Your search keyword '"Kawzenuk, Brian"' showing total 7 results

1. Winter Targeted Observing Periods during the Year of Polar Prediction in the Southern Hemisphere (YOPP-SH)

Author

Bromwich, David H., Gorodetskaya, Irina V., Carpentier, Scott, Alexander, Simon, Bazile, Eric, Heinrich, Victoria J., Massonnet, Francois, Powers, Jordan G., Carrasco, Jorge F., Cayette, Arthur, Choi, Taejin, Chyhareva, Anastasia, Colwell, Steven R., Cordeira, James M., Cordero, Raul R., Doerenbecher, Alexis, Durán-Alarcón, Claudio, French, W. John R., Gonzalez-Herrero, Sergi, Guyot, Adrien, Haiden, Thomas, Hirasawa, Naohika, Imazio, Paola Rodriguez, Kawzenuk, Brian, Krakovska, Svitlana, Lazzara, Matthew A., Litell, Mariana Fontolan, Manning, Kevin W., Norris, Kimberley, Park, Sang-Jong, Ralph, F. Martin, Rowe, Penny M., Sun, Qizhen, Vitale, Vito, Wille, Jonathan D., Zhang, Zhenhai, Zou, Xun, Bromwich, David H., Gorodetskaya, Irina V., Carpentier, Scott, Alexander, Simon, Bazile, Eric, Heinrich, Victoria J., Massonnet, Francois, Powers, Jordan G., Carrasco, Jorge F., Cayette, Arthur, Choi, Taejin, Chyhareva, Anastasia, Colwell, Steven R., Cordeira, James M., Cordero, Raul R., Doerenbecher, Alexis, Durán-Alarcón, Claudio, French, W. John R., Gonzalez-Herrero, Sergi, Guyot, Adrien, Haiden, Thomas, Hirasawa, Naohika, Imazio, Paola Rodriguez, Kawzenuk, Brian, Krakovska, Svitlana, Lazzara, Matthew A., Litell, Mariana Fontolan, Manning, Kevin W., Norris, Kimberley, Park, Sang-Jong, Ralph, F. Martin, Rowe, Penny M., Sun, Qizhen, Vitale, Vito, Wille, Jonathan D., Zhang, Zhenhai, and Zou, Xun

Abstract

The Year of Polar Prediction in the Southern Hemisphere (YOPP-SH) held seven Targeted Observing Periods (TOPs) during the 2022 austral winter to enhance atmospheric predictability over the Southern Ocean and Antarctica. The TOPs of 5-10 days duration each featured the release of additional radiosonde balloons, more than doubling the routine sounding program at the 24 participating stations run by 14 nations, together with process-oriented observations at selected sites. These extra sounding data are evaluated for their impact on forecast skill via data denial experiments with the goal of refining the observing system to improve numerical weather prediction for winter conditions. Extensive observations focusing on clouds and precipitation primarily during atmospheric river (AR) events are being applied to refine model microphysical parameterizations for the ubiquitous mixed phase clouds that frequently impact coastal Antarctica. Process studies are being facilitated by high time resolution series of observations and forecast model output via the YOPP Model Intercomparison and Improvement Project (YOPPsiteMIIP). Parallel investigations are broadening the scope and impact of the YOPP-SH winter TOPs. Studies of the Antarctic tourist industry’s use of weather services show the scope for much greater awareness of the availability of forecast products and the skill they exhibit. The SIPN South analysis of predictions of the sea ice growth period reveals that the forecast skill is superior to the sea ice retreat phase.

Published

2024

2. Supplementary material to 'Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design'

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Published

2021

3. Supplementary material to 'Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design'

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Published

2021

4. Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Abstract

The Atmospheric River Tracking Method Intercomparison Project (ARTMIP) is an international collaborative effort to understand and quantify the uncertainties in atmospheric river (AR) science based on detection algorithm alone. Currently, there are many AR identification and tracking algorithms in the literature with a wide range of techniques and conclusions. ARTMIP strives to provide the community with information on different methodologies and provide guidance on the most appropriate algorithm for a given science question or region of interest. All ARTMIP participants will implement their detection algorithms on a specified common dataset for a defined period of time. The project is divided into two phases: Tier 1 will utilize the MERRA-2 reanalysis from January 1980 to June of 2017 and will be used as a baseline for all subsequent comparisons. Participation in Tier 1 is required. Tier 2 will be optional and include sensitivity studies designed around specific science questions, such as reanalysis uncertainty and climate change. High resolution reanalysis and/or model output will be used wherever possible. Proposed metrics include AR frequency, duration, intensity, and precipitation attributable to ARs. Here we present the ARTMIP experimental design, timeline, project requirements, and a brief description of the variety of methodologies in the current literature. We also present results from our 1-month proof of concept trial run designed to illustrate the utility and feasibility of the ARTMIP project.

