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Research Interest

• Causes and impacts of Arctic surface warming and warming aloft
• Roles of Arctic sea ice and/or Arctic Open Water in climate variability, change and prediction
• Effects of forcing factors and atmospheric dynamics on extreme weather events and climate
• East Asian winter monsoon
• Teleconnections especially their roles in climate impacts and predictability
• Machine Learning for climate prediction (guided by the knowledge obtained from the above topics).

Five (of ~50) selected peer-reviewed papers:

1. Zhao Jiazhen [PhD student], Shengping He, and Huijun Wang, 2022: . Environmental Research Letters, 024015.

2. Li Hua, Shengping He, Ke Fan, et al., 2021: . Journal of Climate 34(10), 3869-3887.

3. He Shengping, Xinping Xu, Tore Furevik, and Yongqi Gao, 2020:. Geophysical Research Letters, 47(10), e2020GL087212.

4. He Shengping, Yongqi Gao, ....,  2017: Impact of Arctic Oscillation on the East Asian climate: . Earth-Science Reviews, 164, 48-62.

5. He Shengping, and Huijun Wang [PhD supervisor], 2013: . Journal of Climate, 9819-9838.

Teaching experience at University-level:

Teaching assistant

• 2018- 2018      Teaching Assistant – Models and Methods in Numerical Weather Prediction, University of Bergen/Geophysical Institute/Norway
• 2017- 2017      Teaching Assistant – Causes of Climate Change, University of Bergen/Geophysical Institute/Norway

Lecturer

• 30 June-6 July 2018, Norheimsund, Norway.  Lecturer and committee for summer shcool - “ARCPATH/CONNECTED Summer School - Climate Teleconnections and Predictions: Past, Present and Future”, organized by University of Bergen and Nansen Environmental and Remote Sensing Center; PhD level, 7 students from Norway, 6 from other European countries, 2 from Russia, and 12 from China. I have given two lectures: (1) Climate Teleconnection: Linkage the Arctic warming to lower latitudes and (2) Climate Change Research, Operation and Service in China. Language: English

Co-Suprevision of PhD and Master degree students

Total: eight (7 PhD degree students and 1 Master degree student),

Six graduated PhD degree stduents,

1. 2016-2020, Xinping Xu (MD-PhD), Nanjing University of Information Science & Technology; selected papers:

• Xu X., Shengping He, Yongqi Gao, Tore Furevik, et al., 2019: . Climate Dynamics, 53(7), 3971-3983.
• Xu Xingping, Shengping He, et al., 2018: . Climate dynamics, 50(5), 1993-2006.

2. 2015-2020, Lianlian Xu (MD-PhD), University of Chinese Academy of Science; selected papers:

• Xu Lianlian, Shengping He, et al., 2018: . Theoretical and Applied Climatology, 134(3), 1287-1299.

3. 2014-2019, Hua Li (MD-PhD), University of Chinese Academy of Science; selected papers:

• Li Hua, Shengping He, et al., 2019: . Climate Dynamics, 52(1), 209-226.

4. 2014-2019, Yang Liu (MD-PhD), University of Chinese Academy of Science; selected papers:

• Liu Yang and Shengping He, 2020: . Journal of Climate 33.19 (2020): 8281-8300.

• Liu Yang, Shengping He, et al., 2017: . International Journal of Climatology, 37(14), 4791-4802.

5. 2012-2018, Xin Hao (MD-PhD), University of Chinese Academy of Science; selected papers:

• Hao Xin, Shengping He, et al., 2019: . Atmospheric Chemistry and Physics, 19(15), 9903-9911.
• Hao Xin, and Shengping He., 2017: . Journal of Climate 30.7: 2697-2716.
• Hao Xin, Shengping He, and Huijun Wang, 2016: . Climate Dynamics 47.7: 2139-2154.

6. 2012-2017, Tingting Han (MD-PhD), University of Chinese Academy of Science; selected papers:

• Han Tingting, Shengping He, et al., 2019: . Advances in Atmospheric Sciences, 36(1): 55-64.
• Han Tingting, Shengping He,  et al., 2018: . Climate dynamics, 51(11): 4065-4076.

One graduated Master degree stduents

1. 2015-2018, Shuo LI, University of Chinese Academy of Science; selected papers:

• LI Shuo, Shengping He, et al., 2020: . International Journal of Climatology, 40(3), 1492-1511.

• LI Shuo, Shengping He, et al. 2018: . Atmospheric and Oceanic Science Letters, 11(5), 417-424.

One on going PhD degree student

1. 2021-, Jiazhen Zhao, Nanjing University of Information Science & Technology; selected papers:

• Zhao Jiazhen, Shengping He, and Huijun Wang, 2022: . Environmental Research Letters 17.2 (2022): 024015.

