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29 | 29 | <h2>Publications</h2> |
30 | 30 | <div> |
31 | 31 | <ul class="icons"> |
32 | | - <li><a onclick="filterItems('all')" class="button primary regular">all</a></li> |
33 | | - <li><a onclick="filterItems('climate-change')" class="button primary regular">Climate Change</a></li> |
34 | | - <li><a onclick="filterItems('arctic')" class="button primary regular">Arctic</a></li> |
35 | | - <li><a onclick="filterItems('extreme')" class="button primary regular">Extreme Events</a></li> |
| 32 | + <li><a onclick="filterItems('all')" class="button primary small">all</a></li> |
| 33 | + <li><a onclick="filterItems('climate-change')" class="button primary small">Climate Change</a></li> |
| 34 | + <li><a onclick="filterItems('arctic')" class="button primary small">Arctic</a></li> |
| 35 | + <li><a onclick="filterItems('extreme')" class="button primary small">Extreme Events</a></li> |
36 | 36 | <br></br> |
37 | | - <li><a onclick="filterItems('reservoir')" class="button primary regular">Reservoir</a></li> |
38 | | - <li><a onclick="filterItems('streamflow')" class="button primary regular">River Flow</a></li> |
39 | | - <li><a onclick="filterItems('stream-temperature')" class="button primary regular">River Temperature</a></li> |
| 37 | + <li><a onclick="filterItems('reservoir')" class="button primary small">Reservoir</a></li> |
| 38 | + <li><a onclick="filterItems('streamflow')" class="button primary small">River Flow</a></li> |
| 39 | + <li><a onclick="filterItems('stream-temperature')" class="button primary small">River Temperature</a></li> |
40 | 40 | <br></br> |
41 | | - <li><a onclick="filterItems('data')" class="button primary regular">Dataset</a></li> |
42 | | - <li><a onclick="filterItems('model')" class="button primary regular">Numerical Model</a></li> |
43 | | - <li><a onclick="filterItems('optimization')" class="button primary regular">Model Optimization</a></li> |
| 41 | + <li><a onclick="filterItems('ML')" class="button primary small">AI/ML</a></li> |
| 42 | + <li><a onclick="filterItems('data')" class="button primary small">Dataset</a></li> |
| 43 | + <li><a onclick="filterItems('model')" class="button primary small">Numerical Model</a></li> |
| 44 | + <li><a onclick="filterItems('optimization')" class="button primary small">Optimization</a></li> |
44 | 45 | <br></br> |
45 | | - <li><a onclick="filterItems('interdisciplinary')" class="button primary regular">Interdisciplinary</a></li> |
46 | | - <li><a onclick="filterItems('ecosystem')" class="button primary regular">Ecosystem</a></li> |
47 | | - <li><a onclick="filterItems('power')" class="button primary regular">Electric Power System</a></li> |
| 46 | + <li><a onclick="filterItems('interdisciplinary')" class="button primary small">Interdisciplinary</a></li> |
| 47 | + <li><a onclick="filterItems('ecosystem')" class="button primary small">Ecosystem</a></li> |
| 48 | + <li><a onclick="filterItems('power')" class="button primary small">Electric Power System</a></li> |
48 | 49 | <br></br> |
49 | | - <li><a onclick="filterItems('co-production')" class="button primary regular">Knowledge Co-production</a></li> |
50 | | - <li><a onclick="filterItems('la-interact')" class="button primary regular">Land-Atmosphere Interaction</a></li> |
| 50 | + <li><a onclick="filterItems('co-production')" class="button primary small">Knowledge Co-production</a></li> |
| 51 | + <li><a onclick="filterItems('la-interact')" class="button primary small">Land-Atmosphere Interaction</a></li> |
51 | 52 | </ul> |
52 | 53 | </div> |
53 | 54 | <div class="content"> |
54 | 55 | <h3>In revision</h3> |
55 | | - <p class="optimization model data la-interact interdisciplinary"> <b>Cheng, Y.</b>, A. Craig, K. Musselman, A. Bennett, M. Seefeldt, J. Hamman, and A.J. Newman, 2024. Coupled high-resolution land-atmosphere modeling for hydroclimate and terrestrial hydrology in Alaska and the Yukon River basin (1990-2021). Submitted to <em>JGR-Atmospheres</em>, <b>In revision</b> |
