups conducted standardized experiments assimilating OCO-2 column-averaged dry-air mole fraction (XCO2 ) retrievals (ACOS v10), in situ CO2 measurements or combinations of these data. The v10 OCO-2 MIP NCE estimates are combined with “bottom-up” estimates of fossil fuel emissions and lateral carbon fluxes to estimate changes in terrestrial carbon stocks, which are impacted by anthropogenic and natural drivers. These flux and stock change estimates are reported annually (2015–2020) as both a global 1◦ × 1 ◦ gridded dataset and a country-level dataset and are available for download from the Committee on Earth Observation Satellites’ (CEOS) website: https://doi.org/10.48588/npf6-sw92 (Byrne et al., 2022). Across the v10 OCO-2 MIP experiments, we obtain increases in the ensemble median terrestrial carbon stocks of 3.29–4.58 PgCO2 yr−1 (0.90–1.25 PgC yr−1 ). This is a result of broad increases in terrestrial carbon stocks across the northern extratropics, while the tropics generally have stock losses but with considerable regional variability and differences between v10 OCO-2 MIP experiments. We discuss the state of the science for tracking emissions and removals using top-down methods, including current limitations and future developments towards top-down monitoring and verification systems. This research has been supported by the European Commission, Horizon 2020 Framework Programme (CoCO2 (grant no. 958927 856612/EMME-CARE)) and Copernicus Atmosphere Monitoring Service (grant no. CAMS73), the Australian Research Council (grant nos. DP190100180, DE180100203, DP160100598, LE0668470, DP140101552, DP110103118, DP0879468 and FT180100327), the Environmental Restoration and Conservation Agency (grant no. JPMEERF21S20800), the Korea Meteorological Administration (grant no. KMA2018-00320), the National Aeronautics and Space Administration (grant nos. 20-OCOST20-0004, 80NSSC18K0908, 80NSSC18K0976, 80NSSC20K0006, 80NSSC21K1068, 80NSSC21K1073, 80NSSC21K1077, 80NSSC21K1080, 80HQTR21T0069, NAG512247, NNG05GD07G, NNH17ZDA001N-OCO2 and NNX15AG93G), and the National Oceanic and Atmospheric Administration (grant no. NA18OAR4310266).

Published

2023

19. Validation of methane and carbon monoxide from Sentinel-5 Precursor using TCCON and NDACC-IRWG stations

Author

SHA, Mahesh Kumar, LANGEROCK, Bavo, BLAVIER, Jean-François L., BLUMENSTOCK, Thomas, BORSDORFF, Tobias, BUSCHMANN, Matthias, DEHN, Angelika, DEMAZIERE, Martine, DEUTSCHER, Nicholas M., FEIST, Dietrich G., GARCIA, Omaira E., GRIFFITH, David W. T., GRUTTER, Michel, HANNIGAN, James W., HASE, Frank, HEIKKINEN, Pauli, HERMANS, Christian, IRACI, Laura T., JESECK, Pascal, JONES, Nicholas, KIVI, Rigel, KUMPS, Nicolas, LANDGRAF, Jochen, LORENTE, Alba, MAHIEU, Emmanuel, MAKAROVA, Maria V., MELLQVIST, Johan, METZGER, Jean-Marc, NOTHOLT, Justus, ORTEGA, Ivan, PALM, Mathias, PETRI, Christof, POLLARD, David F., RETTINGER, Markus, ROBINSON, John, ROCHE, Sebastien, ROEHL, Coleen M., ROHLING, Amelie N., ROUSOGENOUS, Constantina, SCHNEIDER, Matthias, MORINO, Isamu, NAGAHAMA, Tomoo, OYAMA, Hirofumi, SHIOMI, Kei, Laboratoire d'Etude du Rayonnement et de la Matière en Astrophysique (LERMA (UMR_8112)), Institut national des sciences de l'Univers (INSU - CNRS)-Observatoire de Paris, and Université Paris sciences et lettres (PSL)-Université Paris sciences et lettres (PSL)-Sorbonne Université (SU)-Centre National de la Recherche Scientifique (CNRS)-CY Cergy Paris Université (CY)

Subjects

Atmospheric Science, 010504 meteorology & atmospheric sciences, Sentinel 5P, TCCON, Environmental engineering, 010502 geochemistry & geophysics, Atmospheric sciences, 01 natural sciences, Methane, Atmosphere, Atmospheric composition, Troposphere, chemistry.chemical_compound, Earthwork. Foundations, Validation, ddc:550, NDACC, Total Carbon Column Observing Network, 0105 earth and related environmental sciences, [PHYS]Physics [physics], CH4, [SDU.ASTR]Sciences of the Universe [physics]/Astrophysics [astro-ph], TA715-787, Network data, TA170-171, On board, CO, Earth sciences, chemistry, 13. Climate action, Environmental science, [PHYS.ASTR]Physics [physics]/Astrophysics [astro-ph], Carbon monoxide

