Your search keyword '"Cunde Xiao"' showing total 13 results

1. Subsurface heat conduction along the CHINARE traverse route, East Antarctica

Author

Diyi Yang, Minghu Ding, Ian Allison, Xiaowei Zou, Xinyan Chen, Petra Heil, Wenqian Zhang, Lingen Bian, and Cunde Xiao

Subjects

Atmosphere/ice/ocean interactions, energy balance, ice-sheet modeling, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

Using data from three automatic weather stations (LGB69, Eagle and Dome A) from distinctly different climatological zones along the CHINARE (Chinese National Antarctic Research Expedition) traverse route from Zhongshan Station to Dome A, we investigated the characteristics of meteorological conditions and subsurface heat conduction. Spatial analysis indicated decreasing trends in air temperature, relative humidity and wind speed from the coastal katabatic wind zone to the inland plateau region, and air temperatures clearly showed a strong daily variability in winter, suggesting the effect from the fluctuation in the Antarctic atmospheric system. We also analyzed the optimal response time of the 1 and 3 m depth snow temperatures to the 0.1 m depth snow temperature for each site under clear/overcast and day/night situations. This showed an important enhancement to the heat transfer from shortwave radiation penetration. Using an iterative optimization method, we estimated the subsurface heat conduction variations along the transect. This was ~3–5 W m–2. Multiple maxima in daily mean subsurface fluxes were found in winter, with a typical value above 2 W m–2, while a single minimum value under –2 W m–2 was found in summer. On an annual scale, a larger mean loss of subsurface heat conduction was observed in the inland plateau compared to in the coastal katabatic area. Finally, we discussed the possible influences of turbulent and radiant transport on the vertical heat response and confirmed the wind enhancement on the growth of thermal conductivity. This preliminary study provides a brief perspective and an important reference for studying subsurface heat conduction in inland areas of Antarctica.

Published

2023

2. A comparison between three-dimensional, transient, thermomechanically coupled first-order and Stokes ice flow models

Author

Zhan Yan, Wei Leng, Yuzhe Wang, Cunde Xiao, and Tong Zhang

Subjects

Glacier modeling, glacier flow, glaciological model experiments, ice-sheet modeling, ice dynamics, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

In this study, we investigate the differences between two transient, three-dimensional, thermomechanically coupled ice-sheet models, namely, a first-order approximation model (FOM) and a ‘full’ Stokes ice-sheet model (FSM) under the same numerical framework. For all numerical experiments, we take the FSM outputs as the reference values and calculate the mean relative errors in the velocity and temperature fields for the FOM over 100 years. Four different boundary conditions (ice slope, geothermal heat flux, basal topography and basal sliding) are tested, and by changing these parameters, we verify the thermomechanical behavior of the FOM and discover that the velocity and temperature biases of the FOM generally increase with increases in the ice slope, geothermal heat flux, undulation amplitude of the ice base, and with the existence of basal sliding. In addition, the model difference between the FOM and FSM may accumulate over time, and the spatial distribution patterns of the relative velocity and temperature errors are in good agreement.

Published

2023

3. Spatial and temporal variations of fractionation of stable isotopes in East-Antarctic snow

Author

Chuanjin Li, Jiawen Ren, Guitao Shi, Hongxi Pang, Yetang Wang, Shugui Hou, Zhongqin Li, Zhiheng Du, Minghu Ding, Xiangyu Ma, Jiao Yang, Aihong Xie, Puyu Wang, Xiaoming Wang, Bo Sun, and Cunde Xiao

Subjects

East Antarctica, fractionation, MWL slopes, stable isotopes, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

Stable isotope ratios (δ18O and δD) in Antarctic snow and ice are basic proxy indices of climate in ice core studies. The relation between the ratios has important indicative significance for moisture sources. In general, the fractionation characteristics of the two isotopes vary with different meteorological and topographical conditions. This paper presents the spatial and temporal distribution of meteoric water line (MWL) slopes along a traverse from the Zhongshan Station (ZSS) to Dome A in East Antarctica. It is found that the slopes decrease with the increasing distance inland from the coast and the lowest slope occurred at Dome A, where the long-range transported moisture dominates and clear sky snowing have an influence. The slopes in different layers of the snowpack showed a decreasing trend with depth and this is attributed to the fractionation during the interstitial sublimation and re-condensation processes of the water vapor. Frost flower development on the interior plateau surface can greatly alter the depth evolution of the MWL slope. The coastal snow pits also go through the post-depositional smoothing effect, but their influences are not so significant as the inland regions.

