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1.
文章通过纳木错浅钻沉积硅藻研究,结合青藏高原湖泊现代硅藻-电导率转换函数,对过去200年来的湖水盐度(电导率)变化进行了定量重建。纳木错在小冰期冷期为淡水环境;小冰期结束后,湖水盐度开始增加;至20世纪60年代中期以来,盐度增加幅度更加明显。过去100年来湖水盐度的增加与钻孔粒度变化所揭示的入湖径流量的增多,反映了增温背景下湖泊水文的响应特点。温度的上升,一方面引起了流域冰雪融水补给量的增加,但另一方面,湖泊水量平衡明显偏负,说明小冰期结束以来,尤其是最近40年,冰融水的增加并不足以弥补湖泊水量的负平衡。由此提出蒸发量在湖泊水量平衡中起重要作用,温度是影响湖泊水文变化的关键因子。区域湖泊综合对比结果进一步表明,不同湖泊盐度和水文变化趋势一致,反映了封闭湖泊对区域气候变化的共同响应特点。 相似文献
2.
湖泊是全球生态系统的重要组成部分。尽管湖泊初级生产力的生物多样性在湖泊生态系统中发挥着非常重要的作用,但对其如何在千年时间尺度上对气候变化做出响应却知之甚少,而千年时间尺度与预测未来变化最为相关。本文以云南云龙天池湖泊为研究对象,以湖泊重要的初级生产力硅藻为研究手段,分析了末次冰消期期间硅藻生物多样性对千年尺度上气候变化的响应。云龙天池硅藻生物多样性表现为暖期高、冷期低。随着全球温度的快速变化,硅藻生物多样性亦对应的快速响应:在转暖时(Bolling/Allerod暖期)快速增加,在转冷时(Herinrich 1和Younger Dryas)快速降低。这些变化主要与温度变化驱动的湖泊环境条件的变化(比如冰封期长短、边岸带水生植被的变化等)有关。研究结果还表明,在末次冰消期期间,云龙天池湖泊硅藻生物多样性与千年尺度的气候变化同步,而且在长时间尺度上,气候变暖对高山湖泊生物多样性可能是有利的。 相似文献
3.
青藏高原湖泊是气候变化的重要指示器,20世纪90年代中期以来,在暖湿化环境下降水增多和冰川冻土加速融化导致的湖泊扩张是青藏高原最为突出的环境变化特征。值得注意的是,湖泊水位变化的空间分布特征和西风带及印度季风带影响区的降水量变化具有高度的空间一致性。严酷的自然环境导致对青藏高原内陆湖泊的实地观测变得难以企及,而遥感技术的发展正好可以克服以上局限,该技术已经成为青藏高原湖泊变化监测的主要研究手段。本文围绕遥感监测技术与方法,综述了青藏高原湖泊面积、水量、冰物候、水体参数以及水量平衡定量估算等方面的研究进展。部分研究以流域为尺度应用多源遥感与水文模型进行水量平衡定量评估,结果表明青藏高原内陆地区的湖泊水量增加的主要贡献因素是降水增多,而冰川融化、冻土消融及其他因素的贡献程度却相对较小。当前,学术界一般认为:大尺度的降水年代际变化是青藏高原湖泊近期变化的主要原因,而冰川冻土加速消融又进一步加速湖泊扩张或抑制了部分湖泊收缩。过去,关于青藏高原湖泊变化的气候响应机制研究大多停留在对降水、蒸发、温度、风速、冰冻圈融化等气候因素的定性描述上;现在,在湖泊水量平衡方面,越来越多的研究开始在定量化方面取得进展;将来,随着更多遥感数据的开放共享,以及更多水文与气象站点的投入使用,将为青藏高原湖泊的水量平衡定量研究提供更好的数据条件。 相似文献
4.
