[28] Sutton, M., S. M. Larson, and E. Becker: New insights on ENSO teleconnection asymmetry and ENSO forced atmospheric circulation variability over North America, Climate Dynamics, submitted.
[27] Larson, S. M., K. McMonigal, Y. Okumura, D. Amaya, A. Capotondi, K. Bellomo, I. Simpson, and A. Clement: Ocean realism shapes sea surface temperature mean state and variability in a CESM2 coupled model hierarchy, in prep.
Peer-Reviewed [26] McMonigal, K., S. M. Larson, S. Hu, and R. Kramer (2023): Historical changes in wind driven ocean circulation can accelerate global warming, Geophysical Research Letters, 50, e2023GRL102846. [Link] [Science Editor's Highlight] [NOAA CPO highlight] [NCSU highlight]
[25] Bellomo, K., V. L. Meccia, R. D’Agostino, F. Fabiano, S. M. Larson, J. von Hardenberg, S. Corti (2023): Impacts of a weakened AMOC on precipitation over the Euro-Atlantic region in the EC-Earth3 climate model, Climate Dynamics, accepted.
[24] Shu, Q., Y. Zhang, D. J. Amaya, S. M. Larson, Y. Kosaka, J.-C. Yang, X. Lin (2023): Role of Ocean Advections during the Equatorward Propagation of the Pacific Meridional Modes, Journal of Climate, accepted.
[23] Hasan, M., S. M. Larson, and K. McMonigal (2022): Hadley cell edge modulates the role of Ekman heat flux in a future climate, Geophysical Research Letters, 49, e2022GL100401. [Link]
[22] Lee, S.-K., H. Lopez, G. R. Foltz, D. Kim, S. M. Larson, E.-P. Lim, K. Pujiana, D. L. Volkov, S. Chakravorty, and F. A. Gomez. (2022): Java-Sumatra Niño/Niña and associated regional rainfall variability, Journal of Climate, accepted.
[21] McMonigal, K., and S. M. Larson (2022): ENSO explains the link between Indian Ocean Dipole and meridional heat transport, Geophysical Research Letters, 49, e2021GL095796. [Link]
[20] Larson, S. M., Y. Okumura, M. Breeden, and K. Bellomo (2022): Destructive interference of ENSO on North Pacific SST and North American precipitation associated with Aleutian low variability, Journal of Climate, 35, 3567-3585. [Link]
[19] Zhang, Y., S. Yu, S.-P. Xie, D. J. Amaya, Q. Peng, Y. Kosaka, X. Lin, J.-C. Yang, S. M. Larson, A. J. Miller (2022): Role of ocean dynamics in equatorial Pacific decadal variability, Climate Dynamics, accepted.
[18] Chakravorty, S., R. C. Perez, B. T. Anderson, S. M. Larson, B. S. Giese, and V. Pivotti (2021): Ocean dynamics are key to extratropical forcing of El Nino, Journal of Climate. 24, 8739-8753. [Link]
[17] Zhang, Y., S. Yu, D. J. Amaya, Y. Kosaka, S. M. Larson, X. Wang, J.-C. Yang, M. F. Stuecker, S.-P. Xie, A. J. Miller, and X. Lin (2021): Pacific Meridional Modes without Equatorial Pacific Influence. Journal of Climate. 34, 5285-5301. [Link]
[16] Capotondi, A., C. Deser, A. S. Phillips, Y. Okumura, and S. M. Larson (2020): ENSO and Pacific Decadal Variability in the Community Earth System Model Version 2. Journal of Advances in Modeling Earth Systems. e2019MS002022. [Link]
[15] Chakravorty, S., R. C. Perez, B. T. Anderson, B. S. Giese, S. M. Larson, and V. Pivotti (2020): Testing the trade wind charging mechanism and its influence on ENSO variability. Journal of Climate. 33, 7391-7411. [Link]
[14] Pegion, K., C. M. Selman, S. M. Larson, J. C. Furtado, and E. J. Becker (2020): The Impact of the Extratropics on ENSO Diversity and Predictability. Climate Dynamics, 54, 4469-4484. [Link]
[13] Larson, S. M., M. Buckley, and A. Clement (2020): Extracting the Buoyancy-Driven Atlantic Meridional Overturning Circulation. Journal of Climate, 33, 4697-4714. [Link]
[12] Larson, S. M., and K. V. Pegion (2020): Do asymmetries in ENSO predictability arise from different recharged states? Climate Dynamics, 54, 1507-1522. [Link]
[11] Small, R. J., F. O. Bryan, S. P. Bishop, S. M. Larson, and R. A. Tomas (2020): What Drives Upper-Ocean Temperature Variability in Coupled Climate Models and Observations? Journal of Climate, 33, 577-596. [Link]
[10] Larson, S. M., and B. P. Kirtman (2019): Linking Preconditioning to Extreme ENSO events and reduced ensemble spread. Climate Dynamics: Special Collection on ENSO Diversity, 52, 7417-7433. [Link]
[9] Larson, S. M., K. V. Pegion, and B. P. Kirtman (2018): The South Pacific Meridional Mode as a thermally-driven source of ENSO amplitude modulation and uncertainty. Journal of Climate, 31, 5127-5145.
[8] Larson, S. M., D. J. Vimont, A. Clement, and B. P. Kirtman (2018): How momentum coupling affects SST variance and large-scale Pacific climate variability in CESM. Journal of Climate, 31, 2927-2944.
[7] Larson, S. M., B. P. Kirtman, and D. J. Vimont (2017): A Framework to Decompose Wind-driven Biases in Climate Models Applied to CCSM/CESM in the Eastern Pacific, Journal of Climate, 30, 8763-8782. [6] Larson, S. M., and B. P. Kirtman (2017): Drivers of coupled model ENSO error growth dynamics and the spring predictability barrier. Climate Dynamics, 11, 3631-3644.
[5] Larson, S. M., and B. P. Kirtman (2015): An alternate approach to ensemble ENSO forecast spread: Application to the 2014 forecast. Geophys. Res. Lett., 42, 9411-9415.
[4] Larson, S. M., and B. P. Kirtman (2015): Revisiting ENSO Coupled Instability Theory and SST Error growth in a fully coupled model. Journal of Climate, 28, 4724–4742.
[3] Larson, S. M, and B. P. Kirtman (2014): The Pacific Meridional Mode as an ENSO Precursor and Predictor in the North American Multi-Model Ensemble. Journal of Climate, 27, 7018-7032.
[2] Larson, S. M., and B. Kirtman (2013): The Pacific Meridional Mode as a trigger for ENSO in a high-resolution coupled model. Geophys. Res. Lett., 40, 3189–3194. [1] Larson, S. M., S.-K. Lee, C. Wang, E.-S. Chung, and D. Enfield (2012): Impacts of non-canonical El Niño patterns on Atlantic hurricane activity. Geophys. Res. Lett., 39, L14706.
Other Publications Kirtman, B., J. Infanti, and S. Larson (2013): The diversity of El Niño in the North American multi-model prediction system. US Clivar Variations, 11, 18-23.