56 | | - <p class="model data"> Kennedy, D., K. Dagon, D.M. Lawrence, R.A. Fisher, B.M. Sanderson, N. Collier, F.M. Hoffman, C.D. Koven, E. Kluzek, S. Levis, X. Lu, K.W. Oleson, C.M. Zarakas, <b>Y. Cheng</b>, A.C. Foster, M.D. Fowler, L.R. Hawkins, T. Kavoo, S. Kumar, A.J. Newman, P.J. Lawrence, F. Li, D.L. Lombardozzi, Y. Luo, J.K. Shuman, A.L.S. Swann, S.C. Swenson, G. Tang, W.R. Wieder, and A.W. Wood, 2024. The Community Land Model, version 5.11, One-at-a-time Parameter Perturbation Ensemble. Submitted to <em>Journal of Advances in Modeling Earth Systems</em>, <b>In review</b> |
57 | | - <p class="optimization model data streamflow"> Elkouk, A., Y. Pokhrel, B. Livneh, E. Payton, L. Luo, <b>Y. Cheng</b>, K. Dagon, S. Swenson, A. W. Wood, D. M. Lawrence, and W. Thiery, 2024. Towards Understanding Parametric Controls on Runoff Sensitivity to Climate in the Community Land Model: A Case Study Over the Colorado River Headwaters. Submitted to <em>Water Resources Research</em>, <b>In revision</b> |
| 56 | + <p class="model data"> Kennedy, D., K. Dagon, D.M. Lawrence, R.A. Fisher, B.M. Sanderson, N. Collier, F.M. Hoffman, C.D. Koven, E. Kluzek, S. Levis, X. Lu, K.W. Oleson, C.M. Zarakas, <b>Y. Cheng</b>, A.C. Foster, M.D. Fowler, L.R. Hawkins, T. Kavoo, S. Kumar, A.J. Newman, P.J. Lawrence, F. Li, D.L. Lombardozzi, Y. Luo, J.K. Shuman, A.L.S. Swann, S.C. Swenson, G. Tang, W.R. Wieder, and A.W. Wood, 2025. The Community Land Model, version 5.11, One-at-a-time Parameter Perturbation Ensemble. Submitted to <em>Journal of Advances in Modeling Earth Systems</em>, <b>In review</b></p> |
| 57 | + <p class="ecosystem interdisciplinary arctic"> Shaftel, R., M. Feddern, S. McAfee, E. Schoen, C. Cunningham, V. von Biela, J. Paul, <b>Y. Cheng</b>, A.J. Newman, M. Perdue, J. Schwenk, A. von Finster, and J. Falke, 2025. Integrating climate data and river modeling to reveal Chinook salmon habitat conditions in Sub-Arctic river basins. Submitted to <em>Ecosphere</em>, <b>In review</b></p> |
| 58 | + <p class="arctic data ML"> Blaskey, D., I. Racine, M. Harlan, <b>Y. Cheng</b>, A.J. Newman, K. Lindenschmidt, M.N. Gooseff, and K.N. Musselman, 2025. Using Remote Sensing, Statistical, and Machine Learning Techniques to Assess Alaskan River Ice Phenology and Thickness. Submitted to <em>Water Resources Research</em>, <b>In review</b></p> |
| 59 | + <p class="arctic climate-change streamflow stream-temperature"> Blaskey, D., <b>Y. Cheng</b>, A.J. Newman, J.C. Koch, M.N. Gooseff, and K.N. Musselman, 2025. Alaskan hydrology in transition: Changing precipitation and evapotranspiration patterns are projected to reshape seasonal streamflow and water temperature by mid-century (2035-2064). Submitted to <em>Journal of Hydrometeorology</em>, <b>In revision</b></p> |
| 60 | + |
58 | 61 | <h3>Published</h3> |
59 | | - <p class="arctic data streamflow stream-temperature model"> 12. Blaskey, D., M. Gooseff, <b>Y. Cheng</b>, A. Newman, J. Koch, and K. Musselman, 2024. A high‐resolution, daily hindcast (1990–2021) of Alaskan river discharge and temperature from coupled and optimized physical models. <em>Water Resources Research</em>, <a href="http://dx.doi.org/10.1029/2023WR036217">doi:10.1029/2023WR036217</a></p> |
60 | | - <p class="arctic co-production"> 11. Herman‐Mercer, N., A. Andre, V. Buschman, D. Blaskey, C. Brooks, <b>Y. Cheng</b>, ..., and K. Musselman, 2023: The Arctic Rivers Project: Using an Equitable Co‐Production Framework for Integrating Meaningful Community Engagement and Science to Understand Climate Impacts. <em>Community Science</em>, <a href="http://dx.doi.org/10.1029/2022CSJ000024">doi:10.1029/2022CSJ000024</a></p> |
61 | | - <p class="arctic climate-change streamflow"> 10. Blaskey, D., J. Koch, M. Gooseff, A. Newman, <b>Y. Cheng</b>, J. O'Donnell, and K. Musselman, 2023: Increasing Alaskan river discharge during the cold season is driven by recent warming. <em>Environmental Research Letters</em>, <a href="http://dx.doi.org/10.1088/1748-9326/acb661">doi:10.1088/1748-9326/acb661</a></p> |
