青海湖地区冰消期以来气候变化的黄土记录   总被引：3，自引：0，他引：3  

赵存法  鹿化煜  周亚利  弋双文  MASON Joseph 《高校地质学报》2009,15(1)

青海湖周围堆积着很多黄土和风沙沉积,这些风成沉积序列是过去气候变化的良好记录.相对于湖泊沉积,这些沉积物受到的研究较为薄弱.对青海湖南岸的黄土堆积进行了光释光年代学、磁化率、Fe/Mg值、粒度和有机质含量等气候替代性指标测量.在具有绝对年代标尺控制的基础上,结合气候替代性指标变化特征的分析,表明冰消期以来青海湖地区的古气候经历了多次的冷暖和干湿变化过程:14～9 ka间气候前期相对冷干,后期转为凉干,其中可能在11 ka左右存在一次暖湿事件;9～2.5 ka间气候呈暖湿状态;2.5 ka以后的地层扰动较大.黄土和湖泊沉积记录的环境变化过程具有可比性.  相似文献   

1977-2010年青海湖环湖区土地利用/覆盖变化与土地资源管理   总被引：2，自引：0，他引：2  

张金龙  陈英  葛劲松  聂学敏 《中国沙漠》2013,33(4)

青海湖流域是青海省主要牧场,也是青藏高原东北部重要的生态安全屏障.本文以1977、1987、2000、2004年和2010年遥感影像、MODIS NDVI为基础数据,通过数学模型、一元线性回归、景观格局指数的方法分析了青海湖环湖区土地利用/覆盖时空变化及景观格局特点,探讨了土地利用/覆盖变化的影响因素,最后提出青海湖环湖区土地资源管理建议.研究结果表明:近33年来青海湖环湖区土地利用/覆盖变化显著,草地、林地、水体等生态用地面积总体减少,耕地、建设用地、未利用地面积逐渐增加,土地利用/覆盖变化整体处于不平衡态,单向转换频繁;植被覆盖度总体微弱增加,变化趋势具有空间差异性;由于人类的定向选择,草地景观类型退化,景观格局趋向破碎化;土地利用/覆盖与景观格局变化是环湖区气温升高、降水增加、载畜量超载、旅游等因素共同作用的结果;基于土地利用/覆盖变化特点和影响因素,提出创建“生态友好”型土地资源管理模式,实现人地关系协调发展.  相似文献   

Geochemistry of the High Dam Lake sediments,south Egypt： implications for environmental significance     

Mohamed Abdallah  Gad DARWISH 《国际泥沙研究》2013,28(4):544-559

The goal of the present work is to perform a geochemical assessment of High Dam Lake bottom sediments for determining the fate, dispersion and levels of trace elements causing environmental pollution, and provided an access to their probable sources. The sediment samples were analyzed using ICP-MS for 20 elements; Ag, Ba, Cr, Cu, Ga, Hf, Mn, Pb, Rb, Sc, Se, Sn, Sr, Ta Th Ti, T1, U, V and Zr, and their obtained data were treated using statistical, graphical and mapping techniques. The results showed the data set of all analyzed elements affected by outliers and extreme values that caused deviation away from normality. Kruskal-Wallis test revealed that median of some trace element levels in Lake sediments, was not significantly different and other elements rejected the Null hypothesis. Most analyzed elements had high values of median and mean in sediments of Lake Nubia rather than Lake Nasser and their normalization gave the same results of calculated environment factors. Subsequently, Lake Nubia sediments possessed high combined EF levels ofTh, Sc, Sn, Ag, Zr, Hf, Ta, Sr, U, Ti, V, Cr, and Mn, causing significant contamination, which was great potentially related to industrial, agricultural, urbanization and mining activities. Whereas, combined EF of Se, Cu, Ga, Pb, Ba, Rb, and Tl, which are highly elevated in southern Lake Nasser sediments owing to their source are great possibly derived from Lake Nubia and geogenic activities. With decreasing distance towards the High Dam body, the contaminant elements were diminished due to reduction in the environmental factors and Sudanese pollution sources leading to the northern Lake Nasser considered to be less contaminated. Overall, the present study is an environmental alert for contaminated sediments that carried contaminants and considered the secondary source of pollution impact on ecosystem, and subsequently, their environmental risk on Human health.  相似文献   

