多年冻土地区铁路路堤北坡和南坡热状况差异分析   总被引：1，自引：2，他引：1  

盛煜  温智  张明义  吴吉春 《冰川冻土》2004,26(Z1):161-165

Based on the observational data at Beiluhe test site of Qinghai-Tibetan Railway, the difference of thermal state between south faced and north faced slope was analyzed. The results indicated that the mean annual ground temperature at the depth of 0. 5m on south faced slope was higher than that on north faced slope by over 3 ℃. The higher temperature on south faced slope was greatly attributed to the high temperature during winter time. This kind of difference in thermal state may result in asymmetric thermal regime in embankment as well as in underlying soil. As a result, the unevenly transverse deformation may appear.  相似文献   

Studies on soil organic carbon of density-isolated fractions and water-stable aggregates under different types of land use on black soils     

Haibo LI Xiaozeng HAN Feng WANG Yunfa QIAO Baoshan XING 《中国地球化学学报》2006,25(B08):266-267

The experiment was conducted to determine the organic carbon concentrations of black soils by using density fractionation and wet-sieving of aggregates into five size fractions. Soil samples （0-20 cm layer） were collected from the following experiment sites （National Field Research Station of Agro-ecosystem in Hailun, Northeast of China）： （1） grassland （GL）, formerly cropped, and but fallowed in 1985 with Leymus chinesis as the dominant species; （2） bareland （BL）, like grassland, fallowed in 1985, but grasses were eliminated periodically during the plant growth stages; （3） cropland, three treatments in a long-term site experiment established in 1993 were selected, including no fertilizer applied （NF）, nitrogen and phosphorus fertilizers applied （NP）, and NP fertilizer amended with organic materials （NPOM）. The results showed that the total organic carbon （TOC） concentrations within five experiment sites differed significantly at P〈0.01. The natural ecosystem subjected to human disturbance or transferred into cropland resulted in loss of TOC, however, TOC concentrations increased significantly with chemical fertilizer plus organic manure incorporated into cropland. The OC concentrations in the free light fraction （free-LF） and heavy fraction （HF） had significant correlations with those of TOC in the whole soil at P〈0.01, which indicated that the accumulation of free-LF and HF was very important for the net increase in the TOC. In GL more than 90% of the aggregate separates was larger than 0.25 mm, in which aggregates larger than 2 mm accounted for 44%, as a result of physical enmeshing of fine roots.  相似文献   

Geochemical reasons for high vulnerability of northern taiga ecosystems on hard gypsum outcrops     

Tatyana Yu. Tuyukina 《中国地球化学学报》2006,25(B08):170-170

Northern taiga ecosystems on hard gypsum outcrops were studied at the area of Plnega State Reserve in the Arkhangelsk region of Russia. Landscapes on gypsum outcrops are very specific and characterized by a dissected karst topography and predominance of soils formed on hard gypsum. Phytocenoses confined to soils on hard gypsum are oligotrophic and significantly differ from generally known boreal forests. In the northern taiga, these are open woodlands characterized by the prevalence of suppressed pines and larches and the presence of rare arcto-alpine species （e.g. Gypsophylla uralensis subsp, pinegensis） in the lower tiers. It was found that ecosystems on gypsum outcrops are very vulnerable for fires with slow processes of vegetation recovery. Chemical methods of rocks, soils and plants samples investigation include pH （potentiometrically）, humus （T＇urin＇s method）, nitrogen （K＇eldal＇s method） and total content of other 20 macro- and microelements （X-ray fluorescence analysis）. The analysis of hard gypsum and the local geochemical background of the Pinega region （glacial loamy deposits） showed that gypsum rock is enriched only in S, Ca, and Sr： it consists of 99% CaSO4＊2H2O and is non-calcareous according to pH levels and negative result of qualitative reaction with HCl. The contents of Br, Pb and N are close to those of moraine. But most of nutrients have concentrations insufficient for normal plant growth, e.g. K and Mn are found in quantities of 1/400 and less than 1/1000 of their contents in silicate loamy soils of the study area. Distribution of all chemical elements in the profiles of soils formed on gypsum shows that there is no accumulation of any eluvium during soil formation because of total dissolution of disintegrated gypsum material. In this specific soil litter is the main horizon of most of nutrient concentration and, therefore, its role for plants nutrition became more important than in soils on glacial loams. The fires destroying soil litter, which is extremely precious for the whole ecosystem on geochemically pure gypsum, also causes an intensive denudation of organic horizons on slopes of karst landforms.  相似文献   

