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排序方式: 共有178条查询结果,搜索用时 15 毫秒
31.
The glacier area changes in the Qangtang Plateau based on the multi-temporal grid method and its sensitivity to climate change 总被引:2,自引:1,他引:1
Glacier area changes in the Qangtang Plateau are analyzed during 1970-2000 using air photos,relevant photogrammetric maps and satellite images based on the multi-temporal grid method.The results indicate that the melting of glaciers accelerated,only a few of glaciers in an advancing state during 1970-2000 in the whole Qangtang Plateau.However,the glaciers seemed still more stable in the study area than in most areas of western China.We estimate that glacier retreat was likely due to air temperature warming during 1970-2000 in the Qangtang Plateau.Furthermore,the functional model of glacier system is applied to study climate sensitivity of glacier area changes,which indicates that glacier lifespan mainly depends on the heating rate,secondly the precipitation,and precipitation increasing can slow down glacier retreat and make glacier lifespan prolonged. 相似文献
32.
Multistage deformation events have occurred in the northeastern Jiangshao Fault (Suture) Belt. The earliest two are ductile deformation events. The first is the ca. 820 Ma top-to-the-northwest ductile thrusting, which directly resulted from the collision between the Cathaysia Old Land and the Chencai Arc (?) during the Late Neoproterozoic, and the Jiangnan Orogenic Belt that formed as the ocean closed between the Yangtze Plate and the jointed Cathaysia Old Land and the Chencai Arc due to continuous compression. The second is the ductile left-lateral strike-slipping that occurred in the latest Early Paleozoic. Since the Jinning period, all deformation events represent the reactivation or inversion of intraplate structures due to the collisions between the North China and Yangtze plates during the Triassic and between the Philippine Sea and Eurasian plates during the Cenozoic. In the Triassic, brittle right-lateral strike-slipping and subsequent top-to-the south thrusting occurred along the whole northeastern Jiangshao Fault Zone because of the collision between the North China and Yangtze plates. In the Late Mesozoic, regional extension took place across southeastern China. In the Cenozoic, the collision between the Philippine Sea and Eurasian plates resulted in brittle thrusts along the whole Jiangnan Old land in the Miocene. The Jiangshao Fault Belt is a weak zone in the crust with long history, and its reactivation is one of important characteristics of the deformation in South China; however, late-stage deformation events did not occur beyond the Jiangnan Old Land and most of them are parallel to the strike of the Old Land, which is similar to the Cenozoic deformation in Central Asia. In addition, the Jiangnan old Land is not a collisional boundary between the Yangtze Plate and Cathaysia Old Land in the Triassic. 相似文献
33.
针对干旱问题,采用GRACE重力卫星数据进行反演监测,并对该技术在监测应用中的问题进行了研究.以陕西省与四川省为例,分析了陆地总水储量及降水对干旱的影响,采用基于两者相结合进行计算的干旱指数来检测干旱的发生,并与实际干旱情况及其他干旱指数进行对比,结果表明:该指数能够较好地检测出实际干旱事件且与其他干旱指数有较强的相关... 相似文献
34.
台特玛湖位于塔里木盆地东北隅,属新疆若羌县,是现塔里木河和车尔臣河的归宿地。它是由阿尔金山山前平原和塔里木河及车尔臣河冲积平原交汇处的低地积水形成的,过去曾与罗布泊相通。湖泊沉积物以细沙为主,在强劲的东北风吹蚀下,极易就地起沙。1982~1998年曾连续干涸17年,使湖西岸发展成强度沙漠化,若长期干涸,将会演变成一片沙海。这将会严重威胁218国道和将要修建的环塔里木盆地铁路以及新疆至青海铁路,对塔里木盆地东部重镇若羌的发展带来很大的影响。保护台特玛湿地,还可为候鸟迁徙提供栖息地,并可发展养鱼和育苇。湖面应保持最小面积为10~30km2,根据水面蒸发系数计算约需3000×104~4500×104m3的水量。入湖水量由塔里木河和车尔臣河各承担一半。要求塔里木河每年从大西海子下泄水量2.3×108m3,除维护下游绿色走廊生态用水外,可有1500×104~2500×104m3的水量入湖。车尔臣河向台特玛湖输水方便快捷,其上游不宜修建大型水库,使中下游水量达到1.5×108~2.0×108m3,保证所分担的水量不成问题,并通过对其下游三角洲整治,还可增加向台特玛湖的输水量,使之成为台特玛湖的主要补给水源。 相似文献
35.
Jinjing Pan Wei Shangguan Lu Li Hua Yuan Shupeng Zhang Xinjie Lu Nan Wei Yongjiu Dai 《水文研究》2019,33(23):2978-2996
Soil moisture (SM) is a key variable of land surface‐atmosphere interactions. Data‐driven methods have been used to predict SM, but the predictability of SM has not been well evaluated. This study investigated what variables and methods can be used to better predict SM for leading times of 7 days or longer with a global coverage of FLUXNET site data for the first time. Three machine‐learning models, that is, Bayesian linear regression, random forest, and gradient boosting regression tree, are used for the prediction. Variables including atmospheric forcing, surface soil temperature, time variables (year, day of year, and hour), the Fourier transformation of time variables, and lagged SM (7‐ to 14‐day lagged) were sequentially added into models. A framework with five experiments is designed for factorial exploration of SM predictability. A stepwise method was used to build the best models for each site. The performance of regression models became better when adding more explaining variables in most cases. The results showed that from 50 to 95% of variation of the best models can be explained. The important explaining variables are lagged surface SM, followed by day of year, year, soil temperature, and atmospheric forcing. The predictability of SM depends highly on SM memory characteristics and the persistence of seasonality. The effect of SM memory characteristics on SM prediction as an initial condition question has been widely discussed in this paper. Our results also provide an insight that mechanisms of seasonality effects on SM should be also paid more attention to. 相似文献
36.
稻田CH4的排放规律 总被引:26,自引:0,他引:26
通过对我国长江中下游地区、西南地区及华中地区这三大主要水稻区稻田CH_4排放的多年测量,描述了稻田CH_4排放的一般规律及特征。稻田CH_4排放的日变化有三种型式,即下午最大值型式、夜间最大值型式以及下午、夜间双峰型式,导致这三种型式的主要原因是CH_4排放路径的日变化;不同品种水稻的不同生理特性、天气条件会通过改变CH_4排放路径的日变化来改变CH_4排放日变化的型式;随着水稻生长,CH_4排放日变化幅度也会随着变化。 早稻与晚稻稻田CH_4排放的季节变化型式不一致。早稻的CH_4排放一般出现三个排放峰值,其中第一个与第三个峰值是由土壤中CH_4的产生率增加引起的,第二个峰值则是由于CH_4排放路径的畅通引起的。四川地区单季稻CH_4排放的季节变化与早稻比较一致,但是没有第一个排放峰值的出现。引起早、晚稻不同季节变化的原因是水稻生长季节中气温的季节变化。灌溉水状态也能够较大程度的影响稻田CH_4的排放的季节变化。 含SO_4~(2-)的肥料能够降低CH_4的排放,但其作用的大小取决于土壤中有机物质(肥)的数量;施尿素、KCl也能够使CH_4排放降低,但它的降低效应没有有机肥使CH_4排放增大的正效应大,这说明有机肥对CH_4排放的影响很大,而在空气中堆腐过的沼渣肥使稻田CH_4的排放大大降低。不同的施肥使 相似文献
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