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1.
盐湖/湖泊是气候变化的一面镜子本文以国内外典型盐湖区地质灾害为案例。说明自然引起的盐湖地质灾害,人类在事先监测而掌握其变化趋势情况下,可趋利避害,减少损失程度。文中分析在中国西部气候可能由暖干向暖湿转型的情势下,中国盐湖的变化趋势,并就其近期湖水涨缩特点划分3种类型(湖水上涨型区、湖水下降型区和湖水上涨不稳区)。为了适应中国盐湖区气候一湖泊变化,提出在重要盐湖区增建和完善水文、气象观察站,并与遥感监测相结合;建立多学科、跨部门的近期西部盐湖区环境变化的重大基础项目。同时需在重点盐湖区增设防洪防旱水利设施工程、制定湖区生态保护措施等,在筑建盐田和基建工程时应充分考虑洪水泛滥的影响。 相似文献
2.
中国盐湖资源与生态环境 总被引:12,自引:0,他引:12
中国盐湖区受干旱-半干旱气候控制,现代盐湖主要分布于年降水量500mm范围内。依据中国盐湖地貌、地质构造条件及物质成分特点,将中国盐湖划分为4个盐湖区,并简述第四纪以来各区由于古气候变化和地质构造活动性不同,而具有各自的盐湖演化特点。由于各区盐湖规模、经济价值和交通技术条件不同,开发利用程度有差异,以吉兰泰盐湖和运城盐湖综合利用和环境保护较好;以察尔汗为代表的钾盐湖开发规模最大。目前中国盐湖区环境还存在很多需要改善的问题,尤其是地处边远的中小型盐湖,采富弃贫、回收率低和单一矿种开采使大量伴生有用组分贫化等。同时,由于气候环境因素也引起盐湖环境的重大变化,在全球变暖的背景下,西北盐湖区,自1987年以来,出现向暖湿转型,湖泊有扩大上升趋势;青藏高原盐湖区则大致从1992年以来,由东往西,相继出现高湖面,显现向暖湿转型;而西北盐湖区仍处于暖干阶段,湖水位下降,盐湖沙化。随着中国全面建设小康和和谐社会的实施,生态环境保护日益受到重视,建议进一步吸取国内外在盐业综合利用、整体开发和环境保护的经验和先进技术,加强盐湖环境变化观察和监测,建设环境友好型的绿色大盐湖产业。 相似文献
3.
根据遥感影像信息特征和盐湖气候变化模型,结合盐湖沉积特征和现代盐湖演化理论,通过对环状影像的成因进行解译和分析,将环状影像反映的1000年来盐湖气候变化的信息与北半球同期气候变化曲线对比,认为罗布泊盐湖是现代沉积形成的,是现代盐湖向干盐湖的演化历程中,由于气候冷暖交替变化而使盐湖沉积发生规律性变化的结果。 相似文献
4.
中国盐湖锂资源的产业化现状-以西台吉乃尔盐湖和扎布耶盐湖为例 总被引:11,自引:3,他引:8
锂对国民经济和国家安全具有重要意义, 是21世纪的能源金属。近10年, 中国主要从国外进口碳酸锂产品。中国是一个多盐湖的国家, 盐湖锂占锂资源工业总储量的85%。现代第四纪盐湖主要分布在我国西北的青海、西藏、新疆和内蒙古四省区, 具有很好的开发前景。经过多年科研后, 目前国内已经在西台吉乃尔和扎布耶两个盐湖建立了卤水提锂产业。本文对比研究了这两个盐湖资源状况和地理气候条件, 以及由此而决定的盐湖资源开发工艺流程, 探讨了其工艺优化方向。并指出这两个盐湖具有锂资源储量大, 品位高的优势, 但是受盐湖类型或地理气候条件限制, 工艺上有待改善。建议继续加强对盐湖开发技术优化和对盐湖提锂产业的扶持。 相似文献
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6.
ABRUPT CHANGE OF LAKE ENVIRONMENT IN WEST CHINA: AN EVIDENCE FOR GLOBAL CLIMATE WARMINGtheNational(G19980 4 0 80 2 )andCAS’sKeyProjectonTibetanPlateauResearch(KZ951 A1 2 0 4 ) 相似文献
7.