湖南省大通湖河蚬(Corbicula fluminea)现存量及其时空分布     

李德亮  张婷  肖调义  龚望宝  谢骏  李祖军  刘安民 《湖泊科学》2013,25(5):743-748

大通湖是湖南省最大的养殖湖泊.随着河蚬经济价值的提升,大通湖河蚬Corbicula fluminea(Müller,1774)的开发强度逐年增加.为实现河蚬资源的合理开发,本研究在对大通湖河蚬形态特征、现存量及其时空分布调查分析基础上,重点探讨了养殖和软体动物捕捞对其资源的影响.结果显示,壳长大于6 mm河蚬的平均湿重(BW)、壳长(SL)、壳高(SH)和壳宽(SW)分别为1.41±0.03 g、14.82±0.09 mm、13.73±0.09 mm和9.72±0.06 mm,平均相对高度、圆度和凸度分别为0.930±0.001、0.660±0.001和0.710±0.001.河蚬壳长、壳高、壳宽与湿重的关系分别为:lg BW=-3.45+3.00 lg SL、lg BW=-3.23+2.89 lg SH、lg BW=-2.87+2.97 lg SW,表明河蚬为等速生长.2010 2011年,大通湖河蚬平均密度和生物量均较2009年显著增加.2009年,河蚬主要分布于中北部的蜜蜂夹湖区域,2010年开始,几乎遍布整个大通湖,但整体上呈现由东北向西南逐渐递减的趋势,密度和生物量高值均出现在大通湖中部,蜜蜂夹湖、大西湖与尼古湖交界区域.推测养殖过程中物化产品投入的增加是导致大通湖河蚬现存量快速增加的主要原因之一,软体动物捕捞加速了河蚬分布区域的扩展.据此提出了大通湖河蚬合理开发和有效保护的建议.  相似文献   

3个时期骆马湖大型水生植物的分布及变化   总被引：2，自引：0，他引：2  

徐德兰  张东东  张翠英  万蕾  韩宝平 《湿地科学》2013,11(3)

大型水生植物对湖泊的生物地球化学循环具有重要影响.一方面,大型水生植物在生长过程吸收营养;另一方面,其通过向水体释放氧气而影响磷元素以及其他相关因子,进而影响磷元素的生物地球化学循环.为了从宏观上了解骆马湖生态系统变化,以1990年9月20日、2000年5月2日和2008年10月15日Landsat TM/ETM+影像为主要数据源,以大型水生植物的归一化植被指数(NDVI)为测试变量,运用分类回归树(classifica-tion and regression tree,CART)方法确定分割阈值,通过构建知识决策树的方法识别骆马湖大型水生植物动态变化特征.3个时期的遥感分类的总体精度与kappa系数分别为92.28％和0.87、91.73％和0.86、93.38％和0.88,因此,该方法的分类精度完全满足骆马湖水生植物分布及变化的研究.研究结果表明,骆马湖大型水生植物分布面积由1990年的55.461 6 km2,减少到2000年的41.801 4 km2,2008年又增加到79.065 km2;大型水生植物主要分布在骆马湖北部河湖交汇区;人类活动干扰是造成骆马湖大型水生植物分布面积发生变化的主要原因.  相似文献   

南四湖生态湿地产业发展模式   总被引：2，自引：2，他引：0  

徐建国  郑国建  孔维健 《湿地科学与管理》2013,(1):45-48

通过对南四湖湿地调研,分析了南四湖发展生态湿地产业的优势和存在问题,提出了适合南四湖生态湿地产业发展的模式。  相似文献   

A large landslide event in a post‐glacial landscape: rethinking glacial legacy     

Timothy R. H. Davies  Jeff Warburton  Stuart A. Dunning  Alodie A. P. Bubeck 《地球表面变化过程与地形》2013,38(11):1261-1268

