Micromorphological-investigation on the Earth's Critical Zone     

Ahmet Ruhi Mermut 《山地科学学报》2009,(2):I0002-I0002

Soils, the Earth＇s Critical Zone, play a vital and fundamental role in the Earth＇s terrain eco- environment system and human life. Although the concepts of soil/quality and sustainable development have been introduced for decades, we are still failing to understand how well soils function and they need tobe cared and protected. We have been increasingly witnessing and becoming the victim of shrinking forests,  相似文献   

Soil evolution features of debris flow waste-shoal land   总被引：1，自引：1，他引：0  

Peng Cui  Yonggang Ge  Jianqi Zhuang  Daojie Wang 《山地科学学报》2009,6(2):181-188

The reclamation and utilization of debris flow waste-shoal land plays an important role in the mitigation and control of debris flow hazards, which thus contributes a lot to the exploitation of insufficient land resources in mountainous areas and the reduction of losses caused by debris flow. The aim of this paper is to discuss the features and mechanism of soil evolution of debris flow waste-shoal land so as to search for the available modes of its reclamation and utilization. The Jiangjiagou Ravine, a typical debris flow ravine, was selected to study soil evolution features of debris flow waste-shoal land based on the analysis of soil physieochemical properties and soil microstructure. It was found that the soil evolution rates of debris flow waste-shoal land varied with different modes of reclamation. For the land which had been reclaimed for less than lO years, soil evolved most rapidly in paddy fields, and more rapidly in dry farmland than in naturally restored waste-shoal land. For the land which had been used for more than lo years, the soil evolution rates of dry farmland, naturally restored waste-shoal land and paddy farmland decreased in the file. For the same utilization period of time, significant differences were recognized in soil evolution features under different modes of reclamation. Analysis data showed that soil clay content, soil thickness, the psephicity of skeleton particles and contents of microaggregates （〈0.02 mm） in paddy farmland were all highest. Soil nutrients and porosity of dry farmland were better than those of paddy farmland and naturally restored waste-shoal land, and those of paddy farmland were superior to those of naturally restored waste-shoal land. Paddy farmland characterized by rapid pedogenesis, stable evolution and high utilizability was the priority candidate for the reclamation and utilization of debris flow waste -shoal land.  相似文献   

Historical development in soil micromorphological imaging     

A.R.Mermut 《山地科学学报》2009,6(2):107-112

The book ＂micropedolog＂ by Kubieana and a large number of publications has induced many people to practice soil micromorphology. Quantification of the soil fabric and its components was a major challenge. The use of the image analyses in soil science was a breakthrough. Attempts to make soil thin sections go back to the beginning of the 2oth century. Microscopic techniques and recently high resolution electron microscope and use of computer assisted imaging techniques enabled the in vitro study of soils in three dimensional levels. It is now possible to store and process massive amounts of data. Micro- morphological concepts and techniques are applied in paleopedological, ecological, and archaeological studies. The aim of this work was to examine soil micromorphological imaging in historical perspective.  相似文献   

各地文期土壤古剖面比较表     

《地质论评》1948,13(Z2):280-280

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氧化与还原作用分带性矿床中铀矿石伴生元素聚集的主要区域条件和     

陈祖伊 《国外铀金地质》1998,15(4):298-301

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矿石共生元素分带在火山成因块状硫化物矿床勘查中的应用     

lahti.  R 张锡谦 《国外地质勘探技术》1990,(4):33-34

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珍惜耕作层护好生命线--表土剥离国际经验借鉴     

武旭  郭焦锋 《华北国土资源》2015,(3):15-18

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　　2015年中央一号文件提出实施耕地质量保护与提升行动,强调全面推进建设占用耕地剥离耕作层土壤再利用。
　　耕作层土壤,是耕地资源最宝贵的组成部分。由于耕作层土壤具有一定的不可再生性,对其进行剥离和合理利用已成为保护耕地、提高耕地质量的重要手段。目前,我国大规模开展耕作层土壤剥离时间较短,配套建设尚不健全。为此,本期特选取部分国家的表土剥离经验进行介绍,以期对我国耕作层土壤剥离工作的制度化、常态化和科学化有所裨益。  相似文献   