Progress and Prospects of Salt Lake Research in China 总被引:3,自引:0,他引:3
ZHENG Mianping ZHANG Zhen KONG Weigang and LIN Yongjie ZHANG Yongsheng LIU Xifang NIE Zhen KONG Fanjing QI Wen Jia Qingxian PU Linzhong HOU Xianhu WANG Hailei 《《地质学报》英文版》2016,90(4):1195-1235
China has unique salt lake resources, and they are distributed in the east of Eurasian salt lake subzone of the Northern Hemisphere Salt Lake Zone, mainly concentrated in the regions with modern mean annual precipitation lower than 500 mm. This paper preliminarily reviews the progress made in salt lake research in China for the past 60 years. In the research of Paleoclimate and paleoenvironment from salt lake sediments, a series of salts have been proposed to be indicators of paleoclimate, and have been well accepted by scholars. The chloride-sulfate depositional regions of the west Qaidam and the east Tarim have been revealed to be the drought center of China since the Quaternary, and more than 6 spreading stages of arid climate(salt forming) have been identified. Five pan-lake periods with highstands have been proved to exist during the late Quaternary on the Tibetan Plateau. In mineral resource prospecting and theories of the forming of salt deposits: the atlas(1:2500000) of hydrochemical zoning of salt lakes on the Tibetan Plateau has been compiled for the first time, revealing the zonal distribution and transition from carbonate type to chloride type from south to north and presenting corresponding mineral assemblages for different type of salt lakes; several large continental salt deposits have been discovered and the theory of continental potash deposition has been developed, including the salt deposition in deep basins surrounded by high mountains, the mineral deposition from multistage evolution through chains of moderate or shallow lakes with multilevels, the origin of potassium rich brines in gravel layers, and the forming of potassium deposits through the inheriting from ancient salt deposits, thus establishing the framework of "Continental Potash Deposition Theory"; several new types of Mg-borate deposits have been discovered, including the ulexite and pinnoite bed in Da Qaidam Lake, Qinghai, the pinnoite and kurnakovite bed in Chagcam Caka, Tibet, the kurnakovite bed in Lake Nyer, and the corresponding model of borate deposition from the cooling and dissolution of boron rich brines was proposed based on principles of geology, physics and chemistry. The anti-floatation-cold crystallization method developed independently has improved the capacity of KCl production to 3 million tons per year for the Qarham, serving the famous brand of potash fertilizer products. One 1.2 million ton K-sulfate production line, the biggest in the world, has been built in Lop Nor, and K-sulfate of about 1.6 million tons was produced in 2015. Supported by the new technology, i.e. brine preparation in winter-cooling-solarization-isolation-lithium deposition from salt gradient solar pond" the highest lithium production base at Zabuye Lake(4421 m), Tibet, has been established, which is the first lithium production base in China that reaches the year production of 5000 tons of lithium carbonate. The concept of Salt lake agriculture(Salt land agriculture) has been established based on the mass growth of Dunaliella and other bacillus-algae and the occurrence of various halophytes in saltmarsh and salt saline-alkali lands, finding a new way to increase arable lands and develop related green industry in salt rich environments. Finally this paper presents some new thoughts for the further research and development on salt science, and the further progress in salt science and technology will facilitate the maturing of the interdisciplinary science "Salinology". 相似文献
8.
近40年来青藏高原湖泊变迁及其对气候变化的响应 总被引:7,自引:0,他引:7
湖泊对气候波动有敏感记录。本文以GIS和RS技术为基础,在野外实地考察的基础上,从20世纪70年代、90年代、2000年前后和2010年前后4期Landsat遥感影像中提取了青藏高原所有湖泊边界信息,建立了青藏高原湖泊空间数据库。分析表明的青藏高原面积大于0.5 km2的湖泊总面积变化:(1)从20世纪70年代至90年代增加了13.42%; (2)从20世纪90年代至2000年前后增加了4.86%; (3)从2000年前后至2010年前后增加了13.04%。可见,近40年来,青藏高原湖泊个数和面积均呈增加的趋势。气象数据分析表明,青藏高原气候出现了由暖干向暖湿的转型,表现为气温升高、降雨量增加和蒸发量减小。笔者选取了研究区内面积大于10 km2的时间上合适做比较的所有湖泊,逐一分析了其在4个时期的动态变化情况,并根据变化结果进行了分区。不同时期的湖泊变迁具有区域差异性:(1)从20世纪70年代至90年代,西藏北部、中部、藏南、青海羌塘盆地和青海东部湖泊呈萎缩趋势; (2)20世纪90年代至2000年,青海北部湖泊萎缩; (3)2000年至2010年,除藏南外,青藏高原其余地区湖泊全面扩张。不同补给源的湖泊对气候变化的响应模式不同:(1)气温主要影响以冰雪融水及其径流为主要补给源的湖泊,如色林错、赤布张错等; (2)降雨量主要影响以大气降雨和地表径流为主要补给源的湖泊,如青海羌塘盆地; (3)蒸发量直接影响湖泊水量的散失,在青藏高原总体蒸发量减小的大环境下,部分地区因升温引起的湖泊蒸发效应超过了降水和径流量增加,湖泊出现萎缩的现象,如羊卓雍错流域。总之,地质构造控制了湖泊变迁的总格局,而短时间尺度的湖泊变迁主要受气候因素的影响。此外,湖泊动态变化还受冰川、人类活动、湖盆形状、补给和排泄区等因素的影响。 相似文献
9.