Trace metal profiles in the varved sediment of an Arctic lake 总被引:1,自引:0,他引:1
P.M. Outridge G.A. Stern J.B. Percival W.L. Lockhart 《Geochimica et cosmochimica acta》2005,69(20):4881-4894
Varved (annually-laminated) sediments offer a rare and physically undisturbed archive of past trace metal deposition and limnological conditions. Here, a high-resolution 1,300 year record of metal accumulation is presented from a varved lake sediment on Devon Island in the Canadian High Arctic. Down-core concentration profiles of Cd, Cu and Zn were positively correlated (P < 0.01) with organic C (Cd, Zn) or with leachable Fe (Cu), while distinct sub-surface peaks of these metals coincided with those of Fe, S and other redox-sensitive elements such as Co, Cr and U. The fluxes of these metals since 1854 were correlated with elements such as Ca, Al and La (P < 0.001) which are predominantly of local geological origin. Furthermore, the Cd, Cu and Zn patterns did not match concurrent records in Greenland Summit ice over the last century, nor global industrial emission histories. These facts suggest that inputs from local geological sources, coupled with some degree of post-depositional mobility or association with organic matter inputs, explain the metals’ sedimentary profiles, which were apparently not affected by long-range atmospheric metal pollution. Mercury concentrations were strongly correlated with total diatom abundance over the last 400 yrs, especially during the 20th Century when a two-fold increase in Hg concentrations and a four order-of-magnitude increase in diatoms occurred in tandem. Since 1854, 81% of the variation in Hg flux was associated with diatom and Ca fluxes. A similar correspondence between Hg and diatoms was found in a second lake nearby, confirming that the relationship was not unique to the main study lake. Recent Hg increases in Arctic and sub-Arctic lakes have been attributed to global anthropogenic Hg emissions. We propose an alternative hypothesis for High Arctic lakes: the recent Hg increases may be partly or entirely the product of elevated rates of Hg scavenging from the water column caused by markedly greater algal productivity, which in turn was driven by accelerating climate warming during the 20th Century. Given the important environmental assessment and policy implications if the alternative hypothesis is true, the possible effects of climate warming on sedimentary Hg fluxes in this region deserve further study. 相似文献
5.
青藏高原热喀斯特湖演化及其对多年冻土的热影响模型计算研究北大核心CSCD 总被引:1,自引:0,他引:1
青藏高原热喀斯特湖分布广泛,近年来在气候变暖背景下快速发展。热喀斯特湖的形成和发展与地下冰含量及气候变化有着密切关系,强烈影响多年冻土的热稳定性。为了更深入理解在气候变暖背景下热喀斯特湖的发展及其对下伏多年冻土的影响,以青藏高原北麓河地区一个典型热喀斯特湖的长期监测数据为资料,发展了耦合大气—湖塘—冻土三个过程要素的一维热传导模型,模拟了四种不同深度热喀斯特湖在气候变暖背景下的发展规律及其对多年冻土的热影响。结果表明:浅湖(<1.0m)在目前稳定气候背景下处于较稳定状态,湖冰能够回冻至湖底,对下伏多年冻土影响较小;较深湖塘(≥1.0m)冬季不能回冻至湖底,湖深不断增加,且底部在50年内将会形成不同深度的融区。随着气候变暖,热喀斯特湖的热效应显著,深度快速增加,较深湖塘的最大湖冰厚度减小,底部多年冻土快速融化形成开放融区。研究将有助于理解气候变化对青藏高原多年冻土区地貌演化及水文过程的影响。 相似文献
6.
利用近20年来的遥感数据研究揭示了青海沱沱河地区湖泊的变化特点。研究表明,研究区在近15年来总体表现为湖泊数量在不断增加,面积在不断扩大。造成湖泊不断扩大的驱动因素是全球气候暖化和区域性气候变化。 相似文献
7.
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
8.
近50a中国寒区与旱区湖泊变化的气候因素分析 总被引:41,自引:8,他引:33
以青藏和蒙新两大湖区代表的我国寒区和旱区湖泊为对象,通过各湖区典型湖泊与气候变化的时间序列分析,揭示了湖泊与气候变化的动态关系;通过区域尺度湖泊面积的阶段性变化过程与区域气候变化的关系,分析了湖泊变化的区域气候影响背景.结果表明:位于我国寒区和旱区的湖泊对气候变化具有高度敏感性,从气候的角度来看,内蒙古的湖泊受降水影响较为明显,新疆湖泊总体上受降水影响显著,但由于冰川的存在气温对湖泊也有一定影响.青藏高原典型湖泊变化的分析表明,降水、气温对不同湖泊有着不同的影响,在区域上湖泊与气候的变化关系表现的更为复杂,在降水增加、气温上升的情况下由于升温引起的湖泊蒸发效应超过降水增加导致的补给影响,湖泊总体趋于萎缩. 相似文献
9.
