排序方式: 共有54条查询结果,搜索用时 15 毫秒
41.
风力搬运过程中存在的物质分选极可能导致沉积区与物源区沉积物性质出现差异,对于研究物源示踪具有重要的意义。选取阿拉善地区古水下沉积物和风沙沉积物,进行磁学参数测定,调查分选作用对沉积物性质的影响,并探讨对中国黄土高原黄土物源研究的启示。结果表明:古水下沉积物与风沙沉积物的细砂组分磁学性质基本一致,但粉砂组分则存在明显差别,古水下沉积物的磁性矿物浓度显著低于风沙沉积物,风力分选作用可能是风沙沉积物粉砂组分磁性强的主要原因;古水下沉积物中高矫顽力矿物浓度较低,受沉积后改造作用微弱,指示古水下沉积物可用于黄土物源示踪研究。阿拉善地区沉积物和黄土高原黄土的磁学性质对比表明:风沙沉积物与黄土高原黄土磁学性质存在明显差别,但古水下沉积物与黄土高原黄土磁学性质却十分相似。这一地质证据支持阿拉善地区是黄土高原黄土沉积物的重要物源区,同时暗示古水下沉积物在黄土物源示踪方面的巨大潜力。 相似文献
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基于遥感影像识别的戈壁分类体系研究 总被引:2,自引:0,他引:2
戈壁是中国西北干旱地区的一种主要地表景观类型。由于戈壁所处地带自然条件恶劣,人烟稀少,不便于实地调查研究的开展,所以目前关于戈壁的研究资料非常少,就现有为数不多的研究来看,现有戈壁类型划分存在交叉问题,难以将戈壁分清,且分类没有从全局考虑。为了促进戈壁研究的规范化,本文首先对戈壁进行明确定义,然后从戈壁分布的气候区、动力条件、地貌特征、地表物质组成、植被、水文与土壤等7个方面,对戈壁内涵进行界定。同时,本文在参照现有戈壁分类基础上,从戈壁的形成原因、地表物质组成与植被盖度角度,分三级建立了一套既考虑戈壁区生态保护与利用,又易于遥感影像识别的戈壁分类体系,对每一级每一类戈壁在影像上表现的特征以及通过遥感影像如何提取进行了较为详细的阐述。 相似文献
43.
高密度电阻率法是基于岩土电学性质差异的一种勘探方法.目前在我国东南被广泛应用,但在西部戈壁地区的应用难度较大.根据试验讨论接地电阻的影响和装置类型的选取,并总结高密度电法在戈壁地区使用的效果和局限性.同时提出戈壁地区高密度电法的使用建议,以提高数据获取和解释的准确性. 相似文献
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高速铁路路基戈壁填料地基系数与变形模量分析 总被引:1,自引:0,他引:1
以兰新铁路第二双线路基试验段戈壁填料现场填筑试验为依据,分析了路基压实指标K30与Ev2的区别与联系;总结了4个试验工点K30与Ev2及Ev1变形曲线特性,并对地基系数K30与变形模量Ev的相关性进行了分析。结合室内土工试验,对影响K30与Ev2的因素进行总结。结果表明:填土的密实程度是影响K30与Ev1及Ev2/Ev1的主要因素;填料的性质是影响Ev2的主要因素,对 Ev2/Ev1也有较大影响;Ev2为填料的特征参数,反映了路基的刚度;K30为填土压实质量控制指标,K30与Ev1的相关性较好,与Ev2的相关性相对较差,K30与Ev1及与Ev2的相关性的好坏还与填料的性质有关,检测指标越离散,相关性越差 相似文献
45.
