Please see Google Scholar Profile for a complete list

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15. Thompson, D. R., Green, R. O., Bradley, C., Brodrick, P. G., Mahowald, N., Dor, E. Ben, Bennett, M., Bernas, M., Carmon, N., Chadwick, K. D., Clark, R. N., Coleman, R. W., Cox, E., Diaz, E., Eastwood, M. L., Eckert, R., Ehlmann, B. L., Ginoux, P., Ageitos, M. G., Grant, K., Guanter, L., Pearlshtien, D. H., Helmlinger, M., Herzog, H., Hoefen, T., Huang Y., Keebler, A., Kalashnikova, O., Keymeulen, D., Kokaly, R., Klose, M., Li, L., Lundeen, S. R., Meyer, J., Middleton, E., Miller, R. L., Mouroulis, P., Oaida, B., Obiso, V., Ochoa, F., Olson-Duvall, W., Okin, G. S., Painter, T. H., Pérez García-Pando, C., Pollock, R., Realmuto, V., Shaw, L., Sullivan, P., Swayze, G., Thingvold, E., Thorpe, A. K., Vannan, S., Villarreal, C., Ung, C., Wilson, D. W., and Zandbergen, S., On-orbit calibration and performance of the EMIT imaging spectrometer, Remote Sensing of Environment, 303 (113986), 1-16, https://doi.org/10.1016/j.rse.2023.113986, 2024 (Link, open access).

 

14. Huang Y., J. F. Kok, M. Saito, and O. Muñoz, Single-scattering properties of ellipsoidal dust aerosols constrained by measured dust shape distribution, Atmospheric Chemistry and Physics, 23(4), 2557-2577, doi: 10.5194/acp-23-2557-2023 (Link, open access).

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13. González-Flórez, C., Klose, M., Alastuey, A., Dupont, S., Escribano, J., Etyemezian, V., Gonzalez-Romero, A., Y. Huang, Kandler, K., Nikolich, G., Panta, A., Querol, X., Reche, C., Yus-Díez, J., and Pérez García-Pando, C.: Insights into the size-resolved dust emission from field measurements in the Moroccan Sahara, Atmospheric Chemistry and Physics, 23, 7177–7212, https://doi.org/10.5194/acp-23-7177-2023, 2023 (Link, open access).

 

12. Adebiyi A. A., Y. Huang, B. H. Samset, and J. F. Kok, Observations suggest that North African dust absorbs less solar radiation than models estimate, Communications Earth & Environment, 23(4), 1–13, doi:10.1038/s43247-023-00825-2 (Link, open access).

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11. Adebiyi A. A., J. F. Kok, B. J. Murray, C. L. Ryder, J. W. Stuut, R. A. Kahn, P. Knippertz, P. Formenti, N. M. Mahowald, C. Pérez García-Pando, M. Klose, A. Ansmann, B. H. Samset, A. Ito, Y. Balkanski, C. Di Biagio, M. N. Romanias, Y. Huang, and J. Meng, A review of coarse mineral dust in the Earth system, Aeolian Research (invited review), 60, 100849, doi: 10.1016/j.aeolia.2022.100849 (Link, open access). 

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10. Li L., N. M. Mahowald, J. F. Kok, X. Liu, M. Wu, D. M. Leung, D. S. Hamilton, L. Emmons, Y. Huang, J. Meng, N. Sexton, and J. Wan, Importance of different parameterization changes for the updated dust cycle modeling in the Community Atmosphere Model (version 6.1), Geoscientific Model Development, 15 (22), 8181–8219, doi: 10.5194/gmd-15-8181-2022 (Link, open access).

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9. Meng J., Y. Huang, D. M. Leung, L. Li, A. A. Adebiyi, C. L. Ryder, N. M. Mahowald, and J. F. Kok, Improved parameterization for the size distribution of emitted dust aerosols reduces model underestimation of super coarse dust, Geophysical Research Letters,49(7), doi: 10.1029/2021GL097287 (Link). 

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8. Ito A., A. A. Adebiyi, Y. Huang and J. F. Kok (2021), Less atmospheric radiative heating by dust due to the synergy of coarser size and aspherical shape, Atmospheric Chemistry and Physics, 21(22), 16869–16891, doi: 10.5194/acp-21-16869-2021(Link, open access).

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7. Klose, M., Jorba, O., Gonçalves Ageitos, M., Escribano, J., Dawson, M., Obiso, V., Di Tomaso, E., Basart, S., Montané Pinto, G., Macchia, F., Ginoux, P., Guerschman, J., Prigent, C., Huang Y., Kok, J., Miller, R., & Pérez García-Pando, C. (2021). Mineral dust cycle in the Multiscale Online Nonhydrostatic AtmospheRe CHemistry model (MONARCH) Version 2.0, Geoscientific Model Development, 14(10), 6403–6444. doi: 10.5194/gmd-14-6403-2021 (Link, open access)

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6. Kok J. F., Adebiyi A. A., Albani S., Balkanski Y., Checa-Garcia R., Chin M., Colarco P. R., Hamilton D. S., Huang Y., Ito A., Klose M., Li L., Mahowald N. M., Miller R. L., Obiso V., Pérez García-Pando C., Rocha-Lima A., and Wan J. S. (2021), Contribution of the world's main dust source regions to the global cycle of desert dust, Atmospheric Chemistry and Physics, 21(10), 8169–8193, doi: 10.5194/acp-21-8169-2021 (Link, open access).

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5. Kok J. F., Adebiyi A. A., Albani S., Balkanski Y., Checa-Garcia R., Chin M., Colarco P. R., Hamilton D. S., Huang Y., Ito A., Klose M., Leung D. M., Li L., Mahowald N. M., Miller R. L., Obiso V., Pérez García-Pando C., Rocha-Lima A., Wan J. S., and Whicker C. A. (2021), Improved representation of the global dust cycle using observational constraints on dust properties and abundance, Atmospheric Chemistry and Physics, 21(10), 8127–8167, doi: 10.5194/acp-21-8127-2021 (Link, open access).

 

4. Huang Y., A. A. Adebiyi, P. Formenti, and J. F. Kok (2021), Linking the different diameter types of aspherical desert dust indicates that models underestimate coarse dust emission, Geophysical Research Letters, 48(6), doi: 10.1029/2020GL092054 (Link and PDF).

 

3. Swet N., J. F. Kok, Y. Huang, H. Yizhaq and I. Katra (2020), Low dust generation potential from active sand grains by wind abrasion,  Journal of Geophysical Research - Earth Surface, 125(7), doi:10.1029/2020JF005545 (Link).

 

2. Huang Y., J. F. Kok, K. Kandler, H. Lindqvist, T. Nousiainen, S. Tetsu, A. A. Adebiyi, and O. Jokinen (2020), Climate models and remote sensing retrievals neglect substantial desert dust asphericity, Geophysical Research Letters, 47(6), doi:10.1029/2019GL086592 (Link and PDF).

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1. Huang Y., J. F. Kok, R. L. Martin, N. Swet, I. Katra, T. E. Gill, R. L. Reynolds, and L. S. Freire (2019), Fine dust emissions from active sands at coastal Oceano Dunes, California, Atmospheric Chemistry and Physics, 19(5), 2947-2964, doi: 10.5194/acp-19-2947-2019 (Link, open access).

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Doctoral thesis

0. Huang Y. (2021), Observational constraints on dust size and shape: implications for global aerosol models and remote sensing retrievals, Ph.D. Dissertation, University of California Los Angeles. (Link).

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