青藏高原近25年来主要湖泊变迁的特征 总被引:17,自引:0,他引:17
青藏高原分布有青海湖、纳木错、色林错3个特大型湖泊和扎日南木错、当惹雍错、阿牙克库木湖、班公错、哈拉湖、鄂陵湖、羊卓雍错、扎陵湖、赤布张错、乌兰乌拉湖、昂拉仁错11个大型湖泊。通过对20世纪70年代中期的MSS图像和90年代末期—21世纪初期的ETM 图像的解译,对近25年来青藏高原重点湖泊的变迁进行了分析。研究结果表明,哈拉湖、鄂陵湖面积相对稳定;青海湖、扎日南木错、当惹雍错、阿牙克库木湖、扎陵湖、乌兰乌拉湖等8个湖泊的面积都有不同程度的缩小,其中青海湖、乌兰乌拉湖面积减少最多,分别为60.60km2、59.80km2;纳木错、色林错、班公错3个湖泊的面积都有不同程度的增加,其中色林错面积增加最多,达140.52km2。重点湖泊的变迁分析为研究青藏高原的湖泊演化和气候、环境变迁提供了新资料。 相似文献
10.
Both monsoons and westerlies have exerted influence on climate dynamics over the Tibetan Plateau (TP) since the last deglaciation, producing complex patterns of paleohydroclimatic conditions. Diverse proxy records are essential to forge a robust understanding of the climate system on the TP. Currently, there is a general lack of understanding of the response of inland lakes over the TP to climate change, especially glacier‐fed lakes. Paleohydrological reconstructions of such lakes could deepen our understanding of the history of lake systems and their relationship to regional climate variability. Here we use records of n‐alkanes and grain size from the sediments of Bangong Co in the western TP to reconstruct paleohydrological changes over the past 16,000 years. The Paq record (the ratio of non‐emergent aquatic macrophytes versus emergent aquatic macrophytes and terrestrial plants) is generally consistent with the variations in summer temperature and precipitation isotopes. The changes in grain‐size distributions show a similar trend to Paq but with less pronounced fluctuations in the early‐middle Holocene. The new data combined with previous results from the site demonstrate that: 1) Bangong Co experienced relatively large water‐level fluctuations during the last deglaciation, with a steadily high lake‐level during the early‐middle Holocene and a decreasing lake‐level in the late Holocene; 2) The lake level fluctuations were driven by both high summer temperatures via the melting water and monsoon precipitation. However, the dominant factor controlling lake level changed over time. The lake‐level history at Bangong Co deduced from the n‐alkanes and grain‐size records reveals the past hydrological changes in the catchment area, and stimulates more discussion about the future of glacier‐fed lakes under the conditions of unprecedented warming in the region. 相似文献
11.
Zhaogang SHAO Xiangang MENG Dagang ZHU Daxing ZHENG Zijiang QIAO Chaobin YANG Jian'en HAN Jia YU Qingwei MENG Rongping L 《Frontiers of Earth Science》2008,2(3):364-377
On the Qinghai-Tibet Plateau there are three super large lakes, the Qinghai Lake, Nam Co and Siling Co, and eleven large lakes,
the Zhari Nam Co, Tangra Yumco, Ayakkum Lake, Banggong Co, Har Lake, Ngoring Lake, Yamzho Yumco, Gyaring Lake, Chibuzhang
Co, Ulan Ul Lake and the Ngangla Ringco. The authors studied the changes of these major lakes in the past 25 years, based
on interpretations of the MSS images obtained during the middle 1970s and ETM+ images obtained in the late 1990s or at the beginning of the 21st century. The study shows that: the areas of the Har Lake
andNgoring Lake have remained relatively stable; the areas of the Qinghai Lake, Zhari Nam co, Tangra Yumco, Ayakkum Lake,
Gyaring Lake, Ulan Ul Lake and Ngangla Ringco have been reduced to varying degrees, of which the areas of the Qinghai Lake
and Ulan Ul Lake have decreased most sharply by 60.60 km2 and 59.80 km2 respectively; the areas of the Nam Co, Siling Co and Bangong Co have increased more or less, of which the area of the Siling
Co has increased most sharply by 140.42 km2. The analysis on the changes in areas of major lakes has provided new materials for the study of the lake evolution, climatic
change and environmental variation on the Qinghai-Tibet Plateau.