Abstract

著者人数: 60名, 形態: カラー図版あり, Number of authors: 60, Physical characteristics: Original contains color illustrations, Accepted: 2021-08-18, 資料番号: PA2210074000

Published

2021

20. Update on the GOSAT TANSO–FTS SWIR Level 2 retrieval algorithm

Author

Someya, Yu, primary, Yoshida, Yukio, additional, Ohyama, Hirofumi, additional, Nomura, Shohei, additional, Kamei, Akihide, additional, Morino, Isamu, additional, Mukai, Hitoshi, additional, Matsunaga, Tsuneo, additional, Laughner, Joshua L., additional, Velazco, Voltaire A., additional, Herkommer, Benedikt, additional, Té, Yao, additional, Sha, Mahesh Kumar, additional, Kivi, Rigel, additional, Zhou, Minqiang, additional, Oh, Young Suk, additional, Deutscher, Nicholas M., additional, and Griffith, David W. T., additional

Published

2022

21. Supplementary material to "Update on the GOSAT TANSO–FTS SWIR Level 2 retrieval algorithm"

Author

Someya, Yu, primary, Yoshida, Yukio, additional, Ohyama, Hirofumi, additional, Nomura, Shohei, additional, Kamei, Akihide, additional, Morino, Isamu, additional, Mukai, Hitoshi, additional, Matsunaga, Tsuneo, additional, Laughner, Joshua L., additional, Velazco, Voltaire A., additional, Herkommer, Benedikt, additional, Té, Yao, additional, Sha, Mahesh Kumar, additional, Kivi, Rigel, additional, Zhou, Minqiang, additional, Oh, Young Suk, additional, Deutscher, Nicholas M., additional, and Griffith, David W. T., additional

Published

2022

22. The Adaptable 4A Inversion (5AI): description and first XCO2 retrievals from Orbiting Carbon Observatory-2 (OCO-2) observations

Author

DOGNIAUX, Matthieu, CREVOISIER, Cyril, ARMANTE, Raymond, CAPELLE, Virginie, DELAHAYE, Thibault, CASSE, Vincent, DE, MAZIERE Martine, DEUTSCHER, Nicholas M., FEIST, Dietrich G., GARCIA, Omaira E., GRIFFITH, David W. T., HASE, Frank, IRACI, Laura T., KIVI, Rigel, NOTHOLT, Justus, POLLARD, David F., ROEHIColeen, M., MORINO, Isamu, and SHIOMI, Kei

Abstract

著者人数: 23名, 形態: カラー図版あり, Number of authors: 23, Physical characteristics: Original contains color illustrations, Accepted: 2021-04-18, 資料番号: PA2210073000

Published

2021

23. The Total Carbon Column Observing Network’s GGG2020 Data Version.

Author

Laughner, Joshua L., Toon, Geoffrey C., Mendonca, Joseph, Petri, Christof, Roche, Sébastien, Wunch, Debra, Blavier, Jean-Francois, Griffith, David W. T., Heikkinen, Pauli, Keeling, Ralph F., Kiel, Matthäus, Kivi, Rigel, Roehl, Coleen M., Stephens, Britton B., Baier, Bianca C., Huilin Chen, Yonghoon Choi, Deutscher, Nicholas M., DiGangi, Joshua P., and Gross, Jochen

Subjects

INFRARED spectroscopy, CARBON cycle, DATA libraries, MOLE fraction, GREENHOUSE gases, SOLAR spectra, GREENHOUSE gas analysis

Abstract

The Total Carbon Column Observing Network (TCCON) measures column-average mole fractions of several greenhouse gases (GHGs) beginning in 2004 from over 30 current or past measurement sites around the world, using solar absorption spectroscopy in the near infrared region. TCCON GHG data have been used extensively for multiple purposes, including in studies of the carbon cycle and anthropogenic emissions as well as to validate and improve observations made from space based sensors. Here, we describe an update to the retrieval algorithm used to process the TCCON near IR solar spectra and the associated data product. This version, called GGG2020, was initially released in April 2022. It includes updates and improvements to all steps of the retrieval, including but not limited to: converting the original interferograms into spectra, the spectroscopic information used in the column retrieval, post hoc airmass dependence correction, and scaling to align with the calibration scales of in situ GHG measurements. All TCCON data are available through tccondata.org and hosted on CaltechDATA (data.caltech.edu). Each TCCON site has a unique DOI for its data record. An archive of all sites’ data is also available with the DOI 10.14291/TCCON.GGG2020 (Total Carbon Column Observing Network (TCCON) Team, 2022). The hosted files are updated approximately monthly, and TCCON sites are required to deliver data to the archive no later than one year after acquisition. Full details of data locations are provided in the data availability section. [ABSTRACT FROM AUTHOR]