Simulation and assessment of soil temperature and moisture in seasonally frozen soil regions of the Tibetan Plateau based on SHAW model北大核心CSCD     

薛伟  周毓彦  刘建伟  鲁帆  侯保灯  胡莹莹  肖伟华 《冰川冻土》2023,(1):54-66

In recent years,more and more attention has been paid to the problem of the cryosphere changes on the Tibetan Plateau,and it has gradually become a hot issue for scholars. Known as the“water tower of Asia”,the Tibetan Plateau is the source of many major rivers in Asia. Under the combined influence of climate change and human activities,water resources on the Tibetan Plateau have undergone profound changes,especially soil water,as an important component of water resources,which plays an important role in regulating vegetation and crop growth,rainfall and runoff. However,global warming leads to the degradation of permafrost and seasonal⁃ ly frozen soil,which affects the original water cycle process and the spatial and temporal pattern of water re⁃ sources by changing the properties of soil water storage and water transport. In the Tibetan Plateau,where there are few data,it is difficult to directly study the soil water cycle process under freezing-thawing by using original data. Therefore,it is an important means to simulate the variation characteristics of soil water and temperature under freezing-thawing in seasonally frozen soil regions of the Tibetan Plateau by using coupling model of soil water and heat. Aiming at the key problem of the difference of soil temperature and moisture characteristics in typical seasonally frozen soil regions under different meteorological conditions,this paper simulated the charac⁃ teristics of soil moisture and temperature change in Maqu,Naqu（Nagqu）and Shiquanhe from 2017 to 2018 by using SHAW（Simultaneous Heat and Water）model and three soil moisture characteristic curve models. The simulation effect and variation characteristics of soil moisture and temperature under different meteorological conditions were analyzed,and the influence of soil moisture characteristic curve model on the simulation effect was studied. The results show that SHAW model can well simulate the temporal variation and vertical distribu⁃ tion of soil temperature and moisture under different meteorological conditions. The simulation effect of soil tem⁃ perature is better than that of soil moisture. The average NSE,R2 and RMSE of soil temperature are 0. 88,0. 96 and 2. 20 ℃,respectively. The mean NSE,R2 and RMSE of soil moisture are 0. 60,0. 72 and 0. 03 m3·m-3,respec⁃ tively. In terms of different meteorological conditions,the simulation effect of soil temperature in relatively dry region was significantly better than that in humid region,while the simulation effect of soil water in relatively hu⁃ mid region was significantly better than that in arid region. From different depths in soil,the simulation effect of soil temperature decreases gradually with the increase of depth,while the simulation effect of soil moisture in the middle and lower layers is better than that in the surface layer. From the view of different soil moisture character⁃ istic curve models,different soil water characteristic curve models have no significant effect on soil temperature simulation effect,but there are significant differences in soil moisture simulation effect. In addition,there are great differences and uncertainties in simulating soil temperature and moisture in different freezing-thawing stag⁃ es. With the increasing trend of climate warming,permafrost and seasonally frozen soil on the Tibetan Plateau may continue to degrade,may change the current water resources pattern,resulting in frequent extreme weather events. Therefore,from the perspective of numerical simulation,this paper verified the applicability of soil moisture and heat coupling model in soil temperature and moisture simulation under different meteorological con⁃ ditions,revealed the influence of precipitation and temperature on soil temperature and moisture simulation at different depths in seasonally frozen soil regions,and analyzed the differences in simulation effects of different soil moisture characteristic curve models. The results provide reference for the study of soil water resources vari⁃ ation under freezing-thawing conditions. © 2023 Chinese Journal of General Practitioners. All rights reserved.  相似文献   

Changes in surface soil mositure during freeze-thaw process under different vegetated status using Sentinel-1A in Beiluhe北大核心CSCD     

