25 February 2012, Volume 34 Issue 1
    

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  • Spatial-Temporal Characteristics of Observed Key Parameters for Snow Cover in China during 1957-2009
    MA Li-juan, QIN Da-he
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 1-11. https://doi.org/10.7522/j.issn.1000-0240.2012.0001
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    Using the observed snow cover data from meteorological stations, in this study, the temporal and spatial characteristics of snow depth, snow water equivalent (SWE) and snow density in China during 1957-2009 are analyzed.
    It is revealed that the annual mean snow depth, SWE, and snow density were 0.49 cm, 0.7 mm and 0.14 g·cm-3 over China as a whole, respectively. On average, they were all smallest over the Tibetan Plateau (TP), and were greater over Northwest China (NW). The inter-annual variation was smaller for snow density in China, but the inter-monthly variation was obvious. The snow densities were greatest in March and April for Northeast China (NE) and NW, respectively, and were greatest in June for the TP. Spatially, the annual mean snow densities were below 0.14 g·cm-3 in most of China, and were higher in the TP, NE and NW, which were 0.14~0.18 g·cm-3 in the northern part of NE and the middle and southwest parts of the TP, 0.18~0.26 g·cm-3 in South China and the mid-south part of the TP. The inter-monthly variations were consistent for snow depth and SWE. For China as a whole, the monthly mean snow depth was greatest in January, but the SWE in February was quite close to that in January due to larger snow density in February. In October and November when snow started accumulating, the snow depth and SWE in the NE were the maximum, and were the maximum in the NW since then until fully melting of snow cover. Spatially, the regions with greater annual mean snow depth and SWE were located in NE, northern Xinjiang Autonomous Region, and a small fraction of the southwestern TP.The trend analyses indicated that the annual mean snow depth and SWE both presented increasing trends over China as a whole, NE, NW, and the TP during 1957-2009. Although the trend in China was not significant, the amplitude of variation became greater and greater in the second half of the 20th century. It was generally determined by the variation of snow cover in NE, NW, and the TP. Seasonally, for China as a whole, all trends were negative except for ann insignificant positive trend in winter, but only the negative trend in spring was significant at 95% confidence level. For the regions with greater snow cover, only the positive trend over NW in winter and the negative trends over the TP in summer for snow depth were significant, and for SWE, only the negative trends over the TP in spring and summer were significant. Spatially, the statistically significant (95%-level) positive trend regions for annual mean snow depth lay in the eastern Inner Mongolia, the northern part of NE, the northwestern Xinjiang Region, and the northeastern TP, and the significant negative trend regions mainly lay in the southeast part of NE, most of North China, and the southern TP.
    The distribution of positive and negative trends for annual mean SWE were similar to that of snow depth in position, but not in range. The range showing positive trends was not as large as that of snow depth. SWE decreased significantly in most of China except for the most of NE and the northern Xinjiang Region in winter.
  • Observations and Analyses of Near Surface Meteorological Elements on Glacier No.1 at Headwaters of Ürümqi River, Tianshan Mountains
    WANG Min-zhong, WEI Wen-shou, CHEN Rong-yi, LIU Xin-chun
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 12-20. https://doi.org/10.7522/j.issn.1000-0240.2012.0002
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    Institute of Urumqi Desert Meteorology of China Meteorological Administration held an atmospheric experiment over the Glacier No.1 at the headwaters of the Ürümqi River from January to December in 2009. In this paper, based on the observational data, the daily variations of near surface air temperate, wind speed, wind direction, relative humidity and global radiation are preliminarily analyzed, and compared with the data from Daxigou Meteorological Station. The results show: 1) Because of very high reflection from the glacier, ice and snow surfaces, less net radiation and heat reached the surfaces, and then the air temperature upon the glacier was 2.9 ℃ lower than that at Daxigou Station; 2) The underlying surface in the glacier is very different from that around the valley, leading the net radiation-temperature fields-pressure fields-wind fields changing continuously, resulting in that the axial direction wind of the valley was dominated by strong southern air flow, and the normal direction wind was dominated by prevail east wind flow; 3) The daily change of wind velocity on the Glacier No.1 displayed rather smooth for all seasons, while the wind velocity was larger than that at Daxigou Meteorological Station at night, and was obviously less than that at Daxigou Meteorological Station in the daytime.