Published

2023

24. XCO2 retrieval for GOSAT and GOSAT-2 based on the FOCAL algorithm

Author

NOEL, Stefan, REUTER, Maximilian, BUCHWITZ, Michael, BORCHARDT, Jakob, HILKER, Michael, BOVENSMANN, Heinrich, BURROWS, John P., DI, NOIA Antonio, BUSCHMANN, Matthias, DEUTSCHER, Nicholas M., FEIST, Dietrich G., GRIFFITH, David W. T., HASE, Frank, KIVI, Rigel, NOTHOLT, Justus, PETRI, Christof, PODOLSKE, James R., POLLARD, David F., SHA, Mahesh Kumar, SUTO, Hiroshi, YOSHIDA, Yukio, MORINO, Isamu, OYAMA, Hirofumi, and SHIOMI, Kei

Abstract

著者人数: 28名, 形態: カラー図版あり, Number of authors: 28, Physical characteristics: Original contains color illustrations, Accepted: 2021-04-09, 資料番号: PA2210072000

Published

2021

25. Measurement report: Observations of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign

Author

Mouat, Asher P., primary, Paton-Walsh, Clare, additional, Simmons, Jack B., additional, Ramirez-Gamboa, Jhonathan, additional, Griffith, David W. T., additional, and Kaiser, Jennifer, additional

Published

2022

26. Synergetic use of IASI profile and TROPOMI total-column level 2 methane retrieval products

Author

Schneider, Matthias, primary, Ertl, Benjamin, additional, Tu, Qiansi, additional, Diekmann, Christopher J., additional, Khosrawi, Farahnaz, additional, Röhling, Amelie N., additional, Hase, Frank, additional, Dubravica, Darko, additional, García, Omaira E., additional, Sepúlveda, Eliezer, additional, Borsdorff, Tobias, additional, Landgraf, Jochen, additional, Lorente, Alba, additional, Butz, André, additional, Chen, Huilin, additional, Kivi, Rigel, additional, Laemmel, Thomas, additional, Ramonet, Michel, additional, Crevoisier, Cyril, additional, Pernin, Jérome, additional, Steinbacher, Martin, additional, Meinhardt, Frank, additional, Strong, Kimberly, additional, Wunch, Debra, additional, Warneke, Thorsten, additional, Roehl, Coleen, additional, Wennberg, Paul O., additional, Morino, Isamu, additional, Iraci, Laura T., additional, Shiomi, Kei, additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, Velazco, Voltaire A., additional, and Pollard, David F., additional

Published

2022

27. Supplementary material to "National CO2 budgets (2015–2020) inferred from atmospheric CO2 observations in support of the Global Stocktake"

Author

Byrne, Brendan, primary, Baker, David F., additional, Basu, Sourish, additional, Bertolacci, Michael, additional, Bowman, Kevin W., additional, Carroll, Dustin, additional, Chatterjee, Abhishek, additional, Chevallier, Frédéric, additional, Ciais, Philippe, additional, Cressie, Noel, additional, Crisp, David, additional, Crowell, Sean, additional, Deng, Feng, additional, Deng, Zhu, additional, Deutscher, Nicholas M., additional, Dubey, Manvendra, additional, Feng, Sha, additional, García, Omaira, additional, Griffith, David W. T., additional, Herkommer, Benedikt, additional, Hu, Lei, additional, Jacobson, Andrew R., additional, Janardanan, Rajesh, additional, Jeong, Sujong, additional, Johnson, Matthew S., additional, Jones, Dylan B. A., additional, Kivi, Rigel, additional, Liu, Junjie, additional, Liu, Zhiqiang, additional, Maksyutov, Shamil, additional, Miller, John B., additional, Miller, Scot M., additional, Morino, Isamu, additional, Notholt, Justus, additional, Oda, Tomohiro, additional, O’Dell, Christopher W., additional, Oh, Young-Suk, additional, Ohyama, Hirofumi, additional, Patra, Prabir K., additional, Peiro, Hélène, additional, Petri, Christof, additional, Philip, Sajeev, additional, Pollard, David F., additional, Poulter, Benjamin, additional, Remaud, Marine, additional, Schuh, Andrew, additional, Sha, Mahesh K., additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sweeney, Colm, additional, Té, Yao, additional, Tian, Hanqin, additional, Velazco, Voltaire A., additional, Vrekoussis, Mihalis, additional, Warneke, Thorsten, additional, Worden, John R., additional, Wunch, Debra, additional, Yao, Yuanzhi, additional, Yun, Jeongmin, additional, Zammit-Mangion, Andrew, additional, and Zeng, Ning, additional