胡越中  王广军  杜海波  梁四海  罗银飞  董高峰  彭红明 《冰川冻土》2022,44(6):1925-1934

Beiluhe basin lies in a permafrost region where is located in the interior of Tibetan Plateau. Ecosystem in the area is subjected to the freeze-thaw process of the active tjaele,and there is conspicuous correlation between soil moisture（SM）and vegetation coverage. To retrieve the soil moisture content of Beiluhe basin with a total area of 2 037. 94 km2,a synergistic method,which combined improved water cloud model,Oh,Dubois and Topp model,was presented in this paper base on Sentinel-1A multi-polarization SAR and Landsat-8 time series images data. The accuracy was validated with the in-situ point SM data：Adjusted-R2 of the regression equation is 0. 6848,and RMSE is 0. 039 cm3·cm-3. The analysis of correlation among freeze-thaw process,SM and vegetation cover from macro watershed scale manifests：Vegetation coverage has a significant delayed effect on the freeze-thaw process of the active tjaele,that is,the higher vegetation coverage,the more lagging freeze-thaw time;These study results are basically consistent with predecessors in-situ observation data,verifying the feasibility of studying correlation among soil freeze-thaw process,SM,and vegetation coverage from the macro watershed scale based on Sentinel-1A annual time series data. © 2022 Science Press (China).  相似文献   

Transformation of organic carbon and its potential impact on lead weathering in firing range soils     

Guodong ZHENG Dimitris Dermatas Zhiguang SONG Gang SHEN Xuanfeng XU 《中国地球化学学报》2006,25(B08):128-128

Lead （Pb） is normally considered as a trace element in soils and sediments for geochemical study. However, the concentration of Pb in firing range soils is generally so high that it should be considered as a major element during the evaluation of the soil geochemical properties. Soil organic matter （SOM） has been reported as one of the major factors to expedite the corrosion of metallic lead （Pb） in acidic and organic-rich soils. The main impacts of SOM on the fate and transport of Pb in firing range soils lie in the following two aspects; （1） the complexation of organic matter with Pb, which has received lots of attention, and; （2） changes in soil redox potential due to the transformation of SOM and its subsequent impact on Pb speciation, which has rarely been investigated. Soils from 6 different firing ranges are selected for this study. These samples have been stored under a closed condition for more than 3 years. The soil moisture contents were well-retained, as all the samples were kept in closed plastic buckets. The analytical data showed that the summation of the soil total organic carbon content （TOC） and inorganic carbon contents （TIC） were consistent with soil total carbon contents （TC） measured in previous years, although the TOC and TIC contents have changed respectively after years of storage. In general, it is observed that the soil TOC decreased against an increase of TIC. The mass balance on such a transformation suggested a major conversion of organic carbon （Corg） to inorganic carbon （CO3^2-） in the stored soils.  相似文献   

Variations of nutrient element contents of plants and soils in the process of karst rocky desertification     

Liping XIE Shijie WANG 《中国地球化学学报》2006,25(B08):176-176

The present research on karst rocky desertification is mainly focused on qualitative analysis and obviously lack of quantitative and successive mechanism studies. Currently, classification of rocky desertification grades mainly depends on ratio of rocky coverage or ratio of plant and soil coverage. The process of rocky desertification was divided into latent, slight, medium and serious grades without mention of soil degradation. The Cha＇eryan catchment in the Huajiang Gorge of Guizhou Province was selected as the research area in this paper. Soil basic physical characteristics, nutrient element contents of soil and plant were studied in the process of rocky desertification. The karst soil characteristics elucidated that the clay content was high, the contents of soil organic matter, nutrient element （except potassium and sodium）, available contents of elements （except of potassium） were also high; ashes of plants were rich in calcium and nitrogen, and poor in iron, zinc, potassium and phosphorus. Meanwhile, the contents of plant ashes showed a significant positive relationship with calcium content of plant. There were no clear relations between soil degradation and succession of rocky desertification according to current classification standard. Soil particle size distribution, specific gravity, soil organic matter content, total and available nutrient element contents did not vary with the succession of rocky desertification.  相似文献   