Threlkeld Knotts (c. 500 m above sea level) in the English Lake District has hitherto been considered to be a glacially‐modified intrusion of microgranite. However, its surface features are incompatible with glacial modification; neither can these nor the subsurface structures revealed by ground‐penetrating radar (GPR) be explained by post‐glacial subaerial processes acting on a glacially‐modified microgranite intrusion. Here we re‐interpret Threlkeld Knotts as a very large post‐glacial landslide involving the microgranite, with an estimated volume of about 4 × 10⁷ m³. This interpretation is tested against published and recent information on the geology of the site, the glacial geomorphic history of the area and newly‐acquired GPR data. More than 60 large post‐Last Glacial Maximum (LGM) rock–slope failures have significantly modified the glaciated landscape of the Lake District; this is one of the largest. Recognition of this major landslide deposit in such a well‐studied environment highlights the need to continuously re‐examine landscapes in the light of increasing knowledge of geomorphic processes and with available technology in currently active or de‐glaciating environments. Copyright © 2012 John Wiley & Sons, Ltd.  相似文献   

BIBLIOGRAPHY—BIBLIOGRAPHIE     

Jiahu Wang  Li Li  Jonathan J. Gourley  Sadiq I. Khan  Koray K. Yilmaz 《水文科学杂志》2013,58(1):84-98

Abstract

The Coupled Routing and Excess STorage model (CREST, jointly developed by the University of Oklahoma and NASA SERVIR) is a distributed hydrological model developed to simulate the spatial and temporal variation of land surface, and subsurface water fluxes and storages by cell-to-cell simulation. CREST's distinguishing characteristics include: (1) distributed rainfall–runoff generation and cell-to-cell routing; (2) coupled runoff generation and routing via three feedback mechanisms; and (3) representation of sub-grid cell variability of soil moisture storage capacity and sub-grid cell routing (via linear reservoirs). The coupling between the runoff generation and routing mechanisms allows detailed and realistic treatment of hydrological variables such as soil moisture. Furthermore, the representation of soil moisture variability and routing processes at the sub-grid scale enables the CREST model to be readily scalable to multi-scale modelling research. This paper presents the model development and demonstrates its applicability for a case study in the Nzoia basin located in Lake Victoria, Africa.

Citation Wang, J., Yang, H., Li, L., Gourley, J. J., Sadiq, I. K., Yilmaz, K. K., Adler, R. F., Policelli, F. S., Habib, S., Irwn, D., Limaye, A. S., Korme, T. &; Okello, L. (2011) The coupled routing and excess storage (CREST) distributed hydrological model. Hydrol. Sci. J. 56(1), 84–98.  相似文献   

Study on projection of water resources of Dongting Lake catchment based on emission scenarios assumptions     

Hui Zhou  Vijay Ratan Khadgi  Dehua Mao  Heng Xiao 《水文科学杂志》2013,58(10):1791-1800

ABSTRACT

With global climate change and impacts of human activity, the water cycle, which has a close relationship with local water resources, has changed rapidly. Based on different greenhouse gas emission scenarios, five relatively independent global climate models are selected from 47 CMIP5 models to simulate future climatic conditions. Data are downscaled to the local projection, with bias neutralized before applying them to the hydrological models, by which availability of future water resources are calculated for the Dongting Lake basin. The results show that the water resources of the Dongting Lake basin are likely to increase in the future, but be distributed more unevenly. All scenarios indicate that water availability will increase during the flood season and decrease during the dry season, with a prominent increase in annual discharge. The scenarios also predict that the greater the greenhouse gas emissions, the more uneven the water distribution becomes. Overall, the water resources of the Dongting Lake catchment show the same increasing and unevenly distributed trend in the future, which could be further accelerated by human activities.