8:00

Registration

8:30

Welcome, Logistics, Opening Remarks

Dylan Jones (U. Toronto, Canada) and Ray Nassar (ECCC, Canada)

Session 1: On-going and near-term satellite missions and calibration.

Co-chairs: Annmarie Eldering (JPL/ CalTech , USA), Akihiko Kuze (JAXA, Japan ),
and Kaley Walker (U. Toronto, Canada)

8:45

1.1: Precision, Accuracy, Resolution, and Coverage: A few insights from GOSAT and OCO-2

David Crisp (JPL, Caltech, USA)

9:00

1.2: Recent progress of GOSAT project and preparation for GOSAT-2 at National Institute for Environmental Studies (NIES)

Tsuneo Matsunaga (NIES, Japan)

9:15

1.3: TanSat Scientific Achievements and Future Plan

Yi Liu (Chinese Academy of Sciences, China)

9:30

1.4: Status of the Sentinel-5 Precursor Mission and First Results on Methane

Claus Zehner (European Space Agency)

9:45

1.5: Measurements of Carbon Monoxide from Space using the MOPITT Instrument

James R. Drummond (U. Toronto, Canada)

10:00

Break

Session 2: Retrieval algorithms and uncertainty quantification.

Co-chairs: Chris O’Dell (CSU, USA) and Susan Kulawik (NASA Ames, USA)

10:30

2.1: First Copernicus Climate Change Service (C3S) satellite-derived greenhouse gas (CO ₂ , CH ₄ ) data set

Michael Buchwitz (U. Bremen, Germany)

10:45

2.2: Carbon dioxide retrieval from OCO-2 satellite observations using the RemoTeC algorithm: application to single-view and multiple-angle modes

Lianghai Wu (SRON, Netherlands)

11:00

2.3: Plume detection and characterization from XCO ₂ imagery: methodology and expected uncertainties on derived point source fluxes

Claude Camy-Peyret ( Institut Pierre Simon Laplace, France)

11:15

2.4: Correction of topography related biases in XCO ₂ measurements from OCO-2

Matthäus Kiel (Caltech, USA)

11:30

2.5: Vertical distribution of Arctic methane from ground-based FTS measurements

Otto Lamminpää (Finnish Meteorological Institute, Finland)

11:45

2.6: IASI for Surveying Methane and Nitrous Oxide in the Troposphere: MUSICA products and its validation

Omaira García (Meteorological State Agency of Spain, Spain)

12:00

LUNCH

1:30

Address by Canadian Space Agency President

Sylvain Laporte (CSA, Canada)

Session 3: Validation and supporting observations including ground-based and in-situ observations.

Co-chairs: Debra Wunch (U. Toronto, Canada) and Mahesh Kumar Sha (BIRA-IASB, Belgium)

2:00

3.1: First results of the ESA AO project TCCON4S5P focusing on the validation of the Sentinel-5P methane and carbon monoxide using TCCON data

Mahesh Kumar Sha (BIRA-IASB, Belgium)

2:15

3.2: Comparisons of MOPITT XCO with TCCON

Jacob Hedelius (U. Toronto, Canada)

2:30

3.3: Update on the Validation of OCO-2 XCO ₂ Data

Greg Osterman (JPL, Caltech, USA)

2:45

3.4: Application of TanSat algorithm on GOSAT observation - ATANGO and OCO-2 XCO ₂ retrieval: validation, inter-comparison and new approach

Lu Yao (Chinese Academy of Sciences, China)

3:00

3.5: Views from the 6 aircraft campaigns (ACT-America, HIPPO, CONTRAIL, ATom , ORCAS, and ABoVE ): assimilation of airborne CO ₂ measurements into GEOS and comparisons with satellite retrievals

Brad Weir (NASA GSFC/USRA, USA)

3:15

3.6: Validation for Greenhouse Gases Measured by the Atmospheric Chemistry Experiment (ACE) Satellite Mission

Kaley A. Walker (U. Toronto, Canada)

3:30

POSTERS and REFRESHMENTS – A

5:15

End of Posters

5:30

ICEBREAKER / RECEPTION

8:45

Additional Registration

Session 1 continued: On-going and near-term satellite missions and calibration.