Published

2022

28. National CO2 budgets (2015–2020) inferred from atmospheric CO2 observations in support of the Global Stocktake

Author

Byrne, Brendan, primary, Baker, David F., additional, Basu, Sourish, additional, Bertolacci, Michael, additional, Bowman, Kevin W., additional, Carroll, Dustin, additional, Chatterjee, Abhishek, additional, Chevallier, Frédéric, additional, Ciais, Philippe, additional, Cressie, Noel, additional, Crisp, David, additional, Crowell, Sean, additional, Deng, Feng, additional, Deng, Zhu, additional, Deutscher, Nicholas M., additional, Dubey, Manvendra, additional, Feng, Sha, additional, García, Omaira, additional, Griffith, David W. T., additional, Herkommer, Benedikt, additional, Hu, Lei, additional, Jacobson, Andrew R., additional, Janardanan, Rajesh, additional, Jeong, Sujong, additional, Johnson, Matthew S., additional, Jones, Dylan B. A., additional, Kivi, Rigel, additional, Liu, Junjie, additional, Liu, Zhiqiang, additional, Maksyutov, Shamil, additional, Miller, John B., additional, Miller, Scot M., additional, Morino, Isamu, additional, Notholt, Justus, additional, Oda, Tomohiro, additional, O’Dell, Christopher W., additional, Oh, Young-Suk, additional, Ohyama, Hirofumi, additional, Patra, Prabir K., additional, Peiro, Hélène, additional, Petri, Christof, additional, Philip, Sajeev, additional, Pollard, David F., additional, Poulter, Benjamin, additional, Remaud, Marine, additional, Schuh, Andrew, additional, Sha, Mahesh K., additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sweeney, Colm, additional, Té, Yao, additional, Tian, Hanqin, additional, Velazco, Voltaire A., additional, Vrekoussis, Mihalis, additional, Warneke, Thorsten, additional, Worden, John R., additional, Wunch, Debra, additional, Yao, Yuanzhi, additional, Yun, Jeongmin, additional, Zammit-Mangion, Andrew, additional, and Zeng, Ning, additional

Published

2022

29. Interannual variability in the Australian carbon cycle over 2015–2019, based on assimilation of Orbiting Carbon Observatory-2 (OCO-2) satellite data

Author

Villalobos, Yohanna, primary, Rayner, Peter J., additional, Silver, Jeremy D., additional, Thomas, Steven, additional, Haverd, Vanessa, additional, Knauer, Jürgen, additional, Loh, Zoë M., additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, and Pollard, David F., additional

Published

2022

30. Performance of open-path lasers and Fourier transform infrared spectroscopic systems in agriculture emissions research

Author

Bai, Mei, primary, Loh, Zoe, additional, Griffith, David W. T., additional, Turner, Debra, additional, Eckard, Richard, additional, Edis, Robert, additional, Denmead, Owen T., additional, Bryant, Glenn W., additional, Paton-Walsh, Clare, additional, Tonini, Matthew, additional, McGinn, Sean M., additional, and Chen, Deli, additional

Published

2022

31. Retrieval of greenhouse gases from GOSAT and GOSAT-2 using the FOCAL algorithm

Author

Noël, Stefan, primary, Reuter, Maximilian, additional, Buchwitz, Michael, additional, Borchardt, Jakob, additional, Hilker, Michael, additional, Schneising, Oliver, additional, Bovensmann, Heinrich, additional, Burrows, John P., additional, Di Noia, Antonio, additional, Parker, Robert J., additional, Suto, Hiroshi, additional, Yoshida, Yukio, additional, Buschmann, Matthias, additional, Deutscher, Nicholas M., additional, Feist, Dietrich G., additional, Griffith, David W. T., additional, Hase, Frank, additional, Kivi, Rigel, additional, Liu, Cheng, additional, Morino, Isamu, additional, Notholt, Justus, additional, Oh, Young-Suk, additional, Ohyama, Hirofumi, additional, Petri, Christof, additional, Pollard, David F., additional, Rettinger, Markus, additional, Roehl, Coleen, additional, Rousogenous, Constantina, additional, Sha, Mahesh Kumar, additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sussmann, Ralf, additional, Té, Yao, additional, Velazco, Voltaire A., additional, Vrekoussis, Mihalis, additional, and Warneke, Thorsten, additional

Published

2022

32. Update on the GOSAT TANSO–FTS SWIR Level 2 retrieval algorithm.

Author

Someya, Yu, Yoshida, Yukio, Ohyama, Hirofumi, Nomura, Shohei, Kamei, Akihide, Morino, Isamu, Mukai, Hitoshi, Matsunaga, Tsuneo, Laughner, Joshua L., Velazco, Voltaire A., Herkommer, Benedikt, Té, Yao, Sha, Mahesh Kumar, Kivi, Rigel, Zhou, Minqiang, Oh, Young Suk, Deutscher, Nicholas M., and Griffith, David W. T.