__________
Translated from Geological Bulletin of China, 2007, 26(12): 1633–1645 [译自: 地质通报] 相似文献
12.
冰湖是研究气候变化的重要指标之一,了解冰湖分布和变化的特征,对认识冰川与气候之间关系和冰湖溃决灾害评估有着重要意义。运用遥感资料监测念青唐古拉山西段近40a来的冰湖分布及其变化,并结合DEM研究冰湖垂直分布的变化,探讨影响冰湖分布和变化的可能因素。研究结果表明:(1)研究区冰湖数量和面积近年来都呈迅速增加趋势,冰湖增加150个,冰湖面积增加4.384km2。气温升高、冰川融水增加是冰湖增多和面积增大的主要原因;(2)冰湖垂直分布变化明显,新增冰湖个数峰值位于海拔5 500~5 700m,占新增冰湖总数的61%;新增冰湖面积峰值在海拔5 400~5 700m,占新增湖总面积的44%;冰湖面积在大部分海拔高度上均呈扩张态势;(3)海拔高于5 400m的区域,1991-2009年新增的冰湖数量远多于1972-1991年。冰湖在高海拔区分布的变化对念青唐古拉山区冰川消融以及气候垂直变化具有一定的指示作用。 相似文献
13.
玛珥湖与过去全球变化研究 总被引:9,自引:0,他引:9
古气候变化突变事件和气候周期的发现将过去全球变化研究推进到了高分辨率的新阶段。玛珥湖在形成和保存高分辨率气候环境记录方面具有独特的优势,玛珥湖研究所取得的重要成果也显示了在过去全球变化研究方面的巨大潜力。简要回顾了玛珥湖的研究历史,从纹层、年代学、多学科多指标综合研究等方面概括了国际玛珥湖沉积与环境研究的若干进展,并介绍了我国在玛珥湖研究方面的发展情况。 相似文献
14.
Mianping Zheng 《Environmental Earth Sciences》2011,64(6):1537-1546
The Chinese salt lake mega-region is controlled by an arid and semi-arid climate, and modern salt lakes are mainly distributed
within areas with mean annual precipitation <500 mm. According to their geomorphological features, structural conditions,
and material composition, salt lakes in China can be broadly divided into four regions. The degrees of exploitation and utilization
of these salt lakes differ because these four regions have experienced different climatic changes and structural activities
and have had their own characteristics of salt lake evolution since the beginning of the Quaternary. The salt lakes in these
regions have different scales, economic value, and technical conditions for traffic. Among others, Jarantai (Jartai) Salt
Lake and Yuncheng Salt Lake are better in terms of comprehensive utilization and environmental protection, and the potash
salt lakes represented by Qarhan are most important in terms of exploitation. At present, there exist many environmental problems
in the salt lake regions of China, especially in remote, small and medium-sized basins, where abusive or wasteful mining,
low recovery, and mining of a single saline mineral have caused impoverishment and large quantities of byproducts. Furthermore,
climatic environmental factors can also cause significant changes of salt lake environment. Since 1987, against the background
of global warming, the climate in the northwest salt lake region has turned warm and wet, and lakes have exhibited a tendency
for expansion and rise, whereas in the east of the region, the climate has remained in a warm dry stage, lake levels have
dropped, and salt lakes have become desertified. With the implementation of the strategy of building an environmentally friendly
society in China, increasing attention is being paid to eco-environmental protection. It is suggested that experience and
advanced techniques in terms of comprehensive utilization, overall development, and environmental protection of salt lakes
at home and abroad be further developed to strengthen observation and monitoring of environmental changes of salt lakes and
build an environmentally friendly, great salt lake industry. 相似文献
15.
