近50年疏勒河流域山区的气候变化及其对出山径流的影响   总被引：3，自引：0，他引：3  

蓝永超  胡兴林  肖生春  文军  王国亚  邹松兵  喇承芳  宋洁 《高原气象》2012,31(6):1636-1644

利用祁连山区水文站和气象站的观测数据,分析了近50年河西走廊西部疏勒河流域山区的气候变化及其对出山径流的影响。结果表明,受全球变暖的影响,疏勒河山区气候持续向暖湿转化,且各季气温均呈持续的上升趋势,山区降水量总体上亦呈增加趋势,年际波动比较剧烈。在各季降水量中,除夏季外其他各季降水量的增加比较显著,海拔3 000m以上中高山地带夏季降水量变化不大,3 000m以下中低山地带夏季降水量略有减少。受山区降水,尤其是3 000m以下中低山地带的降水量显著增加与气温上升所引起的冰雪融水补给的影响,疏勒河出山径流呈持续的增加趋势。由于夏季降水量并未增加,在年径流总量中所占比重最大的夏季径流量的增加主要是由于气温上升所引起的冰雪融水补给的增加所致。  相似文献   

基于TOPEX/Poseidon卫星数据的江河流量测算     

张继群  徐开钦  龟山哲  渡边正孝  陈秀万  孙春鹏 《地理学报》2004,59(1):95-100

TOPEX／Poseidon卫星的原始目的是测量海面高度变化信息,为海洋监测服务。作者通过假设基准面的方法,将由TOPEX／Poseidon卫星数据估算的下垫面水位相对变化信息转化为”水位”系列并建立了由TOPEX／Poseidon得出的“水位”与相邻水文站实测流量间的相关关系,进而实现了由TOPEX／Poseidon卫星数据估算河道流量的目的。利用1998～1999年TOPEX／Poseidon在长江下游大通附近的过境数据和对应年份大通水文站实测流量数据,验证了本方法的可行性。研究结果表明：在长江下游河道地区,由TOPEX／Poseidon卫星数据可定量估算出山河流流量信息。  相似文献   

气候变化背景下玉龙雪山漾弓江流域径流变化 及其影响因素分析     

方金鑫  蒲焘  史晓宜  王世金  牛贺文 《冰川冻土》2019,41(2):268-274

利用1979-2016年金沙江支流漾弓江流域木家桥水文站流量资料和丽江市气象资料,揭示了漾弓江流域径流变化特征及其主要影响因素。研究结果表明：漾弓江流域年径流量呈先增加后减小趋势。在年代际时间尺度, 20世纪80年代、90年代以及2000-2009年,径流量呈现增加趋势,而2010-2016年径流量呈减小趋势,与2000-2009年相比, 2010-2016年径流量减少了42%（减少径流量为0.88×10⁸ m³）。气温和降水量对径流的影响均较为显著,其中,降水量对径流的影响主要体现在雨季,而气温对径流的影响主要体现在消融期。气温升高导致冰川累积负物质平衡,进而引起冰雪融水变化,漾弓江流域2000-2009年径流变化的主要原因。  相似文献   

