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71.
LIU Genyou ZHU Yaozhong XU Houze ZHANG Weimin 《地球空间信息科学学报》2006,9(4):244-249
IntroductionBecause of global temperature rising and glacierthawing,the sea level has risen about 10-25 cmin the past century[1]. The sea level change isone of the main ai ms in global change monito-ring. Presently the basic tool used in sea levelmonitori… 相似文献
72.
青藏高原隆升及其环境效应 总被引:25,自引:0,他引:25
“青藏高原形成演化及其环境资源效应”项目选择青藏高原为典型地区,特别注意高原与毗邻地区的联系,以从全球尺度探讨高原的各种过程,目标集中在大陆碰撞过程和高原隆升过程,以过程为主线贯通碰撞机制、环境变化和资源分布规律的研究;时间上着重新生代以来,在不同精细时间尺度上定量地描述碰撞和隆升的动态过程及环境变化。运用地球科学、生命科学、环境科学及各学科之间有机交叉、综合研究的方法,开展大陆碰撞动力学、环境变化、现代表生过程及各圈层相互作用等重大理论问题的研究,为青藏高原地区的资源开发和环境调控提供科学依据。按照统观全局、突出重点的原则,项目主要研究内容包括以下4个方面:大陆岩石圈碰撞过程及其成矿效应;高原隆升过程与东亚气候环境变化;青藏高原现代表生过程及相互作用机理;青藏高原区域系统相互作用的综合研究。在完成研究计划任务的基础上,项目取得如下的突出研究成果和创新性进展:印度大陆与欧亚大陆初始碰撞时限;青藏高原南北缘山盆岩石圈尺度的构造关系;青藏高原整合构造模型与成矿成藏评价;新生代高原北部重大的构造变形隆升事件序列;高原周边环境变化事件及高原隆升对亚洲季风发展变化的影响;高分辨率气候动态过程及变化趋势;高原主要生态系统碳过程对气候变化的响应;高原气候变化及冰冻圈变化与预测;高原土地覆被变化、恢复整治及管理。 相似文献
73.
青藏高原多期次隆升的环境效应 总被引:28,自引:0,他引:28
青藏高原隆升对中国西部环境变迁起着决定性影响。通过对柴达木、吐鲁番—哈密、塔里木盆地的演化及其与青藏高原隆升的耦合研究,以柴达木盆地为时空坐标,认为高原隆升可分为三大阶段:(1)古近纪期间青藏高原隆升仅限于冈底斯山一带。当时,受行星纬向气候带控制,中国西北地区为干旱亚热带草原和热带雨林环境,大面积准平原化、泛盆地化,在构造上处于伸展-夷平的拉张环境,与现今亚洲大陆东部相似;(2)青藏高原整体的初次隆升发生在中新世早—中期(23~11·7Ma)。因青藏高原和大兴安岭的阻隔,古近纪的纬向气候带逐渐转变为中亚季候风,古黄土(22Ma)、三趾马动物群的发育,说明高原北缘当时为干旱的荒漠草原环境。同时,这次隆升引起中—晚中新世中国西部广袤地域古地形-构造面貌的变化;(3)形成现今高原面貌的末次快速隆升发生在0·9~0·8Ma。早更新世晚期,印度洋快速扩张,印度板块向中亚大陆脉冲式(A型)陆内俯冲,使得高原快速挤压隆升。这次隆升不仅使高原本身的环境骤变,出现第四纪以来最大的冰川,形成世界上最大的高寒草原,而且引起了全球气候的变化,促使北极圈冰盖的形成。同时,高原隆升使高原内部和周边出现强烈的挤压构造变形,如柴达木、河西走廊、塔里木、吐鲁番—哈密、准噶尔等诸盆地内几万米厚度中—新生界的构造变形与昆仑山、祁连山、天山、阿尔泰山的挤出式双向推覆隆升,形成了中国西北的盆-山地貌。现今,随着青藏高原的持续隆升,高寒草原开始退化,造成中国西北地区大面积的荒漠化,成为制约我国西部生态环境的重要因素。 相似文献
74.
75.
The effects of human activities on climate change are a significant area of research in the field of global environmental change. Land use and land cover change(LUCC) has a greater effect on climate than greenhouse gases, and the effect of farmland expansion on regional drought is particularly important. From the 1910 s to the 2010 s, cultivated land in Songnen Plain increased by 2.67 times, the area of cultivated land increased from 4.92×10~4 km~2 to 13.14×10~4 km~2, and its percentage of all land increased from 25% to 70%. This provides an opportunity to study the effects of the conversion of natural grassland to farmland on climate. In this study, the drought indices in Songnen Plain were evaluated from the 1910 s to the 2010 s, and the effect of farmland expansion on drought was investigated using statistical methods and the Weather Research and Forecasting Model based on UK's Climatic Research Unit data. The resulting dryness index, Palmer drought severity index, and standardized precipitation index values indicated a significant drying trend in the study area from 1981 to 2010. This trend can be attributed to increases in maximum temperature and diurnal temperature range, which increased the degree of drought. Based on statistical analysis and simulation, the maximum temperature, diurnal temperature range, and sensible heat flux increased during the growing season in Songnen Plain over the past 100 years, while the minimum temperature and latent heat flux decreased. The findings indicate that farmland expansion caused a drying trend in Songnen Plain during the study period. 相似文献
76.