2022-2026:  (MAPARC)

Project information:

• Project owner: University of Bergen,
• Project leader: Shengping He (shengping.he@uib.no)
• Project period: 01.06.2022-31.05.2026
• Type: Researcher Project
• Public funding: 10 mill. kroner, funded by the Research Council of Norway
• Project no.: 328943
• Partners:Nansen Environmental and Remote Sensing Center; Norwegian Institute for Air Research; Sun Yat-sen University; Nansen-Zhu International Research Centre, Institute of Atmospheric Physics, Chinese Academy of Sciences

Primary and secondary objectives of the project: TThe primary objective of MAPARC is to achieve better predictions of the new Arctic climate system considering a new vision of climate change and predictability. We will achieve this goal via addressing specific objectives:

(1) to identify the causes and impacts of the present and future increasing newly-formed sea ice and the shallow and deep Arctic ocean and atmosphere warming;
(2) to determine the mechanism of the change in atmospheric circulation regimes and their impacts on extreme weather and climate;
(3) then to develop new prediction methods and models to improve the skill and reliability of seasonal climate prediction at mid-high latitudes.

Project meetings: Updating

Publications: Updating

2021-2025:

Project information:

• Project owner: University of Bergen,
• Project leader: Shengping He (shengping.he@uib.no)
• Project period: 22.11.2021-21.11.2025
• Type: Researcher Project
• Public funding: 12 mill. kroner, funded by the Research Council of Norway
• Project no.: 325440
• Partners:Nansen Environmental and Remote Sensing Center; Norwegian Institute for Air Research; Meteorologisk Institutt; Institute of Atmospheric Physics, Chinese Academy of Sciences; University of Exeter;

Primary and secondary objectives of the project: The primary objective is to understand the Arctic and Eurasian climate response to the new Arctic characterized bymore open waters in summer and an increasing volume of newly-formed sea ice in winter. We will achieve this by accomplishing the following secondary objectives:

• quantify the impacts of more open seawater in summer on the Arctic oceanic conditions
• identify the influences of deep Arctic warming (extending from the interior of the ocean to the middle troposphere) on the Eurasian winter climate
• determine the effects of increasing newly-formed wintertime Arctic sea ice on the freshwater and heat budget inthe Atlantic and the Arctic Ocean, and the accompanying impacts on the AMOC
• elucidate the gradually vanishing climatic impacts of summer-to-autumn Arctic sea ice in the 21st century as the Arctic Ocean is turning to an ‘ice-free’ state
• demonstrate the predominance of Arctic ocean temperature over sea ice as a dominant climatic factor, once a tipping point is reached in the future.

Project meetings: Updating

Publications: Updating

2017-2022: Chinese-Norwegian partnership in climate teleconnection and prediction (CONNECTED)

Project information:

• Project owner: University of Bergen,
• Project leader: Tore Furevik; Shengping is the Coordinator of summer schools and student mobility
• Project period: 01.2017-12.2022
• Type: UTFORSK 2016 - Long-term project funding
• Public funding: 1.99 mill. kroner, funded by the Norwegian Directorate for Higher Education and Skills
• Project no.: UTF-2016-long-term/10030
• Main partner institution outside Norway: Institute of atmospheric physics, Chinese academy of sciences
• Network partners: Nansen Environmental and Remote Sensing Center; Norwegian Research Center; Peking University; Beijing Climate Center; Nanjing University; Nanjing University of Information Science and Technology; China University of Geosciences (Wuhan);

Project summary:

The ChiNese NorwEgian partnership in Climate Teleonnection and prEDiction (CONNECTED) builds on an existing collaboration between three Norwegian institutions in Bergen and three Chinese institutions in Beijing and Nanjing. The activities are organized under the Nansen-Zhu International Research Centre located in Beijing, a joint venture established in November 2003. CONNECTED aims to capitalize on the existing cooperation, and further strengthen the research and research training activities by long termsupport for joint biennial summer schools with back-to-back workshops, PhD and Master students exchange visits between Norway and China with supervisors from both countries, and development of joint proposals to national and international funding agencies. The scientific focus is on better understanding of climate variability and climate trends using paleo (past)-climate data, instrumental data, and numerical models and theory to assess the importance of internal and external forcing of past, present and future climate. A central topic will be teleconnections in the climate system, i.e. how a change in climate in one part of the globe (e.g. temperatures in the Atlantic or shrinking sea ice cover in the Arctic) can influence climate on other parts of the globe (e.g. Eurasian winter temperatures), and how we can use this information to improve regional climate prediction and therefore regional climate service. The project will bring new partners into the Chinese-Norwegian cooperation in climate, increased research quality, more co-authorship in international peer reviewed journals, and more successful research funding applications to Chinese, Norwegian, or other international funding agencies.