Published

2018

5. Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Abstract

The Atmospheric River Tracking Method Intercomparison Project (ARTMIP) is an international collaborative effort to understand and quantify the uncertainties in atmospheric river (AR) science based on detection algorithm alone. Currently, there are many AR identification and tracking algorithms in the literature with a wide range of techniques and conclusions. ARTMIP strives to provide the community with information on different methodologies and provide guidance on the most appropriate algorithm for a given science question or region of interest. All ARTMIP participants will implement their detection algorithms on a specified common dataset for a defined period of time. The project is divided into two phases: Tier 1 will utilize the MERRA-2 reanalysis from January 1980 to June of 2017 and will be used as a baseline for all subsequent comparisons. Participation in Tier 1 is required. Tier 2 will be optional and include sensitivity studies designed around specific science questions, such as reanalysis uncertainty and climate change. High resolution reanalysis and/or model output will be used wherever possible. Proposed metrics include AR frequency, duration, intensity, and precipitation attributable to ARs. Here we present the ARTMIP experimental design, timeline, project requirements, and a brief description of the variety of methodologies in the current literature. We also present results from our 1-month proof of concept trial run designed to illustrate the utility and feasibility of the ARTMIP project.

Published

2018

6. Supplementary material to 'Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design'

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Published

2018

7. Atmospheric River Tracking Method Intercomparison Project (ARTMIP): Project Goals and Experimental Design

Author

Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, Nguyen, Phu, Shields, Christine A, Shields, Christine A, Rutz, Jonathan J, Leung, Lai-Yung, Ralph, F Martin, Wehner, Michael, Kawzenuk, Brian, Lora, Juan M, McClenny, Elizabeth, Osborne, Tashiana, Payne, Ashley E, Ullrich, Paul, Gershunov, Alexander, Goldenson, Naomi, Guan, Bin, Qian, Yun, Ramos, Alexandre M, Sarangi, Chandan, Sellars, Scott, Gorodetskaya, Irina, Kashinath, Karthik, Kurlin, Vitaliy, Mahoney, Kelly, Muszynski, Grzegorz, Pierce, Roger, Subramanian, Aneesh C, Tome, Ricardo, Waliser, Duane, Walton, Daniel, Wick, Gary, Wilson, Anna, Lavers, David, Collow, Allison, Krishnan, Harinarayan, Magnusdottir, Gudrun, and Nguyen, Phu

Abstract

The Atmospheric River Tracking Method Intercomparison Project (ARTMIP) is an international collaborative effort to understand and quantify the uncertainties in atmospheric river (AR) science based on detection algorithm alone. Currently, there are many AR identification and tracking algorithms in the literature with a wide range of techniques and conclusions. ARTMIP strives to provide the community with information on different methodologies and provide guidance on the most appropriate algorithm for a given science question or region of interest. All ARTMIP participants will implement their detection algorithms on a specified common dataset for a defined period of time. The project is divided into two phases: Tier 1 will utilize the MERRA-2 reanalysis from January 1980 to June of 2017 and will be used as a baseline for all subsequent comparisons. Participation in Tier 1 is required. Tier 2 will be optional and include sensitivity studies designed around specific science questions, such as reanalysis uncertainty and climate change. High resolution reanalysis and/or model output will be used wherever possible. Proposed metrics include AR frequency, duration, intensity, and precipitation attributable to ARs. Here we present the ARTMIP experimental design, timeline, project requirements, and a brief description of the variety of methodologies in the current literature. We also present results from our 1-month proof of concept trial run designed to illustrate the utility and feasibility of the ARTMIP project.

Published

2018