蚌埠五河地区金矿床成矿物质来源及其年代学研究——以河口和荣渡金矿床为例     

杨治  邓宇峰  袁峰  李跃  林涛  张顺林  张家嘉 《岩石学报》2019,35(12):3875-3893

安徽省蚌埠五河地区河口和荣渡金矿床是华北地台东南缘蚌埠台隆和五河台坳邻接区域的两个金矿床。本文通过对比研究河口和荣渡金矿床的地质特征、流体包裹体地球化学、Re-Os同位素以及H-O-S同位素特征,来厘定其形成时代、探讨其成矿物质来源和成矿过程。河口及荣渡金矿床矿体主要呈细脉浸染状、脉状和网脉状赋存于古太古代西堌堆地层中,成矿过程可划分为4个阶段:(1)石英脉阶段(早阶段);(2)石英-黄铁矿阶段(早阶段);(3)石英-多金属硫化物阶段(中阶段);(4)碳酸盐阶段(晚阶段);其中,中阶段为金的主要矿化时期。河口和荣渡金矿床早阶段(石英脉和石英-黄铁矿阶段)的石英内发育富液两相包裹体(WL型)、富气两相包裹体(WG)以及少量的含子晶的气液固三相包裹体(S型),均一温度为322～412℃,盐度介于5. 56%～15. 67%NaCleqv之间,属于高温中低盐度流体体系;中阶段(石英-多金属硫化物脉阶段)石英内发育有富液两相包裹体(WL型)、富气两相包裹体(WG),均一温度为257～357℃,盐度介于3. 06%～7. 45%NaCleqv之间,属于中高温低盐度流体体系。从成矿早阶段到主成矿阶段流体的盐度和温度都发生了较大程度的降低,推测矿化过程可能是由流体温度和盐度的降低引起的。成矿阶段石英中流体水的δ~(18)O值介于5. 01‰～7. 90‰之间,δD_(V-SMOW)值介于-89‰～-65‰之间,表明两个矿床的成矿流体为主要为岩浆水。河口金矿床矿石中的黄铁矿δ~(34)S值介于3. 89‰～9. 65‰之间,荣渡金矿床方铅矿δ~(34)S值为0. 76‰,表明河口及荣渡金矿床δ~(34)S值具有岩浆硫的特征,后期由于岩浆去气作用或地层硫的参与使矿石中的δ~(34)S值升高。因此,这两个金矿床可能是与岩浆热液有关的热液石英脉型金矿床。对荣渡金矿床矿石的黄铁矿进行Re-Os同位素定年,确定金矿床形成于134±19Ma,结合前人对该地区所做的岩浆岩定年工作,推测荣渡金矿床的成矿可能与区内130Ma左右的岩浆活动密切相关。  相似文献   

北极海冰对长江流域主汛期降雨的影响          下载免费PDF全文

王乐  杨文发  张录军  李春龙  张方伟 《水科学进展》2019,30(5):623-631

针对极地冰雪显著影响中低纬气候的事实,利用1979-2017年长江流域116站降水资料和美国国家冰雪数据中心海冰资料,通过奇异值分解等统计学方法,研究北极海冰对长江流域主汛期降水的影响及可能的机制,结果表明:冬春季节,巴伦支海和鄂霍次克海海冰面积偏多、波佛特海海冰面积偏少时,主汛期长江上中游干流、汉江上游和雅砻江降水偏多;北极群岛、楚科奇海和拉普捷夫海以北海域海冰面积偏多时,主汛期两湖水系降水偏多,嘉陵江上游、汉江上游降水偏少;反之亦然。可能的机制为冬春季关键区海冰变化通过影响湍流热通量引发大气能量波动,这种波动以大气波列形式向东亚传播,影响东亚地区夏季的大气环流和水汽输送,从而间接影响长江流域主汛期降水。应用多元回归法,以关键区海冰面积作为预测因子建立4个流域内主汛期降水趋势预测模型,模型对预报区降水的定量预测有明显的波动,但对预报区总体的降水趋势有较好的预测效果。  相似文献   

沈阳市2017年地下水枯水期与丰水期水化学类型对比研究     

由钰婷 《地下水》2019,(1):47-50

沈阳市属于温带季风性气候,夏季多雨冬季干旱,枯水期和丰水期区别明显,对于地下水水化学类型有较大影响。本文使用阿列金分类法进行评价,得到CⅢCa全年都为绝对优势,丰水期占比较枯水期更大;枯水期与丰水期水化学类型差别较小,说明丰水期降水对于各县区的水化学类型影响较小,反而枯水期地下径流路径更长,溶出更加充分;从各县区看,康平县、法库县丰水期和枯水期水化学类型基本比重没有大的变化,新民市、沈北新区、于洪区、东陵区、辽中区、苏家屯区水化学类型均有一定差异;枯水期和丰水期各县区水化学类型都以Ⅲ型水为主。  相似文献   

Tidal truncation and barotropic convergence in a channel network tidally driven from opposing entrances     

《Estuarine, Coastal and Shelf Science》2003,56(3-4):629-639

Residual circulation patterns in a channel network that is tidally driven from entrances on opposite sides are controlled by the temporal phasing and spatial asymmetry of the two forcing tides. The Napa/Sonoma Marsh Complex in San Francisco Bay, CA, is such a system. A sill on the west entrance to the system prevents a complete tidal range at spring tides that results in tidal truncation of water levels. Tidal truncation does not occur on the east side but asymmetries develop due to friction and off-channel wetland storage. The east and west asymmetric tides meet in the middle to produce a barotropic convergence zone that controls the transport of water and sediment. During spring tides, tidally averaged water-surface elevations are higher on the truncated west side. This creates tidally averaged fluxes of water and sediment to the east. During neap tides, the water levels are not truncated and the propagation speed of the tides controls residual circulation, creating a tidally averaged flux in the opposite direction.  相似文献   