Study on Kailyard soil amendment by adding compost of sludge     

Shaoqi ZHOU Weidong LU 《中国地球化学学报》2006,25(B08):252-253

Mixture of municipal sewage sludge and organic garbage, which was alternatively treated by aerobic and anaerobic composting technologies for 60 days. The characteristics of the compost are as follows： the total nitrogen （TN）, total phosphors （TP） and total potassium （TK） are 1.40%, 0.101% and 1908.32 mg/kg on dry weight basis, the contents of Cu, Ni, Cd, Cr, Pb and Zn are 131.23, 21.49, 1.31, 35.49, 72.50 and 616.76 mg/kg on dry weight basis. A basin-scale experiment was carded out by planting watercress with kailyard soil fertilizing with the compost, the results showed that the municipal sewage sludge and organic garbage compost could promote the production of watercress to different degrees, the crop biomass increased from 74.46% to 312.00% with the amount of compost fertilizing on the kaliyard soil while the amount of compost fertilizing on the kaliyard soil below 150 g per 3.75 kg kaliyard soil and decreased from 312.00% to 102.29% while the amount of compost fertilizing on it over 150 g per 3.75 kg kaliyard soil, so the optimal addition of compost in the watercress and soil was 150 g compost per 3.75 kg kailyard soil. Furthermore,  相似文献   

Influence of plant on the extractability of estrogen in the rhizospheric soil     

Shinji Sakurai Yoko Fujikawa Masami Fukui Masumi Kakumoto Tatsuhide Hamasaki Masataka Sugahara Yuko Abe Takahisa Shinjo 《中国地球化学学报》2006,25(B08):118-118

Livestock wastes applied to agricultural land are potential sources of steroidal hormones （estradiol （E2）, estrone （E1）, and estriol （E3）） that can adversely affect the aquatic ecosystem as endocrine disruptors. But the effects of plants on the fate of estrogen in the environment are not clearly known. In the present report, the behavior of E1, E2 and E3 added to the rhizospheric soil in various concentrations and its effect on plant growth were examined by estrogen batch sorption test, plant pot test and estrogen extraction test. Trifolium repens was grown on the soil spiked with E2 or a mixture of E1, E2 and E3. Pots without plant were prepared as controls. All pots were watered in 50 ml dose almost every day, and the rhizosheric soil and plant body were collected 7, 19, 26, 33 days after planting. The soil was sequentially extracted with Milli-Q water, and methanol / 1M acetic acid solvent followed by methanol wash at the solid to liquid ratio of 1 ： 4 （g/mL）. Extracts were analyzed for El, E2 and E3 using a Shimadzu GCMS-QP5050. Plant dry weight （4 hours, 105 ℃） was measured as an indicator of plant growth. In batch sorption tests, E1 and E2 concentrations in the liquid phase significantly decreased within 24 hours after the addition of estrogen. The sum of methanol / 1M acetic acid extractable E 1 and E2 in the soil decreased to half of the initial added amount within 7 days. Reduction in total estrogenic activity of the soil extracts （estimated as 0.01CE1＋CE2＋0.1CE3 where CE1, CE2 and CE3 are respective El, E2 and E3 concentrations per unit soil weight） continued for 1 month due to slow oxidation of E2 to E1. Desorption of E2 from soil during the pot experiment was higher than expected from the sorption experiment.  相似文献   

Importance of measurement of rare-earth elements from the Soil Information and Monitoring System： A normalization method for detection of chromium contamination in soils     

