| ID |
Title |
Chair/Speaker |
| Opening |
| Monday, June 9 |
| Session 1: Status and results from current missions / Chairs: Abhishek Chatterjee (JPL), Naoko Saitoh (Chiba U) |
| Session 2: Status and plans of future missions / Chairs: Yasjka Meijer (ESA), Ray Nassar (ECCC) |
| 1.01 |
Status of NIES GOSAT and GOSAT-2 Projects |
Tsuneo Matsunaga (NIES) |
| 1.02 |
Long-term Global Greenhouse Gas Observation by GOSAT and GOSAT-2 and Local Emissions/Removals Observation by GOBLEU |
Hiroshi Suto (JAXA) |
| 1.03 |
The OCO-2 and OCO-3 Missions: Status, Results and Plans |
Vivienne Payne (JPL/Caltech) |
| 1.04 |
The New Progress of DQ-1 and the Pre-research of DQ-2 |
Lu Zhang (CMA) |
| 1.05 |
GHGSat in 2024: Performance, Global Emissions Insights, and Constellation Expansion |
Dylan Jervis (GHGSat) |
| 1.06 |
The MethaneSAT mission: current status and future direction (Not posted due to video) |
Jonathan Franklin (Harvard University) |
| 1.07 |
Carbon Mapper updates and preliminary Tanager-1 greenhouse gas measurement performance |
Daniel Cusworth (Carbon Mapper) |
| 2.01 |
NASA's GHG Observation Plans Over the Next 4 Years |
Ken Jucks (NASA Headquarters) |
| 2.02 |
The greenhouse gas observation mission with Global Observing SATellite for Greenhouse gases and Water cycle (GOSAT-GW): Updates |
Hiroshi Tanimoto (NIES) |
| 1.08 |
Interface with users of GOSAT-GW TANSO-3 observation: observation requests, product downloads, and acquisition of information |
Hisashi Yashiro (NIES) |
| 2.03 |
The Chinese GHG Status and Plan |
Lin Chen (CMA) |
| 2.04 |
Carbon-I, a NASA Earth System Explorer Mission Concept for Global Carbon Cycle Science |
Christian Frankenberg (Caltech) |
| 2.05 |
The Twin Anthropogenic Greenhouse Gas Observers Mission |
Jochen Landgraf (SRON) |
| 2.06 |
The MicroCarb CO2 mission: imminent launch! |
Denis Jouglet (CNES) |
| 2.07 |
The Copernicus anthropogenic CO2 Monitoring (CO2M) mission - status and results from product development |
Ruediger Lang (EUMETSAT) |
| 2.08 |
Greenhouse gas observations from the proposed Arctic Observing Mission (AOM) |
Ray Nassar (ECCC) |
| 1.09 |
Sub-Kilometer Hyperspectral Carbon Monitoring: Joint Radiance-Wavelength Calibration and Bayesian Spatiotemporal Collaborative Retrieval |
Shichao Wu (Hefei Institutes of Physical Sciences, CAS) |
| 2.09 |
Towards a remote sensing solution to quantify N2O emissions by integrating shortwave and longwave infrared bands |
Ayesha Riaz (State University of New York at Buffalo) |
| Special session to celebrate Akihiko Kuze's retirement / Chairs: Hiroshi Suto (JAXA), Tsuneo Matsunaga (NIES) |
| SPECIAL |
Measuring Greenhouse Gases from Space: Past, Present, and Future |
David Crisp, Tatsuya Yokota, Akihiko Kuze |
| Tuesday, June 10 |
| Session 6: Urban/local/facility scale emissions - quantification and validation / Chairs: John Worden (JPL), Julia Marshall (DLR) |
| 6.01 |
Advanced Methane Plume Detection and Inversion Using GF-5B AHSI: A Statistical-Physical Coupling Approach |
Zhonghua He (Zhejiang Climate Center, Zhejiang Meteorological Bureau) |
| 6.02 |
Methane emission estimates of localized sources from Sentinel-5 Precursor, PRISMA, EnMAP and EMIT using a cross-sectional-flux method |
Michael Buchwitz (University of Bremen) |
| 6.03 |
Methane Discrete Source Detection and Quantification Using MethaneSAT |
Zhan Zhang (Harvard University) |
| 6.04 |
Quantifying agricultural CH4 emissions using MethaneSAT, MethaneAIR and ground-based data |
Sara Mikaloff-Fletcher (NIWA) |
| 6.05 |
Global Distributions of Super-Emitting Methane Sources |
Daniel Cusworth (Carbon Mapper) |
| 6.06 |
Detection and quantification of CH4 and CO2 emissions at the facility scale with the GHGSat constellation |
Jason McKeever (GHGSat) |
| Session 3: Retrieval algorithms, priors, and products / Chairs: Yu Someya (NIES), Chris O’Dell (CSU) |
| 3.01 |
OCO-3 Version 11 Snapshot Area Mapping (SAM) Mode Observations |
Abhishek Chatterjee (JPL/Caltech) |
| 3.02 |
MethaneSAT XCH4 retrieval |
Sebastien Roche (EDF) |
| 3.03 |
First quantification of atmospheric carbon dioxide from the Geostationary Operational Environmental Satellite (GOES East) |