  • Variations of Albedo on the DongkemadiGlacier, Tanggula Range
    WANG Jie, HE Xiao-bo, YE Bai-sheng, YANG Guo-jing
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 21-28. https://doi.org/10.7522/j.issn.1000-0240.2012.0003
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    Based on two types albedo data from Landsat TM image acquired on August 2nd in 2007 and MODIS daily snow albedo products (MOD10A1) during the period of 2000-2009, the temporal and spatial characteristics of albedo on the Dongkemadi Glacier are analyzed in this paper. The following conclusions can be drawn: 1) Owing to the limitation of spatial heterogeneity and the current retrieving method, albedo values derived from Landsat TM images and MOD10A1 products have a certain bias (RMSE=0.046, R2=0.77 and RMSE=0.088, R2=0.68, respectively). Nevertheless, they generally can be used for the research on spatial-temporal variations of glacier albedo. 2) Spatially, albedo on the Dongkemadi Glacier increases with altitude, ranging from 0.17~0.74. Affected by topography factors, albedo at the same altitude belt appears great discrepancy, which at the zones around the snow line varies obviously most of all. 3) Temporally, albedo varies greatly owing to the effect of terrain, and varies with the season change significantly as well. Seasonally, albedo is the maximum in autumn, begins to reduce in winter, reaches the minimum at the ablation period in summer (July to August), and increases again after the summer ablation period. During the period of 2000-2009, albedo of the glacier appeared an obvious fluctuation, and decreased slowly; this trend was mainly caused by the changes of the total snowfall and the surface of the glacier. Ignoring the variation of annual snowfall, glacier albedo in the summer ablation period showed a decreasing trend during 2000-2009, with a rate of -0.0083·a-1, which was attributed to the increasing air temperature in summer and the ice surface pollution year by year.
  • Wind Characteristics in Accumulation Area of the Laohugou Glacier No.12, Qilian Mountains
    DU Wen-tao, QIN Xiang, SUN Wei-jun, LIU Yu-shuo, HOU Dian-jiong
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 29-36. https://doi.org/10.7522/j.issn.1000-0240.2012.0004
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    Base on the observations of wind speed and direction in the accumulation area of the Laohugou Glacier No. 12, Qilian Mountains (39°25'39.5″ N, 96°33'21.8″ E, and 5 040m a.s.l.), from November 2008 to October 2009, the characteristics of averaged diurnal and seasonal variations of wind speed and direction are analyzed. It is found that the diurnal fluctuation is obvious, ranging from 1 to 8.8 m·s-1. The maximum diurnal average speed is found in winter (5.1 m·s-1), smaller speeds are observed in spring (3.4 m·s-1 ) and autumn (3.7 m·s-1), and the minimum is detected in summer (2.6 m·s-1), showing a typical alps wind speed characteristics. In autumn and winter, controlled by partial-south wind direction and stable high wind speed, the accumulation area prevails typical glacier wind, whereas, in spring and summer the glacier wind field is strong and sometimes accompanied with valley wind. Affected by the terrain (mountain-valley) and land cover condition (snow-ice underlying surface), easterly wind may appear in spring, summer and autumn, which is possibly attributed to the Qaidam low pressure.
  • Characteristics of Permafrost under a Nonpenerative Thermokarst Lake in Beiluhe Basin on the Tibetan Plateau
    SUN Zhi-zhong, LIU Ming-hao, WU Gui-long, YUN Han-bo
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 37-42. https://doi.org/10.7522/j.issn.1000-0240.2012.0005
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    The characteristics of permafrost beneath a lake in the Beiluhe basin on the Tibetan Plateau were studied based on the ground temperature monitoring. The result shows that the monitored lake did not penetrate through the permafrost. During 2009 to 2010, the permafrost table beneath the lake varied greatly, while the permafrost table beneath the nearby natural alpine meadows was basically unchanged. Apart from the center of the lake, the volumetric ice contents of permafrost beneath and around the lake increased gradually, and the depth of zero annual amplitude of ground temperature and mean annual ground temperature decreased, respectively. During the observation, ground temperature of shallow permafrost increased yearly, but ground temperature of deep permafrost and beneath natural field still unchanged. Ground temperature of permafrost beneath natural field was obviously lower than that under the lake.
  • Analysis on Features of Snow Cover on the Arctic Sea Ice in Summer of 2008
    DOU Ting-feng, XIAO Cun-de, GUO Rui, ZHANG Rui-zhen
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 43-48. https://doi.org/10.7522/j.issn.1000-0240.2012.0006
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    In this study, the distribution of snow cover on the sea ice surface in the Arctic summer is analyzed using the observations during the 3rd Chinese Arctic Expedition. It is found that there are six firn statuses within the snow cover from surface to bottom along the Arctic cruise. They are new snow, wind crust, ice slice, depth hoar, frozen coarse snow and infiltration-congelation ice. Snow surface is often covered by new snow or wind crust, 2~3 cm in depth. Mean snow density is (304.01±29.00)kg·m-3, and surface snow density is always smaller than the subsurface snow density, owing to snow densification. Snow depth, snow water equivalent and new snow amount decrease gradually from south to north, indicating the climate over snow cover is mainly controlled by precipitation. Therefore, melting and evaporation are not the principal factors that should be taken into account in the assessment of snow cover at the end of the Arctic summer. There is a distinct vertical gradient in snow temperature profile; the mean temperature at snow surface is -2.01~0.96 ℃, much higher than the temperature in the interface between snow and sea ice.