Journal of Geographical Sciences - To understand the non-equilibrium morphological adjustment of a river in response to environmental changes, it is essential to (i) accurately identify how past... 相似文献
77.
Based on monthly evaporation of two meteorological stations in the Gulang River Basin of China, the inter-annual variation of evaporation during 1959-2013 were analyzed using Mann-Kendall and wavelet analysis. The results demonstrated that the annual evaporation show a fluctuating increase over the past 50 years approximately, with an average increase rate of 4.26 mm per decade. The overall trend was decrease-increase-decrease. According to the cumulative anomaly curve,the turning point of the annual evaporation occurred in 1979, in which the evaporation increased in the early stage and decreased in the later stage. Meanwhile, the seasonal variation of the evaporation shows that it decreased in Spring and Autumn, and increased in Summer and Winter, especially obvious for the later. The evaporation abruptly changed in Spring and Summer in 2008 and in Winter in 1994. In addition, all evaporation increased after the changes. However,the evaporation in Autumn abruptly changed in 1986 and 1999, which show a trend of increase-decrease-increase.Wavelet analysis shows that evaporation in Summer and wet season would decrease in the next few years, and in the other seasons would increase. Based on the aforementioned analysis, it can be concluded that increased evaporation is mainly induced by increase of evaporation in dry season, especially in Winter, and this trend to be continued in the future for the Gulang River Basin. 相似文献
78.
The widening gap between the supply and demand levels for livestock and poultry products in the Chinese mainland poses a significant challenge to the secure supply of feed grains. Therefore, the accurate prediction of the demand potential for feed grains represents a key scientific issue for ensuring food security in the Chinese mainland. This study is based on an analysis of several factors, such as the Chinese mainland’s output, trade volume, apparent consumption of livestock and poultry products, and two different scenarios for predicting the future demand for feed grains are assessed. The results indicate that output and consumption of livestock and poultry products, as well as the country’s trade deficit and the pressure of the supply and demand balance with respect to these products, have been increasing in recent years. The analysis predicts that the demand for feed grains in the Chinese mainland will reach 425.5 or 389.6 million tons in 2030 based on the two scenarios. This finding indicates that with the increasing demand for livestock and poultry products in the Chinese mainland, the demand for feed grains will continue to increase, and the shortfall in feed grains and raw materials will expand further, especially dependence on external sources of protein-rich feed grains will remain high. 相似文献
79.
Valderrama-Landeros Luis H. Martell-Dubois Raúl Ressl Rainer Silva-Casarín Rodolfo Cruz-Ramírez Cesia J. Muñoz-Pérez Juan J. 《地理学报(英文版)》2019,29(10):1637-1654
Journal of Geographical Sciences - The goal of our work was to locate and quantify changes that occurred in 66% of the Mexican coastline, based on four land cover maps generated by the Mexican... 相似文献
80.
Groundwater is a key factor controlling the growth of vegetation in desert riparian systems. It is important to recognise how groundwater changes affect the riparian forest ecosystem. This information will not only help us to understand the ecological and hydrological process of the riparian forest but also provide support for ecological recovery of riparian forests and water-resources management of arid inland river basins. This study aims to estimate the suitability of the Water Vegetation Energy and Solute Modelling(WAVES) model to simulate the Ejina Desert riparian forest ecosystem changes,China, to assess effects of groundwater-depth change on the canopy leaf area index(LAI) and water budgets, and to ascertain the suitable groundwater depth for preserving the stability and structure of desert riparian forest. Results demonstrated that the WAVES model can simulate changes to ecological and hydrological processes. The annual mean water consumption of a Tamarix chinensis riparian forest was less than that of a Populus euphratica riparian forest, and the canopy LAI of the desert riparian forest should increase as groundwater depth decreases. Groundwater changes could significantly influence water budgets for T. chinensis and P. euphratica riparian forests and show the positive and negative effects on vegetation growth and water budgets of riparian forests. Maintaining the annual mean groundwater depth at around 1.7-2.7 m is critical for healthy riparian forest growth. This study highlights the importance of considering groundwater-change impacts on desert riparian vegetation and water-balance applications in ecological restoration and efficient water-resource management in the Heihe River Basin. 相似文献