62 | | - <p class="arctic actionable-science streamflow optimization model"> 9. <b>Cheng, Y.</b>, K. Musselman, S. Swenson, D. Lawrence, J. Hamman, K. Dagon, D. Kennedy, and A. Newman, 2023: Moving land models towards more actionable science: A novel application of the Community Terrestrial Systems Model across Alaska and the Yukon River Basin. <em>Water Resources Research</em>, <a href="http://dx.doi.org/10.1029/2022WR032204">doi:10.1029/2022WR032204</a></p> |
| 62 | + <p class="optimization model data la-interact interdisciplinary ML"> 14. <b>Cheng, Y.</b>, A. Craig, K.N. Musselman, A. Bennett, M. Seefeldt, J. Hamman, and A.J. Newman, 2025. Coupled High-resolution Land-Atmosphere Modeling for Hydroclimate and Terrestrial Hydrology in Alaska and the Yukon River Basin (1990-2021). <em>JGR-Atmospheres</em>, <a href="http://dx.doi.org/10.1029/2024JD041185">doi:10.1029/2024JD041185</a></p> |
| 63 | + <p class="optimization model data streamflow ML"> 13. Elkouk, A., Y. Pokhrel, B. Livneh, E. Payton, L. Luo, <b>Y. Cheng</b>, K. Dagon, S. Swenson, A. W. Wood, D. M. Lawrence, and W. Thiery, 2024. Towards Understanding Parametric Controls on Runoff Sensitivity to Climate in the Community Land Model: A Case Study Over the Colorado River Headwaters. <em>Water Resources Research</em>, <a href="http://dx.doi.org/10.1029/2024WR037718">doi:10.1029/2024WR037718</a></p> |
| 64 | + <p class="arctic data streamflow stream-temperature model ML"> 12. Blaskey, D., M. Gooseff, <b>Y. Cheng</b>, A.J. Newman, J.C. Koch, and K.N. Musselman, 2024. A High‐Resolution, Daily Hindcast (1990–2021) of Alaskan River Discharge and Temperature from Coupled and Optimized Physical Models. <em>Water Resources Research</em>, <a href="http://dx.doi.org/10.1029/2023WR036217">doi:10.1029/2023WR036217</a></p> |
| 65 | + <p class="arctic co-production"> 11. Herman‐Mercer, N., A. Andre, V. Buschman, D. Blaskey, C. Brooks, <b>Y. Cheng</b>, ..., and K.N. Musselman, 2023: The Arctic Rivers Project: Using an Equitable Co‐Production Framework for Integrating Meaningful Community Engagement and Science to Understand Climate Impacts. <em>Community Science</em>, <a href="http://dx.doi.org/10.1029/2022CSJ000024">doi:10.1029/2022CSJ000024</a></p> |
| 66 | + <p class="arctic climate-change streamflow"> 10. Blaskey, D., J.C. Koch, M. Gooseff, A.J. Newman, <b>Y. Cheng</b>, J. O'Donnell, and K.N. Musselman, 2023: Increasing Alaskan river discharge during the cold season is driven by recent warming. <em>Environmental Research Letters</em>, <a href="http://dx.doi.org/10.1088/1748-9326/acb661">doi:10.1088/1748-9326/acb661</a></p> |
| 67 | + <p class="arctic actionable-science streamflow optimization model"> 9. <b>Cheng, Y.</b>, K.N. Musselman, S. Swenson, D. Lawrence, J. Hamman, K. Dagon, D. Kennedy, and A.J. Newman, 2023: Moving land models towards more actionable science: A novel application of the Community Terrestrial Systems Model across Alaska and the Yukon River Basin. <em>Water Resources Research</em>, <a href="http://dx.doi.org/10.1029/2022WR032204">doi:10.1029/2022WR032204</a></p> |
63 | 68 | <p class="optimization streamflow model"> 8. Bennett, A., A. Stein, <b>Y. Cheng</b>, B. Nijssen, and M. McGuire, 2022: A process-conditioned and spatially consistent method for reducing systematic biases in modeled streamflow. <em>Journal of Hydrometeorology</em>, <a href="http://dx.doi.org/10.1175/JHM-D-21-0174.1">doi:10.1175/JHM-D-21-0174.1</a></p> |
64 | 69 | <p class="interdisciplinary ecosystem climate-change reservoir model"> 7. <b>Cheng, Y.</b>, B. Nijssen, G. Holtgrieve, and J. Olden, 2022: Modeling the freshwater ecological response to changes in flow and thermal regimes influenced by reservoir dynamics. <em>Journal of Hydrology</em>, <a href="http://dx.doi.org/10.1016/j.jhydrol.2022.127591">doi:10.1016/j.jhydrol.2022.127591</a></p> |
65 | 70 | <p class="interdisciplinary power climate-change"> 6. Fonseca, F., M. Craig, P. Jaramillo, M. Bergés, E. Severnini, A. Loew, H. Zhai, <b>Y. Cheng</b>, B. Nijssen, N. Voisin, and J. Yearsley, 2021: Climate-induced tradeoffs in planning and operating costs of a regional electricity system. <em>Environmental Science and Technology</em>, <a href="http://dx.doi.org/10.1021/acs.est.1c01334">doi:10.1021/acs.est.1c01334</a></p> |
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