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19 results on '"Jo, Sera"'

7. Projections of suitable cultivation area for major fruit trees and climate‐type in South Korea under representative concentration pathway scenarios using the ensemble of high‐resolution regional climate models

Author

Kim, Eung‐Sup, primary, Ahn, Joong‐Bae, additional, Shim, Kyo‐Moon, additional, Hur, Jina, additional, Jo, Sera, additional, Suh, Myoung‐Seok, additional, Cha, Dong‐Hyun, additional, Min, Seung‐Ki, additional, and Kang, Hyun‐Suk, additional

Published
2023
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11. An Evaluation of Temperature-Based Agricultural Indices Over Korea From the High-Resolution WRF Simulation

Author

Im, Eun Soon, Ha, Subin, Qiu, Liying, Hur, Jina, Jo, Sera, Shim, Kyo-Moon, Im, Eun Soon, Ha, Subin, Qiu, Liying, Hur, Jina, Jo, Sera, and Shim, Kyo-Moon

Abstract

This study evaluates the performance of dynamical downscaling of global prediction generated from the NOAA Climate Forecast System (CFSv2) at subseasonal time-scale against dense in-situ observational data in Korea. The Weather Research and Forecasting (WRF) double-nested modeling system customized over Korea is adopted to produce very high resolution simulation that presumably better resolves geographically diverse climate features. Two ensemble members of CFSv2 starting with different initial conditions are downscaled for the summer season (June-July-August) during past 10-year (2011-2020). The comparison of simulations from the nested domain (5 km resolution) of WRF and driving CFSv2 (0.5 degrees) clearly demonstrates the manner in which dynamical downscaling can drastically improve daily mean temperature (Tmean) and daily maximum temperature (Tmax) in both quantitative and qualitative aspects. The downscaled temperature not only better resolves the regional variability strongly tied with topographical elevation, but also substantially lowers the systematic cold bias seen in CFSv2. The added value from the nested domain over CFSv2 is far more evident in Tmax than in Tmean, which indicates a skillful performance in capturing the extreme events. Accordingly, downscaled results show a reasonable performance in simulating the plant heat stress index that counts the number of days with Tmax above 30 degrees C and extreme degree days that accumulate temperature exceeding 30 degrees C using hourly temperature. The WRF simulations also show the potential to capture the variation of Tmean-based index that represents the accumulation of heat stress in reproductive growth for the mid-late maturing rice cultivars in Korea. As the likelihood of extreme hot temperatures is projected to increase in Korea, the modeling skill to predict the ago-meteorological indices measuring the effect of extreme heat on crop could have significant implications for agriculture management practi

Published
2021

19. Improvement of CGCM prediction for wet season precipitation over Maritime Continent using a bias correction method.

Author

Jo, Sera and Ahn, Joong‐Bae

Subjects
*METEOROLOGICAL precipitation, *REGRESSION analysis, *RADIATION, *SOUTHERN oscillation, *ATMOSPHERIC pressure
Abstract

ABSTRACT A new model output statistics method - Ensemble Selective Simple Linear Regression (E- SSLR) - is developed based on SLR in order to increase the seasonal prediction skill of a Coupled General Circulation Model ( CGCM) over the Maritime Continent ( MC), a region with large model simulation errors. E- SSLR is applied to Pusan National University ( PNU) CGCM hindcast over the MC region for the period of 1981-2010 to reduce the systematic model bias in boreal winter ( DJF) seasonal mean precipitation and outgoing long-wave radiation ( OLR) anomalies. Three oceanic indices (Nino 3.4, El Nino Modoki and Indian Ocean Dipole ( IOD) Mode indices) and one atmospheric index (Southern Oscillation Index, SOI) produced from PNU CGCM hindcast are used as SLR predictor. E- SSLR consists of three steps: Selection, SLR and Ensemble. The selection and ensemble steps are added to the conventional SLR step to overcome the weakness of the linear regression method. In the selection step, the grids with a temporal correlation coefficient between predictor and predictand exceeding the threshold are selected. These grids (grid-selected) are corrected by SLR in the second step. For the grids that are grid-not-selected, the original CGCM results are used without further correction. This prevents insignificant statistical correction due to the application of low correlated predictors to the SLR. The correction effect of E- SSLR is analysed in terms of deterministic and categorical analyses. The result shows that the seasonal predictability of DJF seasonal precipitation and OLR in the MC region is increased by using E- SSLR, and this increment is statistically significant. The correction effect is larger when indices with high predictability that are closely correlated with the predictand are used as predictors. [ABSTRACT FROM AUTHOR]

Published
2015
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