富营养化会导致浅水湖泊发生稳态转换,生态系统服务严重受损。磷是驱动湖泊发生稳态转换的重要环境因子,探究湖水磷浓度的变化规律是湖泊管理的关键。通过磷动力学模型,从影响湖水磷浓度的主要参数入手,探讨了每种参数变化对磷浓度的具体影响。结合前人研究结果,详细讨论了不同类型气候变化和人类活动对湖泊稳态转换时间、滞后时长、修复速率等的影响。研究认为,气候变化所导致的温度升高、光强减弱、风浪增强等和人类活动所导致的生物扰动、水位波动增强等因素变化虽不会改变湖泊稳态转换突变时间,但会推迟湖泊修复时间,造成突变阈值减小,滞后时间延长,稳态增大。在湖泊保护中要重点考虑主要外力驱动对湖泊稳态转换过程影响的区别,避免有害突变的发生。 相似文献
10.
湖光岩玛珥湖沉积物硅藻硅同位素环境示踪 总被引:2,自引:0,他引:2
硅是硅藻生长所必需的养分,硅藻在生长过程中从水体吸收主要以硅酸(H_4SiO_4)形式存在的溶解硅.硅藻δ~(30)Si_(distom)可反映硅藻吸收硅酸比例的变化,进一步可以反映湖区气候与环境变化.为探索湖泊沉积物硅藻δ~(30)Si_(distom)在指示湖泊古环境方面的潜力,我们测定了湖光岩玛珥湖沉积物硅藻硅同位素变化.研究结果表明,沉积物δ~(30)Si_(distom)变化与生物硅和有机碳含量变化呈显著相似性,可作为一种有效的古环境代用指标.同时,与已有温度记录的对比分析表明,两者具有很好一致性.较高的如δ~(30)Si_(distom)指示了温度较高的气候条件下硅藻对硅酸的利用率较高;当δ~(30)Si_(distom)较低时,对应着在温度较低的气候条件下硅藻对硅酸的利用率较低.目前,热带陆地区域古气候重建的方法中可用的温度代用指标很少,此项研究证明了δ~(30)Si_(distom)是一种很有潜力的古环境代用指标,有望在低纬度地区古温度重建中发挥重要作用,值得进一步深入研究. 相似文献
11.
Assessing the impact of climate change on Mogan and Eymir Lakes’ levels in Central Turkey 总被引:1,自引:1,他引:0
Global warming is likely to have significant effect on the hydrological cycle. Some parts of the world may see significant
reductions in precipitation or major alterations in the timing of wet and dry seasons. Climate change is one of the serious
pressures facing water resources and their management over the next few years and decades. As part of the southern belt of
Mediterranean Europe, Turkey is highly vulnerable to anticipated climate change impacts. The changes in global climate will
seriously affect inland freshwater ecosystems and coastal lakes. Mogan and Eymir Lakes located in Central Turkey are shallow
lakes that may be impacted significantly by climate change. The interaction between the lakes and groundwater system has been
modelled in order to analyse the response of lake levels to climate change over a planning period of 96 years, beginning from
October 2004 and ending in September 2100. The impacts of the emission scenarios of A2 and B1 of the Intergovernmental Panel
on Climate Change (IPCC) on lake levels have been analyzed with the help of the lake-aquifer simulation model. The fluctuations
in lake levels due to climate change scenarios are compared with the results of a scenario generated by the assumption of
the continuation of the average recharge and discharge conditions observed for 1999 and 2004. The results show that very small,
but long-term changes to precipitation and temperature have the potential to cause significant declines in lake levels and
temporary drying of the lakes in the long-term. The impact of climate change on lake levels will depend on how these water
resources are managed in the future. 相似文献
12.