黄河干流营养盐分布与变化趋势   总被引：4，自引：0，他引：4  

马永星  臧家业  车宏  郑莉莉  张波涛  冉祥滨 《海洋与湖沼》2015,46(1):140-147

河流是海洋获取陆源物质的主要途径,河流营养盐含量和结构的变化会对海洋生态环境产生重要影响。为了解黄河干流营养盐的基本情况及影响因素,于2012年7月(汛期)对黄河流域水体和土壤进行了综合调查,并结合历史资料分析了悬浮颗粒物和营养盐等的变化特征及对黄河物质输送的影响。结果表明:各参数受地势和人类活动的影响明显,表现出不同的分布特征。营养盐和悬浮颗粒物在上游浓度较低,在中游相对稳定,下游浓度有一定程度升高;相比于贵德而言,黄河利津段悬浮颗粒物、溶解硅和硝酸盐分别增加了近66%、60%和800%。磷限制是黄河营养盐限制的主要特征,且氮磷比呈升高趋势;与资料对比发现,黄河氮增加约1倍,硅下降60%后相对稳定,而磷略有下降。从目前分析看,支流与干流的氮营养盐构成有显著差异。在沿岸表层土壤营养盐含量较高的区域,河段内营养盐含量也较高。流域人类活动是黄河氮营养盐含量增加的重要因素;流域降水减少、水土保持等导致的物理侵蚀作用减弱是黄河硅和磷减少的重要因素;自1986年后,流域泥沙减少导致河流溶解硅降低了约34%,这值得进一步关注。  相似文献   

广西红树林根际土壤放线菌的原位培养分离及其活性筛选   总被引：2，自引：1，他引：1  

姜明国  甘光华  杨立芳  李西妮  杨桂柳  庹利  孙承航  黄玲  蓝金枝 《海洋学报》2015,37(2):55-64

为了发掘广西红树林根际土壤的放线菌资源,本文利用原位培养装置,埋于根际土壤中俘获放线菌,30d后取回实验室,采用平板涂布法对4个地点的原位培养样品于15种培养基上进行分离纯化;对分离株基于16SrRNA基因序列进行系统发育分析;进一步进行抗菌活性和产酶活性检测。共分离得到113株放线菌。对其中33株放线菌进行测序,结果表明20株属于链霉菌属,11株属于拟诺卡氏菌属,1株属于伦兹氏菌属,1株与拟诺卡氏菌属相似性最高为90%,很可能属于放线菌一个新属。抗菌实验结果显示其中有7株、4株、18株、6株、10株、3株实验菌株分别对大肠埃希菌、铜绿假单胞菌、金黄色葡萄球菌、普通变形杆菌、乙型溶血性链球菌和肺炎克雷伯氏菌具有抑制作用;有55株、62株、24株、72株的实验菌株分别具有纤维素酶活性、淀粉酶活性、胶原蛋白酶活性、酯酶活性。原位培养可以丰富对广西红树林根际土壤的认识,分离到了新种甚至可能是新属的放线菌,分离得到的部分放线菌菌株具有较高生物活性,为后续工作提供了良好的实验材料。  相似文献   

黄河沉积物向渤海湾扩散的沉积地球化学示踪   总被引：1，自引：0，他引：1       下载免费PDF全文

张爱滨  刘明  廖永杰  张艳丽  范德江 《海洋科学进展》2015,33(2):246-256

使用ICP-AES和ICP-MS对渤海中部118°54′E左右南北向断面的表层沉积物中53种常、微量及稀土元素进行了测试,研究了其含量变化和分布特征,并进行了物质组成分析。研究表明:该区沉积物以B94站为界,南北差异明显,南部区域沉积物以黏土质粉砂为主,富集Al2O3,CaO,Fe2O3,MgO,MnO,P2O5和TiO等常量元素以及绝大多数的微量元素和稀土元素等与细颗粒黏土矿物相关的元素;北部区域沉积物以粉砂-砂为主,富集SiO2,K2O和Na2O等常量元素以及Zr,Ba,Sr,Sb和Hf等微量元素,稀土元素相对亏损。物源对比表明南部沉积物具有黄河来源沉积物特点,北部沉积物具有滦河来源特点,两者的分界大致在38°42′N附近。河口动力过程、渤海环流是影响该区沉积物扩散的主要因素。  相似文献