戈壁地表砾石粒径组成特征反映戈壁形成过程信息,且在很大程度上决定戈壁改造利用的难易,是开展戈壁研究的基础和前提。结合高光谱数据的微分变换,遴选出砾石粒径的敏感波段与反演方程,进行戈壁地表砾石粒径反演研究。结果表明:微分变换后的砾石光谱反射率与粒径有较好相关性,相关性最好的波段为908nm、983nm和985nm。其中,对数倒数微分变换之后的反射率与粒径成正相关(R2 =0.61),而一阶微分、平方根微分、对数微分3种变换形式之后的反射率与粒径呈负相关,相关系数分别为-0.633、-0.646、-0.649。将一阶微分变换后的光谱数据与粒径进行回归分析,发现一元三次回归模型具有较好的拟合精度,其中对数微分在回归分析中表现最好(R2 =0.851),经过验证得出对数微分预测精度(75.27%)高于其他4种微分形式的精度,表明砾石光谱的对数微分变换之后的908nm波段可应用于戈壁地表砾石粒径的反演。 相似文献
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47.
Analysis on sand drift damages to the Dunhuang Mogao Grottoes showed that the actual sand drift hazards in the area are mainly
attributed to the gobi wind-sand stream formed by sand coming from the Mingsha Mountain (megadune), while the migration of
the megadune and its frontal edge dunes is actually not a major threat to the grottoes. The gobi belt on the cliff top of
the Mogao Grottoes is not only a natural sand transport field but also a natural protective screen which prevents the megadune
and its frontal edge dunes from advancing towards the grottoes or burying the grottoes. Therefore efforts to protect the Mogao
Grottoes should be focussed on halting the gobi wind-sand stream rather than on checking the migration of sand dunes. For
this reason, effective sand blockade and stabilization measures should be adopted at the frontal edge of the megadune but
no sand retarding works are allowed to be set up in the gobi belt so as to avoid sand accumulation and entering the grottoes.
Project supported by the National Natural Science Foundation of China. 相似文献
48.
青藏铁路西格段戈壁风沙流防治体系研究 总被引:1,自引:1,他引:1
青藏铁路西宁至格尔木段(西格段)日照冻融变化强烈、风力强劲,为了解决该环境下戈壁风沙流对路基的危害,以PE(polythene)固沙网为平面防治并结合高立式沙障为立面防治措施,组成了戈壁风沙流防治体系,通过现场观测及室内风洞实验,验证了该防治体系的防风固沙效果和工程可靠性。工程应用表明,该防治体系具有抗风蚀性能强、可重复利用、寿命长及绿色环保等特点,能够有效防治铁路戈壁风沙流的危害,并对养护工作量的减少起到了重要作用,可以替代传统石方格、竹栅栏等防风固沙措施。对类似于西格段这种戈壁风沙流速较大、海拔高、生态脆弱、传统防沙材料贫乏和工程防沙措施失效的地区,新型防治体系具有借鉴和示范作用。 相似文献
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A combination of new 40Ar/39Ar dating results, major- and trace-element data, plus Sr-Nd-Pb-Hf isotope data, are used to investigate the petrogenesis of Triassic high-Si adakite (HSA), Cretaceous low-Si adakite-like (LSA) lavas, and Cretaceous high-K and shoshonitic trachyandesite lavas, from eastern and south-central Mongolia. All samples are light rare-earth element and large-ion lithophile element enriched but depleted in some high-field strength elements (notably Nb, Ta and Ti). Two alternative models are proposed to explain the petrogenesis of the HSA samples. (1) A southward-subducting Mongol-Okhotsk slab underwent partial melting in the Triassic during the closure of the Mongol-Okhotsk Ocean, with the resultant melts assimilating mantle and crustal material. Alternatively (2), a basaltic underplate of thickened (>50 km; >1.5 GPa), eclogitic lower crust foundered into the underlying mantle, and underwent partial melting with minor contamination from mantle material and some shallow-level crustal contamination. The LSA samples are interpreted as melts derived from a lithospheric mantle wedge that was previously metasomatised by slab melts. Similarly, the trachyandesite lavas are interpreted as melts deriving from a subduction-enriched subcontinental lithospheric mantle. The spatial distribution of these samples implies that metasomatism likely occurred due to a southward-subducting Mongol-Okhotsk slab associated with the closure of the Mongol-Okhotsk Ocean. When this interpretation is combined with previous evidence for a northward-subducting Mongol-Okhotsk slab it advocates that the Mongol-Okhotsk Ocean closed with double-sided subduction. 相似文献