Subjects

SOLAR spectra, CIRRUS clouds, GAS absorption & adsorption, ALGORITHMS, ABSORPTION coefficients, SPECTRAL irradiance, MAXIMUM power point trackers

Abstract

The National Institute for Environmental Studies has provided the column-averaged dry-air mole fraction of carbon dioxide and methane (XCO 2 and XCH 4) products (L2 products) obtained from the Greenhouse gases Observing SATellite (GOSAT) for more than a decade. Recently, we updated the retrieval algorithm used to produce the new L2 product, V03.00. The main changes from the previous version (V02) of the retrieval algorithm are the treatment of cirrus clouds, the degradation model of the Thermal And Near-infrared Spectrometer for carbon Observation–Fourier Transform Spectrometer (TANSO–FTS), solar irradiance spectra, and gas absorption coefficient tables. The retrieval results from the updated algorithm showed improvements in fitting accuracies in the O 2 A, weak CO 2 , and CH 4 bands of TANSO–FTS, although the residuals increase in the strong CO 2 band over the ocean. The direct comparison of the new product obtained from the updated (V03) algorithm with the previous version V02.90/91 and the validations using the Total Carbon Column Observing Network revealed that the V03 algorithm increases the amount of data without diminishing the data qualities of XCO 2 and XCH 4 over land. However, the negative bias of XCO 2 is larger than that of the previous version over the ocean, and bias correction is still necessary. Additionally, the V03 algorithm resolves the underestimation of the XCO 2 growth rate compared with the in situ measurements over the ocean recently found using V02.90/91 and V02.95/96. [ABSTRACT FROM AUTHOR]

Published

2023

33. Retrieval of greenhouse gases from GOSAT and greenhouse gases and carbon monoxide from GOSAT-2 using the FOCAL algorithm

Author

Noël, Stefan, primary, Reuter, Maximilian, additional, Buchwitz, Michael, additional, Borchardt, Jakob, additional, Hilker, Michael, additional, Schneising, Oliver, additional, Bovensmann, Heinrich, additional, Burrows, John P., additional, Di Noia, Antonio, additional, Parker, Robert J., additional, Suto, Hiroshi, additional, Yoshida, Yukio, additional, Buschmann, Matthias, additional, Deutscher, Nicholas M., additional, Feist, Dietrich G., additional, Griffith, David W. T., additional, Hase, Frank, additional, Kivi, Rigel, additional, Liu, Cheng, additional, Morino, Isamu, additional, Notholt, Justus, additional, Oh, Young-Suk, additional, Ohyama, Hirofumi, additional, Petri, Christof, additional, Pollard, David F., additional, Rettinger, Markus, additional, Roehl, Coleen M., additional, Rousogenous, Constantina, additional, Sha, Mahesh Kumar, additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Sussmann, Ralf, additional, Té, Yao, additional, Velazco, Voltaire A., additional, Vrekoussis, Mihalis, additional, and Warneke, Thorsten, additional

Published

2022

34. The Total Carbon Column Observing Network

Author

Wunch, Debra, Toon, Geoffrey C., Blavier, Jean-François L., Washenfelder, Rebecca A., Notholt, Justus, Connor, Brian J., Griffith, David W. T., Sherlock, Vanessa, and Wennberg, Paul O.

Published

2011

35. Interannual variability in the Australian carbon cycle over 2015–2019, based on assimilation of OCO-2 satellite data

Author

Villalobos, Yohanna, primary, Rayner, Peter J., additional, Silver, Jeremy D., additional, Thomas, Steven, additional, Haverd, Vanessa, additional, Knauer, Jürgen, additional, Loh, Zoë M., additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, and Pollard, David F., additional

Published

2022

36. Supplementary material to "Interannual variability in the Australian carbon cycle over 2015–2019, based on assimilation of OCO-2 satellite data"

Author

Villalobos, Yohanna, primary, Rayner, Peter J., additional, Silver, Jeremy D., additional, Thomas, Steven, additional, Haverd, Vanessa, additional, Knauer, Jürgen, additional, Loh, Zoë M., additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, and Pollard, David F., additional

Published

2022

37. Australian Fire Emissions of Carbon Monoxide Estimated by Global Biomass Burning Inventories: Variability and Observational Constraints

Author

Desservettaz, Maximilien J., primary, Fisher, Jenny A., additional, Luhar, Ashok K., additional, Woodhouse, Matthew T., additional, Bukosa, Beata, additional, Buchholz, Rebecca R., additional, Wiedinmyer, Christine, additional, Griffith, David W. T., additional, Krummel, Paul B., additional, Jones, Nicholas B., additional, Deutscher, Nicholas M., additional, and Greenslade, Jesse W., additional

