Mingshan Deng
YOU?
Author Swipe
View article: Role of Nighttime Precipitation in Mitigating Land Surface Warming on the Tibetan Plateau
Role of Nighttime Precipitation in Mitigating Land Surface Warming on the Tibetan Plateau Open
The Tibetan Plateau has warmed markedly alongside increased nighttime precipitation, yet the mechanisms remain poorly understood. Using CLM5.0 sensitivity experiments with 50% nighttime precipitation perturbations (HALF and PLUS50) and fix…
View article: Integrating Remote Sensing Data into WRF to Improve 2 M Air Temperature Simulations in the Three-River Source Region of the Tibetan Plateau
Integrating Remote Sensing Data into WRF to Improve 2 M Air Temperature Simulations in the Three-River Source Region of the Tibetan Plateau Open
The Three-River Source Region (TRSR) of the Tibetan Plateau (TP) is a critical headwater area with complex alpine terrain and significant climate variability. Accurately simulating 2 m air temperature (T2) in this region remains challengin…
View article: A 10-Year Dataset of Land Surface Observations for the Semi-Humid Alpine Grassland in the Source Region of the Yellow River
A 10-Year Dataset of Land Surface Observations for the Semi-Humid Alpine Grassland in the Source Region of the Yellow River Open
The source region of the Yellow River, accounting for over 38% of its total runoff, is a critical catchment area, primarily characterized by alpine grasslands. In 2005, the Maqu land surface processes observational site was established to …
View article: Climate change-induced vegetation greening reduces soil moisture sensitivity on the Tibetan Plateau
Climate change-induced vegetation greening reduces soil moisture sensitivity on the Tibetan Plateau Open
Climate change has profoundly altered the vegetation and soil moisture dynamics and intensified land-atmosphere interactions, particularly in climate sensitive regions. However, exactly how vegetation affects soil moisture responses to cli…
View article: Evaluation of Original and Water Stress-Incorporated Modified Weather Research and Forecasting Vegetation Photosynthesis and Respiration Model in Simulating CO2 Flux and Concentration Variability over the Tibetan Plateau
Evaluation of Original and Water Stress-Incorporated Modified Weather Research and Forecasting Vegetation Photosynthesis and Respiration Model in Simulating CO2 Flux and Concentration Variability over the Tibetan Plateau Open
Terrestrial carbon fluxes are crucial to the global carbon cycle. Quantification of terrestrial carbon fluxes over the Tibetan Plateau (TP) has considerable uncertainties due to the unique ecosystem and climate and scarce flux observations…
View article: Improved Performance of CLM5.0 Model in Frozen Soil Simulation Over Tibetan Plateau by Implementing the Vegetation Emissivity and Gravel Hydrothermal Schemes
Improved Performance of CLM5.0 Model in Frozen Soil Simulation Over Tibetan Plateau by Implementing the Vegetation Emissivity and Gravel Hydrothermal Schemes Open
Frozen soil is widely distributed over the Tibetan Plateau (TP) and has significant impacts on the regional climate and ecosystem. However, the Community Land Model version 5 (CLM5.0) produces evident cold bias in the frozen soil simulatio…
View article: Dataset of Comparative Observations for Land Surface Processes over the Semi-Arid Alpine Grassland against Alpine Lakes in the Source Region of the Yellow River
Dataset of Comparative Observations for Land Surface Processes over the Semi-Arid Alpine Grassland against Alpine Lakes in the Source Region of the Yellow River Open
Thousands of lakes on the Tibetan Plateau (TP) play a critical role in the regional water cycle, weather, and climate. In recent years, the areas of TP lakes underwent drastic changes and have become a research hotspot. However, the charac…
View article: Responses of Soil Freeze–Thaw Processes to Climate on the Tibetan Plateau from 1980 to 2016
Responses of Soil Freeze–Thaw Processes to Climate on the Tibetan Plateau from 1980 to 2016 Open
Soil freeze–thaw processes are remarkable features of the land surface across the Tibetan Plateau (TP). Soil moisture and temperature fluctuate during the freeze–thaw cycle, affecting the soil water and energy exchange between the land and…
View article: The Response of Vegetation to Regional Climate Change on the Tibetan Plateau Based on Remote Sensing Products and the Dynamic Global Vegetation Model
The Response of Vegetation to Regional Climate Change on the Tibetan Plateau Based on Remote Sensing Products and the Dynamic Global Vegetation Model Open
Changes in vegetation dynamics play a critical role in terrestrial ecosystems and environments. Remote sensing products and dynamic global vegetation models (DGVMs) are useful for studying vegetation dynamics. In this study, we revised the…
View article: Remote Sensing-Detected Changes in Precipitation over the Source Region of Three Rivers in the Recent Two Decades
Remote Sensing-Detected Changes in Precipitation over the Source Region of Three Rivers in the Recent Two Decades Open
The source region of three rivers (SRTR) is an important water conservation area, also known as the Water Tower of Asia. Precipitation is one of the most important factors affecting the ecological system and water resources over the SRTR. …
View article: Impact and Sensitivity Analysis of Soil Water and Heat Transfer Parameterizations in Community Land Surface Model on the Tibetan Plateau
Impact and Sensitivity Analysis of Soil Water and Heat Transfer Parameterizations in Community Land Surface Model on the Tibetan Plateau Open
Soil water and heat transfer is especially complicated during the freezing and thawing processes over the high‐altitude cold regions. In this study, four sensitivity tests of soil water and heat transfer parameterizations including replaci…
View article: Comparison of Soil Water and Heat Transfer Modeling Over the Tibetan Plateau Using Two Community Land Surface Model (CLM) Versions
Comparison of Soil Water and Heat Transfer Modeling Over the Tibetan Plateau Using Two Community Land Surface Model (CLM) Versions Open
Soil water and heat transfer is one of the most important parts of water and energy partition between atmosphere and land surface, and it is more complicated over the cold regions. In this study, the observed soil moisture and temperature …
View article: An Assessment of Tourism Climate Comfort in the China–Pakistan Economic Corridor
An Assessment of Tourism Climate Comfort in the China–Pakistan Economic Corridor Open
Pleasant climates can be divided into two types: the comfortable summer climate and the comfortable winter climate, but existing studies rarely pay attention to the distribution characteristics and differences between the two types of clim…
View article: Spatial-Temporal Pattern Changes of UTCI in the China-Pakistan Economic Corridor in Recent 40 Years
Spatial-Temporal Pattern Changes of UTCI in the China-Pakistan Economic Corridor in Recent 40 Years Open
This paper investigated the spatial and temporal variations of the Universal Thermal Climate Index (UTCI) of the China-Pakistan Economic Corridor (CPEC) from 1979 to 2018. The European Centre for Medium-Range Weather Forecasts Re-Analysis-…