Szegvi J sef Prokisch Per Marth Ba Kov s Zolt Gyi 《中国地球化学学报》2006,25(B08):195-195

The Soil Information and Monitoring System （TIM） is an independent subsystem of the integrated Environmental Information and Monitoring System in Hungary. Based on physiographical-soil-ecological units 1202 representative observation points were selected and exactly defined by geographical coordinates using GPS. The first sampling was done in 1992. Some soil parameters are measured every year, some others every 3 years or every 6 years depending on their changeability （stability）. Toxic element, heavy metal and rare earth element contents in soil samples were determined after hot and strong acid digestion by ICP-OES equipment. The rare earth elements were measured in TIM soil samples and some of them can be found in a relatively high amount, e.g. cerium and neodymium concentration are 3-4 times higher than the very often-measured copper concentration. Close correlation was found among some of the rare earth element concentrations. The Y-Yb correlation is the strongest, its r-value is higher than 0.95. The reason of difference among the yttrium concentrations of samples is not the deviation of ICP-OES measurement that is much smaller than the difference among the individual soil samples. Similar, close correlation was obtained between the soil yttrium and chromium concentration. The amount of chromium contamination can be calculated as the distance from the Y-Cr trend line. We call this method yttrium normalization. The principle of this method is described as follows： such elements than chromium and yttrium insist in the soil in a strongly bonded form. Therefore, in a non-contaminated area there is a close correlation between the yttrium and chromium concentrations. If the measured chromium concentration in a sample is not on the Cr-Y trend line than the distance it indicates the amount of antropogenic chromium. Contamination can be detected in that case of course if the contaminant does not contain yttrium.  相似文献   

Reclamation or succession——A case study of transformation of soils and vegetation in reclaimed areas or in areas left for succession as exemplified by the sand mine excavation （southern Poland）     

Marcin Pietrzykowski Wojciech Krzaklewski 《中国地球化学学报》2006,25(B08):22-22

The aim of the study was to evaluate the vegetation and initial soils forming in the area of the ＂Szczakowa＂ Sand Mine cast （located approx. 50 km NW away from Krakow in southern Poland） that have either been reclaimed or left for succession. In the course of changes of the production fields in the 1970 and the 1980 parts of this open cast were left unreclaimed. Vegetation there appeared spontaneously, and the formation of initial soils began without human interference. Simultaneously, following the termination of exploitation the remaining part of the cast was reclaimed. This is why it was possible to compare the soil and vegetation formative processes in these two site categories. A total of 20 research areas were selected （each 400 m^2） in 4 surface age groups in the chronosequence of 4, 17, 21, 25 years. Field and laboratory studies included the characteristics of selected physical, chemical and microbiological properties of initial soils; the volume and rate of carbon and nitrogen accumulation： humus composition; ground water depth and selected features of ground and surface water; herbaceous and arborescent vegetation; the condition of community biomass.  相似文献   

Estimating contributions of sources of soil CO2 at the shallower layer in a Japanese larch forest area     

Wei LIU Jun MORIIZUMI Hiromi YAMAZAWA Takao IIDA 《中国地球化学学报》2006,25(B08):198-198

Soils contain about twice the amount of carbon presented in the atmosphere, so a small change in the soil carbon will influence atmospheric chemistry and heat balance. The soil carbon ultimately exchanged with the atmospheric CO2 as soil CO2, which mainly exists at the depth of 0-20 cm. The transport of soil CO2 is affected by the sources of soil CO2. Thus, separation of the contributions of sources of soil CO2 is a fundamental need to understand and predict implications of environmental change on soil carbon cycling and sequestration. It is a complicated task, so that a number of different methodological approaches such as component integration, root removal, and gap analyses have been developed. However, these methods could not avoid changing soil characteristics such as air-filled porosity, soil temperature and soil water contents. Consequently, fractional contributions of respiration of living root and decomposition of soil organic matter to the total soil CO2 cannot be estimated correctly. In this study, based on mass balance theory of both concentrations and δ^13C of soil CO2, a trenching method with a stable-isotope technique was used to determine both soil CO2 sources at the depth of 3-13 cm in a Japanese larch forest area during 30 May to 7 October 2005 and fractional contributions of these sources. Experimental results showed that the amount of atmospheric CO2 invaded the soil air was not significantly variable while its percent rate in the total soil CO2 had significantly temporal variations with the lower values between 5 August and 1 September. The litter-layer decomposition was very small. The soil CO2 derived from the respiration of living root and the decomposition of soil organic matter showed significantly temporal variations with increase from 30 May to 5 Aug. and decrease from 1 September to 7 October, 2005; and it accounted for 82%-98% of the total soil CO2 in which the respiration of living root was in the range from 32% to 62%.  相似文献   

Effects of tree species and soil depths on ethylene and methane consumption in tropical and temperate forest soils     