  • Study of the Modeling of Seracs Landform Based on Fractal Theory
    ZHANG Tong, XIAO Cun-de
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 49-55. https://doi.org/10.7522/j.issn.1000-0240.2012.0007
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    Seracs developing on some large glaciers can be a problem of how to calculate a convincing total ice volume. However, estimation of seracs' contribution requires knowledge of seracs' landform. It is found that seracs on the East Rongbuk Glacier exhibit fractal characteristics with the box dimension varying from 1.3 to 1.9 and the dimensionless interzone about 40~160 m. The upstream of the seracs zone has a larger fractal dimension than that of downstream zone, indicating that ice seracs will lose its complexity while being developed. A random mid-point displacement method is applied to model ice seracs' form. Through constructing a seracs' ablation model, the ablation ratio of a serac body can be calculated, and it is demonstrated that the overall ablation ratio in the seracs zone approaches to 50% and is independent on landform parameters. As a result, the ice volume of seracs can be estimated within few landform parameters (e.g. the length of ice seracs' zone and the height of ice seracs). The contribution of ice seracs to the total glacier-ice volume of the East Rongbuk Glacier is ~3.7%, which can be neglected.
  • Processes of Soil Thawing-Freezing and Features of Ground Temperature and Moisture at D105 on the Northern Tibetan Plateau
    WANG Xue-jia, YANG Mei-xue, WAN Guo-ning
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 56-63. https://doi.org/10.7522/j.issn.1000-0240.2012.0008
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    Base on the ground temperature and water content data obtained in CAMP/Tibet, 1st January, 2002 to 31 December, 2005, the features of ground temperature, moisture and soil freezing-thawing process at D105 in the northern part of Tibetan Plateau are analyzed. The results show that ground temperature above 40-cm depth existed evident daily variation, and the phase of soil temperature lagged obviously with depth. The annual maximum ground temperature was in August and September; while the minimum was in January and February. The multiannual climate variation could be recognized down to the depth of 185 cm. Soil began to freeze and thaw downwards all from the ground surface. Soil freezing velocity increased with depth, but soil thawing velocity deceased with depth. During the period of freezing, soil temperature was low at the top and high at the bottom. However, soil temperature distribution during the period of thawing was opposite to that during soil freezing period. Above the 60-cm depth, soil water content had an obvious fluctuation during the period of thawing, suggesting that frequent water and heat exchange existed between soil above the depth of 60-cm and atmosphere. The process of soil thawing-freezing were affected by ground average temperature and the daily variation of ground temperature; soil water content greatly influenced the process of soil thawing-freezing, distribution of soil heat and allocation of surface energy. Consequently, soil freezing-thawing process was affected by coupled water and heat.
  • Spatial and Temporal Climate Variations from 1978 to 2009 and Their Trend Projection over the Yarlung Zangbo River Basin
    NIE Ning, ZHANG Wan-chang, DENG Cai
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 64-71. https://doi.org/10.7522/j.issn.1000-0240.2012.0009
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    By means of 1-km spatial resolution DEM data and Archydro Tools, the geographic boundary and the area of the Yarlung Zangbo River basin were precisely extracted. Based on the annual mean climatic data from 39 meteorological stations during 1978-2009 within and around this basin, by means of synthetic usage of climatic statistics models and GIS spatial interpolation techniques, the spatial and temporal characteristics of climate variations were analyzed and the future trend of the climatic variations was projected. The study results suggest that: 1) From 1978 to 2009, precipitation within the watershed roughly increased from west to east, and the basin scale averaged precipitation increased slowly with a speed of 7.935 mm·(10a)-1. Annual mean temperature increased gradually from the river source area to downstream and from the basin boundary to hinterland, with an exception for a local high-temperature zone emerged over the Lhasa city and the Naidong area. In the 32 years from 1978 to 2009, annual mean temperature increased about 2.2 ℃ with an increasing rate of 0.489 ℃·(10a)-1 (through 99% significance test), which was obviously higher than the reported global temperature increase rate and that for China as a whole. 2) Over the past 10 years, the basin scale averaged precipitation notably reduced with a speed of -139mm·(10a)-1, while air temperature increased with a speed of 1.14 ℃·(10a)-1, implying that the whole watershed tends to be much warm and dry in the recent decade. 3) In addition, according to the R/S analyses, Hurst index of the 32 years predicts that air temperature and precipitation would increase in some phases in the future, and the climate over the basin would tend to be much warm and wet.
  • Artificial Oasis Evolution and Its Characteristics in the Manas River Basin, Northern Xinjiang Region
    ZHANG Qing-qing, XU Hai-liang, FAN Zi-li, ZHANG Peng, YU Pu-jia, LING Hong-bo
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 72-80. https://doi.org/10.7522/j.issn.1000-0240.2012.0010
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    Based on historical documents, field survey and remote sensing image data, artificial oasis evolution in the last 2000 years are analyzed, and the relationship between artificial oasis evolution and water resources utilization and the characteristics of artificial oasis expansion are discussed in this paper. It is revealed that: (1) Oasis evolution in the basin over the 2000 years can be divided into four periods. Before the 1700s, Manas River basin was an area dominated by animal husbandry. Oasis was only distributed in traffic routes and military bases. During the period from the 1700s to 1949, the basin entered a period of semi-farming and semi-grazing. Oasis was a small block located around the river and spring water. After 1949, there is a farming-dominated period, when small pieces of oases in the basin connected together into a large one, and then expands to be the fourth largest oases group in Xinjiang Region. Especially after the 1970s, the second and third industries in the basin have grown up rapidly; (2) The farming-dominated period can be subdivided into four phases according to the scale of water projects and the level of irrigation. In the four phases, from the oasis scales one can see that artificial oasis evolution has a close connection with water resource utilization; (3) Oasis expansion in the basin characterized by humanity factor. Immigration settlement plays an important role in the development of the basin. Artificial oasis has a great development in the last 60 years, and oasis development still subjects to restrictions of water resources, in spite of the fact that water conservancy construction is strengthened.