中巴经济走廊是贯通南北丝路的关键枢纽。在全球变暖的背景下, 区域内冰川变化情况复杂, 部分冰川出现前进或跃动现象, 冰湖溃决的风险在不断上升, 进而威胁中巴经济走廊的建设与民生安全。基于1990—2018年Landsat TM/ETM+/OLI遥感影像, 利用目视解译方法提取了中巴经济走廊3期冰湖编目数据, 并分析了28年来该区域内冰湖的总体变化趋势、 空间异质性以及成因。结果表明: 中巴经济走廊目前共发育有2 380个冰湖, 总面积为(131.76±19.08) km2, 集中分布于喀喇昆仑山脉和喜马拉雅山脉; 1990—2018年期间, 冰湖总体面积扩张速度为0.48%·a-1, 但各个山脉不同规模冰湖面积变化差异较大。中巴经济走廊在气温和降水的共同作用下, 区内冰湖面积呈扩张趋势, 同时气温和降水变化率的空间差异使得冰湖面积变化存在空间差异; 冰川的快速退缩增加了区内冰湖溃决的风险。 相似文献
13.
《Quaternary Science Reviews》1999,18(4-5):631-646
In palaeolimnological studies of closed-basin lakes, diatoms provide an excellent source of palaeoclimate data owing to their sensitivity to salinity and lake-level change. One of the best ways of assessing the relationships between diatom species response, salinity and lake-level change is comparison with other proxy indicators, such as stable isotopes. The sensitivity of different lake systems to climate change (changes in the ratio of precipitation to evapotranspiration) depends to a large extent on the character of the basin hydrology. Here, we compare evidence for Late Quaternary palaeohydrological change in two lakes which have contrasting groundwater hydrology, located in close proximity to each other in the Konya Basin, southern central Turkey, and whose sediment core chronologies show considerable overlap. Süleymanhacı gölü has alternated between being hydrologically closed and open during its history, and the diatom record shows clear evidence for changes in palaeoconductivity and lake level which correspond well to inferred changes in evaporative concentration during the Late Pleistocene and part of the Holocene. In contrast, the diatom record of the karstic spring-fed pool, Pinarbaşi, indicates that it remained fresh throughout the Late Pleistocene; it is subject to major aquifer flow and behaves effectively as an open system. In this case the complacency of the diatom record is important in allowing inferences on temperature effects to be drawn from relatively subtle shifts in stable isotope values. 相似文献
14.
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
15.
Holocene history of Lake Soldatskoje (Kola Peninsula, Russia) inferred from sedimentary diatom assemblages 总被引:3,自引:0,他引:3
TUULIKKI GRÖNLUND TOMMI KAUPPILA 《Boreas: An International Journal of Quaternary Research》2002,31(3):273-284
A sediment core from Lake Soldatskoje, a small tundra lake located in the northern coastal area of the Kola Peninsula and surrounded by numerous archaeological dwelling sites, was analysed for diatom species. The core covers the entire Holocene, i.e. 10000 radiocarbon years. The diatom record has similarities with studies made earlier from tundra lakes of northern Russia and from Arctic lakes in general. The genus Fragilaria was dominant and many other small, benthic, nordic, cold-water diatom species typical of Arctic lakes were common, including Achnanthes minutissima Kützing, A. pusilla (Grunow) De Toni, Cyclotella tripartita Håkansson and Navicula absoluta Hustedt. Multivariable ordinations were used to characterize the changes in the diatom flora. Diatom-based pH and total phosphorus inferences indicate that the lake has become progressively more acidic and poorer in nutrients. Disturbances in the diatom stratigraphy of Lake Soldatskoje around 4000–5500 14 C yr BP may be related to human activity. 相似文献
16.