Aaron Sonabend (Google Research) |
| 3.04 |
Correlated albedo and elevation variability leading to retrieval artefacts |
Julia Marshall (DLR/University of Leipzig) |
| 3.06 |
Impact of Raman scattering on XCO2 and SIF retrievals from OCO-2/3 |
Christian Frankenberg (JPL/Caltech) |
| 3.07 |
Development of a principal components-based radiative transfer model and its application to IASI CH4 retrievals |
Charles Robert (BIRA) |
| 3.08 |
Retrieval of GHG from interferogram : exploration, comparison with spectra from spectra |
Sebastien Payan (Sorbonne Universite - CNRS - LATMOS) |
| Session 4: Calibration and validation / Chairs: Hirofumi Ohyama (NIES), Mahesh Kumar Sha (BIRA) |
| 4.02 |
Evaluating satellite-based XCO2 measurements from v11.2 OCO-2 and v11 OCO-3 against ground-based measurements from TCCON and COCCON, and airborne measurements from ATom |
Mahesh Kumar Sha (BIRA-IASB) |
| 4.03 |
Validation of satellite data of greenhouse gases based on observations of TCCON Hefei Site, China |
Wei Wang (Anhui Institute of Optics and Fine Mechanics, CAS) |
| 4.04 |
The COllaborative Carbon Column Observing Network COCCON: Recent updates |
Matthias Max Frey (Karlsruhe Institute of Technology) |
| 4.05 |
What Are Fiducial Reference Measurements for Greenhouse Gases and How Reliable Are They For The Satellite Validation? |
Mahesh Kumar Sha (BIRA) |
| 4.06 |
Status and upcoming plans of ground-based FTS measurements for evaluating space-based greenhouse gas measurements and carbon cycle studies at the National institute for Environmental Studies |
Isamu Morino (NIES) |
| 4.07 |
The Copernicus anthropogenic CO2 Monitoring (CO2M) mission - operational product validation and monitoring |
Catherine Hayer (Hamtec Consulting for EUMETSAT) |
| 4.08 |
Assessing the Effect of HITRAN Updates on Cross-Platform Calibration and Validation for Satellite-Based GHG Retrievals |
Shin Ishida (JAXA) |
| 4.09 |
Comparison of the TIR spectral radiance between GHG satellite-based multi-sensors (GOSAT, GOSAT-2, AIRS, IASI, and CrIS) and aircraft-based S-HIS |
Atsushi Yasuda (RESTEC) |
| 4.12 |
MethaneSAT L0 to L1B processor and in-Flight Calibration and Performance |
Bingkun Luo (Harvard-Smithsonian Center for Astrophysics) |
| Wednesday, June 11 |
| Session 5: Global to regional flux estimates and validation / Chairs: Sara Mikaloff-Fletcher (NIWA), Hannakaisa Lindqvist (FMI) |
| 5.01 |
Studying the Carbon Cycle Dynamics in Semi-arid Regions of the Southern Hemisphere from Space (Not posted due to video) |
Sanam N. Vardag (Heidelberg University) |
| 5.02 |
Advance in understanding of the changes in the carbon cycle and its linkage to the water cycle during the 2023-2024 El Nino in Amazon region |
Kevin Bowman (JPL/Caltech) |
| 5.03 |
Inverse analysis with in-situ/flask and GOSAT observations to disentangle regional and sectoral emission contributions to the surge of atmospheric CH4 for 2020-2022 |
Yousuke Niwa (NIES) |
| 5.04 |
Nitrous oxide (N2O) surface fluxes derived from IASI space-borne observations |
Jean-Luc Attie, Philippe Ricaud (CNRM, Toulouse) |
| 5.05 |
Progress in understanding natural carbon fluxes with decade-long OCO-2/3 observations |
Junjie Liu (JPL/Caltech) |
| 5.06 |
Progress in multiresolution flux inversion in support of OCO2-MIPv2 |
Kevin Bowman (JPL/Caltech) |
| Session 8: Stakeholder needs and engagement / Chairs: Lesley Ott (NASA), Hiroshi Tanimoto (NIES) |
| 8.01 |
Engaging with stakeholders through the Greenhouse Gas Task Team |
Yasjka Meijer (ESA) |
| 8.02 |
UNEP's IMEO Methane Alert and Response System: Current status and new requirements to enhance the system |
Itziar Irakulis-Loitxate (UNEP, IMEO) |
| 8.03 |
The U.S. GHG Center: improving the quality, transparency, and accessibility of GHG information for decision-making |
Lesley Ott (NASA) |
| 8.04 |
Development of the Japan Greenhouse Gas Center and its stakeholder engagement |
Hiroshi Tanimoto (NIES) |
| 8.05 |
The GOSAT series and its use in environmental policy and utilization concept |
Hironari Ishihara (Ministry of the Environment, Japan) |