  • Lake Surface Expansion of Nam Co during 1970-2009: Evidence of Satellite Remote Sensing and Cause Analysis
    MA Ying-zhao, YI Chao-lu, WU Jia-zhang, JIN Yao
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 81-88. https://doi.org/10.7522/j.issn.1000-0240.2012.0011
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    By using remote sensing images of different periods, aerial topographic map and digital elevation model, the change in surface area of Nam Co during 1970-2009 is analyzed based on geographical information system (GIS) and remote sensing (RS) techniques. According to the correlative meteorological data, the possible reasons on lake area variation are discussed by analyzing the lake pan-evaporation and precipitation, glacier ablation, as well as influx water supply. It is found that lake surface has expanded since the 1970s and even more severe during the last ten years, with an expansion more than 50 km2 from 2001 to 2009. Precipitation variation is the direct cause of the lake expansion. Furthermore, the decline of lake pan-evaporation is another reason for the extension.
  • Surface Frost Number Model and Its Application to the Tibetan Plateau
    NAN Zhuo-tong, LI Shu-xun, CHENG Guo-dong, HUANG Pei-pei
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 89-95. https://doi.org/10.7522/j.issn.1000-0240.2012.0012
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    The surface frost number model, a statistical-empirical method, is able to simulate and predict frozen soil distribution, which has been applied successfully in high latitude regions. However, owing to lack of physical meaning, it should be carefully treated for applying in other regions. For example, it is unclear whether or not a threshold F=0.5 is sufficient to delineate frozen soil distribution in high altitude regions such as the Tibetan Plateau. In this paper, the surface frost number model is re-derived from an explicit physical formulation, the classical Stephan's solution. A new variable E is introduced to explicitly reflect the thermal effects of frozen and thawed states. The original Nelson's surface frost number model can be implemented as a specific instance of E=1. A set of simulations on the Tibetan Plateau with different E were carried out using observed surface soil temperature data. It is found that this model can depict major characteristics of frozen soil distribution over the plateau. A comparative analysis shows that E, representing soil type, has obvious impact on frozen soil distribution, in particular in the northern and southern permafrost boundaries of the plateau. It could be expected that a better simulation can be obtained using a calibrated parameter E.
  • GIS-based Analysis of Landslide and Debris Flow Hazard in Lanzhou
    QI Yuan, LIU Yong, YANG Zheng-hua, XU Zhen, FANG Miao
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 96-104. https://doi.org/10.7522/j.issn.1000-0240.2012.0013
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    Frequent geologic disasters cause huge impact on human society. Remote sensing, geographic information systems, global positioning systems and network technology play increasingly great role in disaster reduction. In Lanzhou, the regional lithology, tectonic faults, seismic activity, surface erosion and undulating terrain have contributed to crushing landslide and debris flow hazards. Summer torrential rains and human engineering activities induce disasters in every summer. Through establishing spatial database of regional landslide and debris flow disasters, using spatial analysis, the expertise model and Logistic model for predicting the probability of landslide and debris flow hazards are achieved in this study. The predicted landslide accuracy of Logistic model and the empirical model reach 85.3% and 74.2%, respectively. The predicted debris flow accuracy of Logistic model and the empirical model reach 80.5% and 90.5%, respectively.
  • Environmental Factor Characteristics of Soil Erosion in the Upper Reaches of Shiyang River in the Qilian Mountains
    TANG Cui-wen, ZHANG Zhong-ming, XIAO Du-ning, YANG Guo-jing
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 105-113. https://doi.org/10.7522/j.issn.1000-0240.2012.0014
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    The amount of soil erosion and its spatial distribution features in the Haxi forest area located in the eastern and north slopes of Qilian Mountains were simulated using GIS and USLE. In addition, the responses of soil erosion to natural environmental background were quantitatively analyzed. The study revealed that the annual average soil erosion modulus in the study area is 25.1 t·hm-2·a-1; the area of slight and minor erosion takes up 80 percent of the total erosion area. However, the 78.3% erosion amount comes from strong to severe erosion. According to annual average soil erosion modulus, the land types are ranked from high to low as follows: bare soil>grassland>farmland>shrubbery>high forest; the erosion amount of bare land accounts for 54.9% of the total. More than 95% of high forest and shrubbery area is light erosion area; in farmland the erosion intensive is visibly higher than that in grassland and other vegetation types. However, the area percentage of severe erosion of grassland is more than that of farmland. The relationship between amount of soil erosion and altitude has positive correlation with the altitude range of vegetation types. The average soil erosion modulus increases with gradients, and the erosion amount mainly yields from the slope range of 15°~45°. The changing tendency of erosion amount with slope for different vegetation types could indicate the preventing function of vegetation types in a certain extent.