Published

2022

38. Performance of open-path lasers and FTIR spectroscopic systems in agriculture emissions research

Author

Bai, Mei, primary, Loh, Zoe, additional, Griffith, David W. T., additional, Turner, Debra, additional, Eckard, Richard, additional, Edis, Robert, additional, Denmead, Owen T., additional, Bryant, Glenn W., additional, Paton-Walsh, Clare, additional, Tonini, Matthew, additional, McGinn, Sean M., additional, and Chen, Deli, additional

Published

2022

39. Atmospheric Concentrations and Sources of Black Carbon Over Tropical Australian Waters

Author

Wu, Changda, primary, Trounce, Haydn, additional, Dunne, Erin, additional, Griffith, David W. T., additional, Chambers, Scott, additional, Williams, Alastair G., additional, Humphries, Ruhi S., additional, Cravigan, Luke T., additional, Miljevic, Branka, additional, Zhang, Chunlin, additional, Wang, Hao, additional, Wang, Boguang, additional, and Ristovski, Zoran, additional

Published

2022

40. Was Australia a sink or source of CO2 in 2015? Data assimilation using OCO-2 satellite measurements

Author

Villalobos, Yohanna, primary, Rayner, Peter J., additional, Silver, Jeremy D., additional, Thomas, Steven, additional, Haverd, Vanessa, additional, Knauer, Jürgen, additional, Loh, Zoë M., additional, Deutscher, Nicholas M., additional, Griffith, David W. T., additional, and Pollard, David F., additional

Published

2021

41. Cryogenic Sampling Techniques

Author

Moortgat, Geert K., Griffith, David W. T., Moortgat, Geert K., editor, Barnes, Austin J., editor, Le Bras, Georges, editor, and Sodeau, John R., editor

Published

1994

42. Quality Evaluation of the Column-Averaged Dry Air Mole Fractions of Carbon Dioxide and Methane Observed by GOSAT and GOSAT-2.

Author

Yukio Yoshida, Yu Someya, Hirofumi Ohyama, Isamu Morino, Tsuneo Matsunaga, Deutscher, Nicholas M., Griffith, David W. T., Hase, Frank, Iraci, Laura T., Kivi, Rigel, Notholt, Justus, Pollard, David F., Yao Té, Velazco, Voltaire A., and Wunch, Debra

Subjects

MOLE fraction, CARBON dioxide, GREENHOUSE gases, STANDARD deviations, ENVIRONMENTAL sciences

Abstract

Column-averaged dry air mole fractions of carbon dioxide and methane (XCO2 and XCH4) retrieved from SWIR (Short-Wavelength InfraRed) observations by GOSAT (Greenhouse Gases Observing SATellite) since 2009 and its successor GOSAT-2 since 2019 are available from NIES (National Institute for Environmental Studies) as SWIR L2 (Level 2) products. This paper shows the current status of the data quality of NIES SWIR L2 products and inter-satellite comparison results. Comparisons of XCO2 and XCH4 obtained from each satellite with ground-based observations from the TCCON (Total Carbon Column Observing Network) reveal that the averaged single measurement precision are less than 1.9 ppm and 10 ppb, respectively, and the site-to-site biases are less than 0.9 ppm and 5 ppb, respectively. The standard deviations of the inter-satellite differences for XCO2 and XCH4 are 2.18 ppm and 12.1 ppb, respectively, on an individual-data basis and 1.77 ppm and 11.7 ppb, respectively, on a monthly-regional-mean basis. While further improvements in the retrieval algorithm and bias-correction method are needed, GOSAT and GOSAT-2 retrievals are generally in good agreement. [ABSTRACT FROM AUTHOR]

Published

2023

43. Emission factors of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign

Author

Mouat, Asher P., primary, Paton-Walsh, Clare, additional, Simmons, Jack B., additional, Ramirez-Gamboa, Jhonathan, additional, Griffith, David W. T., additional, and Kaiser, Jennifer, additional

Published

2021

44. Supplementary material to "Emission factors of long-lived volatile organic compounds from the 2019–2020 Australian wildfires during the COALA campaign"

Author

Mouat, Asher P., primary, Paton-Walsh, Clare, additional, Simmons, Jack B., additional, Ramirez-Gamboa, Jhonathan, additional, Griffith, David W. T., additional, and Kaiser, Jennifer, additional

Published

2021

45. Performance of an open-path near-infrared measurement system for measurements of CO2 and CH4 during extended field trials

Author

Deutscher, Nicholas M., Naylor, Travis A., Caldow, Christopher G. R., McDougall, Hamish L., Carter, Alex G., and Griffith, David W. T.