Xingkai XU Bin YUAN Jin WEI Yuesi WANG Yao HANG 《中国地球化学学报》2006,25(B08):179-179

To date our knowledge is limited with regard to the responses of ethylene and methane consumption by forest soils to tree species and soil types, and to the effect of presence of ethylene on atmospheric methane consumption. The soils at depths from tropical and temperate forests in China were used to study the responses of ethylene and methane consumption to tree species and soil types. The ethylene and methane consumption by soils beneath each forest floor was measured under the same oxic conditions, along with main properties of forest soils. The accumulation of ethylene was studied in the soil slurry （soil/water, 1/2.5）. In temperate soils under spruce and birch forests, maximal consumption rates of ethylene and methane were observed in the 2.5-5.0 cm and 5.0-7.5 cm soil layers, respectively （P〈0.05）. However, a maximal consumption of both occurred in the 0-2.5 cm soil layer under temperate Korean pine forest （P〈0.05）. Contrary to temperate forest soils, there was a significant lower consumption of ethylene and methane in tropical forest soils at less than 20 cm depths under a seasonal rainforest and secondary rubber forest （P〈0.05）. Hence, the potential of ethylene and methane consumption in the 0-20 cm soil profile was variable with tree species and soil types. According to ethylene formation in the soil slurry, there was greater accumulation of ethylene in the 0-2.5 cm soil under temperate forests than under tropical forests, and its accumulation under spruce and birch forests was more than under Korean pine forest （P〈0.05）. The presence of extrinsic ethylene can significantly inhibit the consumption of atmospheric methane by forest soils.  相似文献   

植被和气候对阿拉斯加和加拿大北部北极苔原地区多年冻土活动层厚度的影响   总被引：2，自引：4，他引：2  

Alexia M. Kelley  Howard E. Epstein  Donald A. Walker 《冰川冻土》2004,26(Z1):269-274

The active layer is the top layer of permafrost soils that thaws during the summer season due to increased ambient temperatures and solar radiation inputs. This layer is important because almost all biological activity takes place there luring the summer. The depth of active layer thaw is influenced by climatic conditions. Vegetation has also been found to have a strong impact on active layer thaw, because it can intercept incoming radiation, thereby insulating the soil from ambient conditions. In order to look at the role of vegetation and climate on active layer thaw, we measured thaw depth and the Normalized Difference Vegetation Index (NDVI; a proxy for aboveground plant biomass) along a latitudinal temperature gradient in arctic Alaska and Canada. At each site several measurements of thaw and NDVI were taken in areas with high amounts of vegetation and areas with little to no vegetation. Results show that the warmest regions, which had the greatest levels of NDVI, had relatively shallow thaw depths, and the coldest regions, which had the lowest levels of NDVI, also had relatively shallow thaw depths. The intermediate regions, which had moderate levels of NDVI and air temperature, had the greatest depth of thaw. These results indicate that temperature and vegetation interact to control the depth of the active layer across a range of arctic ecosystems. By developing a relationship to explain thaw depth through NDVI and temperature or latitude, the possibility exists to extrapolate thaw depth over large scales via remote sensing applications.  相似文献   

Effects of human activities on mercury in the environment in Xi＇an area, China     

Yongqing JIN Xiaojuan WANG Chengxiao ZHANG Julia LU Qingbo DUAN 《中国地球化学学报》2006,25(B08):239-240

Effects of mercury on ecosystems and human health are well documented. Human activities have significant impacts on transport, transformation, and fate of mercury in the natural environment. In this study, a gold mining area （Tongchuan）, an urban area （Xi＇an）, and a historical site （Qinshihuan Tomb） in Shaanxi Province, China, was chosen to study the effects of human activities on the transport, transformation, and fate of mercury in the area. Samples of atmospheric precipitate, soil, sediment, pomegranate, corn and those from wells and the rivers that flow through or flow by the city and from the mining area were collected. The EPA methods were used for sample preparation and analysis of these samples. These methods combine acid digestion, chemical reduction, purge and trap with Cold Vapor Atomic Fluorescence Spectrometry （CVAFS）. Preliminary results showed high total mercury concentrations in the water samples collected from a river in Tongguan County. The total mercury concentrations ranged from 133 to 188 ng/L in the water samples collected from the rivers flowing through Xi＇an City. The amount of total mercury in the soil/sediment samples which were collected in the vicinity of Xi＇an ranged from 31.8 to 83.2 ng/g. The total mercury concentrations in the samples of atmospheric precipitate （including rain and snow collected from Sep. 2005 to Jan. 2006） ranged from 106-298 ng/L.  相似文献   