| 8.06 |
The ESA-European Commission Earth System Science Initiative – A unique partnership and collaborative opportunity for advancing GHG knowledge |
Edward Malina (ESA ESRIN) |
| 8.07 |
Meta-modeling for the Climate TRACE Emissions Inventory |
Daniel Moore (WattTime, Climate TRACE) |
| 8.08 |
Enhancing the utility and adoption of space-based greenhouse gas observations by stakeholders in the inventory and policy communities |
David Crisp (Crisp Spectra LLC) |
| Session 5: Global to regional flux estimates and validation / Chairs: Sara Mikaloff-Fletcher (NIWA), Hannakaisa Lindqvist (FMI) |
| 5.08 |
Regional carbon sink estimates by NTFVAR inverse model with surface and satellite observations |
Shamil Maksyutov (NIES) |
| 5.09 |
Investigating anomalous growth of atmospheric CO2 in 2023-2024 using GOSAT XCO2-constrained inverse modeling |
Suman Maity (NIES) |
| 5.10 |
Constraining shoulder season carbon fluxes (CO2 and CH4) from the Arctic -Boreal zone using remote-sensing observations |
Abhishek Chatterjee (JPL/Caltech) |
| Thursday, June 12 |
| Session 6: Urban/local/facility scale emissions - quantification and validation / Chairs: John Worden (JPL), Julia Marshall (DLR) |
| 6.07 |
Scale dependencies in urban CO2 inversions constrained by satellite remote sensing measurements |
Alohotsy Rafalimanana (Universite de Reims Champagne-Ardenne) |
| 6.08 |
Investigating the potential for detecting urban methane point sources over South Korea using EMIT observations |
Yu-Ri Lee (Seoul National University) |
| 6.09 |
A network of EM27 FTS for urban measurements of XCO2, XCH4, and XCO across the city of Toronto |
Nicole Jacobs (University of Toronto) |
| 6.10 |
Regional and socioeconomic characteristics in global cities’ CO2 emissions revealed from space |
Doyeon Ahn (GESTAR II, Morgan State University) |
| 6.11 |
Assessing Methane Detection Capabilities of Operational Satellite Sensors using Controlled Release Experiments (Not posted due to video) |
Shobha Kondragunta (NOAA) |
| 6.12 |
Common Practices For Quantifying, Reporting, Validating and Assessing Facility Scale Methane Emissions Using Remote Sensing |
Paul Green (NPL) |
| Session 5: Global to regional flux estimates and validation / Chairs: Sara Mikaloff-Fletcher (NIWA), Hannakaisa Lindqvist (FMI) |
| 5.11 |
Can we detect CH4 emissions from permafrost with TROPOMI XCH4? |
Ray Nassar (ECCC) |
| 5.12 |
Evaluating the consistency of the emissions estimated from atmospheric inversions using three methane TROPOMI products at the regional and global scales |
Adrien Martinez (LSCE) |
| 5.13 |
European Methane Flux Estimates Using the Community Inversion Framework |
Anteneh Getachew Mengistu (FMI) |
| 5.15 |
Estimating methane emissions consistent with both satellite and isotope constraints |
Sourish Basu (University of Maryland) |
| 5.16 |
The MethaneSAT CORE algorithm: quantification of diffuse sources from oil and gas production regions |
Jacob Bushey (Harvard University) |
| 5.18 |
Benchmarking USA Methane Inventories using GOSAT based Methane Fluxes |
John Worden (JPL/Caltech) |
| Session 7: Multi-species observations/modeling and GHG-AQ synergy / Chairs: Jochen Landgraf (SRON), Helen Worden (NCAR) |
| 7.01 |
Column and Surface Concentration Observations of CO2 and NO2 at Yokosuka, Japan, in Support of GOSAT-GW/TANSO-3 |
Yugo Kanaya (JAMSTEC) |
| 7.02 |
Towards shipborne emission monitoring and satellite validation of CO2, CH4, CO, and NO2 through simultaneous columnar and in situ observations |
Astrid Mueller (NIES) |
| 7.03 |
Step change in boreal fire emissions? A Canadian case study |
Helen Worden (NCAR) |
| 7.04 |
Predicting fossil fuel CO2 using air quality emissions and emerging CO2 satellite observations for global carbon cycle assessment |
Kevin Bowman (JPL/Caltech) |
| 7.05 |
Monitoring the “atmospheric stock” of greenhouse gases from space |
Brad Weir (Morgan State University & NASA GSFC) |
| 7.06 |
Top-down emission estimates of CO2 and co-emitted air pollutants through a sector-based inversion framework |
Zhen Qu (North Carolina State University) |