Published

2021

4. Identification of multiple natural and anthropogenic sources of dust in snow from Zhongshan Station to Dome A, East Antarctica

Author

ZHIHENG DU, CUNDE XIAO, MINGHU DING, and CHUANJIN LI

Subjects

ice chemistry, ice/atmosphere interactions, snow, Environmental sciences, GE1-350, Meteorology. Climatology, QC851-999

Abstract

The stable oxygen isotope composition, major ions and isotopic compositions of strontium (Sr), neodymium (Nd) and lead (Pb) in insoluble dust from recent surface snow samples along the transect from the Zhongshan and Progress stations (located on the Amery Ice Shelf, East Antarctica) to Dome A (Summit, Antarctica) were analysed. No previous isotopic fingerprinting studies have been conducted for this transect. These data were used to document the dust provenances in Antarctica along the transect up to the highest site, Dome A, for the first time. The insoluble dust in snow samples along the coast displays an overall crust-line isotopic signature that is characterised by highly radiogenic 87Sr/86Sr values and less radiogenic 143Nd/144Nd values. These signatures are comparable with those of samples collected near the ice-free areas of the Zhongshan and Progress stations. Spatial differences are statistically significant along the transect, and the Sr, Nd and Pb isotope components in insoluble dust from two continuous snow samples at Dome A exhibit marked differences, indicating that additional dust reaches the East Antarctic Plateau. The isotopic characteristics of insoluble dust from this transect indicate that the long-distance natural dust and anthropogenic pollutants in these samples primarily originate from Australia.

Published

2018

5. Subsurface heat conduction along the CHINARE traverse route, East Antarctica

Author

Diyi Yang, Minghu Ding, Ian Allison, Xiaowei Zou, Xinyan Chen, Petra Heil, Wenqian Zhang, Lingen Bian, and Cunde Xiao

Subjects

Earth-Surface Processes

Abstract

Using data from three automatic weather stations (LGB69, Eagle and Dome A) from distinctly different climatological zones along the CHINARE (Chinese National Antarctic Research Expedition) traverse route from Zhongshan Station to Dome A, we investigated the characteristics of meteorological conditions and subsurface heat conduction. Spatial analysis indicated decreasing trends in air temperature, relative humidity and wind speed from the coastal katabatic wind zone to the inland plateau region, and air temperatures clearly showed a strong daily variability in winter, suggesting the effect from the fluctuation in the Antarctic atmospheric system. We also analyzed the optimal response time of the 1 and 3 m depth snow temperatures to the 0.1 m depth snow temperature for each site under clear/overcast and day/night situations. This showed an important enhancement to the heat transfer from shortwave radiation penetration. Using an iterative optimization method, we estimated the subsurface heat conduction variations along the transect. This was ~3–5 W m–2. Multiple maxima in daily mean subsurface fluxes were found in winter, with a typical value above 2 W m–2, while a single minimum value under –2 W m–2 was found in summer. On an annual scale, a larger mean loss of subsurface heat conduction was observed in the inland plateau compared to in the coastal katabatic area. Finally, we discussed the possible influences of turbulent and radiant transport on the vertical heat response and confirmed the wind enhancement on the growth of thermal conductivity. This preliminary study provides a brief perspective and an important reference for studying subsurface heat conduction in inland areas of Antarctica.

Published

2022

6. Spatial and temporal variations of fractionation of stable isotopes in East-Antarctic snow

Author

Puyu Wang, Zhiheng Du, Xiangyu Ma, Xiaoming Wang, Jiawen Ren, Bo Sun, Zhongqin Li, Jiao Yang, Minghu Ding, Aihong Xie, Chuanjin Li, Yetang Wang, Hongxi Pang, Cunde Xiao, Guitao Shi, and Shugui Hou

Subjects

Frost flower, geography, Plateau, geography.geographical_feature_category, Ice core, δ18O, Stable isotope ratio, Meteoric water, Snowpack, Atmospheric sciences, Snow, Geology, Earth-Surface Processes

Abstract

Stable isotope ratios (δ18O and δD) in Antarctic snow and ice are basic proxy indices of climate in ice core studies. The relation between the ratios has important indicative significance for moisture sources. In general, the fractionation characteristics of the two isotopes vary with different meteorological and topographical conditions. This paper presents the spatial and temporal distribution of meteoric water line (MWL) slopes along a traverse from the Zhongshan Station (ZSS) to Dome A in East Antarctica. It is found that the slopes decrease with the increasing distance inland from the coast and the lowest slope occurred at Dome A, where the long-range transported moisture dominates and clear sky snowing have an influence. The slopes in different layers of the snowpack showed a decreasing trend with depth and this is attributed to the fractionation during the interstitial sublimation and re-condensation processes of the water vapor. Frost flower development on the interior plateau surface can greatly alter the depth evolution of the MWL slope. The coastal snow pits also go through the post-depositional smoothing effect, but their influences are not so significant as the inland regions.

