Your search keyword '"Du, Jun"' showing total 4 results

1. Scientific Advances and Weather Services of the China Meteorological Administration's National Forecasting Systems during the Beijing 2022 Winter Olympics.

Author

Deng, Guo, Shen, Xueshun, Du, Jun, Gong, Jiandong, Tong, Hua, Deng, Liantang, Xu, Zhifang, Chen, Jing, Sun, Jian, Wang, Yong, Hu, Jiangkai, Wang, Jianjie, Chen, Mingxuan, Yuan, Huiling, Zhang, Yutao, Li, Hongqi, Wang, Yuanzhe, Gao, Li, Sheng, Li, and Li, Da

Subjects

OLYMPIC Winter Games, METEOROLOGICAL research, WEATHER forecasting, FORECASTING, RESEARCH & development projects, METEOROLOGICAL services

Abstract

Copyright of Advances in Atmospheric Sciences is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

2. Groundwater Depletion and Degradation in the North China Plain: Challenges and Mitigation Options.

Author

Du, Jun, Laghari, Yaseen, Wei, Yi-Chang, Wu, Linyi, He, Ai-Ling, Liu, Gao-Yuan, Yang, Huan-Huan, Guo, Zhong-Yi, and Leghari, Shah Jahan

Subjects

ARTIFICIAL groundwater recharge, NITROGEN fertilizers, GROUNDWATER, LITERATURE reviews, WINTER wheat, AGRICULTURE, NATURAL resources, DRINKING water

Abstract

Groundwater is an important natural resource in the North China Plain (NCP) with high economic benefits and social significance. It fulfills 60% of drinking and 70% of irrigation water requirements. In this review, the information is retrieved from high-quality articles published in MEDLINE and other sources. We saw that groundwater is declining faster (>1 m yr−1) and polluting with NO3− (>30 mg L−1) due to excessive water pumping and application of a nitrogen (N) fertilizer, respectively. The water pumping (>600 mm ha−1 yr−1) for agricultural purposes in the region is higher than the recharge amount (<200 mm yr−1). The low recharge is the result of low rainfall (<600 mm yr−1), and high evapotranspiration (>800 mm yr−1) under the impact of dominant vegetative characteristics of winter wheat–summer maize (WW-SM) rotations, covering >80% of the land. Furthermore, N application exceeds the crop assimilation capacity (>250 kg ha−1 yr−1) and leach deep down (>50 kg ha−1) as well as loss in the atmosphere. Presently, Beijing, Tianjin, and Hebei are ecologically the most affected areas. We suggest that excessive water and N fertilizer use for intensive cropping systems should be controlled by paying high attention to groundwater-friendly farming practices. In addition, artificial groundwater recharge options and their safe utilization would be explored across the region to replenish aquifers. This literature review contributes valuable insights to the knowledge bank and offers a foundation for further research and policy development. [ABSTRACT FROM AUTHOR]

Published

2024

3. An Overview of the Beijing 2008 Olympics Research and Development Project (B08RDP).

Author

Duan, Yihong, Gong, Jiandong, Du, Jun, Charron, Martin, Chen, Jing, Deng, Guo, DiMego, Geoff, Hara, Masahiro, Kunii, Masaru, Li, Xiaoli, Li, Yinglin, Saito, Kazuo, Seko, Hiromu, Wang, Yong, and Wittmann, Christoph

Subjects

WEATHER forecasting, PREDICTION models, OLYMPIC Games (29th : 2008 : Beijing, China), BOUNDARY value problems, DOWNSCALING (Climatology)

Abstract

The Beijing 2008 Olympics Research and Development Project (B08RDP), initiated in 2004 under the World Meteorological Organization (WMO) World Weather Research Programme (WWRP), undertook the research and development of mesoscale ensemble prediction systems (MEPSs) and their application to weather forecast support during the Beijing Olympic Games. Six MEPSs from six countries, representing the state-of-the-art regional EPSs with near-real-time capabilities and emphasizing on the 6-36-h forecast lead times, participated in the project. The background, objectives, and implementation of B08RDP, as well as the six MEPSs, are reviewed. The accomplishments are summarized, which include 1) providing value-added service to the Olympic Games, 2) advancing MEPS-related research, 3) accelerating the transition from research to operations, and 4) training forecasters in utilizing forecast uncertainty products. The B08RDP has fulfilled its research (MEPS development) and demonstration (value-added service) purposes. The research conducted covers the areas of verification, examining the value of MEPS relative to other numerical weather prediction (NWP) systems, combining multimodel or multicenter ensembles, bias correction, ensemble perturbations [[initial condition (IC), lateral boundary condition (LBC), land surface IC, and model physics]], downscaling, forecast applications, data assimilation, and storm-scale ensemble modeling. Seven scientific issues important to MEPS have been identified. It is recognized that the daily use of forecast uncertainty information by forecasters remains a challenge. Development of forecaster-friendly products and training activities should be a long-term effort and needs to be continuously enhanced. The B08RDP dataset is also a valuable asset to the research community. The experience gained in international collaboration, organization, and implementation of a multination regional EPS for a common goal and to address common scientific issues can be shared by the ongoing projects The Observing System Research and Predictability Experiment (THORPEX) Interactive Grand Global Ensemble-Limited Area Models (TIGGE-LAM) and North American Ensemble Forecast System-Limited Area Models (NAEFS-LAM). [ABSTRACT FROM AUTHOR]

Published

2012

4. Verification and intercomparison of mesoscale ensemble prediction systems in the Beijing 2008 Olympics Research and Development Project.

Author

KUNII, MASARU, SAITO, KAZUO, SEKO, HIROMU, HARA, MASAHIRO, HARA, TABITO, YAMAGUCHI, MUNEHIKO, GONG, JIANDONG, CHARRON, MARTIN, DU, JUN, WANG, YONG, and CHEN, DEHUI

Subjects

WEATHER forecasting, PERTURBATION theory, MEASUREMENT errors, METEOROLOGICAL research, OLYMPIC Games

Abstract

During the period around the Beijing 2008 Olympic Games, the Beijing 2008 Olympics Research and Development Project (B08RDP) was conducted as part of the World Weather Research Program short-range weather forecasting research project. Mesoscale ensemble prediction (MEP) experiments were carried out by six organizations in near-real time, in order to share their experiences in the development of MEP systems. The purpose of this study is to objectively verify these experiments and to clarify the problems associated with the current MEP systems through the same experiences. Verification was performed using the MEP outputs interpolated into a common verification domain with a horizontal resolution of 15 km. For all systems, the ensemble spreads grew as the forecast time increased, and the ensemble mean improved the forecast errors compared with individual control forecasts in the verification against the analysis fields. However, each system exhibited individual characteristics according to the MEP method. Some participants used physical perturbation methods. The significance of these methods was confirmed by the verification. However, the mean error (ME) of the ensemble forecast in some systems was worse than that of the individual control forecast. This result suggests that it is necessary to pay careful attention to physical perturbations. [ABSTRACT FROM AUTHOR]

Published

2011