  • Impact of Jinchuan Tailing Pond Drainage on Groundwater Quality: Current Situation and Prediction
    LIU Wei-dong, LI Feng, SUN Wei
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 114-119. https://doi.org/10.7522/j.issn.1000-0240.2012.0015
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    A large number of industrial waste water containing heavy metal ions and other wastes have been produced during the production process from Jinchuan Company. In this paper, the impact of tailing pond drainage on local groundwater quality is discussed. Firstly, a series of monitoring of the groundwater contamination have been made in the reservoir area. Then, the pollution sources of heavy metal ions are analyzed through the distribution contour map of Ni, Cu, Zn and Cr. Secondly, the distributions of major pollutants (Ni, As, Cu, Cr, Cd, SO42- and other components) in tailing wastewater are simulated, and the potential risks of various pollutants are predicted by established physical and mathematical models.
  • Review on Physic-Mechanical Properties of Warm Frozen Soil
    LIU Shi-wei, ZHANG Jian-ming
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 120-129. https://doi.org/10.7522/j.issn.1000-0240.2012.0016
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    Warm frozen soil refers to the frozen soil in the temperature range with severe phase changes. The term of warm frozen soil is usually used for describing frozen soil in relatively higher temperature blow 0 ℃. As a result of the temperature range with severe phase changes, the proportion of ice to unfrozen water is extremely sensitive to temperature change. Therefore, warm frozen soil is prone to considerable variation in physic-mechanical properties. Based on documents on physic-mechanical properties of warm frozen soil, the definition and temperature boundary of warm frozen soil are reviewed in this paper. It is revealed that unfrozen water has a tremendous impact on the physic-mechanical properties of warm frozen soil, and pointed out that to measure the pore water pressure in the warm frozen soil is meaningful and interesting. The general findings of recent researches are reviews in this paper. The mechanical properties of warm frozen soil are summarized from three different respects, including strength characteristics, deformation properties and constitutive models. In order to provide theoretical basis for analysis of deformation and stability of foundations for various engineering projects in warm permafrost regions, further researches on the mechanism of deformation and proper constitutive model of warm frozen soil is around the corner.
  • A Simulation of Glacial Runoff at Headwaters of the Ürümqi River
    YANG Miao, YE Bai-sheng, PENG Pei-hao, HAN Tian-ding, GAO Hong-kai, CUI Yu-huan, WANG Jie, GAO Ming-jie
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 130-138. https://doi.org/10.7522/j.issn.1000-0240.2012.0017
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    The HBV model was applied to simulate the runoff of the Glacier No. 1 at the Headwaters of the Urumqi River, while the degree-day model was used to calculate ice and snow melt. Using measured hydro-meteorological data during 1980-2006 and five glacier area topographic maps as the model input, the daily runoff of the watershed were simulated. Also, it is emphatically analyzed how the degree-day factor and glacier area fluctuation impact the glacial meltwater runoff. The results show that the adjusted degree-day factor and glacier area are able to make the simulation results greatly improved, which proved the model itself being highly sensitive to the degree-day factor. In a long time scale, simulation of glacier runoff and mass balance should update glacier area annually, as a variable in order to improve the simulation accuracy. Based on the above considerations, the runoff and soil evaporation are simulated from1980 to 2006. Based on the principle of water balance, the mass balance and glacier ice volume sequences in the watershed are calculated, while the simulation results of the model are compared and validated. It is found that glacier area change would affect the runoff simulation for a longer time scale, and should not be ignored. It would make the simulated runoff larger than the actual one if the glacier area is a constant. The average error due to glacier are change is about 7% in the past 26 years for the Glacier No.1 at the headwaters of the Urumqi River.
  • Land Surface-Hydrology Coupled Model: Establishing and Applying to the Huaihe River Basin
    ZHAI Chun-ling, YU Zhong-bo, HAO Zhen-chun, SUN Yong-bin, YAO Feng, WANG Ming-ye, LIU Chen-liang, HAN Shang-feng, GU Huang-he, WANG Xing-ping
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 139-146. https://doi.org/10.7522/j.issn.1000-0240.2012.0018
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    With the distributed hydrology model system (HMS) and Geographical Information System and the technology of remote sensing for data spatial analysis, by building digital watershed, and then extracting watershed characteristic information, a land surface-hydrology coupled model (LSX-HMS) was established for the Huaihe River basin. The perturbation analysis for parameter sensitivity is employed. Measured hydrologic data were used to calibrate and validate the model. The Nash-Sutcliffe coefficient ranges from 0.760~0.939, indicating that the coupled model has good applicability in the basin. The spatial distribution of 8-year (from 1980 to 1987) average precipitation, evapotranspiration, streamflow and soil moisture are simulated by the LSX-HMS model. It is found that there is a large difference among the spatial distribution of each hydrological variable, precipitation decreases with latitude, evapotranspiration and streamflow are small in upstream and are large in middle and downstream, soil moisture is lower in the basion's west and southwest with mountain and hills and is higher in the region with plain. This research provides a basis for developing, utilizing, allocating and managing water and soil resources in the Huaihe river basin.