湖泊沉积物中沉积韵律是个普遍现象,但盐类矿物组成的韵律现象比较少见。盐类矿物多出现在干旱的环境中,芒硝是干冷环境下沉积的盐类矿物。本文主要根据芒硝层厚度的变化,结合原生硼砂、粘土、孢粉、碳酸盐等环境指标,讨论了秋里南木湖27.8~4.97 ka BP的气候环境演化并进行了区域对比,为青藏高原是气候变化敏感区的观点提供了盐类矿物学方面的证据。研究认为,27.8~20.5 ka BP湖区气候相对温暖潮湿,20.5~11.4 ka BP气候寒冷,其中20.5~17.5 ka BP气候极端干冷,为末次盛冰期在秋里南木湖的反映,17.5~17.1 ka BP、15.9~15.2 ka BP和14.1~13.4 ka BP气候条件略微好转;11.4~10.1ka BP气候温暖,10.1~7.5 ka BP气候寒冷,其中8.1~7.9 ka BP的冷气候为“8.2 ka BP冷事件”的反映;7.5~4.97 ka BP气候相对温暖,但波动频繁。原生硼砂的存在说明,27.8 ka以来秋里南木湖水温度不高,湖水较浅,水动力条件稳定。 相似文献
16.
ZHENG Mianping ZHAO Yuanyi LIU JunyingResearch & Development Center of Saline Lake Epithermal Deposits Chinese Academy of Geological Sciences Beijing 《《地质学报》英文版》2000,74(2)
In this paper the authors classify saline lake sediments into the cold, warm and eurythermal phases, reveal the consistency between the zoning of hydrochemical types of modern saline lake water and climatic zoning and give climatic parameters under the conditions of typical cold phase (mirabilite and natron), warm phase (thenar-dite) and slightly warm phase (bloedite) saline lake deposition. 相似文献
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依据1989年至2019年云南大理地区所辖12个气象站点的气候数据和洱海水质监测资料等文献,分析大理地区气候变化特征和洱海富营养化变化趋势,并总结洱海水质综合营养状态指数与降水量、气温的相互关系。结果表明,1989年至2019年期间,大理地区的年平均气温呈波动上升趋势,气候变暖明显,冬季气温升温幅度最大;年降水量总体呈波动下降趋势,秋季降水量减少最为显著。洱海水质的综合营养状态指数及单因子总氮、总磷、高锰酸盐指数等总体呈升高趋势,而水体透明度呈降低趋势;进一步可分成2个阶段,即2003年之前呈快速上升或下降变化趋势;2003年之后呈波动稳定趋势。洱海综合营养状态指数与年平均气温呈正相关,与年降水量呈负相关关系;总氮、水体透明度分别与年平均气温正相关和负相关,与年降水量则呈负相关和正相关;而总磷与冬季平均气温、高锰酸盐指数与夏季或冬季平均气温均呈正相关关系。年内变化上,洱海污染指数、综合营养状态指数在最近的2015—2019年期间呈现6—10月份明显增高,显示非汛期水质明显好于汛期状况。总之,1989—2019年期间,受大理地区气温升高、降水量减少导致入湖水量减少的影响,洱海综合营养状态指数呈升高趋势,湖泊富营养化进程加剧状况没有得到改善,洱海水环境仍然比较脆弱。 相似文献
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鉴于盐湖水体矿化度含量定量反演研究较少,且中、低空间分辨率遥感数据反演的矿化度含量精度偏低,文章以柴达木盆地西部尕斯库勒盐湖为例,基于WorldView-Ⅱ高空间分辨率遥感数据和实测矿化度数据,开展了盐湖湖表水体矿化度含量定量反演技术研究。通过开展盐湖水际线提取、盐湖水体矿化度光谱诊断特征分析、矿化度识别遥感指数构建、矿化度遥感信息分离和线性回归模拟,构建了盐湖矿化度含量定量反演模型。经评价,模型反演精度为96.61%。研究结果表明,基于WorldView-II高分数据定量反演盐湖矿化度含量的方法是有效的,该方法对于快速定量识别盐湖矿化度含量,降低盐湖矿化度调查和分析成本,预测富矿水域具有十分重要的意义。 相似文献
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古盐湖卤水温度对钾盐沉积的控制作用探讨 总被引:2,自引:0,他引:2
古盐湖卤水的温度对钾盐沉积的控制作用的定量研究是钾盐成矿机理分析的重点和难点。本文分析和测试陕北盐盆奥陶系马家沟组、四川盆地三叠系嘉陵江组、云南兰坪-思茅盆地白垩系及老挝沙空那空盆地白垩系等八个含盐系的石盐岩中的流体包裹体,并利用均一温度计算了古盐湖的蒸发速率。若以老挝白垩纪时盐湖的蒸发速率为标准值100,陕北奥陶纪、四川三叠纪、云南白垩纪的蒸发速率标准值分别为54、68和90,而目前在老挝和云南白垩系都找到了一定规模的钾盐矿,因此高温(气温及水温)是盐湖成钾的有利条件,在卤水演化成钾的过程中可以起到重要的"催化"作用。 相似文献