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排序方式: 共有195条查询结果,搜索用时 843 毫秒
1.
以北京野鸭湖涅地为例,利用遥感影像,深入分析涅地地区盐渍化土壤的光谱特征,借助PCI和ENVI图像处理平台,进行盐渍化土壤专题信息的提取,得出涅地地区土壤盐渍化的动态演变趋势。 相似文献
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依据引黄水在北大港水库蓄存期水质咸化的事实以及传质理论,定性地分析了引黄水水质咸化的主要原因,包括盐碱土传质作用、蒸发浓缩作用以及风的扰动加速传质作用等.在北大港水库旁修建了一个模拟试验水池,进行了现场模拟试验研究.依据水量平衡和氯离子总量平衡的原理,分别定量地计算了传质作用和蒸发浓缩作用对水质咸化影响的比重.结果表明,在模拟水池蓄水后的30 d内,传质作用对水质咸化影响的比重有随时间增加而增长的趋势;30 d后,传质作用对水质咸化影响的比重稳定在80%,蒸发浓缩作用对水质咸化影响的比重稳定在20%,说明导致水质咸化的最主要因素是盐碱土传质作用. 相似文献
4.
阜新矿区地面塌陷灾害对土地生产力的影响 总被引:16,自引:0,他引:16
在研究地面塌陷对一个地区的影响时,一般只侧重于其对建筑物、铁路的影响,而对土地生产力影响的探讨和研究还不够深入。对于阜新矿区来说,地面塌陷对该区土地生产力的影响更是空白,前期的工作仅仅侧重于地面塌陷的调查,如果就地面塌陷对土地生产力的影响做一决的概括和分析,无疑会给今后治理由地面塌陷带来的灾害提供借鉴作用。本文结合大量实测、实算数据,应用土地复理论与方法对地面塌陷引起的土地侵蚀、土壤盐碱化、土壤湿度、土壤质量水平等四个方面做了较为系统的阐述,并对灾害的治理提出了见解。 相似文献
5.
Mohamed E. Hereher 《国际地球制图》2016,31(5):527-543
Dakhla depression in Egypt’s Western Desert is experiencing two soil degradation processes, notably: soil salinization and sand encroachment. The present study aimed to diagnose the severity of these processes using remote sensing. Soil salinity was determined by spectral regression analysis between tasselled cap spectral transform extracted from a Landsat-8 image acquired in September 2013 along with synchronized soil salinity measurements. Assessment of sand advance rate was conducted by temporal change detection of brilliant crescentic sand dune visualized by Google Earth in old (2002) and recent (2013) images. Results showed that salinized soils (dS/m4<) represent 91% of bare lands and salinization is attributed to aridity, topography and poor drainage. Barchan dunes north and south of Abu Tartur escarpment moved at rates of 5.9 and 3.6 m/year, respectively. The escarpment protected the majority of the depression from massive dune invasion. However, sand encroachment is clearly observed west of the depression. 相似文献
6.
Characterizing spatial and temporal variability of soil salinity is tremendously important for a variety of agronomic and environmental concerns in arid irrigation areas. This paper reviews the characteristics and spatial and temporal variations of soil salinization in the Ili River Irrigation Area by applying a geostatistical approach. Results showed that:(1) the soil salinity varied widely, with maximum value of 28.10 g/kg and minimum value of 0.10 g/kg, and was distributed mainly at the surface soil layer. Anions were mainly SO_4~(2-) and Cl~-, while cations were mainly Na~+ and Ca~(2+);(2) the abundance of salinity of the root zone soil layer for different land use types was in the following order: grassland cropland forestland. The abundance of salinity of root zone soil layers for different periods was in the following order: March June September;(3) the spherical model was the most suitable variogram model to describe the salinity of the 0–3 cm and 3–20 cm soil layers in March and June, and the 3–20 cm soil layer in September, while the exponential model was the most suitable variogram model to describe the salinity of the 0–3 cm soil layer in September. Relatively strong spatial and temporal structure existed for soil salinity due to lower nugget effects; and(4) the maps of kriged soil salinity showed that higher soil salinity was distributed in the central parts of the study area and lower soil salinity was distributed in the marginal parts. Soil salinity tended to increase from the marginal parts to the central parts across the study area. Applying the kriging method is very helpful in detecting the problematic areas and is a good tool for soil resources management. Managing efforts on the appropriate use of soil and water resources in such areas is very important for sustainable agriculture, and more attention should be paid to these areas to prevent future problems. 相似文献
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The Kaluvelly watershed is a coastal area (Tamil Nadu, India) where water abstraction has resulted in a dramatic fall in the level of the water table and a piezometric depression in the most exploited aquifer, the Vanur aquifer. In addition, intensification/mechanization of agriculture may have affected the quality of recharge water. An initial hydrodynamic study showed that the Vanur aquifer is highly vulnerable to salinization due to potential seawater intrusion, and our aim was to determine the source of salinity recorded in the groundwater of this multilayered aquifer. Our approach involved the use of existing boreholes and of a moderate number of samples, with the aim of developing appropriate water resource management techniques. Major element, 18O/16O, 2H/1H and 87Sr/86Sr, ratios were measured in rainwater, surface water and groundwater collected during five sampling campaigns over a 2‐year period. Geochemical data indicate that the Vanur aquifer is recharged and that small mixings between aquifers fluctuate according to monsoon intensity. There was no evidence of seawater intrusion. The range of recorded salinity originated mainly from water–rock interaction but a disconnection of some deeper parts of the aquifer was apparent. Strontium isotopic ratios in the recharge area suggest an anthropogenic influence, possibly related to fertilizer use. A high SO4/Cl ratio was observed in the aquifer; in the deeper parts, the influence of a formation containing lignite is hypothesized, whereas near the surface, sulphate may partly originate from fertilizer use and fossil fuel combustion. Water isotopic data suggest that the origin of precipitation in this region has been unchanged for several hundreds or thousands of years. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
9.
任仓钰 《地质灾害与环境保护》2002,13(4):14-15
引水灌溉是干旱地区农业生产与发展的根本保证,但在甘肃境内的几大灌区中,长期引水灌溉不同程度地引发了环境地质问题——地面沉陷、滑坡、土壤盐渍化、土地沙化,严重影响和制约农业的可持续发展。 相似文献
10.
塔里木河在1958年前是一条淡水河,河水的矿化度在各段及不同季节均未超过1.0g/L,现全河段各月平均矿化度除8月洪水季节<1.0g/L,其余各月都在1.0g/L以上。上游阿拉尔水文站平均每年有5个月为1~3g/L,4个月为3~5g/L,2个月超过5g/L,最高5月份达到6.3g/L.阿拉尔的淡水所占比例不足年平均径流量的35%.下游卡拉全部为微咸水。造成塔里木河水矿化度升高的原因,除气候干旱、蒸发强烈、土壤含盐量高等自然因素外,主要是灌溉、排水不合理,上游三条主要支流灌溉引水增加,使补给干流的淡水资源量由1960年前的50.0亿m3减少到1990年后的42.0亿m3;与此同时大量农田排水泄入塔里木河,每年带入盐量达467.4万t.要改善塔里木河水质,必须减少农田排水泄入,实行咸、淡分流,退耕还林;并在源流区适度开发地下水,使三源流向塔里木河输水量每年不少于46.0亿m3。 相似文献