  • Responses of Sabina przewalskii and Picea crassifolia Seedlings toDifferent Draught Stress of Soil in Ecophysiological Characteristics
    ZHAO Chang-ming, GAO Xian-liang, MA Ren-yi, CHEN Li-tong, CHEN Tuo, REN Jia-wen
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 147-154. https://doi.org/10.7522/j.issn.1000-0240.2012.0019
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    The differences of ecophysiological features in four levels of field capacity: 80%, 60%, 40% and 20%, respectively, regarded as well watered, mild, moderate and severe drought stress, were studied using Sabina przewalskii and Picea crassifolia, two dominant species in the subalpine coniferous forest zone in the northeastern Tibetan Plateau, as objects. It is revealed that drought stress significantly decreases the folia relative water content(RWC), photosynthetic rate(Pn), stomatal conductance(Gs) and transpiration rate(E), and increases the foliar carbon stable isotope composition(δ13C), nitrogen use efficiency(NUE), instantaneous water use efficiency(WUE-i), content of malonaldehyde(MDA) and activity of superoxide dismutase(SOD) of S. przewalskii and P. crassifolia. Their distribution in biomass(i.e., root shoot ratio, R:S) are different, i. e., the R:S of P. crassifolia decreases gradually, inversely, the one of S. przewalskii increases gradually. However, there is significant divergence to drought stress response in the two species. The effect of P. crassifolia is larger than that of S. przewalskii, illustrating that P. crassifolia is sensitive to water stress. All results indicate that S. przewalskii possesses more drought tolerance than P. crassifolia.
  • Variations of Foliar Stable Carbon Isotope Composition and Water Use Efficiency in Populus euphratica for Different Plots
    CAO Sheng-kui, FENG Qi, SI Jian-hua, LIU Wei, CAO Guang-chao, CHEN Ke-long, ZHU Jing-fu
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 155-160. https://doi.org/10.7522/j.issn.1000-0240.2012.0020
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    In this paper, the variations of foliar stable carbon isotope composition (δ13C) and water use efficiency in P.euphratica in different plots are studied. It is found that the values of foliar stable carbon isotope composition (δ13C) of P.euphratica in the five plots vary from (-25.80~±0.05)‰ to (-29.19~±0.05)‰, with a mean of (-27.70~±0.13)‰. The average δ13C value is the highest in the dune plot, followed by that in gobi plot, with a lowest in riparian plot. The difference in δ13C value among different plots is caused by discrepancy in soil water content and groundwater depth. There are two trends of foliar δ13C values during the whole growing season. Water use efficiency in P. euphratica in the five plots during the growing season varies from (60.41±0.47) to (95.46±0.47)μmolCO2·mmolH2O-1, with a mean of (75.69±1.37)μmolCO2·mmolH2O-1. The range and average of water use efficiency indicate that P. euphratica is a species with higher water use efficiency. From riparian lowland, sandpile, Gobi plot to Dune plot, with reduction of soil water content and lowering of groundwater depth, the water use efficiency is improved gradually.
  • Changes in Landscape Pattern in the Lower Reaches of Tarim River after an Ecological Water Delivery
    LIU Gui-lin, Alishir KURBAN, Arkin ABAYDULLA, DUAN Han-ming, Umut HALIK, Abdimijit ABLEKIM, NIU Ting
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 161-168. https://doi.org/10.7522/j.issn.1000-0240.2012.0021
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    In the period from 2000 to 2005, the vegetation along the previously dried section of the Tarim River recovered due to the seven separate ecological water deliveries from the Dashkol Reservoir in the lower reaches of the river. In this paper, binary annual vegetation maps involving vegetated and non-vegetated areas were produced based on CBERS/CCD images from 2000 to 2005 using GIS and remote sensing techniques, and landscape indices were computed to analyze the changes in vegetation landscape pattern using the FRAGSTATS software. Results showed that the maximum of vegetation landscape dynamics was 47.83% over the period from 2003 to 2004, while the minimum of it was -1.39% during the period from 2002 to 2003, indicating a vegetation recovery trend during the whole study period. Number of vegetation patches and the landscape shape index also increased, while the contagion index decreased by 36.9. The patch cohesion index became greater than 99 over the whole study period, which implies that landscape fragmentation and dispersion increased, with a higher connectivity of landscape types. Moreover, the average area of vegetation patches increased and the percentage of the recovered vegetation area was negatively related to the distance from the river channel. However, the vegetated landscape occupied still less than 50% of the study area. Remainder of the area was non-vegetated, including takir desert, bare soil and sandy desert, forming the major landscape types in the study area. In buffer zone 1, the minimum fractal dimension of vegetation landscape decreased, the number of patches became a minimum in 2005, and the patch cohesion index increased, which indicated that the vegetation near the river channel was stable and less disturbed by the ecological water delivery, and the patches of vegetation landscape became more concentrated. In buffer zone 1, the largest patch index was always greater than 10%, much higher than those in other buffer zones over the whole study period, suggesting that the vegetation landscape near by the river channel has more ecological dominance.