The 472 AD Pollena eruption of Somma-Vesuvius (Italy) and its environmental impact at the end of the Roman Empire     

《Journal of Volcanology and Geothermal Research》2002,113(1-2):19-36

Catastrophic sedimentary processes associated with explosive eruptions represent a significant geologic hazard in volcanic areas. Here we report a striking historic example of an intermediate-scale explosive event whose environmental effects were strongly amplified by secondary rapid mass flows and hydrogeologic disasters. The 472 AD Pollena eruption of Somma-Vesuvius (Campania, Italy) took place in the critical period of the fall of the Western Roman Empire. On the basis of an integrated geologic–archaeologic study we point out evidence of human habitation at the time of the eruption, effects induced and recovery time in a wide territory of Campania, and how the eruption significantly accelerated the deterioration of the local society during the Late Ancient age. The eruption began with a pulsating, sustained eruption column, followed by pyroclastic surges and scoria flows. Hydromagmatism acted early in the event, different from the typical Plinian eruptions of Somma-Vesuvius. Specific facies associations of primary and secondary volcaniclastic deposits characterize three depositional domains, including the volcano slopes, the surrounding alluvial plains and the distal mountains of the Apennine Range. Both volcano slopes and distal mountain slopes supplied loose pyroclastic material to the hyperconcentrated floods and debris flows that spread across the alluvial plains. The great impact of secondary volcaniclastic processes arose from: (1) the high vulnerability of the territory due to its geomorphic context; (2) the humid climatic conditions; (3) the hydromagmatic character of the eruption; (4) the decline of land management at the end of the Roman Empire.  相似文献   

Geomagnetically induced currents in the UK: geomagnetic variations and surface electric fields     

《Journal of Atmospheric and Solar》2002,64(16):1779-1792

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Quantifying the impacts of climate change and land use on hydrological processes: A comparison between mountain and lowland agricultural watersheds     

Zhen Cui  Jiacong Huang  Feng Tian  Junfeng Gao  Xuesong Wang  Jun Li 《水文研究》2020,34(26):5370-5383

Mountain and lowland watersheds are two distinct geographical units with considerably different hydrological processes. Understanding their hydrological processes in the context of future climate change and land use scenarios is important for water resource management. This study investigated hydrological processes and their driving factors and eco-hydrological impacts for these two geographical units in the Xitiaoxi watershed, East China, and quantified their differences through hydrological modelling. Hydrological processes in 24 mountain watersheds and 143 lowland watersheds were simulated based on a raster-based Xin'anjiang model and a Nitrogen Dynamic Polder (NDP) model, respectively. These two models were calibrated and validated with an acceptable performance (Nash-Sutcliffe efficiency coefficients of 0.81 and 0.50, respectively) for simulating discharge for mountain watersheds and water level for lowland watersheds. Then, an Indicators of Hydrological Alteration (IHA) model was used to help quantify the alterations to the hydrological process and their resulting eco-hydrological impacts. Based on the validated models, scenario analysis was conducted to evaluate the impacts of climate and land use changes on the hydrological processes. The simulation results revealed that (a) climate change would cause a larger increase in annual runoff than that under land use scenario in the mountain watersheds, with variations of 19.9 and 10.5% for the 2050s, respectively. (b) Land use change was more responsible for the streamflow increment than climate change in the lowland watersheds, causing an annual runoff to increase by 27.4 and 16.2% for the 2050s, respectively. (c) Land use can enhance the response of streamflow to the climatic variation. (d) The above-mentioned hydrological variations were notable in flood and dry season in the mountain watersheds, and they were significant in rice season in the lowland watersheds. (e) Their resulting degradation of ecological diversity was more susceptible to future climate change in the two watersheds. This study demonstrated that mountain and lowland watersheds showed distinct differences in hydrological processes and their responses to climate and land use changes.  相似文献