Co-chairs: Annmarie Eldering (JPL/ CalTech , USA), Akihiko Kuze (JAXA, Japan ),
and Kaley Walker (U. Toronto, Canada))

9:00

1.6: Atmospheric Chemistry Experiment (ACE) Greenhouse Gas Measurements: CO ₂ , CH ₄ and HFCs

Peter Bernath (Old Dominion U. & U. Waterloo, USA/Canada)

9:15

1.7: GOSAT Calibration Updates and Operations toward an Optimized Observation Pattern

Akihiko Kuze (Japan Aerospace Exploration Agency (JAXA), Japan)

9:30

1.8: Characterization of OCO-2 biases and errors for flux estimates

Susan Kulawik (BAERI at NASA Ames, USA)

9:45

1.9: The OCO-3 Mission: Science Objectives and Instrument Performance

Annmarie Eldering (JPL, Caltech, USA)

10:00

1.10: Upper tropospheric and stratospheric trends of greenhouse gases as derived from MIPAS observations

Gabriele P. Stiller (Karlsruhe Institute of Technology, Germany)

10:15

POSTERS and REFRESHMENTS – B

12:00

LUNCH

Session 4: GHG observations to quantify hot spots and local/urban emissions.

Co-chairs: Ray Nassar (ECCC, Canada) and Johanna Tamminen (FMI, Finland)

1:30

4.1: Comparing carbon dioxide enhancement from anthropogenic emissions observed by GOSAT and OCO-2

Hui Zhong (Chinese Academy of Sciences, China)

1:45

4.2: Global XCO ₂ anomalies: Direct space-based observations of anthropogenic CO ₂ emission areas from OCO-2 and comparison with inventory-based estimates

Janne Hakkarainen (Finnish Meteorological Institute, Finland)

2:00

4.3: Advances in Quantifying Power Plant CO ₂ Emissions from Space

Ray Nassar (Environment and Climate Change Canada, Canada)

2:15

4.4: Quantifying methane point sources from fine-scale ( GHGSat ) satellite observation of atmospheric plumes

Daniel Varon (Harvard U., USA)

2:30

4.5: First methane retrievals and hotspot identification with TROPOMI

Haili Hu (SRON Netherlands Institute for Space Research, Netherlands)

2:45

4.6: Detection of local CH ₄ sources using the WRF-CHEM and TROPOMI XCH ₄

Sudhanshu Pandey (SRON Netherlands Institute for Space Research, Netherlands)

3:00

4.7 CO ₂ emissions from power plants derived from the Ozone Monitoring Instrument NO ₂ dataset

Debora Griffin (ECCC, Canada)

3:15

Break

Session 5: Flux inversions on regional and global scales.

Co-chairs: Dylan Jones (U. Toronto, Canada) and Junjie Liu (JPL, CalTech , USA)

3:45

5.1: “Are we there yet?" A look at the status and prospects of inferring top-down carbon fluxes from CO ₂ remote sensing

Christopher O’Dell (Colorado State U., USA)

4:00

5.2: On the spatial scales informed by surface and GOSAT CO ₂ observations

Saroja Polavarapu (Environment and Climate Change Canada, Canada)

4:15

5.3: GOSAT CO ₂ Inversion Inter- comparison Experiment Phase-II: intermediate progress report

Hiroshi Takagi (National Institute for Environmental Studies, Japan)

4:30

5.4: The OCO-2 Level 4 Flux Product: The Global Carbon Cycle as Seen From Space

Sean Crowell (U. Oklahoma, USA)

4:45

5.5: Role of Climate Variability and Land Use on Fire Emissions of Carbon Gasses in the 21rst Century

John Worden (JPL, Caltech, USA)

5:00

5.6: Evaluating GPP and respiration estimates over northern mid-latitude ecosystems using solar induced fluorescence and atmospheric CO ₂ measurements

Brendan Byrne (U. Toronto, Canada)

5:15

End of Day

8:45

Additional Registration

9:00

5.7: Detecting drought impact on terrestrial biosphere carbon cycle over US in the context of carbon-climate interannual variability

Junjie Liu (Jet Propulsion Lab, USA)

9:15

5.8: Anomalies in Chinese CO ₂ fluxes during 2015/2016 El Niño: Comparison between satellite and in-situ observation assimilation

Jing Wang (Chinese Academy of Sciences, China)

9:30

5.9: Reconciling satellite and in-situ estimates of North American methane emissions during the unconventional gas boom of 2007–2014

Joshua Benmergui (Harvard U., USA)

9:45

5.10: Identifying leaky wells in oil/gas fields by satellite observation of atmospheric methane

Daniel Cusworth (Harvard U., USA)

10:00

GROUP PHOTO

10:15

POSTERS and REFRESHMENTS – C

12:00

LUNCH

Session 6: Future missions and observing strategies.