  • A Study of Temperature Sensitivity of Soil Respiration in Cotton Field in Arid Regions of the Tarim River Basin
    ZHAO Zhi-min, ZHAO Cheng-yi
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 169-176. https://doi.org/10.7522/j.issn.1000-0240.2012.0022
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    On the basis of the values of soil respiration, soil temperature and soil moisture measured in the cotton field in Aksu National Experimental Station of Oasis Farmland Ecosystem, a general model of temperature sensitivity of soil respiration is formed. By using the formed general model of temperature sensitivity of soil respiration, the temperature sensitivities of soil respiration simulated by five temperature-respiration models in the study site are analyzed. It is found that Arrhenius model is optimum to simulate soil respiration in this study site; Temperature sensitivity of soil respiration decreases with increasing temperature. Comparing the temperature sensitivity of soil respiration at the two experimental sites finds that the difference between the two sites is significant. This result can be explained with that temperature sensitivity of soil respiration varies among different components of soil respiration. Maybe, it is a theme needed to focus.
  • A Review of Studies on Water and Heat Index and Characteristics of Crops in Plateau Regions
    DENG Zhen-yong, ZHANG Qiang, WANG Qiang, WANG Run-yuan, WANG Jin-song, XU Jin-fang
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 177-185. https://doi.org/10.7522/j.issn.1000-0240.2012.0023
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    Based on date of agrometeorological condition test, experiment, ecoclimate suitability and record of agrometeorological disasters, the water and heat indexes of 30 species plants are determined, including seven species of crops, seven species of cash crops, six species of specialty crops, seven species of melon and fruit crops and four species of Chinese medicinal crop. The soil moisture indexes of spring and winter wheat are also determined. There are four pronounced characteristics in these indexes. Crops of preferring cool, neutral, thermophilic and preferring warm can be discriminated by cumulative temperature of ≥0 ℃, ≥5 ℃, ≥10 ℃ and ≥15 ℃, respectively. There is a distinct difference of suitable heat index between different temperature zones, with a tendency of the heat index decreasing from high temperature zone to low temperature one. The water and heat index of crops is varying slowly with climate change. The growth period extends with climate warming. The heat needed increases as compared with that before for crops of same property. The water requirement of crops increases with climate drying. The indexes of water and heat are very important criterion for measuring crop planting suitability and scientific basis for introduction breeding, planning crop pattern, cultivation management and increasing yield. These indexes are important for servicing agriculture. These indexes are also very useful for scientific researches and education.
  • Effect of Ecological Compensation on Farmer-Household Livelihood Capital—A Case Study in the Yellow River Water Supply Area in Gannan
    ZHANG Li, ZHAO Xue-yan, HOU Cheng-cheng, JIANG Jin-de
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 186-195. https://doi.org/10.7522/j.issn.1000-0240.2012.0024
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    Ecological compensation assessment and benefit analysis have become one of the hotspots in recent years. In allusion to the grazing forbidden project implemented in the Yellow River water supply area in Gannan, based on the sustainable livelihood framework, the livelihood capital indexes are established by using survey information on farmer-households, and the farmer-household capital is calculated, in order to assess the effect of ecological compensation on the farmer-household livelihood capital through comparative analysis and covariance analysis. Finally, a more diverse and differentiated compensation is proposed, so as to improve the livelihood capital of farmers in various areas. Conclusions are drawn as follows: 1) the livelihood capital index increases significantly from 0.216 before grazing forbidden to 0.277 at present. Among them, human capital, physical capital, financial capital and social capital increase markedly by 0.094, 0.075, 0.115, 0.040, respectively, meanwhile, natural capital decreases markedly by 0.023; 2) The effect of ecological compensation has regional disparity in livelihood capital structure, in other words, the increase amplitude of livelihood capital is agro-pastoral region> agricultural region>pastoral region. Among them, the effect of physical capital is pastoral region>agro-pastoralist region> agricultural region; the effect of human capital and social capital have a similar result: agricultural region >agro-pastoralist region> pastoral region; the result of financial capital is agro-pastoralist region> pastoral region> agricultural region; and the decreasing amplitude of natural capital is agro-pastoralist region> pastoral region> agricultural region; 3) Farmer-household livelihood capital correlation has regional difference, which is influenced by ecological compensation. The correlation of the livelihood capital in pastoral region has enhanced; nevertheless, the correlation of the livelihood capital in agro-pastoralist region and agricultural region has reduced.
