Staff information

PNNL Publications

2022

• Feng Z., A.C. Varble, J.C. Hardin, J.N. Marquis, A.E. Hunzinger, Z. Zhang, and T.M. Mandana. 2022. "Deep Convection Initiation, Growth and Environments in the Complex Terrain of Central Argentina during CACTI." Monthly Weather Review 150, no. 5:1135-1155. PNNL-SA-166620. doi:10.1175/MWR-D-21-0237.1
• Nelson C., J.N. Marquis, J.M. Peters, and K. Friedrich. 2022. "Environmental controls on simulated deep moist convection initiation occurring during RELAMPAGO-CACTI." Journal of the Atmospheric Sciences 79, no. 7:1941-1964. PNNL-SA-164690. doi:10.1175/JAS-D-21-0226.1
• Peters J.M., H. Morrison, T.C. Nelson, J.N. Marquis, J. Mulholland, and C. Nowotarski. 2022. "The influence of shear on deep convection initiation. Part 1: Theory." Journal of the Atmospheric Sciences 79, no. 6:1669-1690. PNNL-SA-162700. doi:10.1175/JAS-D-21-0145.1
• Peters J.M., H. Morrison, T.C. Nelson, J.N. Marquis, J. Mulholland, and C. Nowotarski. 2022. "The influence of shear on deep convection initiation. Part 2: Simulations." Journal of the Atmospheric Sciences 79, no. 6:1691-1711. PNNL-SA-162701. doi:10.1175/JAS-D-21-0144.1

2021

• Marquis J.N., A.C. Varble, P. Robinson, C. Nelson, and K. Friedrich. 2021. "Low-level Mesoscale and Cloud-scale Interactions Promoting Deep Convective Initiation." Monthly Weather Review 149, no. 8:2473-2495. PNNL-SA-158181. doi:10.1175/MWR-D-20-0391.1
• Marquis J.N., S. Tai, and J.D. Fast. 2021. Assimilating Scanning Radar Data into Cloud-Scale Models. PNNL-32002. Richland, WA: Pacific Northwest National Laboratory. Assimilating Scanning Radar Data into Cloud-Scale Models.
• Nelson C., J.N. Marquis, A.C. Varble, and K. Friedrich. 2021. "Radiosonde observations of environments supporting deep moist convection initiation during RELAMPAGO-CACTI." Monthly Weather Review 149, no. 1:289-309. PNNL-SA-153152. doi:10.1175/MWR-D-20-0148.1
• Nesbitt S.W., P. Salio, E.E. Avila, P. Bitzer, L. Carey, V. Chandrasekar, and W. Deierling, et al. 2021. "A Storm Safari in Subtropical South America: Proyecto RELAMPAGO." Bulletin of the American Meteorological Society 102, no. 8:E1621-E1644. PNNL-SA-157120. doi:10.1175/BAMS-D-20-0029.1
• Varble A.C., S.W. Nesbitt, P. Salio, J.C. Hardin, N. Bharadwaj, P.C. Borque, and P.J. DeMott, et al. 2021. "Utilizing a Storm-Generating Hotspot to Study Convective Cloud Transitions: The CACTI Experiment." Bulletin of the American Meteorological Society 102, no. 8:E1597-E1620. PNNL-SA-157358. doi:10.1175/BAMS-D-20-0030.1

2020

• Kumjian M.R., R. Gutierrez, J. Soderholm, S.W. Nesbitt, P. Maldonado, L. Median Luna, and J.N. Marquis, et al. 2020. "Gargantuan Hail in Argentina." Bulletin of the American Meteorological Society 101, no. 8:E1241-E1258. PNNL-SA-152498. doi:10.1175/BAMS-D-19-0012.1
• Trapp R., K.A. Kosiba, J.N. Marquis, M.R. Kumjian, S.W. Nesbitt, J. Wurman, and P. Salio, et al. 2020. "Multiple-platform and multiple-Doppler radar observations of a supercell thunderstorm in South America during RELAMPAGO." Monthly Weather Review 148, no. 8:3225-3241. PNNL-SA-152475. doi:10.1175/MWR-D-20-0125.1