Co-chairs: Dave Crisp (JPL, CalTech , USA), Ray Nassar (ECCC, Canada), Yasjka Meijer (ESA)

1:30

6.1: NASA's Carbon Cycle OSSE Initiative - Informing future space-based observing strategies through advanced modeling and data assimilation

Lesley Ott (NASA Goddard Space Flight Center, USA)

1:45

6.2: Assessing the potential of satellite spectro -imagery to monitor fossil fuel CO ₂ emissions across the globe from city and daily scales to national and annual scales

Yilong Wang (LSCE/IPSL, France)

2:00

6.3: An updated status of MicroCarb Project

François Buisson (Centre National d'Etudes Spatiales , France)

2:15

6.4: State of play of the European Anthropogenic CO ₂ Monitoring Mission

Yasjka Meijer (European Space Agency)

2:30

6.5: European Anthropogenic CO ₂ monitoring mission: Instrument spectral sizing and the supporting aerosol instrument

Jochen Landgraf (SRON Netherlands Institute for Space Research, Netherlands)

2:45

6.6: The next generation of Chinese greenhouse gas monitoring satellite mission: TanSat-2

Dongxu Yang (IAP, Shanghai Advanced Research Institute, CAS, China)

3:00

Break

3:30

6.7: IASI-New Generation: program status, system overview and scientific objectives

Adrien Deschamps (CNES, France)

3:45

6.8: The GeoCarb Mission

Berrien Moore (University of Oklahoma, USA)

4:00

6.9: ARRHENIUS: Exploring Carbon Regional Flux Dynamics in Africa, Europe and the Middle East from Geostationary Orbit

Andre Butz (U. Heidelberg, Germany)

4:15

6.10: AIM-North: The Atmospheric Imaging Mission for Northern Regions

Ray Nassar (Environment and Climate Change Canada, Canada)

4:30

6.11: CARBO: The carbon balance observatory

Charles Miller (JPL, Caltech, USA)

4:45

6.12: Pulsed Lidar Measurements of CO ₂ Column Concentrations in the 2017 ASCENDS Airborne Campaign, and beyond

James Abshire (NASA Goddard, USA)

5:00

Wrap-up and Discussion for IWGGMS-2019

5:30

End of Meeting

A1.1

Four years of IASI CO ₂ , CH ₄ , N ₂ O retrievals: validation with in situ observations from the Mauna Loa station

Carmine Serio (U. Basilicata, Italy)

A1.2

Sentinel-5 Precursor: Early In-Flight Operation

Herbert Nett (ESA ESTEC, Netherlands)

A1.3

Retrieved of L2 Products from new V205 L1B spectra in the thermal infrared band of TANSO-FTS over the Arctic ocean and comparison with retrieval from previous versions.

Sébastien Payan (LATMOS/Sorbonne U./CNRS /IPSL, France)

A1.4

Characterization of the TanSat slit function using solar measurements

Zhaonan Cai (Chinese Academy of Sciences, China)

A1.5

In-Flight Performance of TanSat Atmospheric Carbon Dioxide Grating Spectrometer

Zhong -Dong Yang (National Satellite Meteorological Centre, China)

A1.6

Using satellite observations to constrain the combined impacts of ecosystem memory and climate extremes on the tropical carbon balance

A. Anthony Bloom (JPL, Caltech, USA)

A2.1

The total IASI level 2 processor τ² IP : Application to Seven-years of IASI sea surface temperature, CO ₂ , CH ₄ , N ₂ O retrievals for the Arctic Ocean during the summer season

Guido Masiello (U. Basilicata, Italy)

A2.2

Reducing Biases in Greenhouse Retrievals by Quantifying Aerosol Scattering Effects: Case Study Using Measurements from the California Laboratory for Atmospheric Remote Sensing (CLARS)

Vijay Natraj (JPL, Caltech)

A2.3

Spectroscopy for the OCO-2 mission: Progress and plans for addressing remaining challenges

Vivienne Payne (JPL, Caltech)

A2.4

Aerosol properties in the atmosphere from GOSAT/CAI and GOSAT-2/CAI-2

Makiko Hashimoto (Japan Aerospace Exploration Agency, Japan)

A2.5

What Can We Learn From Performing Simplified XCO ₂ Retrievals on Synthetic Near-Infrared Observations?

