Di Chongli
School
School of Earth System Science
Professional Title
Associate professor
Contact Information
dichongli@tju.edu.cn
Room 305, Building No.16
Brief Introduction
Di Chongli, female, lecturer, School of earth system science, Tianjin University. The research directions include hydrological system complexity and hydrological prediction, socio-hydrology, water resources system analysis, etc. She has participated in several research projects including national key R & D program, national innovation group fund and National Natural Science Foundation of China. She has published more than 10 papers in Hydrology and Earth System Sciences, Geophysical Research Letters, Journal of Hydrology and other journals.
Education Background
- Doctoral degree| Beijing Normal University| Environment Science| 2015
Research Interests
- Complexity in hydrological system
- Hydrological prediction
- water resources system analysis
Positions & Employments
-
2016.7-Now
School of Earth System Science | Tianjin University -
2017.10-2018.10
Department of Civil and Environmental Engineering | University of Washington
Academic Achievements
- Papers
- [1] Complexity and Predictability of Daily Actual Evapotranspiration Across Climate Regimes
- [2] Deterministic Chaotic dynamics in soil moisture across Nebraska
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- [3] An improved Grassberger–Procaccia algorithm for analysis of climate system complexity
- [4] Characterization of the Coherence Between Soil Moisture and Precipitation at Regional Scales
- [5] Diagnosis of environmental controls on daily actual evapotranspiration across a global flux tower network: the roles of water and energy
- [6] Characterization of the Coherence Between Soil Moisture and Precipitation at Regional Scales
- [7] Investigation of controls on the regional soil moisture spatiotemporal patterns across different climate zones
- [8] Nonlinearity of Runoff Response to Global Mean Temperature Change Over Major Global River Basins
- [9] A four-Stage hybrid model for hydrological time series forecasting
- [10] Multi-scale analysis of streamflow using the Hilbert-Huang Transform
- [11] Modeling and dynamical analysis of the water resources supply-demand system: a case study in Haihe River basin
- [12] Multi-scale modeling of the response of runoff to climate change
- [13] Integrated assessment of water resources vulnerability under climate change in Haihe River Basin
- [14] Analysis of characteristics of precipitation and runoff in the typical karst catchment and contribution decomposition on influencing factors of interannual runoff variation