Abstract

Open-path measurements of atmospheric composition provide spatial averages of trace gases that are less sensitive to small-scale variations and the effects of meteorology. In this study we introduce improvements to open-path near-infrared (OP-NIR) Fourier transform spectrometer measurements of CO2 and CH4. In an extended field trial, the OP-NIR achieved measurement repeatability 6 times better for CO2 (0.28 ppm) and 10 times better for CH4 (2.1 ppb) over a 1.55 km one-way path than its predecessor. The measurement repeatability was independent of path length up to 1.55 km, the longest distance tested. Comparisons to co-located in situ measurements under well-mixed conditions characterise biases of 1.41 % for CO2 and 1.61 % for CH4 relative to in situ measurements calibrated to World Meteorological Organisation – Global Atmosphere Watch (WMO-GAW) scales. The OP-NIR measurements can detect signals due to local photosynthesis and respiration, and local point sources of CH4. The OP-NIR is well-suited for deployment in urban or rural settings to quantify atmospheric composition on kilometre scales.

Published

2021

46. Update on the GOSAT TANSO-FTS SWIR Level 2 retrieval algorithm.

Author

Yu Someya, Yukio Yoshida, Hirofumi Ohyama, Shohei Nomura, Akihide Kamei, Isamu Morino, Hitoshi Mukai, Tsuneo Matsunaga, Laughner, Joshua L., Velazco, Voltaire A., Herkommer, Benedikt, Yao Té, Sha, Mahesh Kumar, Kivi, Rigel, Minqiang Zhou, Young Suk Oh, Deutscher, Nicholas M., and Griffith, David W. T.

Subjects

FOURIER transform spectrometers, SOLAR spectra, SPECTRAL irradiance, CIRRUS clouds, GAS absorption & adsorption, MAXIMUM power point trackers, ALGORITHMS

Abstract

The National Institute for Environmental Studies has provided the column-averaged dry-air mole fraction of carbon dioxide and methane (XCO2 and XCH4) products (L2 products) obtained from the Greenhouse gases Observing SATellite for more than a decade. Recently, we updated the retrieval algorithm used to produce the new L2 product, V03.00. The main changes from the previous version (V02) of the retrieval algorithm are the treatment of cirrus clouds, the degradation model of the Thermal And Near-infrared Spectrometer for carbon Observation - Fourier Transform Spectrometer (TANSO-FTS), solar irradiance spectra, and gas absorption coefficient tables. The retrieval results from the updated algorithm showed improvements in fitting accuracies in the O2 A, weak CO2, and CH4 bands of TANSO-FTS, although the residuals increase in the strong CO2 band over the ocean. The direct comparison of the new product obtained from the updated (V03) algorithm with the previous version V02.90/91 and the validations using the Total Carbon Column Observing Network revealed that the V03 algorithm increases the amount of data without diminishing the data qualities of XCO2 and XCH4 over land. Further, the negative bias of XCO2 is larger than that of the previous version over the ocean, and bias correction is still necessary. Additionally, the V03 algorithm resolves the underestimation of the XCO2 growth rate compared with the in situ measurements over the ocean recently found using V02.90/91 and V02.95/96. [ABSTRACT FROM AUTHOR]

Published

2022

47. The Adaptable 4A Inversion (5AI): description and first <i>X</i><sub>CO<sub>2</sub></sub> retrievals from Orbiting Carbon Observatory-2 (OCO-2) observations

Author

Dogniaux, Matthieu, primary, Crevoisier, Cyril, additional, Armante, Raymond, additional, Capelle, Virginie, additional, Delahaye, Thibault, additional, Cassé, Vincent, additional, De Mazière, Martine, additional, Deutscher, Nicholas M., additional, Feist, Dietrich G., additional, Garcia, Omaira E., additional, Griffith, David W. T., additional, Hase, Frank, additional, Iraci, Laura T., additional, Kivi, Rigel, additional, Morino, Isamu, additional, Notholt, Justus, additional, Pollard, David F., additional, Roehl, Coleen M., additional, Shiomi, Kei, additional, Strong, Kimberly, additional, Té, Yao, additional, Velazco, Voltaire A., additional, and Warneke, Thorsten, additional

Published

2021

48. 2019–20 Australian Bushfires and Anomalies in Carbon Monoxide Surface and Column Measurements

Author

John, Shyno Susan, primary, Deutscher, Nicholas M., additional, Paton-Walsh, Clare, additional, Velazco, Voltaire A., additional, Jones, Nicholas B., additional, and Griffith, David W. T., additional

Published

2021

49. Was Australia a sink or source of CO2 in 2015? Data assimilation using OCO-2 satellite measurements

Author

Villalobos, Yohanna, Rayner, Peter J., Silver, Jeremy D., Thomas, Steven, Haverd, Vanessa, Knauer, Jürgen, Loh, Zoë M., Deutscher, Nicholas M., Griffith, David W. T., and Pollard, David F.