Impacts of wastewater irrigation on soils and crops in suburban area of Shiraz, Iran     

Afshin Qishlaqi Farid Moore 《中国地球化学学报》2006,25(B08):214-214

This preliminary work reported here dealt with potential impacts of wastewater irrigation on soils and crops sampled along the Koshk River canal in the suburban area of Shiraz City, Iran. It also attempts to assess the extent of heavy metal contamination in soils and crops and human exposure risk. For this purpose, samples including soils and plants were collected from two wastewater irrigated sites and a tubewell-irrigated site （marked by A, B and C）. Concentrations of the six heavy metals Ni, Pb, Cd, Zn, Cr and Cu were determined by AAS. Physical and chemical properties of soil samples were also determined. The PLIs and CF for soils and HQ （Hazard quotient） for some vegetables were calculated. The results showed that organic matter content increased from 22% to 30 % in wastewater-irrigated soils as compared to tubewell water irrigated and admixture water irrigated ones. The soil pH was raised by 2 units as a result of wastewater irrigation at site A compared to sites B and C. Wastewater irrigation also result in relatively high concentrations of Ni, Pb and Zn （275.5, 441.3 and 177 mg/kg, respectively） in wastewater irrigated soils over tubewell water irrigated soils. These levels are higher than the maximum permissible limits in unpolluted soils, indicating that a degree of contamination has occurred. This was confirmed by calculated PLIs and contamination factors in soil samples, The results also showed some crops cultivated at sites A and B contained high levels of Ni and Cd beyond the maximum permissible concentrations and those cultivated at site C. The concentrations of these heavy metals are within or very close to the critical levels. HQ indices and daily intake calculated in respect of metal contents in some vegetables （spinach, lettuce and celery） showed that toxic risk due to Cd in these vegetables and crops was greater than one. This study generally concludes that although the content of heavy metals did not reach toxic level, extensive use of untreated wastewater drawn from the Koshk River has obviously increased the contamination of Ni and Pb in soils and Cd in some vegetables cultivated along the canal, causing potential health risk in the long-term scense for consumers or local residents.  相似文献   

Organic carbon and its oxidation stability characteristics of shallow soil in frozen soil area of Three River Source Region北大核心CSCD     

孙丰豪  张志春  蒋平安  杨凯  周少龙 《冰川冻土》2022,44(6):1935-1943

As the most important part of the global carbon cycle,soil carbon pool is the largest carbon pool in terrestrial ecosystems. Soil carbon pool in permafrost regions is the most sensitive carbon pool to climate change. Weak climate change will have a huge impact on the organic carbon production in the shallow soil,and then affect the regional landscape and ecology. As an indicator reflecting the antioxidant capacity of soil organic carbon,oxidation stability affects the quantity and quality of soil organic carbon,and its variation has a certain regularity in the alpine permafrost region under the influence of climatic factors. In order to explore the distribution characteristics of soil organic carbon and its oxidation stability in frozen soil,based on the experimental data and the climatic data from 2011 to 2019,the random forest model was used to conduct multi-factor digital mapping on soil organic carbon content,soil organic carbon components with different oxidation difficulty degrees,and soil organic carbon oxidation stability coefficient and environmental variables（average annual precipitation,average annual sunshine hours,average annual air temperature,and altitude）and analyze the controlling factors. The results showed that the model had an interpretation degree of more than 54% for the shallow soil organic carbon in frozen soil area of Three River Source Region,and the digital mapping could reflect the distribution of soil organic carbon well. Soil organic carbon was mainly affected by precipitation and sunshine duration,and temperature took second place. The spatial distribution of components with different oxidation difficulty is different,but the oxidation stability has the distribution characteristics of high in the north and low in the south. Cold and dry are conducive to improving the oxidation stability of organic carbon in shallow soil of frozen soil area. © 2022 Science Press (China).  相似文献   

http://www.sciencedirect.com/science/article/pii/S1674987111001332   总被引：1，自引：1，他引：0  