  • Indexes of Ecosystem Health Evaluation
    DONG Guang-qian, GAO Xin-cai
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 196-200. https://doi.org/10.7522/j.issn.1000-0240.2012.0025
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    Rapid deterioration of the world's ecosystems has intensified the need for effective environmental monitoring and development of operational indexes of ecosystem health. The indexes are helpful in improving the condition of ecological system and achieving the sustainable development of the nature and humans. For proper choosing the indexes, the change of ecosystem health should be known scientifically. Thus, human could do something to help ecosystem more healthful. In this paper, the definition of the ecosystem health is reviewed, and the indexes of ecological health are illustrated. Afterwards, taking Costanza's definition as an example, it is pointed out that one should measure health from a multiple scale of the system's vigor, organization and resilience, and how to constructing health indexes is introduced further according to the definition. Finally, taking Ulanowicz's information index as an example, how to evaluate ecosystem health from the system's perspective is showed, and the potential of using information index to evaluate ecosystem health is pointed out.
  • Evaluation of the Tourism Climate Comfort Index in Lijiang City, Yunnan
    CAO Wei-hong, HE Yuan-qing, LI Zong-xing, WANG Shu-xin, WANG Chun-feng
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 201-206. https://doi.org/10.7522/j.issn.1000-0240.2012.0026
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    According to the meteorological data in Lijiang from 1954 to 2009, the main tourism climate factors are analyzed, including air temperature, precipitation, relative humidity, wind speed and sunshine hours. A new comprehensive comfort index is developed based on the calculation of THI, K and ICL. This new index has some peculiarity like comparable, able to add together and so on. The climate comfortable degree of Lijiang is analyzed by the new index, and the grades of fitness and spatial distribution are divided. The following conclusions can be drawn: 1) The suitable traveling period of Lijiang is from March to November, and the best period is from May to September; 2) Since 2000, the air temperature has risen, wind speed has decreased, precipitation has reduced, humidity has decreased, with a warming-drying trend, which will attract more visitors and will increase human comfort during the trip; 3) The suitable travel duration will extend. The Lijiang tourism will be developed well.
  • Adaptative Strategy of Mountain Glacier Tourism under Climate Warming Background— A Case Study of Mt. Yulong Snow-Glacier-Geological Park
    WANG Shi-jin, ZHAO Jing-dong, HE Yuan-qing
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 207-213. https://doi.org/10.7522/j.issn.1000-0240.2012.0027
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    Mountain glaciers have more obvious location advantage and tourist market than polar and high latitude glaciers. Due to the enormous economic benefit and heritage value, some mountain glacier resources are always received higher attention from commercial media, government departments and mountain tourists at home and abroad. So far, more than 50 glaciers have been developed successfully as famous tourist destinations all over the world. However, global climate warming seriously affects mountain glacier resources and its surrounding environment. According to the current trend of glacier acceleratedly retreating, some glacial natural and cultural landscapes will be weakened, even disappeared in the future. In addition, climate warming will inevitably affect mountain ecosystem, tourism route on ice and glacier experience activities. At the same time, the disappearance of mountain glaciers will also lead to reduction of visitors and local economic benefits. In this paper, taking Mt. Yulong Snow-Glacier-Geological Park as an example, the retreat trend of the typical glacier is analyzed based on the above mentioned reasons, and some response mechanism and adaptative strategies are put forward scientifically and rationally in the global climate warming background, in order to help the sustainable development of mountain glacier tourism in the future.
  • A Global Comparative Analysis of Urban Spatio-Temporal Variation during Last Four Decades by Using Coarse Resolution Remote Sensing Data and GIS
    ALIMUJIANG Kasimu, ANWAER Maimaitiming
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 214-220. https://doi.org/10.7522/j.issn.1000-0240.2012.0028
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    In recent decades, rapid population growth and urban expansion affects local and regional ecosystems, climate, biogeochemistry, as well as food production. Global urban growth is analyzed during the last four decades by comparing satellite images of urban land area extent at two different times. The Digital Chart of the World (DCW), one of the earliest available global maps, was developed originally by the US Defense Mapping Agency (DMA). DCW populated places layer is a GIS product that was created by digitizing a large collection of maps and navigational charts in the 1960. GLCNMO (Global Land Cover by National Mapping Organization) is the continental scale urban map at 1 km spatial resolution by Gridded Population Density data, nighttime light data and MODIS data with the reference of fine resolution Landsat ETM+ imagery, which shows the urban expansion in 2003. The data processing and analyses were done in geographic information system (GIS), which facilitates the overlaying of multiple themes for analysis. The spatial-temporal changes in world cities during the period from the 1960s to the beginning of 2000s were analyzed by computing the urban percentage, annual urban growth rates and compact ratios. The analysis was carried out on a continent, country and individual urban basis. It is revealed that urban development is achieving momentum in developing countries, expanding more noticeable than that in the previous decades. In developing countries, urban land percentage is lower, but urban growth rate is higher. Urban structure of developing countries is more compact and dense than that in Europe and North America.
  • Understanding Tao Available to Scientists by Pithy Instructive Sayings
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 221-235. https://doi.org/10.7522/j.issn.1000-0240.2012.0029
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  • The Conquest of Happiness by the Team of Ecological Economics
    JOURNAL OF GLACIOLOGY AND GEOCRYOLOGY. 2012, 34(1): 236-246. https://doi.org/10.7522/j.issn.1000-0240.2012.0030
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