Robert R. Nelson (Colorado State U., USA)

A2.6

Sensitivity test for PPDF-S retrieval method using atmospheric radiative transfer model

Chisa Iwasaki (U. Tokyo, Japan)

A2.7

Single-band carbon dioxide retrievals from the OCO2-satellite using the 2 micron band

Haili Hu (SRON, Netherlands)

A2.8

Toward improvement of the retrieval algorithm for GOSAT TANSO-FTS SWIR L2 products

Hirofumi Ohyama (NIES, Japan)

A2.9

Yonsei CArbon Retrieval Algorithm: Validation, Error Analysis, and Its Application to OCO-2 Satellite

Jaemin Hong ( Yonsei U., Korea)

A2.10

CO ₂ Retrievals from OCO-2 using the UoL Retrieval: Validation against TCCON and evaluation of fast RT methods

Peter Somkuti (U. Leicester, UK)

A2.11

CO ₂ concentration in the boundary layer estimated from a synergy of SWIR and TIR of TANSO-FTS/GOSAT

Ryoichi Imasu (U. Tokyo, Japan)

A2.12

The improvement of using aerosol information from CAPI/ TanSat nadir observation in CO ₂ retrieval: Theoretical analysis

Xi Chen (Chinese Academy of Sciences, China)

A3.1

Philippines TCCON Project: Result on One-year Measurements and Future

Isamu Morino (NIES, Japan)

A3.2

TCCON Updates and Improvements to Precision Requirements

Coleen M. Roehl (Caltech, USA)

A3.3

Calibration of TCCON observations on Ascension Island with aircraft profiles from the NASA ATom campaigns

Dietrich G. Feist (Max Planck Institute for Biogeochemistry, Germany)

A3.4

Simultaneous Nadir Overpass Matchups of GOSAT/TANSO-FTS and AQUA/AIRS: TIR Band April 2009 – August 2017

Jonathan Gero (U. Wisconsin, USA)

A3.5

GOSAT and OCO-2 validation activities at Saga station and campaign sites

Kei Shiomi (JAXA, Japan)

A3.6

Long-term Monitoring of Greenhouse Gases at the Izaña Atmospheric Observatory

Omaira Garc í a (Meteorological State Agency of Spain, Spain)

A3.7

Comparison of N ₂ O and CH ₄ retrievals from PARIS-IR and ACE-FTS.

Paul S. Jeffery (U. Toronto, Canada)

A3.8

Ground based and satellite borne observations of greenhouse gases at Sodankylä , Finland

Rigel Kivi (Finnish Meteorological Institute, Finland)

A3.9

Development of a portable, low-cost XCO ₂ observation system using a grating spectrometer and analysis of observation results

Xiu -Chun Qin (Nagoya U., Japan)

A4.1

Benchmarking chemistry-climate model top-of-atmosphere flux in the 9.6 micron infrared ozone absorption band with comparisons to satellite observations

Helen Worden (NCAR, USA)

A4.2

First year results of the Fiducial Reference Measurements for GreenHouse Gases (FRM4GHG) intercomparison campaign performed at the Sodankylä TCCON site

Mahesh Kumar Sha (BIRA-IASB, Belgium)

A4.3

The SACH4 project: Source Attribution of CH ₄ using satellite observations, isotopic measurements and GEOS-Chem simulations.

Evelyn De Wachter (BIRA-IASB, Belgium)

B1.1

The PFT results of the mission instruments of GOSAT-2

Masakatsu Nakajima (JAXA, Japan)

B1.2

Overview of OCO-3 Status and Development

Annmarie Eldering (JPL, Caltech, USA)

B1.3

Methane Sensing by a Small Fabry -Perot Interferometer on the Space Station.

William Heaps (Johns Hopkins Applied Physics Lab, USA)

B1.4

GHGSat : Towards an Operational Constellation

Jason McKeever ( GHGSat Inc., Canada)

B2.1

MIPAS IMK/IAA carbon tetrachloride (CCl ₄ ) retrieval and first comparison with other instruments

Ellen Eckert (U. Toronto, Canada)

B2.2

Progress status of the GOSAT and GOSAT-2 SWIR L2 retrievals

Yukio Yoshida (NIES, Japan)

B2.3

Evaluation of OCO-2 Small-Scale Variability Using Lidar and In Situ CO ₂ Observations from the ACT-America Campaign

