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Publications

2023

Sean Crowell, Tobias Haist, Michael Tscherpel, Jérôme Caron, Eric Burgh, and Berrien Moore III (2023). Performance and polarization response of slit homogenizers for the GeoCarb mission. Atmos. Meas. Tech., 16, 195–208.

2022

Yu Yan Cui, Li Zhang, Andrew R. Jacobson, Matthew S. Johnson, Sajeev Philip, David Baker, Frederic Chevallier, Andrew E. Schuh, Junjie Liu, Sean Crowell, Hélène E. Peiro, Feng Deng, Sourish Basu, and Kenneth J. Davis (2022). Evaluating Global Atmospheric Inversions of Terrestrial Net Ecosystem Exchange CO₂ Over North America on Seasonal and Sub-Continental Scales. Geophysical Research Letters, e2022GL100147.
Somkuti, P., O'Dell, C. W., Crowell, S., Köhler, P., McGarragh, G. R., Cronk, H. Q., & Burgh, E. B. (2021). Solar-induced chlorophyll fluorescence from the Geostationary Carbon Cycle Observatory (GeoCarb): An extensive simulation study. Remote Sensing of Environment, 263, 112565.
Nalini, K., Lauvaux, T., Abdallah, C., Lian, J., Ciais, P., Utard, H., et al. (2022). High-resolution Lagrangian inverse modeling of CO2 emissions over the Paris region during the first 2020 lockdown period. Journal of Geophysical Research: Atmospheres, 127, e2021JD036032.
Hélène Peiro, Sean Crowell, Andrew Schuh, David F. Baker, Chris O'Dell, Andrew R. Jacobson, Frédéric Chevallier, Junjie Liu, Annmarie Eldering, David Crisp, Feng Deng, Brad Weir, Sourish Basu, Matthew S. Johnson, Sajeev Philip, and Ian Baker. (2022) Four Years of Global Carbon Cycle Observed from the Orbiting Carbon Observatory 2 (OCO-2) version 9 and in situ data and comparison to OCO-2 version 7, Atmos. Chem. Phys., 22, 1097–1130.
Li Zhang, Kenneth J. Davis, Andrew E. Schuh, Andrew R. Jacobson, Sandip Pal, Yu Yan Cui, David Baker, Sean Crowell, Frederic Chevallier, Marine Remaud, Junjie Liu, Brad Weir, Sajeev Philip, Matthew S. Johnson, Feng Deng & Sourish Basu. (2022) Multi-Season Evaluation of CO2 Weather in OCO-2 MIP Models.

2021

Philipp Köhler, Woodward W. Fischer, George R. Rossman, John P. Grotzinger, Russell Doughty, Yujie Wang,Yi Yin, Christian Frankenberg. Mineral Luminescence Observed From Space, 2021.
Hu, X.‐M., Gourdji, S. M., Davis, K. J., Wang, Q., Zhang, Y., Xue, M., Feng, S., Moore, B., Crowell, S. Implementation of improved parameterization of terrestrial flux in WRF‐VPRM improves the simulation of nighttime CO2 peaks and a daytime CO2 band ahead of a cold front. Journal of Geophysical Research: Atmospheres, 126, e2020JD034362. https://doi.org/10.1029/2020JD034362, 2021.
Hu, X.-M., Hu, J., Gao, L., Cai, C., Jiang, Y., Xue, M., S. Crowell. Multi-sensor and Multi-model Monitoring and Investigation of a Wintertime Air Pollution Event Ahead of a Cold Front over Eastern China. J. Geophys. Res.-Atmospheres, https://doi.org/10.1029/2020JD033538, 2021.

2020

Xiaocui W., Xiao X., Zhengwei Y., Jie, W., Jean S., and Rajen B.. Spatial-temporal dynamics of maize and soybean planted area, harvested area, gross primary production, and grain production in the Contiguous United States during 2008-2018. https://doi.org/10.1016/j.agrformet.2020.1088240, 2020.
Doughty R., Xiao X., Qin Y., Wu X., Zhang Y., Moore III B. Small anomalies in dry-season greenness and chlorophyll fluorescence for Amazon moist tropical forests during El Niño and La Niña. Remote Sensing of Environment. https://doi.org/10.1016/j.rse.2020.112196, 2020.

2019

Doughty, R., Philipp K., Christian F., Troy S. M., Xiangming X., Yuanwei Q., Xiaocui W., and Berrien Moore III. TROPOMI reveals dry-season increase of solar-induced chlorophyll fluorescence in the Amazon forest. PNAS, https://doi.org/10.1073/pnas.1908157116, 2019.
Nivitanont, J., Crowell, S. M. R., and Moore III, B .: A Scanning Strategy Optimized for Signal-to-Noise Ratio for the Geostationary Carbon Cycle Observatory (GeoCarb) Instrument, Atmos. Meas. Tech., 12, 3317–3334, 2019 https://doi.org/10.5194/amt-12-3317-2019, 2019
Crowell, S. M. R., Baker, D., Schuh, A., Basu, S., Jacobson, A. R., Chevallier, F., Liu, J., Deng, F., Feng, L., Chatterjee, A., Crisp, D., Eldering, A., Jones, D. B., McK- ain, K., Miller, J., Nassar, R., Oda, T., O’Dell, C., Palmer, P. I., Schimel, D., Stephens, B., and Sweeney, C.: The 2015?2016 Carbon Cycle As Seen from OCO-2 and the Global In Situ Network, Atmos. Chem. Phys., https://doi.org/10.5194/acp-2019-87, 2019.