Liu He  Chuanlun L. Zhang  Hailiang Dong  Bin Fang  Genhou Wang 《地学前缘(英文版)》2012,3(3):289-300

Isoprenoidal glycerol dialkyl glycerol tetraethers（iGDGTs） from the Gulu hot springs （23-83.6℃,pH>7） and Yangbajing hot springs（80—128℃,pH>7） were analyzed in order to investigate the distribution of archaeal lipids among different hot springs in Tibet.A soil sample from Gulu was incubated at different temperatures and analyzed for changes in iGDGTs to help evaluate whether surrounding soil may contribute to the iGDGTs in hot springs.The sources of bacterial GDGTs（bGDGTs） in these hot springs were also investigated.The results revealed different profiles of iGDGTs between Gulu and Yangbajing hot springs. Core iGDGTs and polar iGDGTs also presented different patterns in each hot spring.The PCA analysis showed that the structure of polar iGDGTs can be explained by three factors and suggested multiple sources of these compounds.Bivariate correlation analysis showed significant positive correlations between polar and core bGDGTs.suggesting the in situ production of bGDGTs in the hot springs.Furthermore,in the soil incubation experiment,temperature had the most significant influence on concentration of bGDGTs rather than iGDGTs.and polar bGDGTs had greater variability than core bGDGTs with changing temperature.Our results indicated that soil input had little influence on the composition of GDGTs in Tibetan hot springs. On the other hand,ring index and TEX₈₆ values were both positively correlated with incubation temperature, suggesting that the structure of archaeal lipids changed in response to varying temperature during incubation.  相似文献   

Numerical Simulation of Moisture Movement in Unsaturated Expansive Soil Slope Suffering Permeationq     

Chen Shanxiong Yu Song Liu Zhiguo Xu Haibin 《中国地质大学学报(英文版)》2005,16(4):359-362

This study develops a way of analyzing moisture movement in unsaturated expansive soil slope. The basic equations and the integrated finite difference method for moisture movement in unsaturated soils are briefly described, and the calculation code MFUS2 has been developed. The moisture movements in unsaturated expansive soil slopes suffering precipitation were simulated numerically. The simulation results show that expansion or contraction must be taken into account in an analysis model. A simplified equivalent model for calculating rainwater infiltration into expansive soil slopes has been developed. The simplified equivalent model divides the soil slope into two layers according to the extent of weathering of the soil mass at depth. Layer Ⅰ is intensively weathered and moisture can be fully evaporated or rapidly absorbed. The moisture movement parameters take into account the greater soil permeability caused by fissures. Layer Ⅱ is unweathered and the soil is basically undisturbed. The moisture movement parameters of homogeneous soils are applicable. The moisture movements in unsaturated ex- pansive soil slopes suffering precipitation were simulated numerically using the simplified equivalent model. The simulation results show that the moisture movement in the expansive soil slope under rainfall permeation mainly takes place in the extensively weathered layer Ⅰ which closely simulates the real situation.  相似文献   

Experimental study on soil pollution analysis around tailings using ground penetrating radar     

Dunwen LIU Desheng GU 《中国地球化学学报》2006,25(B08):44-44

Pollution caused by tailings has become a serious environmental problem in China. An attempt was made to establish the ground penetrating radar （GPR） as a quick and non-destructive method for soil pollution analysis. Some physical models were established of contaminated soils from the tailing area. A series of indoor GPR experiments were conducted with 1 GHz antenna. The interface of contaminated area and uncontaminated area is characterized as a saltation zone in the radar image. The results of experiments show a clear correlation between the GPR data and the pollution intensity of soil. Based on all experimental data, the relation of velocity of electromagnetic wave propagation and pollution intensity was induced by using artificial neural network （ANN）. The results obtained indicate that GPR can provide high-resolution estimates of soil pollution variations around tailings as a function of depth as well as space and time.  相似文献