Emily Bell (Colorado State U., USA)

B2.4

Preliminary XCO ₂ retrieval results of TanSat in Dunhuang

Shupeng Wang (China Meteorological Administration, China)

B3.1

Time Series Analysis for the ACE-FTS and MIPAS CFC-11 and CFC-12 Data Products

Jason Zou (U. Toronto, Canada)

B3.2

Study on the first ground-based FTS measurements at Beijing, China and comparisons with GOSAT and OCO XCO ₂ data

Xingying Zhang (China Meteorological Administration, China)

B3.3

Evaluation of the seasonal cycle and variability of the trend from GOSAT methane retrievals

Ella Kivimäki (Finnish Meteorological Institute, Finland)

B3.4

Improving OCO-2 Northern High Latitude Retrievals Over Snow

Joseph Mendonca (ECCC and U. Toronto, Canada)

B3.5

A real-time retrieval of greenhouse gases from portable, ground-based Fourier-Transform Spectrometers

Kang Sun (U. Buffalo, USA)

B3.6

Validation of Satellite Measurements with Portable Fourier Transform Spectrometers (EM27/SUN)

Nasrin Mostafavi Pak (U. Toronto, Canada)

B3.7

Comparison of atmospheric CO ₂ column measurements at high latitudes from ground-based and satellite-based methods

Nicole Jacobs (U. Alaska Fairbanks, USA)

B3.8

COCCON - a framework for operating the EM27/SUN spectrometer

Omaira García (Meteorological State Agency of Spain, Spain)

B3.9

Retrieving CO ₂ profiles from TCCON near-infrared spectra

Sébastien Roche (U. Toronto, Canada)

B4.2

The TROPOMI CO data product: Monitoring pollution with daily global coverage and high spatial resolution

Tobias Borsdorff (SRON Netherlands Institute for Space Research, Netherlands)

B4.3

Greenhouse gas emission from megacities observed by GOSAT TANSO-FTS

Nobuhiro Kikuchi (Japan Aerospace Exploration Agency, Japan)

B4.4

Analysis on possible anomalous regional emission and absorption events of greenhouse gases with GOSAT and OCO-2

Koki Kasai (Hokkaido U., Japan)

B4.5

CO ₂ emissions from anthropogenic and fire activity based on SCIAMACHY, GOSAT and OCO-2

Yusheng Shi (Chinese Academy of Sciences, China)

B5.1

Broad-scale CO ₂ fluxes given by inverting new (v8) retrievals of OCO-2 column CO ₂

David Baker (CIRA/Colorado State U., USA)

B5.2

A Comparison of Eddy Decompositions of TM5 and GEOS-Chem in CO ₂

Andrew Schuh (Colorado State U., USA)

B5.3

On what scales can GOSAT flux inversions constrain inter-annual variability in terrestrial ecosystems?

Brendan Byrne (U. Toronto, Canada)

B5.4

On the consistency of OCO-2 XCO ₂ data from different observing modes and their application to atmospheric inversion analyses

Feng Deng (U. Toronto, Canada)

B5.5

The Impact of Accounting for 3-D CO ₂ Production on Inversion for Natural Fluxes Using GOSAT and In Situ Observations

James S. Wang (USRA / NASA Goddard Space Flight Center, USA)

B5.6

Opportunities and challenges of posterior CO ₂ flux validation with aircraft CO ₂ observations

Junjie Liu (JPL, Caltech, USA)

B5.7

Satellite bias estimation by independent CO ₂ inversion analysis

Takashi Maki (Meteorological Research Institute, Japan)

B5.8

Implications of Overestimated Anthropogenic CO ₂ Emissions on East Asian and Global Land CO ₂ Flux Inversions

Tazu Saeki (NIES, Japan)

B5.9

Radiance offset correction for observing SIF from GOSAT and inter-satellite comparison of the derived SIF

Haruki Oshio (NIES, Japan)

B5.10

Seasonal changes in SIF in a warm-temperate evergreen coniferous forest in Japan

Hibiki M. Noda (NIES, Japan)

C1.1

MERLIN Level 0-1 Processing and Calibration Concept

Günter Lichtenberg (German Aerospace Centre (DLR), Germany)

C3.1

Atmospheric CO ₂ Concentration Measurements to Cloud Tops from an Airborne Lidar during 2017 ASCENDS Science Campaign in Alaska

Jianping Mao (U. Maryland, USA)