2018

Moore, B., S. M. R. Crowell, P. .J. Rayner, J. Kumer, C. W. O’Dell, D. O’Brien, S. Utembe, I. Polonsky, D. Schimel, J. Lemen. The Potential of the Geostationary Carbon Cycle Observatory (GeoCarb) to Provide Multi-scale Constraints on the Carbon Cycle in the Americas. Front. Env. Sci., 6, 109, doi:10.3389/fenvs.2018.00109, 2018.
Shi, Z., S. M. R. Crowell, Y. Luo and B. Moore III (2018). Model structures amplify uncertainty in predicted soil carbon responses to climate change. Nature Communications 9, 2171.
Crowell, S. M. R., S. R. Kawa, D. Hammerling, and B. Moore. On the Ability of Space-Based Passive and Active Remote Sensing Observations of CO2 to Detect Flux Perturbations to the Carbon Cycle, Journal of Geophysical Research: Atmospheres, 123, 1460-1477. https://doi.org/10.1002/2017JD027836, 2018.
O’Dell, C. W., Eldering, A., Wennberg, P. O., Crisp, D., Gunson, M. R., Fisher, B., Frankenberg, C., Kiel, M., Lindqvist, H., Mandrake, L., Merrelli, A., Natraj, V., Nelson, R. R., Osterman, G. B., Payne, V. H., Taylor, T. E., Wunch, D., Drouin, B. J., Oyafuso, F., Chang, A., McDuffie, J., Smyth, M., Baker, D. F., Basu, S., Chevallier, F., Crowell, S. M. R., Feng, L., Palmer, P. I., Dubey, M., Garca, O. E., Griffith, D. W. T., Hase, F., Iraci, L. T., Kivi, R., Morino, I., Notholt, J., Ohyama, H., Petri, C., Roehl, C. M., Sha, M. K., Strong, K., Sussmann, R., Te, Y., Uchino, O., and Velazco, V. A.: Improved retrievals of carbon dioxide from Orbiting Carbon Observatory-2 with the version 8 ACOS algorithm, Atmos. Meas. Tech., 11, 6539-6576, http://dx.doi.org/10.5194/amt-11-6539-2018, 2018.
Piers J. Sellers, David S. Schimel, Berrien Moore, JunjieLiu, Annmarie Eldering;Observing carbon cycle–climate feedbacks from space; Proceedings of the National Academy of Sciences Jul 2018, 201716613; DOI: 10.1073/pnas.1716613115

2016

O'Brien, D. M., Polonsky, I. N., Utembe, S. R., and Rayner, P. J.: Potential of a geostationary geoCARB mission to estimate surface emissions of CO2, CH4 and CO in a polluted urban environment: case study Shanghai, Atmos. Meas. Tech., 9, 4633-4654, 2016.

2015

O’Brien, D. M., I. N. Polonsky, J. B. Kumer, 2015, Sensitivity of remotely sensed trace gas concentrations to polarisation, Atmos. Meas. Tech., 8, 4917-4930, doi:10.5194/amt- 8-4917, 2015.

2014

Rayner, P. J., S. R. Utembe, and S. Crowell, 2014, "Constraining regional greenhouse gas emissions using geostationary concentration measurements: a theoretical study," Atmospheric Measurement Techniques 7.10: 3285-3293.
Kumer, J. B., R. L Rairden, I. N. Polonsky, and D. M. O'Brien, Dec. 15-19, 2014, Demonstration That Calibration of the Instrument Response to Polarizations Parallel and Perpendicular to the Object Space Projected Slit of an Imaging Spectrometer Enable Measurement of the Atmospheric Absorption Spectrum in Region of the Weak CO2 Band for the Case of Arbitrary Polarization: Implication for the Geocarb Mission, https://agu.confex.com/agu/fm14/meetingapp.cgi/Paper/8863.
Polonsky, I. N., D.M. O'Brien, J.B. Kumer, C.W. O'Dell, and the geoCARB Team, 2014, Performance of a geostationary mission, geoCARB, to measure CO2, CH4 and CO column-averaged concentrations, Atmos. Meas. Tech., 7, 959-981, doi:10.5194/amt-7- 959-2014

2013

Kumer, J., R. Rairden, and A. Roche, 2013, Modeling the 2.33 μm TIMS spectrometer radiometric noise: Implications for space applications, Aerospace Conference p 1 – 20; doi:10.1109/AERO.2013.6497369
Kumer, J. B., R. L. Rairden, A. E. Roche, F. Chevallier, P. Rayner and B. Moore III, 2013, Progress in development of Tropospheric Infrared Mapping Spectrometers (TIMS): geoCARB Greenhouse Gas (GHG) application, Proc. SPIE 8867, Infrared Remote Sensing and Instrumentation XXI, 88670K, doi:10.1117/12.2022668

2011

Kumer, J. B., R. Rairden, A. Roche, and R. Chatfield, 2011, NASA ESTO IIP Tropospheric Infrared Mapping Spectrometers (TIMS) demonstration first deployment on an airship: Preliminary results, Hyperspectral Imaging and Sounding of the Environment, in Imaging and Applied Optics, OSA Technical Digest, Optical Society of America, doi:10.1364/HISE.2011.HTuD2

2009

Kumer, J. B., A. E. Roche, R. L. Rairden, S. Desouza-Machado, R. Blatherwick, T. Hawat, and R. Chatfield, 2009, NASA ESTO Instrument Incubator Program (IIP) Tropospheric Infrared Mapping Spectrometers (TIMS) Demonstration of Multi-Layer CO Retrieval from Atmospheric Data Acquired Simultaneously in the Solar Reflective Region near 2330 nm and the Thermal Emissive Region near 4680 nm, in Advances in Imaging, Hyperspectral Imaging and Sensing of the Environment, OSA Technical Digest, Optical Society of America, doi:10.1364/HISENSE.2009.HMC5