基于白洋淀北部沉积岩心210Pb和137Cs测年、重金属元素、营养元素、粒度和硅藻优势属种分析,结合水文、气候以及保定市和安新县社会经济统计资料,重建了白洋淀近70年以来的生态环境演化历史,并探讨了影响硅藻优势属种演替的主要驱动因素.结果表明:1960年之前,重金属和营养元素处于较低的水平,硅藻属种以Aulacoseira granulata为主,反映湖泊生态环境处于自然演化阶段;1960年前后,由于受到上游水文调控的影响,白洋淀TP和TN含量开始缓慢增加,富营养指示种Cyclotella meneghiniana明显增加;1960~1990年,TP和TN含量明显升高,反映快速农业化进程中营养物质输入增加,但重金属含量仍保持在较低的水平,硅藻属种以A.granulata和C.meneghiniana为优势组合;1990年以来,流域工农业活动的快速发展导致重金属和营养盐富集,尤其是2000年以后,重金属和营养盐富集进一步加剧,此时硅藻组合也发生了重大转变,由1990年前的A.granulata优势种转变为1990年后的C.meneghiniana优势种,重金属耐受种Nitzschia palea也自2000年以来开始持续增加.冗余分析表明沉积物重金属、TP、TN、温度、风速、入淀水量和水位是影响白洋淀近70年以来3个硅藻优势属种演替的显著因子,其中重金属和营养是硅藻组合演替的主要驱动因素,水文过程、温度和风速是硅藻组合演替的重要诱因. 相似文献
17.
18.
MIKHAIL A. GRACHEV SVETLANA S. VOROBYOVA YELENA V. LIKHOSHWAY EVGENY L. GOLDBERG GALINA A. ZIBOROVA OLGA V. LEVINA OLEG M. KHLYSTOV 《Quaternary Science Reviews》1998,17(12):1101-1106
Two parallel drilling cores, BDP96-1 (200 m), and BDP96-2 (100 m), have been taken from top of the underwater Akademichesky Ridge in Lake Baikal and dated by paleomagnetic techniques. These cores are part of the Baikal Drilling Project (Kuzmin et al., 1997a, b). Diatom analysis of the first 100 m of these sediments reveals that they store a 2.5 Myr high-resolution continuous record of the palaeoclimates of East Siberia. Sediments belonging to warmer climates have a high content of diatom algae frustules, whereas those belonging to global glaciations are diatom-barren. The record of Upper Pleistocene (500 kyr BP) strongly correlates with the oceanic SPECMAP curve and contains distinct 100, 41, 23, and 19 kyr periods, as revealed by Fourier analysis. Diversity of diatom species was small in Pliocene. Abrupt and frequent changes of the climate in Pleistocene resulted in frequent dramatic changes in the diatom communities. The extant dominating endemics, Cyclotella minuta and Aulacoseira baicalensis, became important in Lake Baikal 760 kyr and less than 120 kyr BP, respectively. 相似文献
19.
青藏公路沿线热喀斯特湖分布特征及其热效应研究 总被引:1,自引:1,他引:0
热喀斯特湖的出现和发育是多年冻土变暖的指示器,研究热喀斯特湖发育及其热效应是应对青藏高原气候变化和人类活动诱发冻土灾害的基础工作.基于SPOT-5卫星影像资料,在ArcGIS平台下解译遥感影像,获取了青藏公路沿线楚玛尔河至风火山段热喀斯特湖的数量和分布特征,这些热喀斯特湖以楚玛尔河高平原和北麓河盆地为主要分布区,且80%发育于高含冰量多年冻土区.热喀斯特湖通过竖向和侧向2种传热方式影响多年冻土,竖向传热会造成其下部多年冻土融穿,侧向传热会造成湖岸多年冻土增温,扩大热影响范围.通过北麓河地区一典型热喀斯特湖的数值计算,湖全年都在向湖岸放热.当热喀斯特湖离路基较近,将会对公路产生潜在或者直接的危害,其侧向热侵蚀往往会导致冻土路基温度升高,诱发路基病害. 相似文献
20.
The carbon isotopic composition of organic matter from lake sediments has been extensively used to infer variations in productivity. In this paper, based on the study of the contents and δ13C values of organic matter in different types of lakes, it has been found that δ13C values of organic matter have different responses to lake productivity in different lakes. As to the lakes dominated by aqutic macrophytes such as Lake Caohai, organic matter becomes enriched in 13C with increasing productivity. As to the lakes dominated by aquatic algae such as Lake Chenghai, δ13C values of organic matter decrease with increasing productivity, and the degradation of aquatic algae is the main factor leading to the decrease of δ13C values of organic matter with increasing productivity. Therefore, we should be cautious to use the carbon isotopic composition of organic matter to deduce lake productivity. 相似文献