Abstract

In this study, we present the assimilation of data from the Orbiting Carbon Observatory-2 (OCO-2) (land nadir and glint data, version 9) to estimate the Australian carbon surface fluxes for the year 2015. To perform this estimation, we used both a regional-scale atmospheric transport–dispersion model and a four-dimensional variational assimilation scheme. Our results suggest that Australia was a carbon sink of −0.41 ± 0.08 PgC yr−1 compared to the prior estimate 0.09 ± 0.20 PgC yr−1 (excluding fossil fuel emissions). Most of the carbon uptake occurred in northern Australia over the savanna ecotype and in the western region over areas with sparse vegetation. Analysis of the enhanced vegetation index (EVI) suggests that the majority of the carbon uptake over the savanna ecosystem was due to an increase of vegetation productivity (positive EVI anomalies) amplified by an anomalous increase of rainfall in summer. Further from this, a slight increase of carbon uptake in Western Australia over areas with sparse vegetation (the largest ecosystem in Australia) was noted due to increased land productivity in the area caused by positive rainfall anomalies. The stronger carbon uptake estimate in this ecosystem was partially due to the land surface model (CABLE-BIOS3) underestimating the gross primary productivity of the ecosystem. To evaluate the accuracy of our carbon flux estimates from OCO-2 retrievals, we compare our posterior concentration fields against the column-averaged carbon retrievals from the Total Carbon Column Observing Network (TCCON) and ground-based in situ monitoring sites located around our domain. The validation analysis against TCCON shows that our system is able to reduce bias mainly in the summer season. Comparison with surface in situ observations was less successful, particularly over oceanic monitoring sites that are strongly affected by oceanic fluxes and subject to less freedom by the inversion. For stations located far from the coast, the comparison with in situ data was more variable, suggesting difficulties matching the column-integrated and surface data by the inversion, most likely linked to model vertical transport. Comparison of our fluxes against the OCO-2 model intercomparison (MIP) was encouraging. The annual carbon uptake estimated by our inversion falls within the ensemble of the OCO-2 MIP global inversions and presents a similar seasonal pattern.

Published

2021

50. An eleven year record of XCO2 estimates derived from GOSAT measurements using the NASA ACOS version 9 retrieval algorithm

Author

Taylor, Thomas E., O'Dell, Christopher, Crisp, David, Kuze, Akhiko, Lindqvist, Hannakaisa, Wennberg, Paul O., Chatterjee, Abhishek, Gunson, Michael R., Eldering, Annmarie, Fisher, Brendan, Kiel, Matthaeus, Nelson, Robert R., Merrelli, Aronne, Osterman, Gregory, Chevallier, Frédéric, Palmer, Paul I., Feng, Liang, Deutscher, Nicholas Michael, Dubey, Manvendra K., Feist, Dietrich G., García Rodríguez, Omaira Elena, Griffith, David W. T., Hase, Frank, Iraci, Laura, Kivi, Rigel, Liu, Cheng, De Mazière, Martine, Morino, Isamu, Notholt, Justus, Oh, Young-Suk, Ohyama, Hirofumi, Pollard, David F., Rettinger, Markus, Roehl, Coleen M., Schneider, Matthias, Sha, Mahesh Kumar, Shiomi, Kei, Strong, Kimberly, Sussmann, Ralf, Te, Yao, Velazco, Voltaire A., Vrekoussis, Mihalis, Warneke, Thorsten, and Wunch, Debra

Subjects

Greenhouse gases, Total Carbon Column Observing Network, Spectrometer

Abstract

The Thermal And Near infrared Sensor for carbon Observation – Fourier Transform Spectrometer (TANSO-FTS) on the Japanese Greenhouse gases Observing SATellite (GOSAT) has been returning data since April 2009. The version 9 (v9) Atmospheric Carbon Observations from Space (ACOS) Level 2 Full Physics (L2FP) retrieval algorithm (Kiel et al., 2019) was used to derive estimates of carbon dioxide (CO2) dry air mole fraction (XCO2) from the TANSO-FTS measurements collected over it's first eleven years of operation. The bias correction and quality filtering of the L2FP XCO2 product were evaluated using estimates derived from the Total Carbon Column Observing Network (TCCON) as well as values simulated from a suite of global atmospheric inverse modeling systems (models). In addition, the v9 ACOS GOSAT XCO2 results were compared with collocated XCO2 estimates derived from NASA's Orbiting Carbon Observatory-2 (OCO-2), using the version 10 (v10) ACOS L2FP algorithm. These tests indicate that the v9 ACOS GOSAT XCO2 product has improved throughput, scatter and bias, when compared to the earlier v7.3 ACOS GOSAT product, which extended through mid 2016. Of the 37 million (M) soundings collected by GOSAT through June 2020, approximately 20 % were selected for processing by the v9 L2FP algorithm after screening for clouds and other artifacts. After post-processing, 5.4 % of the soundings (2M out of 37M) were assigned a “good” XCO2 quality flag, as compared to 3.9 % in v7.3 (

Published

2021