C3.2

Methane Monitor: An Airborne, Wide-Swath, Methane Mapping Instrument

William Tandy (Ball Aerospace, USA)

C4.1

Temporal and spatial variability of methane over Alberta as observed from space

Heba Marey (U. Toronto, Canada)

C4.2

Finding emission sources with lightweight data driven modeling

Jouni Susiluoto (Lappeenranta U. of Technology & MIT, Finland / USA)

C4.3

A methodology for characterizing methane emissions from urban and oil and gas producing regions using a methane column imaging satellite

Joshua Benmergui (Harvard U., USA)

C4.4

The ODIAC - A global monthly high-resolution fossil fuel CO ₂ emissions data product for tracer transport simulations and surface flux inversions

Tomohiro Oda (USRA/NASA Goddard, USA)

C4.5

Comparing potential of a satellite constellation to monitor fossil fuel CO ₂ emissions from large cities and industrial sites

Franck Lespinas (LSCE, France)

C5.2

Monitoring Global OH Abundances using Satellite Observations of Atmospheric Methane

Yuzhong Zhang (Harvard U., USA)

C5.3

Development of ECCC's regional transport model to simulate high spatial and temporal variability of atmospheric greenhouse gases

Jinwoong Kim (ECCC, Canada)

C5.4

Tropical wetland methane emissions inferred from GOSAT XCH ₄ retrievals

Mark Lunt (U. Edinburgh, Canada)

C5.5

Global CO emission estimates inferred from assimilation of MOPITT CO data, together with observations of O ₃ , NO ₂ , HNO ₃ and HCHO

Xuesong Zhang (U. Toronto, Canada)

C5.6

How well do surface observations constrain the CO state? Assimilation experiments with EC-CAS in an OSSE framework

Vikram Khade (U. Toronto, Canada)

C5.7

Towards global and regional methane budgets estimated by high spatial resolution atmospheric inverse model with GOSAT retrievals

Aki Tsuruta (NIES, Japan)

C5.8

Impact of coarse model resolution on chemical transport modelling of methane

Ilya Stanevich (U. Toronto, Canada)

C5.9

A city to national scale atmospheric inverse modeling system to assess the potential of new space borne measurement concepts for the monitoring of CO ₂ anthropogenic emissions in Western Europe: a case study focused on Paris.

Diego Santaren (LSCE, France)

C6.1

GOSAT score map toward optimizing sampling pattern for global and regional flux estimation

Fumie Kataoka (Remote Sensing Technology Center of Japan, Japan)

C6.2

The next generation of TanSat and space-air-ground monitoring system

Lin Qiu (Chinese Academy of Sciences, China)

C6.3

The European Anthropogenic CO ₂ Monitoring Mission: Instrument requirements for space-borne measurement of greenhouse gas point sources

Bernd Sierk (European Space Agency (ESA))

C6.4

Optical Bench Breadboard Of An Imaging Fourier Transform Spectrometer (IFTS) For Climate Observations

Gurpreet Singh (York U., Canada)

C6.5

An Imaging Fourier Transform Spectrometer for Remote Nadir Atmospheric Measurements of CO ₂ , CH ₄ and the O ₂ A-band

Zahra Vaziri (York U., Canada)

C6.6

Determining required signal-to-noise ratios for XCO ₂ and XCH ₄ precision targets: Application to AIM-North

Christopher Sioris (ECCC, Canada)

C6.7

Reevaluating the use of Oxygen band at 1.27 micron in spaceborne remote sensing of greenhouse gases

Kang Sun (U. Buffalo, USA)

C6.8

The MicroCarb L1 & L2 algorithms and performances

Denis Jouglet (CNES, France)

C6.9

High resolution methane tracking micro-satellites

Richard L. Lachance (Bluefield Technologies, USA)

C6.10

The challenges of measuring Methane from orbit

Haris Riris (NASA Goddard Space Flight Center, USA)

C6.11

A Cost Effective Laser-Based Enhancement of Passive Carbon Monitoring Approaches form GEO or LEO Orbits

Jeremy Dobler (Harris Corporation, USA)

C6.12

Combining cloud-top and total-column methane retrievals from an active sensor

Julia Marshall (Max Planck Institute for Biogeochemistry, Germany)

C6.13

Airborne CO ₂ Lidar Measurements for the Atmospheric Carbon and Transport - America (ACT-America) Project and the ASCENDS 2017 Field Campaign

Byron Meadows (NASA Langley, USA)