Published

2021

7. Identification of multiple natural and anthropogenic sources of dust in snow from Zhongshan Station to Dome A, East Antarctica

Author

Chuanjin Li, Zhiheng Du, Minghu Ding, and Cunde Xiao

Subjects

geography, Strontium, geography.geographical_feature_category, Radiogenic nuclide, 010504 meteorology & atmospheric sciences, Geochemistry, chemistry.chemical_element, 010501 environmental sciences, Snow, 01 natural sciences, Ice shelf, Isotopes of oxygen, Dome (geology), Isotopic signature, chemistry, Transect, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

The stable oxygen isotope composition, major ions and isotopic compositions of strontium (Sr), neodymium (Nd) and lead (Pb) in insoluble dust from recent surface snow samples along the transect from the Zhongshan and Progress stations (located on the Amery Ice Shelf, East Antarctica) to Dome A (Summit, Antarctica) were analysed. No previous isotopic fingerprinting studies have been conducted for this transect. These data were used to document the dust provenances in Antarctica along the transect up to the highest site, Dome A, for the first time. The insoluble dust in snow samples along the coast displays an overall crust-line isotopic signature that is characterised by highly radiogenic 87Sr/86Sr values and less radiogenic 143Nd/144Nd values. These signatures are comparable with those of samples collected near the ice-free areas of the Zhongshan and Progress stations. Spatial differences are statistically significant along the transect, and the Sr, Nd and Pb isotope components in insoluble dust from two continuous snow samples at Dome A exhibit marked differences, indicating that additional dust reaches the East Antarctic Plateau. The isotopic characteristics of insoluble dust from this transect indicate that the long-distance natural dust and anthropogenic pollutants in these samples primarily originate from Australia.

Published

2018

8. Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya

Author

Yushuo Liu, Tong Zhang, Xiang Qin, Cunde Xiao, Wentao Du, William Colgan, Minghu Ding, and Weijun Sun

Subjects

Glacier ice accumulation, 010506 paleontology, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Ice stream, Accumulation zone, Glacier, Glacier morphology, 01 natural sciences, Glacier mass balance, Cryosphere, Geomorphology, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes, Ablation zone

Abstract

Knowledge of present-day ice temperature and velocity is important in order to determine how fast a glacier will respond to present and future climate change. We apply a two-dimensional higher-order thermomechanical flowband model to simulate present-day ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya. We use recent (2005–11) observational data to validate the numerical model. Modelled and observed ice surface velocities exhibit good agreement. Modelled ice temperatures agree well with observed values in two shallow boreholes that are ∼18 m deep. The model suggests that the ablation zone of East Rongbuk Glacier, km 4 to km 10 from the glacier head, is underlain by temperate ice.

Published

2013

9. Moraine-dammed lake distribution and outburst flood risk in the Chinese Himalaya

Author

Shijin, Wang, primary, Dahe, Qin, additional, and Cunde, Xiao, additional

Published

2015

10. Spatial variability of surface mass balance along a traverse route from Zhongshan station to Dome A, Antarctica

Author

Minghu, Ding, primary, Cunde, Xiao, additional, Yuansheng, Li, additional, Jiawen, Ren, additional, Shugui, Hou, additional, Bo, Jin, additional, and Bo, Sun, additional

Published

2011

11. Complexity of the climatic regime over the Lambert Glacier basin of the East Antarctic ice sheet: firn-core evidences

Author

Cunde, Xiao, primary, Jiawen, Ren, additional, Dahe, Qin, additional, Zhongqin, Li, additional, Weizhen, Sun, additional, and Allison, Ian, additional

Published

2001

12. Climatological significance of δ18 O in precipitation and ice cores: a case study at the head of the Ürümqi river, Tien Shan, China

Author

Shugui, Hou, primary, Dahe, Qin, additional, Mayewski, Paul A., additional, Qinzhao, Yang, additional, Jiawen, Ren, additional, Zhongqin, Li, additional, and Cunde, Xiao, additional

Published

1999

13. Observed and modelled ice temperature and velocity along the main flowline of East Rongbuk Glacier, Qomolangma (Mount Everest), Himalaya.

Author

Tong ZHANG, Cunde XIAO, William COLGAN, Xiang QIN, Wentao DU, Weijun SUN, Yushuo LIU, and Minghu DING

Subjects

GLACIERS, ICE, CLIMATE change, TEMPERATURE, VELOCITY, HYDROLOGY

Abstract

The article offers information on a study conducted by the authors in which they monitored ice temperature and velocity of the East Rongbuk Glacier, Qomolangma in the Himalayas. It states that the research helped to understand how fast glaciers respond to climate change. It mentions that summer velocity was at 9.1 kilometers (kms) between 2009 and 2010. It highlights that temperate ice allows an englacial hydrology system to go through a glacier without being retained.

Published

2013