Showing total 4 results

1. Anthropogenic Influences on Extremely Persistent Seasonal Precipitation in Southern China during May–June 2022.

Author

Sheng, Bosi, Dong, Buwen, Wang, Haolin, Zhang, Mingming, Lin, Shuheng, Si, Peng, Lott, Fraser C., and Li, Qingxiang

Subjects

SEASONS, PROBABILITY theory

Abstract

Precipitation in southern China during April–June 2022 was the highest since 1961. Anthropogenic forcing has reduced the probability of 2022-like Rx30day precipitation by about 45% based on CMIP6 simulations. [ABSTRACT FROM AUTHOR]

Published

2024

2. Triple-Dip La Niña Contributes to Pakistan Flooding and Southern China Drought in Summer 2022.

Author

Hyein Jeong, Hyo-Seok Park, Chowdary, Jasti S., and Shang-Ping Xie

Subjects

LA Nina, OCEAN temperature, DROUGHTS, ATMOSPHERIC models, SUMMER, RAINFALL, FLOODS

Abstract

In the summer of 2022, a long-lasting La Niña entered its third year. In Asia, southern China was in the grip of a historic drought while heavy rainfall ravaged Pakistan. Using a climate model forced by observed sea surface temperatures (SST) over the equatorial Pacific, we show that the back-to-back La Niña events from 2020 to 2022 are a key contributor to the global SST pattern in 2022, including the negative-phase Pacific decadal oscillation and exceptionally strong negative Indian Ocean dipole. The model reproduces the observed precipitation pattern over South and East Asia, including enhanced rainfall over Pakistan-northwest India and reduced rainfall over southern China. Additional model simulations indicate that the negative Indian Ocean dipole combined with La Niña reduces southern China rainfall by causing anomalous subsidence and anticyclonic flows. These results highlight the dominant role of long-lasting La Niña in modulating rainfall over heavily populated monsoon Asia. [ABSTRACT FROM AUTHOR]

Published

2023

3. The Global Pattern and Development Trends and Directions on the Drought Monitoring Research from 1983 to 2020 by Using Bibliometric Analysis.

Author

Wang, Jianshun, Zhang, Qiang, Zhang, Liang, Wang, Ying, Yue, Ping, Hu, Yanbin, and Ye, Peilong

Subjects

DROUGHT management, DROUGHTS, REMOTE sensing, SCIENCE journalism, CHINA-United States relations, CLIMATE change, SCIENCE databases

Abstract

As impacted by climate change and further global warming, drought turns out to be the most frequent meteorological extreme event worldwide, which severely affects agriculture, ecosystem, water management, and even human survival. In this study, the global pattern and development trends and directions on drought monitoring were presented based on Web of Science database by conducting a bibliometric analysis from 1983 to 2020. The following conclusions were drawn. 1) The United States and China were found as the most productive and influential nations, accounting for 24.63% and 14.30% in publication outputs and taking up 5,023 and 2,040 in local citations, respectively. 2) Chinese Academy of Science was reported as the core institution with 5.73% publication outputs and 829 local citations. 3) Remote Sensing of Environment and Remote Sensing were found as the most influential journals and the most productive journals with 1,045 local citations and 210 publication outputs, respectively. 4) Agricultural drought profoundly affecting food security was found as the most concerning drought type in the world. The drought monitoring research mainly focus on the research and development of drought index, the response of terrestrial ecosystems to drought, and the trends and dynamics of drought in context of climate change. This study explored key findings, contradictions, and limitations of drought monitoring studies were summarized and explored. In addition, the development trend and research direction of drought monitoring research in the future were also explored. [ABSTRACT FROM AUTHOR]

Published

2022

4. A Decade of Eastern Tropical Indian Ocean Observation Network (TIOON).

Author

Zeng, Lili, Chen, Gengxin, Huang, Ke, Chen, Ju, He, Yunkai, Zhou, Fenghua, Yang, Yikai, Liang, Zhanlin, Peng, Qihua, Shi, Rui, Gamage, Tilak Priyadarshana, Chen, Rongyu, Li, Jian, Zhang, Zhenqiu, Wu, Zewen, Yu, Linghui, and Wang, Dongxiao

Subjects

ACOUSTIC Doppler current profiler, MONSOONS, OCEAN, CLIMATE change, OCEAN-atmosphere interaction

Abstract

As an important part of the Indo-Pacific warm pool, the Indian Ocean has great significance for research on the Asian monsoon system and global climate change. From the 1960s onward, several international and regional programs have led to important new insights into the Indian Ocean. The eastern Tropical Indian Ocean Observation Network (TIOON) was established in 2010. The TIOON consists of two parts: large-scope observations and moored measurements. Large-scope observations are performed by the eastern Tropical Indian Ocean Comprehensive Experiment Cruise (TIO-CEC). Moored measurements are executed by the TIOON mooring array and the hydrological meteorological buoy. By 2019, 10 successful TIO-CEC voyages had been accomplished, making this mission the most comprehensive scientific investigation in China. The TIO-CEC voyages have collected temperature/salinity profiles, GPS radiosonde profiles, and other observations in the Indian Ocean. To supplement the existing buoy array in the Indian Ocean, an enhanced TIOON mooring array consisting of eight subthermocline acoustic Doppler current profiler (ADCP) moorings, was established since 2013. The TIOON mooring equipped with both upward-looking and downward-looking WHLS75K ADCP provide valuable current monitoring information to depth of 1,000 m in the Indian Ocean. To improve air–sea interaction monitoring, two real-time hydrological–meteorological buoys were deployed in 2019 and 2020 in the equatorial Indian Ocean. A better understanding of the Indian Ocean requires continuous and long-term observations. The TIOON program and other aspiring field investigation programs will be promoted in the future. [ABSTRACT FROM AUTHOR]

Published

2021